20066 lines
730 KiB
Plaintext
20066 lines
730 KiB
Plaintext
\input texinfo
|
||
@c -*-texinfo-*-
|
||
|
||
@c %**start of header
|
||
@setfilename guix.info
|
||
@documentencoding UTF-8
|
||
@settitle GNU Guix Reference Manual
|
||
@c %**end of header
|
||
|
||
@include version.texi
|
||
|
||
@c Identifier of the OpenPGP key used to sign tarballs and such.
|
||
@set OPENPGP-SIGNING-KEY-ID 3CE464558A84FDC69DB40CFB090B11993D9AEBB5
|
||
|
||
@copying
|
||
Copyright @copyright{} 2012, 2013, 2014, 2015, 2016, 2017 Ludovic Courtès@*
|
||
Copyright @copyright{} 2013, 2014, 2016 Andreas Enge@*
|
||
Copyright @copyright{} 2013 Nikita Karetnikov@*
|
||
Copyright @copyright{} 2014, 2015, 2016 Alex Kost@*
|
||
Copyright @copyright{} 2015, 2016 Mathieu Lirzin@*
|
||
Copyright @copyright{} 2014 Pierre-Antoine Rault@*
|
||
Copyright @copyright{} 2015 Taylan Ulrich Bayırlı/Kammer@*
|
||
Copyright @copyright{} 2015, 2016, 2017 Leo Famulari@*
|
||
Copyright @copyright{} 2015, 2016, 2017 Ricardo Wurmus@*
|
||
Copyright @copyright{} 2016 Ben Woodcroft@*
|
||
Copyright @copyright{} 2016 Chris Marusich@*
|
||
Copyright @copyright{} 2016, 2017 Efraim Flashner@*
|
||
Copyright @copyright{} 2016 John Darrington@*
|
||
Copyright @copyright{} 2016 ng0@*
|
||
Copyright @copyright{} 2016, 2017 Jan Nieuwenhuizen@*
|
||
Copyright @copyright{} 2016 Julien Lepiller@*
|
||
Copyright @copyright{} 2016 Alex ter Weele@*
|
||
Copyright @copyright{} 2017 Clément Lassieur@*
|
||
Copyright @copyright{} 2017 Mathieu Othacehe@*
|
||
Copyright @copyright{} 2017 Federico Beffa@*
|
||
Copyright @copyright{} 2017 Carlo Zancanaro@*
|
||
Copyright @copyright{} 2017 Thomas Danckaert@*
|
||
Copyright @copyright{} 2017 humanitiesNerd@*
|
||
Copyright @copyright{} 2017 Christopher Allan Webber@*
|
||
Copyright @copyright{} 2017 Marius Bakke@*
|
||
Copyright @copyright{} 2017 Hartmut Goebel@*
|
||
Copyright @copyright{} 2017 Maxim Cournoyer@*
|
||
Copyright @copyright{} 2017 Tobias Geerinckx-Rice
|
||
|
||
Permission is granted to copy, distribute and/or modify this document
|
||
under the terms of the GNU Free Documentation License, Version 1.3 or
|
||
any later version published by the Free Software Foundation; with no
|
||
Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A
|
||
copy of the license is included in the section entitled ``GNU Free
|
||
Documentation License''.
|
||
@end copying
|
||
|
||
@dircategory System administration
|
||
@direntry
|
||
* Guix: (guix). Manage installed software and system configuration.
|
||
* guix package: (guix)Invoking guix package. Installing, removing, and upgrading packages.
|
||
* guix gc: (guix)Invoking guix gc. Reclaiming unused disk space.
|
||
* guix pull: (guix)Invoking guix pull. Update the list of available packages.
|
||
* guix system: (guix)Invoking guix system. Manage the operating system configuration.
|
||
@end direntry
|
||
|
||
@dircategory Software development
|
||
@direntry
|
||
* guix environment: (guix)Invoking guix environment. Building development environments with Guix.
|
||
* guix build: (guix)Invoking guix build. Building packages.
|
||
* guix pack: (guix)Invoking guix pack. Creating binary bundles.
|
||
@end direntry
|
||
|
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@titlepage
|
||
@title GNU Guix Reference Manual
|
||
@subtitle Using the GNU Guix Functional Package Manager
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||
@author The GNU Guix Developers
|
||
|
||
@page
|
||
@vskip 0pt plus 1filll
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||
Edition @value{EDITION} @*
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||
@value{UPDATED} @*
|
||
|
||
@insertcopying
|
||
@end titlepage
|
||
|
||
@contents
|
||
|
||
@c *********************************************************************
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||
@node Top
|
||
@top GNU Guix
|
||
|
||
This document describes GNU Guix version @value{VERSION}, a functional
|
||
package management tool written for the GNU system.
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|
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@menu
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||
* Introduction:: What is Guix about?
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||
* Installation:: Installing Guix.
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||
* Package Management:: Package installation, upgrade, etc.
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||
* Programming Interface:: Using Guix in Scheme.
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||
* Utilities:: Package management commands.
|
||
* GNU Distribution:: Software for your friendly GNU system.
|
||
* Contributing:: Your help needed!
|
||
|
||
* Acknowledgments:: Thanks!
|
||
* GNU Free Documentation License:: The license of this manual.
|
||
* Concept Index:: Concepts.
|
||
* Programming Index:: Data types, functions, and variables.
|
||
|
||
@detailmenu
|
||
--- The Detailed Node Listing ---
|
||
|
||
Installation
|
||
|
||
* Binary Installation:: Getting Guix running in no time!
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||
* Requirements:: Software needed to build and run Guix.
|
||
* Running the Test Suite:: Testing Guix.
|
||
* Setting Up the Daemon:: Preparing the build daemon's environment.
|
||
* Invoking guix-daemon:: Running the build daemon.
|
||
* Application Setup:: Application-specific setup.
|
||
|
||
Setting Up the Daemon
|
||
|
||
* Build Environment Setup:: Preparing the isolated build environment.
|
||
* Daemon Offload Setup:: Offloading builds to remote machines.
|
||
|
||
Package Management
|
||
|
||
* Features:: How Guix will make your life brighter.
|
||
* Invoking guix package:: Package installation, removal, etc.
|
||
* Substitutes:: Downloading pre-built binaries.
|
||
* Packages with Multiple Outputs:: Single source package, multiple outputs.
|
||
* Invoking guix gc:: Running the garbage collector.
|
||
* Invoking guix pull:: Fetching the latest Guix and distribution.
|
||
* Invoking guix pack:: Creating software bundles.
|
||
* Invoking guix archive:: Exporting and importing store files.
|
||
|
||
Programming Interface
|
||
|
||
* Defining Packages:: Defining new packages.
|
||
* Build Systems:: Specifying how packages are built.
|
||
* The Store:: Manipulating the package store.
|
||
* Derivations:: Low-level interface to package derivations.
|
||
* The Store Monad:: Purely functional interface to the store.
|
||
* G-Expressions:: Manipulating build expressions.
|
||
|
||
Defining Packages
|
||
|
||
* package Reference :: The package data type.
|
||
* origin Reference:: The origin data type.
|
||
|
||
Utilities
|
||
|
||
* Invoking guix build:: Building packages from the command line.
|
||
* Invoking guix edit:: Editing package definitions.
|
||
* Invoking guix download:: Downloading a file and printing its hash.
|
||
* Invoking guix hash:: Computing the cryptographic hash of a file.
|
||
* Invoking guix import:: Importing package definitions.
|
||
* Invoking guix refresh:: Updating package definitions.
|
||
* Invoking guix lint:: Finding errors in package definitions.
|
||
* Invoking guix size:: Profiling disk usage.
|
||
* Invoking guix graph:: Visualizing the graph of packages.
|
||
* Invoking guix environment:: Setting up development environments.
|
||
* Invoking guix publish:: Sharing substitutes.
|
||
* Invoking guix challenge:: Challenging substitute servers.
|
||
* Invoking guix copy:: Copying to and from a remote store.
|
||
* Invoking guix container:: Process isolation.
|
||
* Invoking guix weather:: Assessing substitute availability.
|
||
|
||
Invoking @command{guix build}
|
||
|
||
* Common Build Options:: Build options for most commands.
|
||
* Package Transformation Options:: Creating variants of packages.
|
||
* Additional Build Options:: Options specific to 'guix build'.
|
||
* Debugging Build Failures:: Real life packaging experience.
|
||
|
||
GNU Distribution
|
||
|
||
* System Installation:: Installing the whole operating system.
|
||
* System Configuration:: Configuring the operating system.
|
||
* Documentation:: Browsing software user manuals.
|
||
* Installing Debugging Files:: Feeding the debugger.
|
||
* Security Updates:: Deploying security fixes quickly.
|
||
* Package Modules:: Packages from the programmer's viewpoint.
|
||
* Packaging Guidelines:: Growing the distribution.
|
||
* Bootstrapping:: GNU/Linux built from scratch.
|
||
* Porting:: Targeting another platform or kernel.
|
||
|
||
System Installation
|
||
|
||
* Limitations:: What you can expect.
|
||
* Hardware Considerations:: Supported hardware.
|
||
* USB Stick Installation:: Preparing the installation medium.
|
||
* Preparing for Installation:: Networking, partitioning, etc.
|
||
* Proceeding with the Installation:: The real thing.
|
||
* Installing GuixSD in a VM:: GuixSD playground.
|
||
* Building the Installation Image:: How this comes to be.
|
||
|
||
System Configuration
|
||
|
||
* Using the Configuration System:: Customizing your GNU system.
|
||
* operating-system Reference:: Detail of operating-system declarations.
|
||
* File Systems:: Configuring file system mounts.
|
||
* Mapped Devices:: Block device extra processing.
|
||
* User Accounts:: Specifying user accounts.
|
||
* Locales:: Language and cultural convention settings.
|
||
* Services:: Specifying system services.
|
||
* Setuid Programs:: Programs running with root privileges.
|
||
* X.509 Certificates:: Authenticating HTTPS servers.
|
||
* Name Service Switch:: Configuring libc's name service switch.
|
||
* Initial RAM Disk:: Linux-Libre bootstrapping.
|
||
* Bootloader Configuration:: Configuring the boot loader.
|
||
* Invoking guix system:: Instantiating a system configuration.
|
||
* Running GuixSD in a VM:: How to run GuixSD in a virtual machine.
|
||
* Defining Services:: Adding new service definitions.
|
||
|
||
Services
|
||
|
||
* Base Services:: Essential system services.
|
||
* Scheduled Job Execution:: The mcron service.
|
||
* Log Rotation:: The rottlog service.
|
||
* Networking Services:: Network setup, SSH daemon, etc.
|
||
* X Window:: Graphical display.
|
||
* Printing Services:: Local and remote printer support.
|
||
* Desktop Services:: D-Bus and desktop services.
|
||
* Database Services:: SQL databases, key-value stores, etc.
|
||
* Mail Services:: IMAP, POP3, SMTP, and all that.
|
||
* Messaging Services:: Messaging services.
|
||
* Telephony Services:: Telephony services.
|
||
* Monitoring Services:: Monitoring services.
|
||
* Kerberos Services:: Kerberos services.
|
||
* Web Services:: Web servers.
|
||
* DNS Services:: DNS daemons.
|
||
* VPN Services:: VPN daemons.
|
||
* Network File System:: NFS related services.
|
||
* Continuous Integration:: The Cuirass service.
|
||
* Power management Services:: The TLP tool.
|
||
* Audio Services:: The MPD.
|
||
* Virtualization Services:: Virtualization services.
|
||
* Miscellaneous Services:: Other services.
|
||
|
||
Defining Services
|
||
|
||
* Service Composition:: The model for composing services.
|
||
* Service Types and Services:: Types and services.
|
||
* Service Reference:: API reference.
|
||
* Shepherd Services:: A particular type of service.
|
||
|
||
Packaging Guidelines
|
||
|
||
* Software Freedom:: What may go into the distribution.
|
||
* Package Naming:: What's in a name?
|
||
* Version Numbers:: When the name is not enough.
|
||
* Synopses and Descriptions:: Helping users find the right package.
|
||
* Python Modules:: A touch of British comedy.
|
||
* Perl Modules:: Little pearls.
|
||
* Java Packages:: Coffee break.
|
||
* Fonts:: Fond of fonts.
|
||
|
||
Contributing
|
||
|
||
* Building from Git:: The latest and greatest.
|
||
* Running Guix Before It Is Installed:: Hacker tricks.
|
||
* The Perfect Setup:: The right tools.
|
||
* Coding Style:: Hygiene of the contributor.
|
||
* Submitting Patches:: Share your work.
|
||
|
||
Coding Style
|
||
|
||
* Programming Paradigm:: How to compose your elements.
|
||
* Modules:: Where to store your code?
|
||
* Data Types and Pattern Matching:: Implementing data structures.
|
||
* Formatting Code:: Writing conventions.
|
||
|
||
@end detailmenu
|
||
@end menu
|
||
|
||
@c *********************************************************************
|
||
@node Introduction
|
||
@chapter Introduction
|
||
|
||
@cindex purpose
|
||
GNU Guix@footnote{``Guix'' is pronounced like ``geeks'', or ``ɡiːks''
|
||
using the international phonetic alphabet (IPA).} is a package
|
||
management tool for the GNU system. Guix makes it easy for unprivileged
|
||
users to install, upgrade, or remove packages, to roll back to a
|
||
previous package set, to build packages from source, and generally
|
||
assists with the creation and maintenance of software environments.
|
||
|
||
@cindex user interfaces
|
||
Guix provides a command-line package management interface
|
||
(@pxref{Invoking guix package}), a set of command-line utilities
|
||
(@pxref{Utilities}), as well as Scheme programming interfaces
|
||
(@pxref{Programming Interface}).
|
||
@cindex build daemon
|
||
Its @dfn{build daemon} is responsible for building packages on behalf of
|
||
users (@pxref{Setting Up the Daemon}) and for downloading pre-built
|
||
binaries from authorized sources (@pxref{Substitutes}).
|
||
|
||
@cindex extensibility of the distribution
|
||
@cindex customization, of packages
|
||
Guix includes package definitions for many GNU and non-GNU packages, all
|
||
of which @uref{https://www.gnu.org/philosophy/free-sw.html, respect the
|
||
user's computing freedom}. It is @emph{extensible}: users can write
|
||
their own package definitions (@pxref{Defining Packages}) and make them
|
||
available as independent package modules (@pxref{Package Modules}). It
|
||
is also @emph{customizable}: users can @emph{derive} specialized package
|
||
definitions from existing ones, including from the command line
|
||
(@pxref{Package Transformation Options}).
|
||
|
||
@cindex Guix System Distribution
|
||
@cindex GuixSD
|
||
You can install GNU@tie{}Guix on top of an existing GNU/Linux system
|
||
where it complements the available tools without interference
|
||
(@pxref{Installation}), or you can use it as part of the standalone
|
||
@dfn{Guix System Distribution} or GuixSD (@pxref{GNU Distribution}).
|
||
With GNU@tie{}GuixSD, you @emph{declare} all aspects of the operating
|
||
system configuration and Guix takes care of instantiating the
|
||
configuration in a transactional, reproducible, and stateless fashion
|
||
(@pxref{System Configuration}).
|
||
|
||
@cindex functional package management
|
||
Under the hood, Guix implements the @dfn{functional package management}
|
||
discipline pioneered by Nix (@pxref{Acknowledgments}).
|
||
In Guix, the package build and installation process is seen
|
||
as a @emph{function}, in the mathematical sense. That function takes inputs,
|
||
such as build scripts, a compiler, and libraries, and
|
||
returns an installed package. As a pure function, its result depends
|
||
solely on its inputs---for instance, it cannot refer to software or
|
||
scripts that were not explicitly passed as inputs. A build function
|
||
always produces the same result when passed a given set of inputs. It
|
||
cannot alter the environment of the running system in
|
||
any way; for instance, it cannot create, modify, or delete files outside
|
||
of its build and installation directories. This is achieved by running
|
||
build processes in isolated environments (or @dfn{containers}), where only their
|
||
explicit inputs are visible.
|
||
|
||
@cindex store
|
||
The result of package build functions is @dfn{cached} in the file
|
||
system, in a special directory called @dfn{the store} (@pxref{The
|
||
Store}). Each package is installed in a directory of its own in the
|
||
store---by default under @file{/gnu/store}. The directory name contains
|
||
a hash of all the inputs used to build that package; thus, changing an
|
||
input yields a different directory name.
|
||
|
||
This approach is the foundation for the salient features of Guix: support
|
||
for transactional package upgrade and rollback, per-user installation, and
|
||
garbage collection of packages (@pxref{Features}).
|
||
|
||
|
||
@c *********************************************************************
|
||
@node Installation
|
||
@chapter Installation
|
||
|
||
@cindex installing Guix
|
||
GNU Guix is available for download from its website at
|
||
@url{http://www.gnu.org/software/guix/}. This section describes the
|
||
software requirements of Guix, as well as how to install it and get
|
||
ready to use it.
|
||
|
||
Note that this section is concerned with the installation of the package
|
||
manager, which can be done on top of a running GNU/Linux system. If,
|
||
instead, you want to install the complete GNU operating system,
|
||
@pxref{System Installation}.
|
||
|
||
@cindex foreign distro
|
||
When installed on a running GNU/Linux system---thereafter called a
|
||
@dfn{foreign distro}---GNU@tie{}Guix complements the available tools
|
||
without interference. Its data lives exclusively in two directories,
|
||
usually @file{/gnu/store} and @file{/var/guix}; other files on your
|
||
system, such as @file{/etc}, are left untouched.
|
||
|
||
Once installed, Guix can be updated by running @command{guix pull}
|
||
(@pxref{Invoking guix pull}).
|
||
|
||
@menu
|
||
* Binary Installation:: Getting Guix running in no time!
|
||
* Requirements:: Software needed to build and run Guix.
|
||
* Running the Test Suite:: Testing Guix.
|
||
* Setting Up the Daemon:: Preparing the build daemon's environment.
|
||
* Invoking guix-daemon:: Running the build daemon.
|
||
* Application Setup:: Application-specific setup.
|
||
@end menu
|
||
|
||
@node Binary Installation
|
||
@section Binary Installation
|
||
|
||
@cindex installing Guix from binaries
|
||
This section describes how to install Guix on an arbitrary system from a
|
||
self-contained tarball providing binaries for Guix and for all its
|
||
dependencies. This is often quicker than installing from source, which
|
||
is described in the next sections. The only requirement is to have
|
||
GNU@tie{}tar and Xz.
|
||
|
||
Installing goes along these lines:
|
||
|
||
@enumerate
|
||
@item
|
||
@cindex downloading Guix binary
|
||
Download the binary tarball from
|
||
@indicateurl{ftp://alpha.gnu.org/gnu/guix/guix-binary-@value{VERSION}.@var{system}.tar.xz},
|
||
where @var{system} is @code{x86_64-linux} for an @code{x86_64} machine
|
||
already running the kernel Linux, and so on.
|
||
|
||
@c The following is somewhat duplicated in ``System Installation''.
|
||
Make sure to download the associated @file{.sig} file and to verify the
|
||
authenticity of the tarball against it, along these lines:
|
||
|
||
@example
|
||
$ wget ftp://alpha.gnu.org/gnu/guix/guix-binary-@value{VERSION}.@var{system}.tar.xz.sig
|
||
$ gpg --verify guix-binary-@value{VERSION}.@var{system}.tar.xz.sig
|
||
@end example
|
||
|
||
If that command fails because you do not have the required public key,
|
||
then run this command to import it:
|
||
|
||
@example
|
||
$ gpg --keyserver pgp.mit.edu --recv-keys @value{OPENPGP-SIGNING-KEY-ID}
|
||
@end example
|
||
|
||
@noindent
|
||
and rerun the @code{gpg --verify} command.
|
||
@c end authentication part
|
||
|
||
@item
|
||
As @code{root}, run:
|
||
|
||
@example
|
||
# cd /tmp
|
||
# tar --warning=no-timestamp -xf \
|
||
guix-binary-@value{VERSION}.@var{system}.tar.xz
|
||
# mv var/guix /var/ && mv gnu /
|
||
@end example
|
||
|
||
This creates @file{/gnu/store} (@pxref{The Store}) and @file{/var/guix}.
|
||
The latter contains a ready-to-use profile for @code{root} (see next
|
||
step.)
|
||
|
||
Do @emph{not} unpack the tarball on a working Guix system since that
|
||
would overwrite its own essential files.
|
||
|
||
The @code{--warning=no-timestamp} option makes sure GNU@tie{}tar does
|
||
not emit warnings about ``implausibly old time stamps'' (such
|
||
warnings were triggered by GNU@tie{}tar 1.26 and older; recent
|
||
versions are fine.)
|
||
They stem from the fact that all the
|
||
files in the archive have their modification time set to zero (which
|
||
means January 1st, 1970.) This is done on purpose to make sure the
|
||
archive content is independent of its creation time, thus making it
|
||
reproducible.
|
||
|
||
@item
|
||
Make @code{root}'s profile available under @file{~/.guix-profile}:
|
||
|
||
@example
|
||
# ln -sf /var/guix/profiles/per-user/root/guix-profile \
|
||
~root/.guix-profile
|
||
@end example
|
||
|
||
Source @file{etc/profile} to augment @code{PATH} and other relevant
|
||
environment variables:
|
||
|
||
@example
|
||
# GUIX_PROFILE=$HOME/.guix-profile ; \
|
||
source $GUIX_PROFILE/etc/profile
|
||
@end example
|
||
|
||
@item
|
||
Create the group and user accounts for build users as explained below
|
||
(@pxref{Build Environment Setup}).
|
||
|
||
@item
|
||
Run the daemon, and set it to automatically start on boot.
|
||
|
||
If your host distro uses the systemd init system, this can be achieved
|
||
with these commands:
|
||
|
||
@c Versions of systemd that supported symlinked service files are not
|
||
@c yet widely deployed, so we should suggest that users copy the service
|
||
@c files into place.
|
||
@c
|
||
@c See this thread for more information:
|
||
@c http://lists.gnu.org/archive/html/guix-devel/2017-01/msg01199.html
|
||
|
||
@example
|
||
# cp ~root/.guix-profile/lib/systemd/system/guix-daemon.service \
|
||
/etc/systemd/system/
|
||
# systemctl start guix-daemon && systemctl enable guix-daemon
|
||
@end example
|
||
|
||
If your host distro uses the Upstart init system:
|
||
|
||
@example
|
||
# initctl reload-configuration
|
||
# cp ~root/.guix-profile/lib/upstart/system/guix-daemon.conf /etc/init/
|
||
# start guix-daemon
|
||
@end example
|
||
|
||
Otherwise, you can still start the daemon manually with:
|
||
|
||
@example
|
||
# ~root/.guix-profile/bin/guix-daemon --build-users-group=guixbuild
|
||
@end example
|
||
|
||
@item
|
||
Make the @command{guix} command available to other users on the machine,
|
||
for instance with:
|
||
|
||
@example
|
||
# mkdir -p /usr/local/bin
|
||
# cd /usr/local/bin
|
||
# ln -s /var/guix/profiles/per-user/root/guix-profile/bin/guix
|
||
@end example
|
||
|
||
It is also a good idea to make the Info version of this manual available
|
||
there:
|
||
|
||
@example
|
||
# mkdir -p /usr/local/share/info
|
||
# cd /usr/local/share/info
|
||
# for i in /var/guix/profiles/per-user/root/guix-profile/share/info/* ;
|
||
do ln -s $i ; done
|
||
@end example
|
||
|
||
That way, assuming @file{/usr/local/share/info} is in the search path,
|
||
running @command{info guix} will open this manual (@pxref{Other Info
|
||
Directories,,, texinfo, GNU Texinfo}, for more details on changing the
|
||
Info search path.)
|
||
|
||
@item
|
||
@cindex substitutes, authorization thereof
|
||
To use substitutes from @code{hydra.gnu.org} or one of its mirrors
|
||
(@pxref{Substitutes}), authorize them:
|
||
|
||
@example
|
||
# guix archive --authorize < ~root/.guix-profile/share/guix/hydra.gnu.org.pub
|
||
@end example
|
||
|
||
@item
|
||
Each user may need to perform a few additional steps to make their Guix
|
||
environment ready for use, @pxref{Application Setup}.
|
||
@end enumerate
|
||
|
||
Voilà, the installation is complete!
|
||
|
||
You can confirm that Guix is working by installing a sample package into
|
||
the root profile:
|
||
|
||
@example
|
||
# guix package -i hello
|
||
@end example
|
||
|
||
The @code{guix} package must remain available in @code{root}'s profile,
|
||
or it would become subject to garbage collection---in which case you
|
||
would find yourself badly handicapped by the lack of the @command{guix}
|
||
command. In other words, do not remove @code{guix} by running
|
||
@code{guix package -r guix}.
|
||
|
||
The binary installation tarball can be (re)produced and verified simply
|
||
by running the following command in the Guix source tree:
|
||
|
||
@example
|
||
make guix-binary.@var{system}.tar.xz
|
||
@end example
|
||
|
||
@noindent
|
||
... which, in turn, runs:
|
||
|
||
@example
|
||
guix pack -s @var{system} --localstatedir guix
|
||
@end example
|
||
|
||
@xref{Invoking guix pack}, for more info on this handy tool.
|
||
|
||
@node Requirements
|
||
@section Requirements
|
||
|
||
This section lists requirements when building Guix from source. The
|
||
build procedure for Guix is the same as for other GNU software, and is
|
||
not covered here. Please see the files @file{README} and @file{INSTALL}
|
||
in the Guix source tree for additional details.
|
||
|
||
GNU Guix depends on the following packages:
|
||
|
||
@itemize
|
||
@item @url{http://gnu.org/software/guile/, GNU Guile}, version 2.0.9 or
|
||
later, including 2.2.x;
|
||
@item @url{http://gnupg.org/, GNU libgcrypt};
|
||
@item
|
||
@uref{http://gnutls.org/, GnuTLS}, specifically its Guile bindings
|
||
(@pxref{Guile Preparations, how to install the GnuTLS bindings for
|
||
Guile,, gnutls-guile, GnuTLS-Guile});
|
||
@item
|
||
@c FIXME: Specify a version number once a release has been made.
|
||
@uref{https://gitlab.com/guile-git/guile-git, Guile-Git}, from August
|
||
2017 or later;
|
||
@item @url{http://www.gnu.org/software/make/, GNU Make}.
|
||
@end itemize
|
||
|
||
The following dependencies are optional:
|
||
|
||
@itemize
|
||
@item
|
||
Installing
|
||
@url{http://savannah.nongnu.org/projects/guile-json/, Guile-JSON} will
|
||
allow you to use the @command{guix import pypi} command (@pxref{Invoking
|
||
guix import}). It is of
|
||
interest primarily for developers and not for casual users.
|
||
|
||
@item
|
||
@c Note: We need at least 0.10.2 for 'channel-send-eof'.
|
||
Support for build offloading (@pxref{Daemon Offload Setup}) and
|
||
@command{guix copy} (@pxref{Invoking guix copy}) depends on
|
||
@uref{https://github.com/artyom-poptsov/guile-ssh, Guile-SSH},
|
||
version 0.10.2 or later.
|
||
|
||
@item
|
||
When @url{http://zlib.net, zlib} is available, @command{guix publish}
|
||
can compress build byproducts (@pxref{Invoking guix publish}).
|
||
@end itemize
|
||
|
||
Unless @code{--disable-daemon} was passed to @command{configure}, the
|
||
following packages are also needed:
|
||
|
||
@itemize
|
||
@item @url{http://sqlite.org, SQLite 3};
|
||
@item @url{http://www.bzip.org, libbz2};
|
||
@item @url{http://gcc.gnu.org, GCC's g++}, with support for the
|
||
C++11 standard.
|
||
@end itemize
|
||
|
||
@cindex state directory
|
||
When configuring Guix on a system that already has a Guix installation,
|
||
be sure to specify the same state directory as the existing installation
|
||
using the @code{--localstatedir} option of the @command{configure}
|
||
script (@pxref{Directory Variables, @code{localstatedir},, standards,
|
||
GNU Coding Standards}). The @command{configure} script protects against
|
||
unintended misconfiguration of @var{localstatedir} so you do not
|
||
inadvertently corrupt your store (@pxref{The Store}).
|
||
|
||
@cindex Nix, compatibility
|
||
When a working installation of @url{http://nixos.org/nix/, the Nix package
|
||
manager} is available, you
|
||
can instead configure Guix with @code{--disable-daemon}. In that case,
|
||
Nix replaces the three dependencies above.
|
||
|
||
Guix is compatible with Nix, so it is possible to share the same store
|
||
between both. To do so, you must pass @command{configure} not only the
|
||
same @code{--with-store-dir} value, but also the same
|
||
@code{--localstatedir} value. The latter is essential because it
|
||
specifies where the database that stores metadata about the store is
|
||
located, among other things. The default values for Nix are
|
||
@code{--with-store-dir=/nix/store} and @code{--localstatedir=/nix/var}.
|
||
Note that @code{--disable-daemon} is not required if
|
||
your goal is to share the store with Nix.
|
||
|
||
@node Running the Test Suite
|
||
@section Running the Test Suite
|
||
|
||
@cindex test suite
|
||
After a successful @command{configure} and @code{make} run, it is a good
|
||
idea to run the test suite. It can help catch issues with the setup or
|
||
environment, or bugs in Guix itself---and really, reporting test
|
||
failures is a good way to help improve the software. To run the test
|
||
suite, type:
|
||
|
||
@example
|
||
make check
|
||
@end example
|
||
|
||
Test cases can run in parallel: you can use the @code{-j} option of
|
||
GNU@tie{}make to speed things up. The first run may take a few minutes
|
||
on a recent machine; subsequent runs will be faster because the store
|
||
that is created for test purposes will already have various things in
|
||
cache.
|
||
|
||
It is also possible to run a subset of the tests by defining the
|
||
@code{TESTS} makefile variable as in this example:
|
||
|
||
@example
|
||
make check TESTS="tests/store.scm tests/cpio.scm"
|
||
@end example
|
||
|
||
By default, tests results are displayed at a file level. In order to
|
||
see the details of every individual test cases, it is possible to define
|
||
the @code{SCM_LOG_DRIVER_FLAGS} makefile variable as in this example:
|
||
|
||
@example
|
||
make check TESTS="tests/base64.scm" SCM_LOG_DRIVER_FLAGS="--brief=no"
|
||
@end example
|
||
|
||
Upon failure, please email @email{bug-guix@@gnu.org} and attach the
|
||
@file{test-suite.log} file. Please specify the Guix version being used
|
||
as well as version numbers of the dependencies (@pxref{Requirements}) in
|
||
your message.
|
||
|
||
Guix also comes with a whole-system test suite that tests complete
|
||
GuixSD operating system instances. It can only run on systems where
|
||
Guix is already installed, using:
|
||
|
||
@example
|
||
make check-system
|
||
@end example
|
||
|
||
@noindent
|
||
or, again, by defining @code{TESTS} to select a subset of tests to run:
|
||
|
||
@example
|
||
make check-system TESTS="basic mcron"
|
||
@end example
|
||
|
||
These system tests are defined in the @code{(gnu tests @dots{})}
|
||
modules. They work by running the operating systems under test with
|
||
lightweight instrumentation in a virtual machine (VM). They can be
|
||
computationally intensive or rather cheap, depending on whether
|
||
substitutes are available for their dependencies (@pxref{Substitutes}).
|
||
Some of them require a lot of storage space to hold VM images.
|
||
|
||
Again in case of test failures, please send @email{bug-guix@@gnu.org}
|
||
all the details.
|
||
|
||
@node Setting Up the Daemon
|
||
@section Setting Up the Daemon
|
||
|
||
@cindex daemon
|
||
Operations such as building a package or running the garbage collector
|
||
are all performed by a specialized process, the @dfn{build daemon}, on
|
||
behalf of clients. Only the daemon may access the store and its
|
||
associated database. Thus, any operation that manipulates the store
|
||
goes through the daemon. For instance, command-line tools such as
|
||
@command{guix package} and @command{guix build} communicate with the
|
||
daemon (@i{via} remote procedure calls) to instruct it what to do.
|
||
|
||
The following sections explain how to prepare the build daemon's
|
||
environment. See also @ref{Substitutes}, for information on how to allow
|
||
the daemon to download pre-built binaries.
|
||
|
||
@menu
|
||
* Build Environment Setup:: Preparing the isolated build environment.
|
||
* Daemon Offload Setup:: Offloading builds to remote machines.
|
||
@end menu
|
||
|
||
@node Build Environment Setup
|
||
@subsection Build Environment Setup
|
||
|
||
@cindex build environment
|
||
In a standard multi-user setup, Guix and its daemon---the
|
||
@command{guix-daemon} program---are installed by the system
|
||
administrator; @file{/gnu/store} is owned by @code{root} and
|
||
@command{guix-daemon} runs as @code{root}. Unprivileged users may use
|
||
Guix tools to build packages or otherwise access the store, and the
|
||
daemon will do it on their behalf, ensuring that the store is kept in a
|
||
consistent state, and allowing built packages to be shared among users.
|
||
|
||
@cindex build users
|
||
When @command{guix-daemon} runs as @code{root}, you may not want package
|
||
build processes themselves to run as @code{root} too, for obvious
|
||
security reasons. To avoid that, a special pool of @dfn{build users}
|
||
should be created for use by build processes started by the daemon.
|
||
These build users need not have a shell and a home directory: they will
|
||
just be used when the daemon drops @code{root} privileges in build
|
||
processes. Having several such users allows the daemon to launch
|
||
distinct build processes under separate UIDs, which guarantees that they
|
||
do not interfere with each other---an essential feature since builds are
|
||
regarded as pure functions (@pxref{Introduction}).
|
||
|
||
On a GNU/Linux system, a build user pool may be created like this (using
|
||
Bash syntax and the @code{shadow} commands):
|
||
|
||
@c See http://lists.gnu.org/archive/html/bug-guix/2013-01/msg00239.html
|
||
@c for why `-G' is needed.
|
||
@example
|
||
# groupadd --system guixbuild
|
||
# for i in `seq -w 1 10`;
|
||
do
|
||
useradd -g guixbuild -G guixbuild \
|
||
-d /var/empty -s `which nologin` \
|
||
-c "Guix build user $i" --system \
|
||
guixbuilder$i;
|
||
done
|
||
@end example
|
||
|
||
@noindent
|
||
The number of build users determines how many build jobs may run in
|
||
parallel, as specified by the @option{--max-jobs} option
|
||
(@pxref{Invoking guix-daemon, @option{--max-jobs}}). To use
|
||
@command{guix system vm} and related commands, you may need to add the
|
||
build users to the @code{kvm} group so they can access @file{/dev/kvm},
|
||
using @code{-G guixbuild,kvm} instead of @code{-G guixbuild}
|
||
(@pxref{Invoking guix system}).
|
||
|
||
The @code{guix-daemon} program may then be run as @code{root} with the
|
||
following command@footnote{If your machine uses the systemd init system,
|
||
dropping the @file{@var{prefix}/lib/systemd/system/guix-daemon.service}
|
||
file in @file{/etc/systemd/system} will ensure that
|
||
@command{guix-daemon} is automatically started. Similarly, if your
|
||
machine uses the Upstart init system, drop the
|
||
@file{@var{prefix}/lib/upstart/system/guix-daemon.conf}
|
||
file in @file{/etc/init}.}:
|
||
|
||
@example
|
||
# guix-daemon --build-users-group=guixbuild
|
||
@end example
|
||
|
||
@cindex chroot
|
||
@noindent
|
||
This way, the daemon starts build processes in a chroot, under one of
|
||
the @code{guixbuilder} users. On GNU/Linux, by default, the chroot
|
||
environment contains nothing but:
|
||
|
||
@c Keep this list in sync with libstore/build.cc! -----------------------
|
||
@itemize
|
||
@item
|
||
a minimal @code{/dev} directory, created mostly independently from the
|
||
host @code{/dev}@footnote{``Mostly'', because while the set of files
|
||
that appear in the chroot's @code{/dev} is fixed, most of these files
|
||
can only be created if the host has them.};
|
||
|
||
@item
|
||
the @code{/proc} directory; it only shows the processes of the container
|
||
since a separate PID name space is used;
|
||
|
||
@item
|
||
@file{/etc/passwd} with an entry for the current user and an entry for
|
||
user @file{nobody};
|
||
|
||
@item
|
||
@file{/etc/group} with an entry for the user's group;
|
||
|
||
@item
|
||
@file{/etc/hosts} with an entry that maps @code{localhost} to
|
||
@code{127.0.0.1};
|
||
|
||
@item
|
||
a writable @file{/tmp} directory.
|
||
@end itemize
|
||
|
||
You can influence the directory where the daemon stores build trees
|
||
@i{via} the @code{TMPDIR} environment variable. However, the build tree
|
||
within the chroot is always called @file{/tmp/guix-build-@var{name}.drv-0},
|
||
where @var{name} is the derivation name---e.g., @code{coreutils-8.24}.
|
||
This way, the value of @code{TMPDIR} does not leak inside build
|
||
environments, which avoids discrepancies in cases where build processes
|
||
capture the name of their build tree.
|
||
|
||
@vindex http_proxy
|
||
The daemon also honors the @code{http_proxy} environment variable for
|
||
HTTP downloads it performs, be it for fixed-output derivations
|
||
(@pxref{Derivations}) or for substitutes (@pxref{Substitutes}).
|
||
|
||
If you are installing Guix as an unprivileged user, it is still possible
|
||
to run @command{guix-daemon} provided you pass @code{--disable-chroot}.
|
||
However, build processes will not be isolated from one another, and not
|
||
from the rest of the system. Thus, build processes may interfere with
|
||
each other, and may access programs, libraries, and other files
|
||
available on the system---making it much harder to view them as
|
||
@emph{pure} functions.
|
||
|
||
|
||
@node Daemon Offload Setup
|
||
@subsection Using the Offload Facility
|
||
|
||
@cindex offloading
|
||
@cindex build hook
|
||
When desired, the build daemon can @dfn{offload} derivation builds to
|
||
other machines running Guix, using the @code{offload} @dfn{build
|
||
hook}@footnote{This feature is available only when
|
||
@uref{https://github.com/artyom-poptsov/guile-ssh, Guile-SSH} is
|
||
present.}. When that
|
||
feature is enabled, a list of user-specified build machines is read from
|
||
@file{/etc/guix/machines.scm}; every time a build is requested, for
|
||
instance via @code{guix build}, the daemon attempts to offload it to one
|
||
of the machines that satisfy the constraints of the derivation, in
|
||
particular its system type---e.g., @file{x86_64-linux}. Missing
|
||
prerequisites for the build are copied over SSH to the target machine,
|
||
which then proceeds with the build; upon success the output(s) of the
|
||
build are copied back to the initial machine.
|
||
|
||
The @file{/etc/guix/machines.scm} file typically looks like this:
|
||
|
||
@example
|
||
(list (build-machine
|
||
(name "eightysix.example.org")
|
||
(system "x86_64-linux")
|
||
(host-key "ssh-ed25519 AAAAC3Nza@dots{}")
|
||
(user "bob")
|
||
(speed 2.)) ;incredibly fast!
|
||
|
||
(build-machine
|
||
(name "meeps.example.org")
|
||
(system "mips64el-linux")
|
||
(host-key "ssh-rsa AAAAB3Nza@dots{}")
|
||
(user "alice")
|
||
(private-key
|
||
(string-append (getenv "HOME")
|
||
"/.ssh/identity-for-guix"))))
|
||
@end example
|
||
|
||
@noindent
|
||
In the example above we specify a list of two build machines, one for
|
||
the @code{x86_64} architecture and one for the @code{mips64el}
|
||
architecture.
|
||
|
||
In fact, this file is---not surprisingly!---a Scheme file that is
|
||
evaluated when the @code{offload} hook is started. Its return value
|
||
must be a list of @code{build-machine} objects. While this example
|
||
shows a fixed list of build machines, one could imagine, say, using
|
||
DNS-SD to return a list of potential build machines discovered in the
|
||
local network (@pxref{Introduction, Guile-Avahi,, guile-avahi, Using
|
||
Avahi in Guile Scheme Programs}). The @code{build-machine} data type is
|
||
detailed below.
|
||
|
||
@deftp {Data Type} build-machine
|
||
This data type represents build machines to which the daemon may offload
|
||
builds. The important fields are:
|
||
|
||
@table @code
|
||
|
||
@item name
|
||
The host name of the remote machine.
|
||
|
||
@item system
|
||
The system type of the remote machine---e.g., @code{"x86_64-linux"}.
|
||
|
||
@item user
|
||
The user account to use when connecting to the remote machine over SSH.
|
||
Note that the SSH key pair must @emph{not} be passphrase-protected, to
|
||
allow non-interactive logins.
|
||
|
||
@item host-key
|
||
This must be the machine's SSH @dfn{public host key} in OpenSSH format.
|
||
This is used to authenticate the machine when we connect to it. It is a
|
||
long string that looks like this:
|
||
|
||
@example
|
||
ssh-ed25519 AAAAC3NzaC@dots{}mde+UhL hint@@example.org
|
||
@end example
|
||
|
||
If the machine is running the OpenSSH daemon, @command{sshd}, the host
|
||
key can be found in a file such as
|
||
@file{/etc/ssh/ssh_host_ed25519_key.pub}.
|
||
|
||
If the machine is running the SSH daemon of GNU@tie{}lsh,
|
||
@command{lshd}, the host key is in @file{/etc/lsh/host-key.pub} or a
|
||
similar file. It can be converted to the OpenSSH format using
|
||
@command{lsh-export-key} (@pxref{Converting keys,,, lsh, LSH Manual}):
|
||
|
||
@example
|
||
$ lsh-export-key --openssh < /etc/lsh/host-key.pub
|
||
ssh-rsa AAAAB3NzaC1yc2EAAAAEOp8FoQAAAQEAs1eB46LV@dots{}
|
||
@end example
|
||
|
||
@end table
|
||
|
||
A number of optional fields may be specified:
|
||
|
||
@table @asis
|
||
|
||
@item @code{port} (default: @code{22})
|
||
Port number of SSH server on the machine.
|
||
|
||
@item @code{private-key} (default: @file{~root/.ssh/id_rsa})
|
||
The SSH private key file to use when connecting to the machine, in
|
||
OpenSSH format.
|
||
|
||
Note that the default value is the private key @emph{of the root
|
||
account}. Make sure it exists if you use the default.
|
||
|
||
@item @code{compression} (default: @code{"zlib@@openssh.com,zlib"})
|
||
@itemx @code{compression-level} (default: @code{3})
|
||
The SSH-level compression methods and compression level requested.
|
||
|
||
Note that offloading relies on SSH compression to reduce bandwidth usage
|
||
when transferring files to and from build machines.
|
||
|
||
@item @code{daemon-socket} (default: @code{"/var/guix/daemon-socket/socket"})
|
||
File name of the Unix-domain socket @command{guix-daemon} is listening
|
||
to on that machine.
|
||
|
||
@item @code{parallel-builds} (default: @code{1})
|
||
The number of builds that may run in parallel on the machine.
|
||
|
||
@item @code{speed} (default: @code{1.0})
|
||
A ``relative speed factor''. The offload scheduler will tend to prefer
|
||
machines with a higher speed factor.
|
||
|
||
@item @code{features} (default: @code{'()})
|
||
A list of strings denoting specific features supported by the machine.
|
||
An example is @code{"kvm"} for machines that have the KVM Linux modules
|
||
and corresponding hardware support. Derivations can request features by
|
||
name, and they will be scheduled on matching build machines.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
The @code{guile} command must be in the search path on the build
|
||
machines. In addition, the Guix modules must be in
|
||
@code{$GUILE_LOAD_PATH} on the build machine---you can check whether
|
||
this is the case by running:
|
||
|
||
@example
|
||
ssh build-machine guile -c "'(use-modules (guix config))'"
|
||
@end example
|
||
|
||
There is one last thing to do once @file{machines.scm} is in place. As
|
||
explained above, when offloading, files are transferred back and forth
|
||
between the machine stores. For this to work, you first need to
|
||
generate a key pair on each machine to allow the daemon to export signed
|
||
archives of files from the store (@pxref{Invoking guix archive}):
|
||
|
||
@example
|
||
# guix archive --generate-key
|
||
@end example
|
||
|
||
@noindent
|
||
Each build machine must authorize the key of the master machine so that
|
||
it accepts store items it receives from the master:
|
||
|
||
@example
|
||
# guix archive --authorize < master-public-key.txt
|
||
@end example
|
||
|
||
@noindent
|
||
Likewise, the master machine must authorize the key of each build machine.
|
||
|
||
All the fuss with keys is here to express pairwise mutual trust
|
||
relations between the master and the build machines. Concretely, when
|
||
the master receives files from a build machine (and @i{vice versa}), its
|
||
build daemon can make sure they are genuine, have not been tampered
|
||
with, and that they are signed by an authorized key.
|
||
|
||
@cindex offload test
|
||
To test whether your setup is operational, run this command on the
|
||
master node:
|
||
|
||
@example
|
||
# guix offload test
|
||
@end example
|
||
|
||
This will attempt to connect to each of the build machines specified in
|
||
@file{/etc/guix/machines.scm}, make sure Guile and the Guix modules are
|
||
available on each machine, attempt to export to the machine and import
|
||
from it, and report any error in the process.
|
||
|
||
If you want to test a different machine file, just specify it on the
|
||
command line:
|
||
|
||
@example
|
||
# guix offload test machines-qualif.scm
|
||
@end example
|
||
|
||
Last, you can test the subset of the machines whose name matches a
|
||
regular expression like this:
|
||
|
||
@example
|
||
# guix offload test machines.scm '\.gnu\.org$'
|
||
@end example
|
||
|
||
@node Invoking guix-daemon
|
||
@section Invoking @command{guix-daemon}
|
||
|
||
The @command{guix-daemon} program implements all the functionality to
|
||
access the store. This includes launching build processes, running the
|
||
garbage collector, querying the availability of a build result, etc. It
|
||
is normally run as @code{root} like this:
|
||
|
||
@example
|
||
# guix-daemon --build-users-group=guixbuild
|
||
@end example
|
||
|
||
@noindent
|
||
For details on how to set it up, @pxref{Setting Up the Daemon}.
|
||
|
||
@cindex chroot
|
||
@cindex container, build environment
|
||
@cindex build environment
|
||
@cindex reproducible builds
|
||
By default, @command{guix-daemon} launches build processes under
|
||
different UIDs, taken from the build group specified with
|
||
@code{--build-users-group}. In addition, each build process is run in a
|
||
chroot environment that only contains the subset of the store that the
|
||
build process depends on, as specified by its derivation
|
||
(@pxref{Programming Interface, derivation}), plus a set of specific
|
||
system directories. By default, the latter contains @file{/dev} and
|
||
@file{/dev/pts}. Furthermore, on GNU/Linux, the build environment is a
|
||
@dfn{container}: in addition to having its own file system tree, it has
|
||
a separate mount name space, its own PID name space, network name space,
|
||
etc. This helps achieve reproducible builds (@pxref{Features}).
|
||
|
||
When the daemon performs a build on behalf of the user, it creates a
|
||
build directory under @file{/tmp} or under the directory specified by
|
||
its @code{TMPDIR} environment variable; this directory is shared with
|
||
the container for the duration of the build. Be aware that using a
|
||
directory other than @file{/tmp} can affect build results---for example,
|
||
with a longer directory name, a build process that uses Unix-domain
|
||
sockets might hit the name length limitation for @code{sun_path}, which
|
||
it would otherwise not hit.
|
||
|
||
The build directory is automatically deleted upon completion, unless the
|
||
build failed and the client specified @option{--keep-failed}
|
||
(@pxref{Invoking guix build, @option{--keep-failed}}).
|
||
|
||
The following command-line options are supported:
|
||
|
||
@table @code
|
||
@item --build-users-group=@var{group}
|
||
Take users from @var{group} to run build processes (@pxref{Setting Up
|
||
the Daemon, build users}).
|
||
|
||
@item --no-substitutes
|
||
@cindex substitutes
|
||
Do not use substitutes for build products. That is, always build things
|
||
locally instead of allowing downloads of pre-built binaries
|
||
(@pxref{Substitutes}).
|
||
|
||
By default substitutes are used, unless the client---such as the
|
||
@command{guix package} command---is explicitly invoked with
|
||
@code{--no-substitutes}.
|
||
|
||
When the daemon runs with @code{--no-substitutes}, clients can still
|
||
explicitly enable substitution @i{via} the @code{set-build-options}
|
||
remote procedure call (@pxref{The Store}).
|
||
|
||
@item --substitute-urls=@var{urls}
|
||
@anchor{daemon-substitute-urls}
|
||
Consider @var{urls} the default whitespace-separated list of substitute
|
||
source URLs. When this option is omitted,
|
||
@indicateurl{https://mirror.hydra.gnu.org https://hydra.gnu.org} is used
|
||
(@code{mirror.hydra.gnu.org} is a mirror of @code{hydra.gnu.org}).
|
||
|
||
This means that substitutes may be downloaded from @var{urls}, as long
|
||
as they are signed by a trusted signature (@pxref{Substitutes}).
|
||
|
||
@cindex build hook
|
||
@item --no-build-hook
|
||
Do not use the @dfn{build hook}.
|
||
|
||
The build hook is a helper program that the daemon can start and to
|
||
which it submits build requests. This mechanism is used to offload
|
||
builds to other machines (@pxref{Daemon Offload Setup}).
|
||
|
||
@item --cache-failures
|
||
Cache build failures. By default, only successful builds are cached.
|
||
|
||
When this option is used, @command{guix gc --list-failures} can be used
|
||
to query the set of store items marked as failed; @command{guix gc
|
||
--clear-failures} removes store items from the set of cached failures.
|
||
@xref{Invoking guix gc}.
|
||
|
||
@item --cores=@var{n}
|
||
@itemx -c @var{n}
|
||
Use @var{n} CPU cores to build each derivation; @code{0} means as many
|
||
as available.
|
||
|
||
The default value is @code{0}, but it may be overridden by clients, such
|
||
as the @code{--cores} option of @command{guix build} (@pxref{Invoking
|
||
guix build}).
|
||
|
||
The effect is to define the @code{NIX_BUILD_CORES} environment variable
|
||
in the build process, which can then use it to exploit internal
|
||
parallelism---for instance, by running @code{make -j$NIX_BUILD_CORES}.
|
||
|
||
@item --max-jobs=@var{n}
|
||
@itemx -M @var{n}
|
||
Allow at most @var{n} build jobs in parallel. The default value is
|
||
@code{1}. Setting it to @code{0} means that no builds will be performed
|
||
locally; instead, the daemon will offload builds (@pxref{Daemon Offload
|
||
Setup}), or simply fail.
|
||
|
||
@item --max-silent-time=@var{seconds}
|
||
When the build or substitution process remains silent for more than
|
||
@var{seconds}, terminate it and report a build failure.
|
||
|
||
The default value is @code{0}, which disables the timeout.
|
||
|
||
The value specified here can be overridden by clients (@pxref{Common
|
||
Build Options, @code{--max-silent-time}}).
|
||
|
||
@item --timeout=@var{seconds}
|
||
Likewise, when the build or substitution process lasts for more than
|
||
@var{seconds}, terminate it and report a build failure.
|
||
|
||
The default value is @code{0}, which disables the timeout.
|
||
|
||
The value specified here can be overridden by clients (@pxref{Common
|
||
Build Options, @code{--timeout}}).
|
||
|
||
@item --rounds=@var{N}
|
||
Build each derivation @var{n} times in a row, and raise an error if
|
||
consecutive build results are not bit-for-bit identical. Note that this
|
||
setting can be overridden by clients such as @command{guix build}
|
||
(@pxref{Invoking guix build}).
|
||
|
||
When used in conjunction with @option{--keep-failed}, the differing
|
||
output is kept in the store, under @file{/gnu/store/@dots{}-check}.
|
||
This makes it easy to look for differences between the two results.
|
||
|
||
@item --debug
|
||
Produce debugging output.
|
||
|
||
This is useful to debug daemon start-up issues, but then it may be
|
||
overridden by clients, for example the @code{--verbosity} option of
|
||
@command{guix build} (@pxref{Invoking guix build}).
|
||
|
||
@item --chroot-directory=@var{dir}
|
||
Add @var{dir} to the build chroot.
|
||
|
||
Doing this may change the result of build processes---for instance if
|
||
they use optional dependencies found in @var{dir} when it is available,
|
||
and not otherwise. For that reason, it is not recommended to do so.
|
||
Instead, make sure that each derivation declares all the inputs that it
|
||
needs.
|
||
|
||
@item --disable-chroot
|
||
Disable chroot builds.
|
||
|
||
Using this option is not recommended since, again, it would allow build
|
||
processes to gain access to undeclared dependencies. It is necessary,
|
||
though, when @command{guix-daemon} is running under an unprivileged user
|
||
account.
|
||
|
||
@item --disable-log-compression
|
||
Disable compression of the build logs.
|
||
|
||
Unless @code{--lose-logs} is used, all the build logs are kept in the
|
||
@var{localstatedir}. To save space, the daemon automatically compresses
|
||
them with bzip2 by default. This option disables that.
|
||
|
||
@item --disable-deduplication
|
||
@cindex deduplication
|
||
Disable automatic file ``deduplication'' in the store.
|
||
|
||
By default, files added to the store are automatically ``deduplicated'':
|
||
if a newly added file is identical to another one found in the store,
|
||
the daemon makes the new file a hard link to the other file. This can
|
||
noticeably reduce disk usage, at the expense of slightly increased
|
||
input/output load at the end of a build process. This option disables
|
||
this optimization.
|
||
|
||
@item --gc-keep-outputs[=yes|no]
|
||
Tell whether the garbage collector (GC) must keep outputs of live
|
||
derivations.
|
||
|
||
@cindex GC roots
|
||
@cindex garbage collector roots
|
||
When set to ``yes'', the GC will keep the outputs of any live derivation
|
||
available in the store---the @code{.drv} files. The default is ``no'',
|
||
meaning that derivation outputs are kept only if they are GC roots.
|
||
@xref{Invoking guix gc}, for more on GC roots.
|
||
|
||
@item --gc-keep-derivations[=yes|no]
|
||
Tell whether the garbage collector (GC) must keep derivations
|
||
corresponding to live outputs.
|
||
|
||
When set to ``yes'', as is the case by default, the GC keeps
|
||
derivations---i.e., @code{.drv} files---as long as at least one of their
|
||
outputs is live. This allows users to keep track of the origins of
|
||
items in their store. Setting it to ``no'' saves a bit of disk space.
|
||
|
||
Note that when both @code{--gc-keep-derivations} and
|
||
@code{--gc-keep-outputs} are used, the effect is to keep all the build
|
||
prerequisites (the sources, compiler, libraries, and other build-time
|
||
tools) of live objects in the store, regardless of whether these
|
||
prerequisites are live. This is convenient for developers since it
|
||
saves rebuilds or downloads.
|
||
|
||
@item --impersonate-linux-2.6
|
||
On Linux-based systems, impersonate Linux 2.6. This means that the
|
||
kernel's @code{uname} system call will report 2.6 as the release number.
|
||
|
||
This might be helpful to build programs that (usually wrongfully) depend
|
||
on the kernel version number.
|
||
|
||
@item --lose-logs
|
||
Do not keep build logs. By default they are kept under
|
||
@code{@var{localstatedir}/guix/log}.
|
||
|
||
@item --system=@var{system}
|
||
Assume @var{system} as the current system type. By default it is the
|
||
architecture/kernel pair found at configure time, such as
|
||
@code{x86_64-linux}.
|
||
|
||
@item --listen=@var{endpoint}
|
||
Listen for connections on @var{endpoint}. @var{endpoint} is interpreted
|
||
as the file name of a Unix-domain socket if it starts with
|
||
@code{/} (slash sign). Otherwise, @var{endpoint} is interpreted as a
|
||
host name or host name and port to listen to. Here are a few examples:
|
||
|
||
@table @code
|
||
@item --listen=/gnu/var/daemon
|
||
Listen for connections on the @file{/gnu/var/daemon} Unix-domain socket,
|
||
creating it if needed.
|
||
|
||
@item --listen=localhost
|
||
@cindex daemon, remote access
|
||
@cindex remote access to the daemon
|
||
@cindex daemon, cluster setup
|
||
@cindex clusters, daemon setup
|
||
Listen for TCP connections on the network interface corresponding to
|
||
@code{localhost}, on port 44146.
|
||
|
||
@item --listen=128.0.0.42:1234
|
||
Listen for TCP connections on the network interface corresponding to
|
||
@code{128.0.0.42}, on port 1234.
|
||
@end table
|
||
|
||
This option can be repeated multiple times, in which case
|
||
@command{guix-daemon} accepts connections on all the specified
|
||
endpoints. Users can tell client commands what endpoint to connect to
|
||
by setting the @code{GUIX_DAEMON_SOCKET} environment variable
|
||
(@pxref{The Store, @code{GUIX_DAEMON_SOCKET}}).
|
||
|
||
@quotation Note
|
||
The daemon protocol is @emph{unauthenticated and unencrypted}. Using
|
||
@code{--listen=@var{host}} is suitable on local networks, such as
|
||
clusters, where only trusted nodes may connect to the build daemon. In
|
||
other cases where remote access to the daemon is needed, we recommend
|
||
using Unix-domain sockets along with SSH.
|
||
@end quotation
|
||
|
||
When @code{--listen} is omitted, @command{guix-daemon} listens for
|
||
connections on the Unix-domain socket located at
|
||
@file{@var{localstatedir}/daemon-socket/socket}.
|
||
@end table
|
||
|
||
|
||
@node Application Setup
|
||
@section Application Setup
|
||
|
||
@cindex foreign distro
|
||
When using Guix on top of GNU/Linux distribution other than GuixSD---a
|
||
so-called @dfn{foreign distro}---a few additional steps are needed to
|
||
get everything in place. Here are some of them.
|
||
|
||
@subsection Locales
|
||
|
||
@anchor{locales-and-locpath}
|
||
@cindex locales, when not on GuixSD
|
||
@vindex LOCPATH
|
||
@vindex GUIX_LOCPATH
|
||
Packages installed @i{via} Guix will not use the locale data of the
|
||
host system. Instead, you must first install one of the locale packages
|
||
available with Guix and then define the @code{GUIX_LOCPATH} environment
|
||
variable:
|
||
|
||
@example
|
||
$ guix package -i glibc-locales
|
||
$ export GUIX_LOCPATH=$HOME/.guix-profile/lib/locale
|
||
@end example
|
||
|
||
Note that the @code{glibc-locales} package contains data for all the
|
||
locales supported by the GNU@tie{}libc and weighs in at around
|
||
110@tie{}MiB. Alternatively, the @code{glibc-utf8-locales} is smaller but
|
||
limited to a few UTF-8 locales.
|
||
|
||
The @code{GUIX_LOCPATH} variable plays a role similar to @code{LOCPATH}
|
||
(@pxref{Locale Names, @code{LOCPATH},, libc, The GNU C Library Reference
|
||
Manual}). There are two important differences though:
|
||
|
||
@enumerate
|
||
@item
|
||
@code{GUIX_LOCPATH} is honored only by the libc in Guix, and not by the libc
|
||
provided by foreign distros. Thus, using @code{GUIX_LOCPATH} allows you
|
||
to make sure the programs of the foreign distro will not end up loading
|
||
incompatible locale data.
|
||
|
||
@item
|
||
libc suffixes each entry of @code{GUIX_LOCPATH} with @code{/X.Y}, where
|
||
@code{X.Y} is the libc version---e.g., @code{2.22}. This means that,
|
||
should your Guix profile contain a mixture of programs linked against
|
||
different libc version, each libc version will only try to load locale
|
||
data in the right format.
|
||
@end enumerate
|
||
|
||
This is important because the locale data format used by different libc
|
||
versions may be incompatible.
|
||
|
||
@subsection Name Service Switch
|
||
|
||
@cindex name service switch, glibc
|
||
@cindex NSS (name service switch), glibc
|
||
@cindex nscd (name service caching daemon)
|
||
@cindex name service caching daemon (nscd)
|
||
When using Guix on a foreign distro, we @emph{strongly recommend} that
|
||
the system run the GNU C library's @dfn{name service cache daemon},
|
||
@command{nscd}, which should be listening on the
|
||
@file{/var/run/nscd/socket} socket. Failing to do that, applications
|
||
installed with Guix may fail to look up host names or user accounts, or
|
||
may even crash. The next paragraphs explain why.
|
||
|
||
@cindex @file{nsswitch.conf}
|
||
The GNU C library implements a @dfn{name service switch} (NSS), which is
|
||
an extensible mechanism for ``name lookups'' in general: host name
|
||
resolution, user accounts, and more (@pxref{Name Service Switch,,, libc,
|
||
The GNU C Library Reference Manual}).
|
||
|
||
@cindex Network information service (NIS)
|
||
@cindex NIS (Network information service)
|
||
Being extensible, the NSS supports @dfn{plugins}, which provide new name
|
||
lookup implementations: for example, the @code{nss-mdns} plugin allow
|
||
resolution of @code{.local} host names, the @code{nis} plugin allows
|
||
user account lookup using the Network information service (NIS), and so
|
||
on. These extra ``lookup services'' are configured system-wide in
|
||
@file{/etc/nsswitch.conf}, and all the programs running on the system
|
||
honor those settings (@pxref{NSS Configuration File,,, libc, The GNU C
|
||
Reference Manual}).
|
||
|
||
When they perform a name lookup---for instance by calling the
|
||
@code{getaddrinfo} function in C---applications first try to connect to
|
||
the nscd; on success, nscd performs name lookups on their behalf. If
|
||
the nscd is not running, then they perform the name lookup by
|
||
themselves, by loading the name lookup services into their own address
|
||
space and running it. These name lookup services---the
|
||
@file{libnss_*.so} files---are @code{dlopen}'d, but they may come from
|
||
the host system's C library, rather than from the C library the
|
||
application is linked against (the C library coming from Guix).
|
||
|
||
And this is where the problem is: if your application is linked against
|
||
Guix's C library (say, glibc 2.24) and tries to load NSS plugins from
|
||
another C library (say, @code{libnss_mdns.so} for glibc 2.22), it will
|
||
likely crash or have its name lookups fail unexpectedly.
|
||
|
||
Running @command{nscd} on the system, among other advantages, eliminates
|
||
this binary incompatibility problem because those @code{libnss_*.so}
|
||
files are loaded in the @command{nscd} process, not in applications
|
||
themselves.
|
||
|
||
@subsection X11 Fonts
|
||
|
||
@cindex fonts
|
||
The majority of graphical applications use Fontconfig to locate and
|
||
load fonts and perform X11-client-side rendering. The @code{fontconfig}
|
||
package in Guix looks for fonts in @file{$HOME/.guix-profile}
|
||
by default. Thus, to allow graphical applications installed with Guix
|
||
to display fonts, you have to install fonts with Guix as well.
|
||
Essential font packages include @code{gs-fonts}, @code{font-dejavu}, and
|
||
@code{font-gnu-freefont-ttf}.
|
||
|
||
To display text written in Chinese languages, Japanese, or Korean in
|
||
graphical applications, consider installing
|
||
@code{font-adobe-source-han-sans} or @code{font-wqy-zenhei}. The former
|
||
has multiple outputs, one per language family (@pxref{Packages with
|
||
Multiple Outputs}). For instance, the following command installs fonts
|
||
for Chinese languages:
|
||
|
||
@example
|
||
guix package -i font-adobe-source-han-sans:cn
|
||
@end example
|
||
|
||
@cindex @code{xterm}
|
||
Older programs such as @command{xterm} do not use Fontconfig and instead
|
||
rely on server-side font rendering. Such programs require to specify a
|
||
full name of a font using XLFD (X Logical Font Description), like this:
|
||
|
||
@example
|
||
-*-dejavu sans-medium-r-normal-*-*-100-*-*-*-*-*-1
|
||
@end example
|
||
|
||
To be able to use such full names for the TrueType fonts installed in
|
||
your Guix profile, you need to extend the font path of the X server:
|
||
|
||
@example
|
||
xset +fp ~/.guix-profile/share/fonts/truetype
|
||
@end example
|
||
|
||
@cindex @code{xlsfonts}
|
||
After that, you can run @code{xlsfonts} (from @code{xlsfonts} package)
|
||
to make sure your TrueType fonts are listed there.
|
||
|
||
@cindex @code{fc-cache}
|
||
@cindex font cache
|
||
After installing fonts you may have to refresh the font cache to use
|
||
them in applications. The same applies when applications installed via
|
||
Guix do not seem to find fonts. To force rebuilding of the font cache
|
||
run @code{fc-cache -f}. The @code{fc-cache} command is provided by the
|
||
@code{fontconfig} package.
|
||
|
||
@subsection X.509 Certificates
|
||
|
||
@cindex @code{nss-certs}
|
||
The @code{nss-certs} package provides X.509 certificates, which allow
|
||
programs to authenticate Web servers accessed over HTTPS.
|
||
|
||
When using Guix on a foreign distro, you can install this package and
|
||
define the relevant environment variables so that packages know where to
|
||
look for certificates. @xref{X.509 Certificates}, for detailed
|
||
information.
|
||
|
||
@subsection Emacs Packages
|
||
|
||
@cindex @code{emacs}
|
||
When you install Emacs packages with Guix, the elisp files may be placed
|
||
either in @file{$HOME/.guix-profile/share/emacs/site-lisp/} or in
|
||
sub-directories of
|
||
@file{$HOME/.guix-profile/share/emacs/site-lisp/guix.d/}. The latter
|
||
directory exists because potentially there may exist thousands of Emacs
|
||
packages and storing all their files in a single directory may be not
|
||
reliable (because of name conflicts). So we think using a separate
|
||
directory for each package is a good idea. It is very similar to how
|
||
the Emacs package system organizes the file structure (@pxref{Package
|
||
Files,,, emacs, The GNU Emacs Manual}).
|
||
|
||
By default, Emacs (installed with Guix) ``knows'' where these packages
|
||
are placed, so you do not need to perform any configuration. If, for
|
||
some reason, you want to avoid auto-loading Emacs packages installed
|
||
with Guix, you can do so by running Emacs with @code{--no-site-file}
|
||
option (@pxref{Init File,,, emacs, The GNU Emacs Manual}).
|
||
|
||
@subsection The GCC toolchain
|
||
|
||
@cindex GCC
|
||
@cindex ld-wrapper
|
||
|
||
Guix offers individual compiler packages such as @code{gcc} but if you
|
||
are in need of a complete toolchain for compiling and linking source
|
||
code what you really want is the @code{gcc-toolchain} package. This
|
||
package provides a complete GCC toolchain for C/C++ development,
|
||
including GCC itself, the GNU C Library (headers and binaries, plus
|
||
debugging symbols in the @code{debug} output), Binutils, and a linker
|
||
wrapper.
|
||
|
||
@cindex attempt to use impure library, error message
|
||
|
||
The wrapper's purpose is to inspect the @code{-L} and @code{-l} switches
|
||
passed to the linker, add corresponding @code{-rpath} arguments, and
|
||
invoke the actual linker with this new set of arguments. By default,
|
||
the linker wrapper refuses to link to libraries outside the store to
|
||
ensure ``purity''. This can be annoying when using the toolchain to
|
||
link with local libraries. To allow references to libraries outside the
|
||
store you need to define the environment variable
|
||
@code{GUIX_LD_WRAPPER_ALLOW_IMPURITIES}.
|
||
|
||
@c TODO What else?
|
||
|
||
@c *********************************************************************
|
||
@node Package Management
|
||
@chapter Package Management
|
||
|
||
@cindex packages
|
||
The purpose of GNU Guix is to allow users to easily install, upgrade, and
|
||
remove software packages, without having to know about their build
|
||
procedures or dependencies. Guix also goes beyond this obvious set of
|
||
features.
|
||
|
||
This chapter describes the main features of Guix, as well as the
|
||
package management tools it provides. Along with the command-line
|
||
interface described below (@pxref{Invoking guix package, @code{guix
|
||
package}}), you may also use Emacs Interface (@pxref{Top,,,
|
||
emacs-guix, The Emacs-Guix Reference Manual}), after installing
|
||
@code{emacs-guix} package (run @kbd{M-x guix-help} command to start
|
||
with it):
|
||
|
||
@example
|
||
guix package -i emacs-guix
|
||
@end example
|
||
|
||
@menu
|
||
* Features:: How Guix will make your life brighter.
|
||
* Invoking guix package:: Package installation, removal, etc.
|
||
* Substitutes:: Downloading pre-built binaries.
|
||
* Packages with Multiple Outputs:: Single source package, multiple outputs.
|
||
* Invoking guix gc:: Running the garbage collector.
|
||
* Invoking guix pull:: Fetching the latest Guix and distribution.
|
||
* Invoking guix pack:: Creating software bundles.
|
||
* Invoking guix archive:: Exporting and importing store files.
|
||
@end menu
|
||
|
||
@node Features
|
||
@section Features
|
||
|
||
When using Guix, each package ends up in the @dfn{package store}, in its
|
||
own directory---something that resembles
|
||
@file{/gnu/store/xxx-package-1.2}, where @code{xxx} is a base32 string.
|
||
|
||
Instead of referring to these directories, users have their own
|
||
@dfn{profile}, which points to the packages that they actually want to
|
||
use. These profiles are stored within each user's home directory, at
|
||
@code{$HOME/.guix-profile}.
|
||
|
||
For example, @code{alice} installs GCC 4.7.2. As a result,
|
||
@file{/home/alice/.guix-profile/bin/gcc} points to
|
||
@file{/gnu/store/@dots{}-gcc-4.7.2/bin/gcc}. Now, on the same machine,
|
||
@code{bob} had already installed GCC 4.8.0. The profile of @code{bob}
|
||
simply continues to point to
|
||
@file{/gnu/store/@dots{}-gcc-4.8.0/bin/gcc}---i.e., both versions of GCC
|
||
coexist on the same system without any interference.
|
||
|
||
The @command{guix package} command is the central tool to manage
|
||
packages (@pxref{Invoking guix package}). It operates on the per-user
|
||
profiles, and can be used @emph{with normal user privileges}.
|
||
|
||
@cindex transactions
|
||
The command provides the obvious install, remove, and upgrade
|
||
operations. Each invocation is actually a @emph{transaction}: either
|
||
the specified operation succeeds, or nothing happens. Thus, if the
|
||
@command{guix package} process is terminated during the transaction,
|
||
or if a power outage occurs during the transaction, then the user's
|
||
profile remains in its previous state, and remains usable.
|
||
|
||
In addition, any package transaction may be @emph{rolled back}. So, if,
|
||
for example, an upgrade installs a new version of a package that turns
|
||
out to have a serious bug, users may roll back to the previous instance
|
||
of their profile, which was known to work well. Similarly, the global
|
||
system configuration on GuixSD is subject to
|
||
transactional upgrades and roll-back
|
||
(@pxref{Using the Configuration System}).
|
||
|
||
All packages in the package store may be @emph{garbage-collected}.
|
||
Guix can determine which packages are still referenced by user
|
||
profiles, and remove those that are provably no longer referenced
|
||
(@pxref{Invoking guix gc}). Users may also explicitly remove old
|
||
generations of their profile so that the packages they refer to can be
|
||
collected.
|
||
|
||
@cindex reproducibility
|
||
@cindex reproducible builds
|
||
Finally, Guix takes a @dfn{purely functional} approach to package
|
||
management, as described in the introduction (@pxref{Introduction}).
|
||
Each @file{/gnu/store} package directory name contains a hash of all the
|
||
inputs that were used to build that package---compiler, libraries, build
|
||
scripts, etc. This direct correspondence allows users to make sure a
|
||
given package installation matches the current state of their
|
||
distribution. It also helps maximize @dfn{build reproducibility}:
|
||
thanks to the isolated build environments that are used, a given build
|
||
is likely to yield bit-identical files when performed on different
|
||
machines (@pxref{Invoking guix-daemon, container}).
|
||
|
||
@cindex substitutes
|
||
This foundation allows Guix to support @dfn{transparent binary/source
|
||
deployment}. When a pre-built binary for a @file{/gnu/store} item is
|
||
available from an external source---a @dfn{substitute}, Guix just
|
||
downloads it and unpacks it;
|
||
otherwise, it builds the package from source, locally
|
||
(@pxref{Substitutes}). Because build results are usually bit-for-bit
|
||
reproducible, users do not have to trust servers that provide
|
||
substitutes: they can force a local build and @emph{challenge} providers
|
||
(@pxref{Invoking guix challenge}).
|
||
|
||
Control over the build environment is a feature that is also useful for
|
||
developers. The @command{guix environment} command allows developers of
|
||
a package to quickly set up the right development environment for their
|
||
package, without having to manually install the dependencies of the
|
||
package into their profile (@pxref{Invoking guix environment}).
|
||
|
||
@node Invoking guix package
|
||
@section Invoking @command{guix package}
|
||
|
||
@cindex installing packages
|
||
@cindex removing packages
|
||
@cindex package installation
|
||
@cindex package removal
|
||
The @command{guix package} command is the tool that allows users to
|
||
install, upgrade, and remove packages, as well as rolling back to
|
||
previous configurations. It operates only on the user's own profile,
|
||
and works with normal user privileges (@pxref{Features}). Its syntax
|
||
is:
|
||
|
||
@example
|
||
guix package @var{options}
|
||
@end example
|
||
@cindex transactions
|
||
Primarily, @var{options} specifies the operations to be performed during
|
||
the transaction. Upon completion, a new profile is created, but
|
||
previous @dfn{generations} of the profile remain available, should the user
|
||
want to roll back.
|
||
|
||
For example, to remove @code{lua} and install @code{guile} and
|
||
@code{guile-cairo} in a single transaction:
|
||
|
||
@example
|
||
guix package -r lua -i guile guile-cairo
|
||
@end example
|
||
|
||
@command{guix package} also supports a @dfn{declarative approach}
|
||
whereby the user specifies the exact set of packages to be available and
|
||
passes it @i{via} the @option{--manifest} option
|
||
(@pxref{profile-manifest, @option{--manifest}}).
|
||
|
||
@cindex profile
|
||
For each user, a symlink to the user's default profile is automatically
|
||
created in @file{$HOME/.guix-profile}. This symlink always points to the
|
||
current generation of the user's default profile. Thus, users can add
|
||
@file{$HOME/.guix-profile/bin} to their @code{PATH} environment
|
||
variable, and so on.
|
||
@cindex search paths
|
||
If you are not using the Guix System Distribution, consider adding the
|
||
following lines to your @file{~/.bash_profile} (@pxref{Bash Startup
|
||
Files,,, bash, The GNU Bash Reference Manual}) so that newly-spawned
|
||
shells get all the right environment variable definitions:
|
||
|
||
@example
|
||
GUIX_PROFILE="$HOME/.guix-profile" ; \
|
||
source "$HOME/.guix-profile/etc/profile"
|
||
@end example
|
||
|
||
In a multi-user setup, user profiles are stored in a place registered as
|
||
a @dfn{garbage-collector root}, which @file{$HOME/.guix-profile} points
|
||
to (@pxref{Invoking guix gc}). That directory is normally
|
||
@code{@var{localstatedir}/profiles/per-user/@var{user}}, where
|
||
@var{localstatedir} is the value passed to @code{configure} as
|
||
@code{--localstatedir}, and @var{user} is the user name. The
|
||
@file{per-user} directory is created when @command{guix-daemon} is
|
||
started, and the @var{user} sub-directory is created by @command{guix
|
||
package}.
|
||
|
||
The @var{options} can be among the following:
|
||
|
||
@table @code
|
||
|
||
@item --install=@var{package} @dots{}
|
||
@itemx -i @var{package} @dots{}
|
||
Install the specified @var{package}s.
|
||
|
||
Each @var{package} may specify either a simple package name, such as
|
||
@code{guile}, or a package name followed by an at-sign and version number,
|
||
such as @code{guile@@1.8.8} or simply @code{guile@@1.8} (in the latter
|
||
case, the newest version prefixed by @code{1.8} is selected.)
|
||
|
||
If no version number is specified, the
|
||
newest available version will be selected. In addition, @var{package}
|
||
may contain a colon, followed by the name of one of the outputs of the
|
||
package, as in @code{gcc:doc} or @code{binutils@@2.22:lib}
|
||
(@pxref{Packages with Multiple Outputs}). Packages with a corresponding
|
||
name (and optionally version) are searched for among the GNU
|
||
distribution modules (@pxref{Package Modules}).
|
||
|
||
@cindex propagated inputs
|
||
Sometimes packages have @dfn{propagated inputs}: these are dependencies
|
||
that automatically get installed along with the required package
|
||
(@pxref{package-propagated-inputs, @code{propagated-inputs} in
|
||
@code{package} objects}, for information about propagated inputs in
|
||
package definitions).
|
||
|
||
@anchor{package-cmd-propagated-inputs}
|
||
An example is the GNU MPC library: its C header files refer to those of
|
||
the GNU MPFR library, which in turn refer to those of the GMP library.
|
||
Thus, when installing MPC, the MPFR and GMP libraries also get installed
|
||
in the profile; removing MPC also removes MPFR and GMP---unless they had
|
||
also been explicitly installed by the user.
|
||
|
||
Besides, packages sometimes rely on the definition of environment
|
||
variables for their search paths (see explanation of
|
||
@code{--search-paths} below). Any missing or possibly incorrect
|
||
environment variable definitions are reported here.
|
||
|
||
@item --install-from-expression=@var{exp}
|
||
@itemx -e @var{exp}
|
||
Install the package @var{exp} evaluates to.
|
||
|
||
@var{exp} must be a Scheme expression that evaluates to a
|
||
@code{<package>} object. This option is notably useful to disambiguate
|
||
between same-named variants of a package, with expressions such as
|
||
@code{(@@ (gnu packages base) guile-final)}.
|
||
|
||
Note that this option installs the first output of the specified
|
||
package, which may be insufficient when needing a specific output of a
|
||
multiple-output package.
|
||
|
||
@item --install-from-file=@var{file}
|
||
@itemx -f @var{file}
|
||
Install the package that the code within @var{file} evaluates to.
|
||
|
||
As an example, @var{file} might contain a definition like this
|
||
(@pxref{Defining Packages}):
|
||
|
||
@example
|
||
@verbatiminclude package-hello.scm
|
||
@end example
|
||
|
||
Developers may find it useful to include such a @file{guix.scm} file
|
||
in the root of their project source tree that can be used to test
|
||
development snapshots and create reproducible development environments
|
||
(@pxref{Invoking guix environment}).
|
||
|
||
@item --remove=@var{package} @dots{}
|
||
@itemx -r @var{package} @dots{}
|
||
Remove the specified @var{package}s.
|
||
|
||
As for @code{--install}, each @var{package} may specify a version number
|
||
and/or output name in addition to the package name. For instance,
|
||
@code{-r glibc:debug} would remove the @code{debug} output of
|
||
@code{glibc}.
|
||
|
||
@item --upgrade[=@var{regexp} @dots{}]
|
||
@itemx -u [@var{regexp} @dots{}]
|
||
@cindex upgrading packages
|
||
Upgrade all the installed packages. If one or more @var{regexp}s are
|
||
specified, upgrade only installed packages whose name matches a
|
||
@var{regexp}. Also see the @code{--do-not-upgrade} option below.
|
||
|
||
Note that this upgrades package to the latest version of packages found
|
||
in the distribution currently installed. To update your distribution,
|
||
you should regularly run @command{guix pull} (@pxref{Invoking guix
|
||
pull}).
|
||
|
||
@item --do-not-upgrade[=@var{regexp} @dots{}]
|
||
When used together with the @code{--upgrade} option, do @emph{not}
|
||
upgrade any packages whose name matches a @var{regexp}. For example, to
|
||
upgrade all packages in the current profile except those containing the
|
||
substring ``emacs'':
|
||
|
||
@example
|
||
$ guix package --upgrade . --do-not-upgrade emacs
|
||
@end example
|
||
|
||
@item @anchor{profile-manifest}--manifest=@var{file}
|
||
@itemx -m @var{file}
|
||
@cindex profile declaration
|
||
@cindex profile manifest
|
||
Create a new generation of the profile from the manifest object
|
||
returned by the Scheme code in @var{file}.
|
||
|
||
This allows you to @emph{declare} the profile's contents rather than
|
||
constructing it through a sequence of @code{--install} and similar
|
||
commands. The advantage is that @var{file} can be put under version
|
||
control, copied to different machines to reproduce the same profile, and
|
||
so on.
|
||
|
||
@c FIXME: Add reference to (guix profile) documentation when available.
|
||
@var{file} must return a @dfn{manifest} object, which is roughly a list
|
||
of packages:
|
||
|
||
@findex packages->manifest
|
||
@example
|
||
(use-package-modules guile emacs)
|
||
|
||
(packages->manifest
|
||
(list emacs
|
||
guile-2.0
|
||
;; Use a specific package output.
|
||
(list guile-2.0 "debug")))
|
||
@end example
|
||
|
||
@findex specifications->manifest
|
||
In this example we have to know which modules define the @code{emacs}
|
||
and @code{guile-2.0} variables to provide the right
|
||
@code{use-package-modules} line, which can be cumbersome. We can
|
||
instead provide regular package specifications and let
|
||
@code{specifications->manifest} look up the corresponding package
|
||
objects, like this:
|
||
|
||
@example
|
||
(specifications->manifest
|
||
'("emacs" "guile@@2.2" "guile@@2.2:debug"))
|
||
@end example
|
||
|
||
@item --roll-back
|
||
@cindex rolling back
|
||
@cindex undoing transactions
|
||
@cindex transactions, undoing
|
||
Roll back to the previous @dfn{generation} of the profile---i.e., undo
|
||
the last transaction.
|
||
|
||
When combined with options such as @code{--install}, roll back occurs
|
||
before any other actions.
|
||
|
||
When rolling back from the first generation that actually contains
|
||
installed packages, the profile is made to point to the @dfn{zeroth
|
||
generation}, which contains no files apart from its own metadata.
|
||
|
||
After having rolled back, installing, removing, or upgrading packages
|
||
overwrites previous future generations. Thus, the history of the
|
||
generations in a profile is always linear.
|
||
|
||
@item --switch-generation=@var{pattern}
|
||
@itemx -S @var{pattern}
|
||
@cindex generations
|
||
Switch to a particular generation defined by @var{pattern}.
|
||
|
||
@var{pattern} may be either a generation number or a number prefixed
|
||
with ``+'' or ``-''. The latter means: move forward/backward by a
|
||
specified number of generations. For example, if you want to return to
|
||
the latest generation after @code{--roll-back}, use
|
||
@code{--switch-generation=+1}.
|
||
|
||
The difference between @code{--roll-back} and
|
||
@code{--switch-generation=-1} is that @code{--switch-generation} will
|
||
not make a zeroth generation, so if a specified generation does not
|
||
exist, the current generation will not be changed.
|
||
|
||
@item --search-paths[=@var{kind}]
|
||
@cindex search paths
|
||
Report environment variable definitions, in Bash syntax, that may be
|
||
needed in order to use the set of installed packages. These environment
|
||
variables are used to specify @dfn{search paths} for files used by some
|
||
of the installed packages.
|
||
|
||
For example, GCC needs the @code{CPATH} and @code{LIBRARY_PATH}
|
||
environment variables to be defined so it can look for headers and
|
||
libraries in the user's profile (@pxref{Environment Variables,,, gcc,
|
||
Using the GNU Compiler Collection (GCC)}). If GCC and, say, the C
|
||
library are installed in the profile, then @code{--search-paths} will
|
||
suggest setting these variables to @code{@var{profile}/include} and
|
||
@code{@var{profile}/lib}, respectively.
|
||
|
||
The typical use case is to define these environment variables in the
|
||
shell:
|
||
|
||
@example
|
||
$ eval `guix package --search-paths`
|
||
@end example
|
||
|
||
@var{kind} may be one of @code{exact}, @code{prefix}, or @code{suffix},
|
||
meaning that the returned environment variable definitions will either
|
||
be exact settings, or prefixes or suffixes of the current value of these
|
||
variables. When omitted, @var{kind} defaults to @code{exact}.
|
||
|
||
This option can also be used to compute the @emph{combined} search paths
|
||
of several profiles. Consider this example:
|
||
|
||
@example
|
||
$ guix package -p foo -i guile
|
||
$ guix package -p bar -i guile-json
|
||
$ guix package -p foo -p bar --search-paths
|
||
@end example
|
||
|
||
The last command above reports about the @code{GUILE_LOAD_PATH}
|
||
variable, even though, taken individually, neither @file{foo} nor
|
||
@file{bar} would lead to that recommendation.
|
||
|
||
|
||
@item --profile=@var{profile}
|
||
@itemx -p @var{profile}
|
||
Use @var{profile} instead of the user's default profile.
|
||
|
||
@item --verbose
|
||
Produce verbose output. In particular, emit the build log of the
|
||
environment on the standard error port.
|
||
|
||
@item --bootstrap
|
||
Use the bootstrap Guile to build the profile. This option is only
|
||
useful to distribution developers.
|
||
|
||
@end table
|
||
|
||
In addition to these actions, @command{guix package} supports the
|
||
following options to query the current state of a profile, or the
|
||
availability of packages:
|
||
|
||
@table @option
|
||
|
||
@item --search=@var{regexp}
|
||
@itemx -s @var{regexp}
|
||
@cindex searching for packages
|
||
List the available packages whose name, synopsis, or description matches
|
||
@var{regexp}, sorted by relevance. Print all the metadata of matching packages in
|
||
@code{recutils} format (@pxref{Top, GNU recutils databases,, recutils,
|
||
GNU recutils manual}).
|
||
|
||
This allows specific fields to be extracted using the @command{recsel}
|
||
command, for instance:
|
||
|
||
@example
|
||
$ guix package -s malloc | recsel -p name,version,relevance
|
||
name: jemalloc
|
||
version: 4.5.0
|
||
relevance: 6
|
||
|
||
name: glibc
|
||
version: 2.25
|
||
relevance: 1
|
||
|
||
name: libgc
|
||
version: 7.6.0
|
||
relevance: 1
|
||
@end example
|
||
|
||
Similarly, to show the name of all the packages available under the
|
||
terms of the GNU@tie{}LGPL version 3:
|
||
|
||
@example
|
||
$ guix package -s "" | recsel -p name -e 'license ~ "LGPL 3"'
|
||
name: elfutils
|
||
|
||
name: gmp
|
||
@dots{}
|
||
@end example
|
||
|
||
It is also possible to refine search results using several @code{-s}
|
||
flags. For example, the following command returns a list of board
|
||
games:
|
||
|
||
@example
|
||
$ guix package -s '\<board\>' -s game | recsel -p name
|
||
name: gnubg
|
||
@dots{}
|
||
@end example
|
||
|
||
If we were to omit @code{-s game}, we would also get software packages
|
||
that deal with printed circuit boards; removing the angle brackets
|
||
around @code{board} would further add packages that have to do with
|
||
keyboards.
|
||
|
||
And now for a more elaborate example. The following command searches
|
||
for cryptographic libraries, filters out Haskell, Perl, Python, and Ruby
|
||
libraries, and prints the name and synopsis of the matching packages:
|
||
|
||
@example
|
||
$ guix package -s crypto -s library | \
|
||
recsel -e '! (name ~ "^(ghc|perl|python|ruby)")' -p name,synopsis
|
||
@end example
|
||
|
||
@noindent
|
||
@xref{Selection Expressions,,, recutils, GNU recutils manual}, for more
|
||
information on @dfn{selection expressions} for @code{recsel -e}.
|
||
|
||
@item --show=@var{package}
|
||
Show details about @var{package}, taken from the list of available packages, in
|
||
@code{recutils} format (@pxref{Top, GNU recutils databases,, recutils, GNU
|
||
recutils manual}).
|
||
|
||
@example
|
||
$ guix package --show=python | recsel -p name,version
|
||
name: python
|
||
version: 2.7.6
|
||
|
||
name: python
|
||
version: 3.3.5
|
||
@end example
|
||
|
||
You may also specify the full name of a package to only get details about a
|
||
specific version of it:
|
||
@example
|
||
$ guix package --show=python@@3.4 | recsel -p name,version
|
||
name: python
|
||
version: 3.4.3
|
||
@end example
|
||
|
||
|
||
|
||
@item --list-installed[=@var{regexp}]
|
||
@itemx -I [@var{regexp}]
|
||
List the currently installed packages in the specified profile, with the
|
||
most recently installed packages shown last. When @var{regexp} is
|
||
specified, list only installed packages whose name matches @var{regexp}.
|
||
|
||
For each installed package, print the following items, separated by
|
||
tabs: the package name, its version string, the part of the package that
|
||
is installed (for instance, @code{out} for the default output,
|
||
@code{include} for its headers, etc.), and the path of this package in
|
||
the store.
|
||
|
||
@item --list-available[=@var{regexp}]
|
||
@itemx -A [@var{regexp}]
|
||
List packages currently available in the distribution for this system
|
||
(@pxref{GNU Distribution}). When @var{regexp} is specified, list only
|
||
installed packages whose name matches @var{regexp}.
|
||
|
||
For each package, print the following items separated by tabs: its name,
|
||
its version string, the parts of the package (@pxref{Packages with
|
||
Multiple Outputs}), and the source location of its definition.
|
||
|
||
@item --list-generations[=@var{pattern}]
|
||
@itemx -l [@var{pattern}]
|
||
@cindex generations
|
||
Return a list of generations along with their creation dates; for each
|
||
generation, show the installed packages, with the most recently
|
||
installed packages shown last. Note that the zeroth generation is never
|
||
shown.
|
||
|
||
For each installed package, print the following items, separated by
|
||
tabs: the name of a package, its version string, the part of the package
|
||
that is installed (@pxref{Packages with Multiple Outputs}), and the
|
||
location of this package in the store.
|
||
|
||
When @var{pattern} is used, the command returns only matching
|
||
generations. Valid patterns include:
|
||
|
||
@itemize
|
||
@item @emph{Integers and comma-separated integers}. Both patterns denote
|
||
generation numbers. For instance, @code{--list-generations=1} returns
|
||
the first one.
|
||
|
||
And @code{--list-generations=1,8,2} outputs three generations in the
|
||
specified order. Neither spaces nor trailing commas are allowed.
|
||
|
||
@item @emph{Ranges}. @code{--list-generations=2..9} prints the
|
||
specified generations and everything in between. Note that the start of
|
||
a range must be smaller than its end.
|
||
|
||
It is also possible to omit the endpoint. For example,
|
||
@code{--list-generations=2..}, returns all generations starting from the
|
||
second one.
|
||
|
||
@item @emph{Durations}. You can also get the last @emph{N}@tie{}days, weeks,
|
||
or months by passing an integer along with the first letter of the
|
||
duration. For example, @code{--list-generations=20d} lists generations
|
||
that are up to 20 days old.
|
||
@end itemize
|
||
|
||
@item --delete-generations[=@var{pattern}]
|
||
@itemx -d [@var{pattern}]
|
||
When @var{pattern} is omitted, delete all generations except the current
|
||
one.
|
||
|
||
This command accepts the same patterns as @option{--list-generations}.
|
||
When @var{pattern} is specified, delete the matching generations. When
|
||
@var{pattern} specifies a duration, generations @emph{older} than the
|
||
specified duration match. For instance, @code{--delete-generations=1m}
|
||
deletes generations that are more than one month old.
|
||
|
||
If the current generation matches, it is @emph{not} deleted. Also, the
|
||
zeroth generation is never deleted.
|
||
|
||
Note that deleting generations prevents rolling back to them.
|
||
Consequently, this command must be used with care.
|
||
|
||
@end table
|
||
|
||
Finally, since @command{guix package} may actually start build
|
||
processes, it supports all the common build options (@pxref{Common Build
|
||
Options}). It also supports package transformation options, such as
|
||
@option{--with-source} (@pxref{Package Transformation Options}).
|
||
However, note that package transformations are lost when upgrading; to
|
||
preserve transformations across upgrades, you should define your own
|
||
package variant in a Guile module and add it to @code{GUIX_PACKAGE_PATH}
|
||
(@pxref{Defining Packages}).
|
||
|
||
|
||
@node Substitutes
|
||
@section Substitutes
|
||
|
||
@cindex substitutes
|
||
@cindex pre-built binaries
|
||
Guix supports transparent source/binary deployment, which means that it
|
||
can either build things locally, or download pre-built items from a
|
||
server. We call these pre-built items @dfn{substitutes}---they are
|
||
substitutes for local build results. In many cases, downloading a
|
||
substitute is much faster than building things locally.
|
||
|
||
Substitutes can be anything resulting from a derivation build
|
||
(@pxref{Derivations}). Of course, in the common case, they are
|
||
pre-built package binaries, but source tarballs, for instance, which
|
||
also result from derivation builds, can be available as substitutes.
|
||
|
||
The @code{hydra.gnu.org} server is a front-end to a build farm that
|
||
builds packages from the GNU distribution continuously for some
|
||
architectures, and makes them available as substitutes. This is the
|
||
default source of substitutes; it can be overridden by passing the
|
||
@option{--substitute-urls} option either to @command{guix-daemon}
|
||
(@pxref{daemon-substitute-urls,, @code{guix-daemon --substitute-urls}})
|
||
or to client tools such as @command{guix package}
|
||
(@pxref{client-substitute-urls,, client @option{--substitute-urls}
|
||
option}).
|
||
|
||
Substitute URLs can be either HTTP or HTTPS.
|
||
HTTPS is recommended because communications are encrypted; conversely,
|
||
using HTTP makes all communications visible to an eavesdropper, who
|
||
could use the information gathered to determine, for instance, whether
|
||
your system has unpatched security vulnerabilities.
|
||
|
||
@cindex security
|
||
@cindex digital signatures
|
||
@cindex substitutes, authorization thereof
|
||
@cindex access control list (ACL), for substitutes
|
||
@cindex ACL (access control list), for substitutes
|
||
To allow Guix to download substitutes from @code{hydra.gnu.org} or a
|
||
mirror thereof, you
|
||
must add its public key to the access control list (ACL) of archive
|
||
imports, using the @command{guix archive} command (@pxref{Invoking guix
|
||
archive}). Doing so implies that you trust @code{hydra.gnu.org} to not
|
||
be compromised and to serve genuine substitutes.
|
||
|
||
This public key is installed along with Guix, in
|
||
@code{@var{prefix}/share/guix/hydra.gnu.org.pub}, where @var{prefix} is
|
||
the installation prefix of Guix. If you installed Guix from source,
|
||
make sure you checked the GPG signature of
|
||
@file{guix-@value{VERSION}.tar.gz}, which contains this public key file.
|
||
Then, you can run something like this:
|
||
|
||
@example
|
||
# guix archive --authorize < hydra.gnu.org.pub
|
||
@end example
|
||
|
||
Once this is in place, the output of a command like @code{guix build}
|
||
should change from something like:
|
||
|
||
@example
|
||
$ guix build emacs --dry-run
|
||
The following derivations would be built:
|
||
/gnu/store/yr7bnx8xwcayd6j95r2clmkdl1qh688w-emacs-24.3.drv
|
||
/gnu/store/x8qsh1hlhgjx6cwsjyvybnfv2i37z23w-dbus-1.6.4.tar.gz.drv
|
||
/gnu/store/1ixwp12fl950d15h2cj11c73733jay0z-alsa-lib-1.0.27.1.tar.bz2.drv
|
||
/gnu/store/nlma1pw0p603fpfiqy7kn4zm105r5dmw-util-linux-2.21.drv
|
||
@dots{}
|
||
@end example
|
||
|
||
@noindent
|
||
to something like:
|
||
|
||
@example
|
||
$ guix build emacs --dry-run
|
||
The following files would be downloaded:
|
||
/gnu/store/pk3n22lbq6ydamyymqkkz7i69wiwjiwi-emacs-24.3
|
||
/gnu/store/2ygn4ncnhrpr61rssa6z0d9x22si0va3-libjpeg-8d
|
||
/gnu/store/71yz6lgx4dazma9dwn2mcjxaah9w77jq-cairo-1.12.16
|
||
/gnu/store/7zdhgp0n1518lvfn8mb96sxqfmvqrl7v-libxrender-0.9.7
|
||
@dots{}
|
||
@end example
|
||
|
||
@noindent
|
||
This indicates that substitutes from @code{hydra.gnu.org} are usable and
|
||
will be downloaded, when possible, for future builds.
|
||
|
||
Guix detects and raises an error when attempting to use a substitute
|
||
that has been tampered with. Likewise, it ignores substitutes that are
|
||
not signed, or that are not signed by one of the keys listed in the ACL.
|
||
|
||
There is one exception though: if an unauthorized server provides
|
||
substitutes that are @emph{bit-for-bit identical} to those provided by
|
||
an authorized server, then the unauthorized server becomes eligible for
|
||
downloads. For example, assume we have chosen two substitute servers
|
||
with this option:
|
||
|
||
@example
|
||
--substitute-urls="https://a.example.org https://b.example.org"
|
||
@end example
|
||
|
||
@noindent
|
||
@cindex reproducible builds
|
||
If the ACL contains only the key for @code{b.example.org}, and if
|
||
@code{a.example.org} happens to serve the @emph{exact same} substitutes,
|
||
then Guix will download substitutes from @code{a.example.org} because it
|
||
comes first in the list and can be considered a mirror of
|
||
@code{b.example.org}. In practice, independent build machines usually
|
||
produce the same binaries, thanks to bit-reproducible builds (see
|
||
below).
|
||
|
||
@vindex http_proxy
|
||
Substitutes are downloaded over HTTP or HTTPS.
|
||
The @code{http_proxy} environment
|
||
variable can be set in the environment of @command{guix-daemon} and is
|
||
honored for downloads of substitutes. Note that the value of
|
||
@code{http_proxy} in the environment where @command{guix build},
|
||
@command{guix package}, and other client commands are run has
|
||
@emph{absolutely no effect}.
|
||
|
||
When using HTTPS, the server's X.509 certificate is @emph{not} validated
|
||
(in other words, the server is not authenticated), contrary to what
|
||
HTTPS clients such as Web browsers usually do. This is because Guix
|
||
authenticates substitute information itself, as explained above, which
|
||
is what we care about (whereas X.509 certificates are about
|
||
authenticating bindings between domain names and public keys.)
|
||
|
||
You can get statistics on the substitutes provided by a server using the
|
||
@command{guix weather} command (@pxref{Invoking guix weather}).
|
||
|
||
The substitute mechanism can be disabled globally by running
|
||
@code{guix-daemon} with @code{--no-substitutes} (@pxref{Invoking
|
||
guix-daemon}). It can also be disabled temporarily by passing the
|
||
@code{--no-substitutes} option to @command{guix package}, @command{guix
|
||
build}, and other command-line tools.
|
||
|
||
|
||
@unnumberedsubsec On Trusting Binaries
|
||
|
||
Today, each individual's control over their own computing is at the
|
||
mercy of institutions, corporations, and groups with enough power and
|
||
determination to subvert the computing infrastructure and exploit its
|
||
weaknesses. While using @code{hydra.gnu.org} substitutes can be
|
||
convenient, we encourage users to also build on their own, or even run
|
||
their own build farm, such that @code{hydra.gnu.org} is less of an
|
||
interesting target. One way to help is by publishing the software you
|
||
build using @command{guix publish} so that others have one more choice
|
||
of server to download substitutes from (@pxref{Invoking guix publish}).
|
||
|
||
Guix has the foundations to maximize build reproducibility
|
||
(@pxref{Features}). In most cases, independent builds of a given
|
||
package or derivation should yield bit-identical results. Thus, through
|
||
a diverse set of independent package builds, we can strengthen the
|
||
integrity of our systems. The @command{guix challenge} command aims to
|
||
help users assess substitute servers, and to assist developers in
|
||
finding out about non-deterministic package builds (@pxref{Invoking guix
|
||
challenge}). Similarly, the @option{--check} option of @command{guix
|
||
build} allows users to check whether previously-installed substitutes
|
||
are genuine by rebuilding them locally (@pxref{build-check,
|
||
@command{guix build --check}}).
|
||
|
||
In the future, we want Guix to have support to publish and retrieve
|
||
binaries to/from other users, in a peer-to-peer fashion. If you would
|
||
like to discuss this project, join us on @email{guix-devel@@gnu.org}.
|
||
|
||
|
||
@node Packages with Multiple Outputs
|
||
@section Packages with Multiple Outputs
|
||
|
||
@cindex multiple-output packages
|
||
@cindex package outputs
|
||
@cindex outputs
|
||
|
||
Often, packages defined in Guix have a single @dfn{output}---i.e., the
|
||
source package leads to exactly one directory in the store. When running
|
||
@command{guix package -i glibc}, one installs the default output of the
|
||
GNU libc package; the default output is called @code{out}, but its name
|
||
can be omitted as shown in this command. In this particular case, the
|
||
default output of @code{glibc} contains all the C header files, shared
|
||
libraries, static libraries, Info documentation, and other supporting
|
||
files.
|
||
|
||
Sometimes it is more appropriate to separate the various types of files
|
||
produced from a single source package into separate outputs. For
|
||
instance, the GLib C library (used by GTK+ and related packages)
|
||
installs more than 20 MiB of reference documentation as HTML pages.
|
||
To save space for users who do not need it, the documentation goes to a
|
||
separate output, called @code{doc}. To install the main GLib output,
|
||
which contains everything but the documentation, one would run:
|
||
|
||
@example
|
||
guix package -i glib
|
||
@end example
|
||
|
||
@cindex documentation
|
||
The command to install its documentation is:
|
||
|
||
@example
|
||
guix package -i glib:doc
|
||
@end example
|
||
|
||
Some packages install programs with different ``dependency footprints''.
|
||
For instance, the WordNet package installs both command-line tools and
|
||
graphical user interfaces (GUIs). The former depend solely on the C
|
||
library, whereas the latter depend on Tcl/Tk and the underlying X
|
||
libraries. In this case, we leave the command-line tools in the default
|
||
output, whereas the GUIs are in a separate output. This allows users
|
||
who do not need the GUIs to save space. The @command{guix size} command
|
||
can help find out about such situations (@pxref{Invoking guix size}).
|
||
@command{guix graph} can also be helpful (@pxref{Invoking guix graph}).
|
||
|
||
There are several such multiple-output packages in the GNU distribution.
|
||
Other conventional output names include @code{lib} for libraries and
|
||
possibly header files, @code{bin} for stand-alone programs, and
|
||
@code{debug} for debugging information (@pxref{Installing Debugging
|
||
Files}). The outputs of a packages are listed in the third column of
|
||
the output of @command{guix package --list-available} (@pxref{Invoking
|
||
guix package}).
|
||
|
||
|
||
@node Invoking guix gc
|
||
@section Invoking @command{guix gc}
|
||
|
||
@cindex garbage collector
|
||
@cindex disk space
|
||
Packages that are installed, but not used, may be @dfn{garbage-collected}.
|
||
The @command{guix gc} command allows users to explicitly run the garbage
|
||
collector to reclaim space from the @file{/gnu/store} directory. It is
|
||
the @emph{only} way to remove files from @file{/gnu/store}---removing
|
||
files or directories manually may break it beyond repair!
|
||
|
||
@cindex GC roots
|
||
@cindex garbage collector roots
|
||
The garbage collector has a set of known @dfn{roots}: any file under
|
||
@file{/gnu/store} reachable from a root is considered @dfn{live} and
|
||
cannot be deleted; any other file is considered @dfn{dead} and may be
|
||
deleted. The set of garbage collector roots (``GC roots'' for short)
|
||
includes default user profiles; by default, the symlinks under
|
||
@file{/var/guix/gcroots} represent these GC roots. New GC roots can be
|
||
added with @command{guix build --root}, for example (@pxref{Invoking
|
||
guix build}).
|
||
|
||
Prior to running @code{guix gc --collect-garbage} to make space, it is
|
||
often useful to remove old generations from user profiles; that way, old
|
||
package builds referenced by those generations can be reclaimed. This
|
||
is achieved by running @code{guix package --delete-generations}
|
||
(@pxref{Invoking guix package}).
|
||
|
||
Our recommendation is to run a garbage collection periodically, or when
|
||
you are short on disk space. For instance, to guarantee that at least
|
||
5@tie{}GB are available on your disk, simply run:
|
||
|
||
@example
|
||
guix gc -F 5G
|
||
@end example
|
||
|
||
It is perfectly safe to run as a non-interactive periodic job
|
||
(@pxref{Scheduled Job Execution}, for how to set up such a job on
|
||
GuixSD). Running @command{guix gc} with no arguments will collect as
|
||
much garbage as it can, but that is often inconvenient: you may find
|
||
yourself having to rebuild or re-download software that is ``dead'' from
|
||
the GC viewpoint but that is necessary to build other pieces of
|
||
software---e.g., the compiler tool chain.
|
||
|
||
The @command{guix gc} command has three modes of operation: it can be
|
||
used to garbage-collect any dead files (the default), to delete specific
|
||
files (the @code{--delete} option), to print garbage-collector
|
||
information, or for more advanced queries. The garbage collection
|
||
options are as follows:
|
||
|
||
@table @code
|
||
@item --collect-garbage[=@var{min}]
|
||
@itemx -C [@var{min}]
|
||
Collect garbage---i.e., unreachable @file{/gnu/store} files and
|
||
sub-directories. This is the default operation when no option is
|
||
specified.
|
||
|
||
When @var{min} is given, stop once @var{min} bytes have been collected.
|
||
@var{min} may be a number of bytes, or it may include a unit as a
|
||
suffix, such as @code{MiB} for mebibytes and @code{GB} for gigabytes
|
||
(@pxref{Block size, size specifications,, coreutils, GNU Coreutils}).
|
||
|
||
When @var{min} is omitted, collect all the garbage.
|
||
|
||
@item --free-space=@var{free}
|
||
@itemx -F @var{free}
|
||
Collect garbage until @var{free} space is available under
|
||
@file{/gnu/store}, if possible; @var{free} denotes storage space, such
|
||
as @code{500MiB}, as described above.
|
||
|
||
When @var{free} or more is already available in @file{/gnu/store}, do
|
||
nothing and exit immediately.
|
||
|
||
@item --delete
|
||
@itemx -d
|
||
Attempt to delete all the store files and directories specified as
|
||
arguments. This fails if some of the files are not in the store, or if
|
||
they are still live.
|
||
|
||
@item --list-failures
|
||
List store items corresponding to cached build failures.
|
||
|
||
This prints nothing unless the daemon was started with
|
||
@option{--cache-failures} (@pxref{Invoking guix-daemon,
|
||
@option{--cache-failures}}).
|
||
|
||
@item --clear-failures
|
||
Remove the specified store items from the failed-build cache.
|
||
|
||
Again, this option only makes sense when the daemon is started with
|
||
@option{--cache-failures}. Otherwise, it does nothing.
|
||
|
||
@item --list-dead
|
||
Show the list of dead files and directories still present in the
|
||
store---i.e., files and directories no longer reachable from any root.
|
||
|
||
@item --list-live
|
||
Show the list of live store files and directories.
|
||
|
||
@end table
|
||
|
||
In addition, the references among existing store files can be queried:
|
||
|
||
@table @code
|
||
|
||
@item --references
|
||
@itemx --referrers
|
||
@cindex package dependencies
|
||
List the references (respectively, the referrers) of store files given
|
||
as arguments.
|
||
|
||
@item --requisites
|
||
@itemx -R
|
||
@cindex closure
|
||
List the requisites of the store files passed as arguments. Requisites
|
||
include the store files themselves, their references, and the references
|
||
of these, recursively. In other words, the returned list is the
|
||
@dfn{transitive closure} of the store files.
|
||
|
||
@xref{Invoking guix size}, for a tool to profile the size of the closure
|
||
of an element. @xref{Invoking guix graph}, for a tool to visualize
|
||
the graph of references.
|
||
|
||
@end table
|
||
|
||
Lastly, the following options allow you to check the integrity of the
|
||
store and to control disk usage.
|
||
|
||
@table @option
|
||
|
||
@item --verify[=@var{options}]
|
||
@cindex integrity, of the store
|
||
@cindex integrity checking
|
||
Verify the integrity of the store.
|
||
|
||
By default, make sure that all the store items marked as valid in the
|
||
database of the daemon actually exist in @file{/gnu/store}.
|
||
|
||
When provided, @var{options} must be a comma-separated list containing one
|
||
or more of @code{contents} and @code{repair}.
|
||
|
||
When passing @option{--verify=contents}, the daemon computes the
|
||
content hash of each store item and compares it against its hash in the
|
||
database. Hash mismatches are reported as data corruptions. Because it
|
||
traverses @emph{all the files in the store}, this command can take a
|
||
long time, especially on systems with a slow disk drive.
|
||
|
||
@cindex repairing the store
|
||
@cindex corruption, recovering from
|
||
Using @option{--verify=repair} or @option{--verify=contents,repair}
|
||
causes the daemon to try to repair corrupt store items by fetching
|
||
substitutes for them (@pxref{Substitutes}). Because repairing is not
|
||
atomic, and thus potentially dangerous, it is available only to the
|
||
system administrator. A lightweight alternative, when you know exactly
|
||
which items in the store are corrupt, is @command{guix build --repair}
|
||
(@pxref{Invoking guix build}).
|
||
|
||
@item --optimize
|
||
@cindex deduplication
|
||
Optimize the store by hard-linking identical files---this is
|
||
@dfn{deduplication}.
|
||
|
||
The daemon performs deduplication after each successful build or archive
|
||
import, unless it was started with @code{--disable-deduplication}
|
||
(@pxref{Invoking guix-daemon, @code{--disable-deduplication}}). Thus,
|
||
this option is primarily useful when the daemon was running with
|
||
@code{--disable-deduplication}.
|
||
|
||
@end table
|
||
|
||
@node Invoking guix pull
|
||
@section Invoking @command{guix pull}
|
||
|
||
@cindex upgrading Guix
|
||
@cindex updating Guix
|
||
@cindex @command{guix pull}
|
||
@cindex pull
|
||
Packages are installed or upgraded to the latest version available in
|
||
the distribution currently available on your local machine. To update
|
||
that distribution, along with the Guix tools, you must run @command{guix
|
||
pull}: the command downloads the latest Guix source code and package
|
||
descriptions, and deploys it. Source code is downloaded from a
|
||
@uref{https://git-scm.com, Git} repository.
|
||
|
||
On completion, @command{guix package} will use packages and package
|
||
versions from this just-retrieved copy of Guix. Not only that, but all
|
||
the Guix commands and Scheme modules will also be taken from that latest
|
||
version. New @command{guix} sub-commands added by the update also
|
||
become available.
|
||
|
||
Any user can update their Guix copy using @command{guix pull}, and the
|
||
effect is limited to the user who run @command{guix pull}. For
|
||
instance, when user @code{root} runs @command{guix pull}, this has no
|
||
effect on the version of Guix that user @code{alice} sees, and vice
|
||
versa@footnote{Under the hood, @command{guix pull} updates the
|
||
@file{~/.config/guix/latest} symbolic link to point to the latest Guix,
|
||
and the @command{guix} command loads code from there. Currently, the
|
||
only way to roll back an invocation of @command{guix pull} is to
|
||
manually update this symlink to point to the previous Guix.}.
|
||
|
||
The @command{guix pull} command is usually invoked with no arguments,
|
||
but it supports the following options:
|
||
|
||
@table @code
|
||
@item --verbose
|
||
Produce verbose output, writing build logs to the standard error output.
|
||
|
||
@item --url=@var{url}
|
||
Download Guix from the Git repository at @var{url}.
|
||
|
||
@vindex GUIX_PULL_URL
|
||
By default, the source is taken from its canonical Git repository at
|
||
@code{gnu.org}, for the stable branch of Guix. To use a different source,
|
||
set the @code{GUIX_PULL_URL} environment variable.
|
||
|
||
@item --commit=@var{commit}
|
||
Deploy @var{commit}, a valid Git commit ID represented as a hexadecimal
|
||
string.
|
||
|
||
@item --branch=@var{branch}
|
||
Deploy the tip of @var{branch}, the name of a Git branch available on
|
||
the repository at @var{url}.
|
||
|
||
@item --bootstrap
|
||
Use the bootstrap Guile to build the latest Guix. This option is only
|
||
useful to Guix developers.
|
||
@end table
|
||
|
||
In addition, @command{guix pull} supports all the common build options
|
||
(@pxref{Common Build Options}).
|
||
|
||
@node Invoking guix pack
|
||
@section Invoking @command{guix pack}
|
||
|
||
Occasionally you want to pass software to people who are not (yet!)
|
||
lucky enough to be using Guix. You'd tell them to run @command{guix
|
||
package -i @var{something}}, but that's not possible in this case. This
|
||
is where @command{guix pack} comes in.
|
||
|
||
@cindex pack
|
||
@cindex bundle
|
||
@cindex application bundle
|
||
@cindex software bundle
|
||
The @command{guix pack} command creates a shrink-wrapped @dfn{pack} or
|
||
@dfn{software bundle}: it creates a tarball or some other archive
|
||
containing the binaries of the software you're interested in, and all
|
||
its dependencies. The resulting archive can be used on any machine that
|
||
does not have Guix, and people can run the exact same binaries as those
|
||
you have with Guix. The pack itself is created in a bit-reproducible
|
||
fashion, so anyone can verify that it really contains the build results
|
||
that you pretend to be shipping.
|
||
|
||
For example, to create a bundle containing Guile, Emacs, Geiser, and all
|
||
their dependencies, you can run:
|
||
|
||
@example
|
||
$ guix pack guile emacs geiser
|
||
@dots{}
|
||
/gnu/store/@dots{}-pack.tar.gz
|
||
@end example
|
||
|
||
The result here is a tarball containing a @file{/gnu/store} directory
|
||
with all the relevant packages. The resulting tarball contains a
|
||
@dfn{profile} with the three packages of interest; the profile is the
|
||
same as would be created by @command{guix package -i}. It is this
|
||
mechanism that is used to create Guix's own standalone binary tarball
|
||
(@pxref{Binary Installation}).
|
||
|
||
Users of this pack would have to run
|
||
@file{/gnu/store/@dots{}-profile/bin/guile} to run Guile, which you may
|
||
find inconvenient. To work around it, you can create, say, a
|
||
@file{/opt/gnu/bin} symlink to the profile:
|
||
|
||
@example
|
||
guix pack -S /opt/gnu/bin=bin guile emacs geiser
|
||
@end example
|
||
|
||
@noindent
|
||
That way, users can happily type @file{/opt/gnu/bin/guile} and enjoy.
|
||
|
||
Alternatively, you can produce a pack in the Docker image format using
|
||
the following command:
|
||
|
||
@example
|
||
guix pack -f docker guile emacs geiser
|
||
@end example
|
||
|
||
@noindent
|
||
The result is a tarball that can be passed to the @command{docker load}
|
||
command. See the
|
||
@uref{https://docs.docker.com/engine/reference/commandline/load/, Docker
|
||
documentation} for more information.
|
||
|
||
Several command-line options allow you to customize your pack:
|
||
|
||
@table @code
|
||
@item --format=@var{format}
|
||
@itemx -f @var{format}
|
||
Produce a pack in the given @var{format}.
|
||
|
||
The available formats are:
|
||
|
||
@table @code
|
||
@item tarball
|
||
This is the default format. It produces a tarball containing all the
|
||
specified binaries and symlinks.
|
||
|
||
@item docker
|
||
This produces a tarball that follows the
|
||
@uref{https://github.com/docker/docker/blob/master/image/spec/v1.2.md,
|
||
Docker Image Specification}.
|
||
@end table
|
||
|
||
@item --expression=@var{expr}
|
||
@itemx -e @var{expr}
|
||
Consider the package @var{expr} evaluates to.
|
||
|
||
This has the same purpose as the same-named option in @command{guix
|
||
build} (@pxref{Additional Build Options, @code{--expression} in
|
||
@command{guix build}}).
|
||
|
||
@item --system=@var{system}
|
||
@itemx -s @var{system}
|
||
Attempt to build for @var{system}---e.g., @code{i686-linux}---instead of
|
||
the system type of the build host.
|
||
|
||
@item --target=@var{triplet}
|
||
@cindex cross-compilation
|
||
Cross-build for @var{triplet}, which must be a valid GNU triplet, such
|
||
as @code{"mips64el-linux-gnu"} (@pxref{Specifying target triplets, GNU
|
||
configuration triplets,, autoconf, Autoconf}).
|
||
|
||
@item --compression=@var{tool}
|
||
@itemx -C @var{tool}
|
||
Compress the resulting tarball using @var{tool}---one of @code{gzip},
|
||
@code{bzip2}, @code{xz}, @code{lzip}, or @code{none} for no compression.
|
||
|
||
@item --symlink=@var{spec}
|
||
@itemx -S @var{spec}
|
||
Add the symlinks specified by @var{spec} to the pack. This option can
|
||
appear several times.
|
||
|
||
@var{spec} has the form @code{@var{source}=@var{target}}, where
|
||
@var{source} is the symlink that will be created and @var{target} is the
|
||
symlink target.
|
||
|
||
For instance, @code{-S /opt/gnu/bin=bin} creates a @file{/opt/gnu/bin}
|
||
symlink pointing to the @file{bin} sub-directory of the profile.
|
||
|
||
@item --localstatedir
|
||
Include the ``local state directory'', @file{/var/guix}, in the
|
||
resulting pack.
|
||
|
||
@file{/var/guix} contains the store database (@pxref{The Store}) as well
|
||
as garbage-collector roots (@pxref{Invoking guix gc}). Providing it in
|
||
the pack means that the store is ``complete'' and manageable by Guix;
|
||
not providing it pack means that the store is ``dead'': items cannot be
|
||
added to it or removed from it after extraction of the pack.
|
||
|
||
One use case for this is the Guix self-contained binary tarball
|
||
(@pxref{Binary Installation}).
|
||
@end table
|
||
|
||
In addition, @command{guix pack} supports all the common build options
|
||
(@pxref{Common Build Options}) and all the package transformation
|
||
options (@pxref{Package Transformation Options}).
|
||
|
||
|
||
@node Invoking guix archive
|
||
@section Invoking @command{guix archive}
|
||
|
||
@cindex @command{guix archive}
|
||
@cindex archive
|
||
The @command{guix archive} command allows users to @dfn{export} files
|
||
from the store into a single archive, and to later @dfn{import} them.
|
||
In particular, it allows store files to be transferred from one machine
|
||
to the store on another machine.
|
||
|
||
@cindex exporting store items
|
||
To export store files as an archive to standard output, run:
|
||
|
||
@example
|
||
guix archive --export @var{options} @var{specifications}...
|
||
@end example
|
||
|
||
@var{specifications} may be either store file names or package
|
||
specifications, as for @command{guix package} (@pxref{Invoking guix
|
||
package}). For instance, the following command creates an archive
|
||
containing the @code{gui} output of the @code{git} package and the main
|
||
output of @code{emacs}:
|
||
|
||
@example
|
||
guix archive --export git:gui /gnu/store/...-emacs-24.3 > great.nar
|
||
@end example
|
||
|
||
If the specified packages are not built yet, @command{guix archive}
|
||
automatically builds them. The build process may be controlled with the
|
||
common build options (@pxref{Common Build Options}).
|
||
|
||
To transfer the @code{emacs} package to a machine connected over SSH,
|
||
one would run:
|
||
|
||
@example
|
||
guix archive --export -r emacs | ssh the-machine guix archive --import
|
||
@end example
|
||
|
||
@noindent
|
||
Similarly, a complete user profile may be transferred from one machine
|
||
to another like this:
|
||
|
||
@example
|
||
guix archive --export -r $(readlink -f ~/.guix-profile) | \
|
||
ssh the-machine guix-archive --import
|
||
@end example
|
||
|
||
@noindent
|
||
However, note that, in both examples, all of @code{emacs} and the
|
||
profile as well as all of their dependencies are transferred (due to
|
||
@code{-r}), regardless of what is already available in the store on the
|
||
target machine. The @code{--missing} option can help figure out which
|
||
items are missing from the target store. The @command{guix copy}
|
||
command simplifies and optimizes this whole process, so this is probably
|
||
what you should use in this case (@pxref{Invoking guix copy}).
|
||
|
||
@cindex nar, archive format
|
||
@cindex normalized archive (nar)
|
||
Archives are stored in the ``normalized archive'' or ``nar'' format, which is
|
||
comparable in spirit to `tar', but with differences
|
||
that make it more appropriate for our purposes. First, rather than
|
||
recording all Unix metadata for each file, the nar format only mentions
|
||
the file type (regular, directory, or symbolic link); Unix permissions
|
||
and owner/group are dismissed. Second, the order in which directory
|
||
entries are stored always follows the order of file names according to
|
||
the C locale collation order. This makes archive production fully
|
||
deterministic.
|
||
|
||
When exporting, the daemon digitally signs the contents of the archive,
|
||
and that digital signature is appended. When importing, the daemon
|
||
verifies the signature and rejects the import in case of an invalid
|
||
signature or if the signing key is not authorized.
|
||
@c FIXME: Add xref to daemon doc about signatures.
|
||
|
||
The main options are:
|
||
|
||
@table @code
|
||
@item --export
|
||
Export the specified store files or packages (see below.) Write the
|
||
resulting archive to the standard output.
|
||
|
||
Dependencies are @emph{not} included in the output, unless
|
||
@code{--recursive} is passed.
|
||
|
||
@item -r
|
||
@itemx --recursive
|
||
When combined with @code{--export}, this instructs @command{guix
|
||
archive} to include dependencies of the given items in the archive.
|
||
Thus, the resulting archive is self-contained: it contains the closure
|
||
of the exported store items.
|
||
|
||
@item --import
|
||
Read an archive from the standard input, and import the files listed
|
||
therein into the store. Abort if the archive has an invalid digital
|
||
signature, or if it is signed by a public key not among the authorized
|
||
keys (see @code{--authorize} below.)
|
||
|
||
@item --missing
|
||
Read a list of store file names from the standard input, one per line,
|
||
and write on the standard output the subset of these files missing from
|
||
the store.
|
||
|
||
@item --generate-key[=@var{parameters}]
|
||
@cindex signing, archives
|
||
Generate a new key pair for the daemon. This is a prerequisite before
|
||
archives can be exported with @code{--export}. Note that this operation
|
||
usually takes time, because it needs to gather enough entropy to
|
||
generate the key pair.
|
||
|
||
The generated key pair is typically stored under @file{/etc/guix}, in
|
||
@file{signing-key.pub} (public key) and @file{signing-key.sec} (private
|
||
key, which must be kept secret.) When @var{parameters} is omitted,
|
||
an ECDSA key using the Ed25519 curve is generated, or, for Libgcrypt
|
||
versions before 1.6.0, it is a 4096-bit RSA key.
|
||
Alternatively, @var{parameters} can specify
|
||
@code{genkey} parameters suitable for Libgcrypt (@pxref{General
|
||
public-key related Functions, @code{gcry_pk_genkey},, gcrypt, The
|
||
Libgcrypt Reference Manual}).
|
||
|
||
@item --authorize
|
||
@cindex authorizing, archives
|
||
Authorize imports signed by the public key passed on standard input.
|
||
The public key must be in ``s-expression advanced format''---i.e., the
|
||
same format as the @file{signing-key.pub} file.
|
||
|
||
The list of authorized keys is kept in the human-editable file
|
||
@file{/etc/guix/acl}. The file contains
|
||
@url{http://people.csail.mit.edu/rivest/Sexp.txt, ``advanced-format
|
||
s-expressions''} and is structured as an access-control list in the
|
||
@url{http://theworld.com/~cme/spki.txt, Simple Public-Key Infrastructure
|
||
(SPKI)}.
|
||
|
||
@item --extract=@var{directory}
|
||
@itemx -x @var{directory}
|
||
Read a single-item archive as served by substitute servers
|
||
(@pxref{Substitutes}) and extract it to @var{directory}. This is a
|
||
low-level operation needed in only very narrow use cases; see below.
|
||
|
||
For example, the following command extracts the substitute for Emacs
|
||
served by @code{hydra.gnu.org} to @file{/tmp/emacs}:
|
||
|
||
@example
|
||
$ wget -O - \
|
||
https://hydra.gnu.org/nar/@dots{}-emacs-24.5 \
|
||
| bunzip2 | guix archive -x /tmp/emacs
|
||
@end example
|
||
|
||
Single-item archives are different from multiple-item archives produced
|
||
by @command{guix archive --export}; they contain a single store item,
|
||
and they do @emph{not} embed a signature. Thus this operation does
|
||
@emph{no} signature verification and its output should be considered
|
||
unsafe.
|
||
|
||
The primary purpose of this operation is to facilitate inspection of
|
||
archive contents coming from possibly untrusted substitute servers.
|
||
|
||
@end table
|
||
|
||
@c *********************************************************************
|
||
@node Programming Interface
|
||
@chapter Programming Interface
|
||
|
||
GNU Guix provides several Scheme programming interfaces (APIs) to
|
||
define, build, and query packages. The first interface allows users to
|
||
write high-level package definitions. These definitions refer to
|
||
familiar packaging concepts, such as the name and version of a package,
|
||
its build system, and its dependencies. These definitions can then be
|
||
turned into concrete build actions.
|
||
|
||
Build actions are performed by the Guix daemon, on behalf of users. In a
|
||
standard setup, the daemon has write access to the store---the
|
||
@file{/gnu/store} directory---whereas users do not. The recommended
|
||
setup also has the daemon perform builds in chroots, under a specific
|
||
build users, to minimize interference with the rest of the system.
|
||
|
||
@cindex derivation
|
||
Lower-level APIs are available to interact with the daemon and the
|
||
store. To instruct the daemon to perform a build action, users actually
|
||
provide it with a @dfn{derivation}. A derivation is a low-level
|
||
representation of the build actions to be taken, and the environment in
|
||
which they should occur---derivations are to package definitions what
|
||
assembly is to C programs. The term ``derivation'' comes from the fact
|
||
that build results @emph{derive} from them.
|
||
|
||
This chapter describes all these APIs in turn, starting from high-level
|
||
package definitions.
|
||
|
||
@menu
|
||
* Defining Packages:: Defining new packages.
|
||
* Build Systems:: Specifying how packages are built.
|
||
* The Store:: Manipulating the package store.
|
||
* Derivations:: Low-level interface to package derivations.
|
||
* The Store Monad:: Purely functional interface to the store.
|
||
* G-Expressions:: Manipulating build expressions.
|
||
@end menu
|
||
|
||
@node Defining Packages
|
||
@section Defining Packages
|
||
|
||
The high-level interface to package definitions is implemented in the
|
||
@code{(guix packages)} and @code{(guix build-system)} modules. As an
|
||
example, the package definition, or @dfn{recipe}, for the GNU Hello
|
||
package looks like this:
|
||
|
||
@example
|
||
(define-module (gnu packages hello)
|
||
#:use-module (guix packages)
|
||
#:use-module (guix download)
|
||
#:use-module (guix build-system gnu)
|
||
#:use-module (guix licenses)
|
||
#:use-module (gnu packages gawk))
|
||
|
||
(define-public hello
|
||
(package
|
||
(name "hello")
|
||
(version "2.10")
|
||
(source (origin
|
||
(method url-fetch)
|
||
(uri (string-append "mirror://gnu/hello/hello-" version
|
||
".tar.gz"))
|
||
(sha256
|
||
(base32
|
||
"0ssi1wpaf7plaswqqjwigppsg5fyh99vdlb9kzl7c9lng89ndq1i"))))
|
||
(build-system gnu-build-system)
|
||
(arguments '(#:configure-flags '("--enable-silent-rules")))
|
||
(inputs `(("gawk" ,gawk)))
|
||
(synopsis "Hello, GNU world: An example GNU package")
|
||
(description "Guess what GNU Hello prints!")
|
||
(home-page "http://www.gnu.org/software/hello/")
|
||
(license gpl3+)))
|
||
@end example
|
||
|
||
@noindent
|
||
Without being a Scheme expert, the reader may have guessed the meaning
|
||
of the various fields here. This expression binds the variable
|
||
@code{hello} to a @code{<package>} object, which is essentially a record
|
||
(@pxref{SRFI-9, Scheme records,, guile, GNU Guile Reference Manual}).
|
||
This package object can be inspected using procedures found in the
|
||
@code{(guix packages)} module; for instance, @code{(package-name hello)}
|
||
returns---surprise!---@code{"hello"}.
|
||
|
||
With luck, you may be able to import part or all of the definition of
|
||
the package you are interested in from another repository, using the
|
||
@code{guix import} command (@pxref{Invoking guix import}).
|
||
|
||
In the example above, @var{hello} is defined in a module of its own,
|
||
@code{(gnu packages hello)}. Technically, this is not strictly
|
||
necessary, but it is convenient to do so: all the packages defined in
|
||
modules under @code{(gnu packages @dots{})} are automatically known to
|
||
the command-line tools (@pxref{Package Modules}).
|
||
|
||
There are a few points worth noting in the above package definition:
|
||
|
||
@itemize
|
||
@item
|
||
The @code{source} field of the package is an @code{<origin>} object
|
||
(@pxref{origin Reference}, for the complete reference).
|
||
Here, the @code{url-fetch} method from @code{(guix download)} is used,
|
||
meaning that the source is a file to be downloaded over FTP or HTTP.
|
||
|
||
The @code{mirror://gnu} prefix instructs @code{url-fetch} to use one of
|
||
the GNU mirrors defined in @code{(guix download)}.
|
||
|
||
The @code{sha256} field specifies the expected SHA256 hash of the file
|
||
being downloaded. It is mandatory, and allows Guix to check the
|
||
integrity of the file. The @code{(base32 @dots{})} form introduces the
|
||
base32 representation of the hash. You can obtain this information with
|
||
@code{guix download} (@pxref{Invoking guix download}) and @code{guix
|
||
hash} (@pxref{Invoking guix hash}).
|
||
|
||
@cindex patches
|
||
When needed, the @code{origin} form can also have a @code{patches} field
|
||
listing patches to be applied, and a @code{snippet} field giving a
|
||
Scheme expression to modify the source code.
|
||
|
||
@item
|
||
@cindex GNU Build System
|
||
The @code{build-system} field specifies the procedure to build the
|
||
package (@pxref{Build Systems}). Here, @var{gnu-build-system}
|
||
represents the familiar GNU Build System, where packages may be
|
||
configured, built, and installed with the usual @code{./configure &&
|
||
make && make check && make install} command sequence.
|
||
|
||
@item
|
||
The @code{arguments} field specifies options for the build system
|
||
(@pxref{Build Systems}). Here it is interpreted by
|
||
@var{gnu-build-system} as a request run @file{configure} with the
|
||
@code{--enable-silent-rules} flag.
|
||
|
||
@cindex quote
|
||
@cindex quoting
|
||
@findex '
|
||
@findex quote
|
||
What about these quote (@code{'}) characters? They are Scheme syntax to
|
||
introduce a literal list; @code{'} is synonymous with @code{quote}.
|
||
@xref{Expression Syntax, quoting,, guile, GNU Guile Reference Manual},
|
||
for details. Here the value of the @code{arguments} field is a list of
|
||
arguments passed to the build system down the road, as with @code{apply}
|
||
(@pxref{Fly Evaluation, @code{apply},, guile, GNU Guile Reference
|
||
Manual}).
|
||
|
||
The hash-colon (@code{#:}) sequence defines a Scheme @dfn{keyword}
|
||
(@pxref{Keywords,,, guile, GNU Guile Reference Manual}), and
|
||
@code{#:configure-flags} is a keyword used to pass a keyword argument
|
||
to the build system (@pxref{Coding With Keywords,,, guile, GNU Guile
|
||
Reference Manual}).
|
||
|
||
@item
|
||
The @code{inputs} field specifies inputs to the build process---i.e.,
|
||
build-time or run-time dependencies of the package. Here, we define an
|
||
input called @code{"gawk"} whose value is that of the @var{gawk}
|
||
variable; @var{gawk} is itself bound to a @code{<package>} object.
|
||
|
||
@cindex backquote (quasiquote)
|
||
@findex `
|
||
@findex quasiquote
|
||
@cindex comma (unquote)
|
||
@findex ,
|
||
@findex unquote
|
||
@findex ,@@
|
||
@findex unquote-splicing
|
||
Again, @code{`} (a backquote, synonymous with @code{quasiquote}) allows
|
||
us to introduce a literal list in the @code{inputs} field, while
|
||
@code{,} (a comma, synonymous with @code{unquote}) allows us to insert a
|
||
value in that list (@pxref{Expression Syntax, unquote,, guile, GNU Guile
|
||
Reference Manual}).
|
||
|
||
Note that GCC, Coreutils, Bash, and other essential tools do not need to
|
||
be specified as inputs here. Instead, @var{gnu-build-system} takes care
|
||
of ensuring that they are present (@pxref{Build Systems}).
|
||
|
||
However, any other dependencies need to be specified in the
|
||
@code{inputs} field. Any dependency not specified here will simply be
|
||
unavailable to the build process, possibly leading to a build failure.
|
||
@end itemize
|
||
|
||
@xref{package Reference}, for a full description of possible fields.
|
||
|
||
Once a package definition is in place, the
|
||
package may actually be built using the @code{guix build} command-line
|
||
tool (@pxref{Invoking guix build}), troubleshooting any build failures
|
||
you encounter (@pxref{Debugging Build Failures}). You can easily jump back to the
|
||
package definition using the @command{guix edit} command
|
||
(@pxref{Invoking guix edit}).
|
||
@xref{Packaging Guidelines}, for
|
||
more information on how to test package definitions, and
|
||
@ref{Invoking guix lint}, for information on how to check a definition
|
||
for style conformance.
|
||
@vindex GUIX_PACKAGE_PATH
|
||
Lastly, @pxref{Package Modules}, for information
|
||
on how to extend the distribution by adding your own package definitions
|
||
to @code{GUIX_PACKAGE_PATH}.
|
||
|
||
Finally, updating the package definition to a new upstream version
|
||
can be partly automated by the @command{guix refresh} command
|
||
(@pxref{Invoking guix refresh}).
|
||
|
||
Behind the scenes, a derivation corresponding to the @code{<package>}
|
||
object is first computed by the @code{package-derivation} procedure.
|
||
That derivation is stored in a @code{.drv} file under @file{/gnu/store}.
|
||
The build actions it prescribes may then be realized by using the
|
||
@code{build-derivations} procedure (@pxref{The Store}).
|
||
|
||
@deffn {Scheme Procedure} package-derivation @var{store} @var{package} [@var{system}]
|
||
Return the @code{<derivation>} object of @var{package} for @var{system}
|
||
(@pxref{Derivations}).
|
||
|
||
@var{package} must be a valid @code{<package>} object, and @var{system}
|
||
must be a string denoting the target system type---e.g.,
|
||
@code{"x86_64-linux"} for an x86_64 Linux-based GNU system. @var{store}
|
||
must be a connection to the daemon, which operates on the store
|
||
(@pxref{The Store}).
|
||
@end deffn
|
||
|
||
@noindent
|
||
@cindex cross-compilation
|
||
Similarly, it is possible to compute a derivation that cross-builds a
|
||
package for some other system:
|
||
|
||
@deffn {Scheme Procedure} package-cross-derivation @var{store} @
|
||
@var{package} @var{target} [@var{system}]
|
||
Return the @code{<derivation>} object of @var{package} cross-built from
|
||
@var{system} to @var{target}.
|
||
|
||
@var{target} must be a valid GNU triplet denoting the target hardware
|
||
and operating system, such as @code{"mips64el-linux-gnu"}
|
||
(@pxref{Configuration Names, GNU configuration triplets,, configure, GNU
|
||
Configure and Build System}).
|
||
@end deffn
|
||
|
||
@cindex package transformations
|
||
@cindex input rewriting
|
||
@cindex dependency tree rewriting
|
||
Packages can be manipulated in arbitrary ways. An example of a useful
|
||
transformation is @dfn{input rewriting}, whereby the dependency tree of
|
||
a package is rewritten by replacing specific inputs by others:
|
||
|
||
@deffn {Scheme Procedure} package-input-rewriting @var{replacements} @
|
||
[@var{rewrite-name}]
|
||
Return a procedure that, when passed a package, replaces its direct and
|
||
indirect dependencies (but not its implicit inputs) according to
|
||
@var{replacements}. @var{replacements} is a list of package pairs; the
|
||
first element of each pair is the package to replace, and the second one
|
||
is the replacement.
|
||
|
||
Optionally, @var{rewrite-name} is a one-argument procedure that takes
|
||
the name of a package and returns its new name after rewrite.
|
||
@end deffn
|
||
|
||
@noindent
|
||
Consider this example:
|
||
|
||
@example
|
||
(define libressl-instead-of-openssl
|
||
;; This is a procedure to replace OPENSSL by LIBRESSL,
|
||
;; recursively.
|
||
(package-input-rewriting `((,openssl . ,libressl))))
|
||
|
||
(define git-with-libressl
|
||
(libressl-instead-of-openssl git))
|
||
@end example
|
||
|
||
@noindent
|
||
Here we first define a rewriting procedure that replaces @var{openssl}
|
||
with @var{libressl}. Then we use it to define a @dfn{variant} of the
|
||
@var{git} package that uses @var{libressl} instead of @var{openssl}.
|
||
This is exactly what the @option{--with-input} command-line option does
|
||
(@pxref{Package Transformation Options, @option{--with-input}}).
|
||
|
||
A more generic procedure to rewrite a package dependency graph is
|
||
@code{package-mapping}: it supports arbitrary changes to nodes in the
|
||
graph.
|
||
|
||
@deffn {Scheme Procedure} package-mapping @var{proc} [@var{cut?}]
|
||
Return a procedure that, given a package, applies @var{proc} to all the packages
|
||
depended on and returns the resulting package. The procedure stops recursion
|
||
when @var{cut?} returns true for a given package.
|
||
@end deffn
|
||
|
||
@menu
|
||
* package Reference :: The package data type.
|
||
* origin Reference:: The origin data type.
|
||
@end menu
|
||
|
||
|
||
@node package Reference
|
||
@subsection @code{package} Reference
|
||
|
||
This section summarizes all the options available in @code{package}
|
||
declarations (@pxref{Defining Packages}).
|
||
|
||
@deftp {Data Type} package
|
||
This is the data type representing a package recipe.
|
||
|
||
@table @asis
|
||
@item @code{name}
|
||
The name of the package, as a string.
|
||
|
||
@item @code{version}
|
||
The version of the package, as a string.
|
||
|
||
@item @code{source}
|
||
An object telling how the source code for the package should be
|
||
acquired. Most of the time, this is an @code{origin} object, which
|
||
denotes a file fetched from the Internet (@pxref{origin Reference}). It
|
||
can also be any other ``file-like'' object such as a @code{local-file},
|
||
which denotes a file from the local file system (@pxref{G-Expressions,
|
||
@code{local-file}}).
|
||
|
||
@item @code{build-system}
|
||
The build system that should be used to build the package (@pxref{Build
|
||
Systems}).
|
||
|
||
@item @code{arguments} (default: @code{'()})
|
||
The arguments that should be passed to the build system. This is a
|
||
list, typically containing sequential keyword-value pairs.
|
||
|
||
@item @code{inputs} (default: @code{'()})
|
||
@itemx @code{native-inputs} (default: @code{'()})
|
||
@itemx @code{propagated-inputs} (default: @code{'()})
|
||
@cindex inputs, of packages
|
||
These fields list dependencies of the package. Each one is a list of
|
||
tuples, where each tuple has a label for the input (a string) as its
|
||
first element, a package, origin, or derivation as its second element,
|
||
and optionally the name of the output thereof that should be used, which
|
||
defaults to @code{"out"} (@pxref{Packages with Multiple Outputs}, for
|
||
more on package outputs). For example, the list below specifies three
|
||
inputs:
|
||
|
||
@example
|
||
`(("libffi" ,libffi)
|
||
("libunistring" ,libunistring)
|
||
("glib:bin" ,glib "bin")) ;the "bin" output of Glib
|
||
@end example
|
||
|
||
@cindex cross compilation, package dependencies
|
||
The distinction between @code{native-inputs} and @code{inputs} is
|
||
necessary when considering cross-compilation. When cross-compiling,
|
||
dependencies listed in @code{inputs} are built for the @emph{target}
|
||
architecture; conversely, dependencies listed in @code{native-inputs}
|
||
are built for the architecture of the @emph{build} machine.
|
||
|
||
@code{native-inputs} is typically used to list tools needed at
|
||
build time, but not at run time, such as Autoconf, Automake, pkg-config,
|
||
Gettext, or Bison. @command{guix lint} can report likely mistakes in
|
||
this area (@pxref{Invoking guix lint}).
|
||
|
||
@anchor{package-propagated-inputs}
|
||
Lastly, @code{propagated-inputs} is similar to @code{inputs}, but the
|
||
specified packages will be automatically installed alongside the package
|
||
they belong to (@pxref{package-cmd-propagated-inputs, @command{guix
|
||
package}}, for information on how @command{guix package} deals with
|
||
propagated inputs.)
|
||
|
||
For example this is necessary when a C/C++ library needs headers of
|
||
another library to compile, or when a pkg-config file refers to another
|
||
one @i{via} its @code{Requires} field.
|
||
|
||
Another example where @code{propagated-inputs} is useful is for languages
|
||
that lack a facility to record the run-time search path akin to the
|
||
@code{RUNPATH} of ELF files; this includes Guile, Python, Perl, and
|
||
more. To ensure that libraries written in those languages can find
|
||
library code they depend on at run time, run-time dependencies must be
|
||
listed in @code{propagated-inputs} rather than @code{inputs}.
|
||
|
||
@item @code{self-native-input?} (default: @code{#f})
|
||
This is a Boolean field telling whether the package should use itself as
|
||
a native input when cross-compiling.
|
||
|
||
@item @code{outputs} (default: @code{'("out")})
|
||
The list of output names of the package. @xref{Packages with Multiple
|
||
Outputs}, for typical uses of additional outputs.
|
||
|
||
@item @code{native-search-paths} (default: @code{'()})
|
||
@itemx @code{search-paths} (default: @code{'()})
|
||
A list of @code{search-path-specification} objects describing
|
||
search-path environment variables honored by the package.
|
||
|
||
@item @code{replacement} (default: @code{#f})
|
||
This must be either @code{#f} or a package object that will be used as a
|
||
@dfn{replacement} for this package. @xref{Security Updates, grafts},
|
||
for details.
|
||
|
||
@item @code{synopsis}
|
||
A one-line description of the package.
|
||
|
||
@item @code{description}
|
||
A more elaborate description of the package.
|
||
|
||
@item @code{license}
|
||
@cindex license, of packages
|
||
The license of the package; a value from @code{(guix licenses)},
|
||
or a list of such values.
|
||
|
||
@item @code{home-page}
|
||
The URL to the home-page of the package, as a string.
|
||
|
||
@item @code{supported-systems} (default: @var{%supported-systems})
|
||
The list of systems supported by the package, as strings of the form
|
||
@code{architecture-kernel}, for example @code{"x86_64-linux"}.
|
||
|
||
@item @code{maintainers} (default: @code{'()})
|
||
The list of maintainers of the package, as @code{maintainer} objects.
|
||
|
||
@item @code{location} (default: source location of the @code{package} form)
|
||
The source location of the package. It is useful to override this when
|
||
inheriting from another package, in which case this field is not
|
||
automatically corrected.
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@node origin Reference
|
||
@subsection @code{origin} Reference
|
||
|
||
This section summarizes all the options available in @code{origin}
|
||
declarations (@pxref{Defining Packages}).
|
||
|
||
@deftp {Data Type} origin
|
||
This is the data type representing a source code origin.
|
||
|
||
@table @asis
|
||
@item @code{uri}
|
||
An object containing the URI of the source. The object type depends on
|
||
the @code{method} (see below). For example, when using the
|
||
@var{url-fetch} method of @code{(guix download)}, the valid @code{uri}
|
||
values are: a URL represented as a string, or a list thereof.
|
||
|
||
@item @code{method}
|
||
A procedure that handles the URI.
|
||
|
||
Examples include:
|
||
|
||
@table @asis
|
||
@item @var{url-fetch} from @code{(guix download)}
|
||
download a file from the HTTP, HTTPS, or FTP URL specified in the
|
||
@code{uri} field;
|
||
|
||
@vindex git-fetch
|
||
@item @var{git-fetch} from @code{(guix git-download)}
|
||
clone the Git version control repository, and check out the revision
|
||
specified in the @code{uri} field as a @code{git-reference} object; a
|
||
@code{git-reference} looks like this:
|
||
|
||
@example
|
||
(git-reference
|
||
(url "git://git.debian.org/git/pkg-shadow/shadow")
|
||
(commit "v4.1.5.1"))
|
||
@end example
|
||
@end table
|
||
|
||
@item @code{sha256}
|
||
A bytevector containing the SHA-256 hash of the source. Typically the
|
||
@code{base32} form is used here to generate the bytevector from a
|
||
base-32 string.
|
||
|
||
You can obtain this information using @code{guix download}
|
||
(@pxref{Invoking guix download}) or @code{guix hash} (@pxref{Invoking
|
||
guix hash}).
|
||
|
||
@item @code{file-name} (default: @code{#f})
|
||
The file name under which the source code should be saved. When this is
|
||
@code{#f}, a sensible default value will be used in most cases. In case
|
||
the source is fetched from a URL, the file name from the URL will be
|
||
used. For version control checkouts, it is recommended to provide the
|
||
file name explicitly because the default is not very descriptive.
|
||
|
||
@item @code{patches} (default: @code{'()})
|
||
A list of file names, origins, or file-like objects (@pxref{G-Expressions,
|
||
file-like objects}) pointing to patches to be applied to the source.
|
||
|
||
This list of patches must be unconditional. In particular, it cannot
|
||
depend on the value of @code{%current-system} or
|
||
@code{%current-target-system}.
|
||
|
||
@item @code{snippet} (default: @code{#f})
|
||
A G-expression (@pxref{G-Expressions}) or S-expression that will be run
|
||
in the source directory. This is a convenient way to modify the source,
|
||
sometimes more convenient than a patch.
|
||
|
||
@item @code{patch-flags} (default: @code{'("-p1")})
|
||
A list of command-line flags that should be passed to the @code{patch}
|
||
command.
|
||
|
||
@item @code{patch-inputs} (default: @code{#f})
|
||
Input packages or derivations to the patching process. When this is
|
||
@code{#f}, the usual set of inputs necessary for patching are provided,
|
||
such as GNU@tie{}Patch.
|
||
|
||
@item @code{modules} (default: @code{'()})
|
||
A list of Guile modules that should be loaded during the patching
|
||
process and while running the code in the @code{snippet} field.
|
||
|
||
@item @code{patch-guile} (default: @code{#f})
|
||
The Guile package that should be used in the patching process. When
|
||
this is @code{#f}, a sensible default is used.
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@node Build Systems
|
||
@section Build Systems
|
||
|
||
@cindex build system
|
||
Each package definition specifies a @dfn{build system} and arguments for
|
||
that build system (@pxref{Defining Packages}). This @code{build-system}
|
||
field represents the build procedure of the package, as well as implicit
|
||
dependencies of that build procedure.
|
||
|
||
Build systems are @code{<build-system>} objects. The interface to
|
||
create and manipulate them is provided by the @code{(guix build-system)}
|
||
module, and actual build systems are exported by specific modules.
|
||
|
||
@cindex bag (low-level package representation)
|
||
Under the hood, build systems first compile package objects to
|
||
@dfn{bags}. A @dfn{bag} is like a package, but with less
|
||
ornamentation---in other words, a bag is a lower-level representation of
|
||
a package, which includes all the inputs of that package, including some
|
||
that were implicitly added by the build system. This intermediate
|
||
representation is then compiled to a derivation (@pxref{Derivations}).
|
||
|
||
Build systems accept an optional list of @dfn{arguments}. In package
|
||
definitions, these are passed @i{via} the @code{arguments} field
|
||
(@pxref{Defining Packages}). They are typically keyword arguments
|
||
(@pxref{Optional Arguments, keyword arguments in Guile,, guile, GNU
|
||
Guile Reference Manual}). The value of these arguments is usually
|
||
evaluated in the @dfn{build stratum}---i.e., by a Guile process launched
|
||
by the daemon (@pxref{Derivations}).
|
||
|
||
The main build system is @var{gnu-build-system}, which implements the
|
||
standard build procedure for GNU and many other packages. It
|
||
is provided by the @code{(guix build-system gnu)} module.
|
||
|
||
@defvr {Scheme Variable} gnu-build-system
|
||
@var{gnu-build-system} represents the GNU Build System, and variants
|
||
thereof (@pxref{Configuration, configuration and makefile conventions,,
|
||
standards, GNU Coding Standards}).
|
||
|
||
@cindex build phases
|
||
In a nutshell, packages using it are configured, built, and installed with
|
||
the usual @code{./configure && make && make check && make install}
|
||
command sequence. In practice, a few additional steps are often needed.
|
||
All these steps are split up in separate @dfn{phases},
|
||
notably@footnote{Please see the @code{(guix build gnu-build-system)}
|
||
modules for more details about the build phases.}:
|
||
|
||
@table @code
|
||
@item unpack
|
||
Unpack the source tarball, and change the current directory to the
|
||
extracted source tree. If the source is actually a directory, copy it
|
||
to the build tree, and enter that directory.
|
||
|
||
@item patch-source-shebangs
|
||
Patch shebangs encountered in source files so they refer to the right
|
||
store file names. For instance, this changes @code{#!/bin/sh} to
|
||
@code{#!/gnu/store/@dots{}-bash-4.3/bin/sh}.
|
||
|
||
@item configure
|
||
Run the @file{configure} script with a number of default options, such
|
||
as @code{--prefix=/gnu/store/@dots{}}, as well as the options specified
|
||
by the @code{#:configure-flags} argument.
|
||
|
||
@item build
|
||
Run @code{make} with the list of flags specified with
|
||
@code{#:make-flags}. If the @code{#:parallel-build?} argument is true
|
||
(the default), build with @code{make -j}.
|
||
|
||
@item check
|
||
Run @code{make check}, or some other target specified with
|
||
@code{#:test-target}, unless @code{#:tests? #f} is passed. If the
|
||
@code{#:parallel-tests?} argument is true (the default), run @code{make
|
||
check -j}.
|
||
|
||
@item install
|
||
Run @code{make install} with the flags listed in @code{#:make-flags}.
|
||
|
||
@item patch-shebangs
|
||
Patch shebangs on the installed executable files.
|
||
|
||
@item strip
|
||
Strip debugging symbols from ELF files (unless @code{#:strip-binaries?}
|
||
is false), copying them to the @code{debug} output when available
|
||
(@pxref{Installing Debugging Files}).
|
||
@end table
|
||
|
||
@vindex %standard-phases
|
||
The build-side module @code{(guix build gnu-build-system)} defines
|
||
@var{%standard-phases} as the default list of build phases.
|
||
@var{%standard-phases} is a list of symbol/procedure pairs, where the
|
||
procedure implements the actual phase.
|
||
|
||
The list of phases used for a particular package can be changed with the
|
||
@code{#:phases} parameter. For instance, passing:
|
||
|
||
@example
|
||
#:phases (modify-phases %standard-phases (delete 'configure))
|
||
@end example
|
||
|
||
means that all the phases described above will be used, except the
|
||
@code{configure} phase.
|
||
|
||
In addition, this build system ensures that the ``standard'' environment
|
||
for GNU packages is available. This includes tools such as GCC, libc,
|
||
Coreutils, Bash, Make, Diffutils, grep, and sed (see the @code{(guix
|
||
build-system gnu)} module for a complete list). We call these the
|
||
@dfn{implicit inputs} of a package, because package definitions do not
|
||
have to mention them.
|
||
@end defvr
|
||
|
||
Other @code{<build-system>} objects are defined to support other
|
||
conventions and tools used by free software packages. They inherit most
|
||
of @var{gnu-build-system}, and differ mainly in the set of inputs
|
||
implicitly added to the build process, and in the list of phases
|
||
executed. Some of these build systems are listed below.
|
||
|
||
@defvr {Scheme Variable} ant-build-system
|
||
This variable is exported by @code{(guix build-system ant)}. It
|
||
implements the build procedure for Java packages that can be built with
|
||
@url{http://ant.apache.org/, Ant build tool}.
|
||
|
||
It adds both @code{ant} and the @dfn{Java Development Kit} (JDK) as
|
||
provided by the @code{icedtea} package to the set of inputs. Different
|
||
packages can be specified with the @code{#:ant} and @code{#:jdk}
|
||
parameters, respectively.
|
||
|
||
When the original package does not provide a suitable Ant build file,
|
||
the parameter @code{#:jar-name} can be used to generate a minimal Ant
|
||
build file @file{build.xml} with tasks to build the specified jar
|
||
archive. In this case the parameter @code{#:source-dir} can be used to
|
||
specify the source sub-directory, defaulting to ``src''.
|
||
|
||
The @code{#:main-class} parameter can be used with the minimal ant
|
||
buildfile to specify the main class of the resulting jar. This makes the
|
||
jar file executable. The @code{#:test-include} parameter can be used to
|
||
specify the list of junit tests to run. It defaults to
|
||
@code{(list "**/*Test.java")}. The @code{#:test-exclude} can be used to
|
||
disable some tests. It defaults to @code{(list "**/Abstract*.java")},
|
||
because abstract classes cannot be run as tests.
|
||
|
||
The parameter @code{#:build-target} can be used to specify the Ant task
|
||
that should be run during the @code{build} phase. By default the
|
||
``jar'' task will be run.
|
||
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} asdf-build-system/source
|
||
@defvrx {Scheme Variable} asdf-build-system/sbcl
|
||
@defvrx {Scheme Variable} asdf-build-system/ecl
|
||
|
||
These variables, exported by @code{(guix build-system asdf)}, implement
|
||
build procedures for Common Lisp packages using
|
||
@url{https://common-lisp.net/project/asdf/, ``ASDF''}. ASDF is a system
|
||
definition facility for Common Lisp programs and libraries.
|
||
|
||
The @code{asdf-build-system/source} system installs the packages in
|
||
source form, and can be loaded using any common lisp implementation, via
|
||
ASDF. The others, such as @code{asdf-build-system/sbcl}, install binary
|
||
systems in the format which a particular implementation understands.
|
||
These build systems can also be used to produce executable programs, or
|
||
lisp images which contain a set of packages pre-loaded.
|
||
|
||
The build system uses naming conventions. For binary packages, the
|
||
package name should be prefixed with the lisp implementation, such as
|
||
@code{sbcl-} for @code{asdf-build-system/sbcl}.
|
||
|
||
Additionally, the corresponding source package should be labeled using
|
||
the same convention as python packages (see @ref{Python Modules}), using
|
||
the @code{cl-} prefix.
|
||
|
||
For binary packages, each system should be defined as a Guix package.
|
||
If one package @code{origin} contains several systems, package variants
|
||
can be created in order to build all the systems. Source packages,
|
||
which use @code{asdf-build-system/source}, may contain several systems.
|
||
|
||
In order to create executable programs and images, the build-side
|
||
procedures @code{build-program} and @code{build-image} can be used.
|
||
They should be called in a build phase after the @code{create-symlinks}
|
||
phase, so that the system which was just built can be used within the
|
||
resulting image. @code{build-program} requires a list of Common Lisp
|
||
expressions to be passed as the @code{#:entry-program} argument.
|
||
|
||
If the system is not defined within its own @code{.asd} file of the same
|
||
name, then the @code{#:asd-file} parameter should be used to specify
|
||
which file the system is defined in. Furthermore, if the package
|
||
defines a system for its tests in a separate file, it will be loaded
|
||
before the tests are run if it is specified by the
|
||
@code{#:test-asd-file} parameter. If it is not set, the files
|
||
@code{<system>-tests.asd}, @code{<system>-test.asd}, @code{tests.asd},
|
||
and @code{test.asd} will be tried if they exist.
|
||
|
||
If for some reason the package must be named in a different way than the
|
||
naming conventions suggest, the @code{#:asd-system-name} parameter can
|
||
be used to specify the name of the system.
|
||
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} cargo-build-system
|
||
@cindex Rust programming language
|
||
@cindex Cargo (Rust build system)
|
||
This variable is exported by @code{(guix build-system cargo)}. It
|
||
supports builds of packages using Cargo, the build tool of the
|
||
@uref{https://www.rust-lang.org, Rust programming language}.
|
||
|
||
In its @code{configure} phase, this build system replaces dependencies
|
||
specified in the @file{Carto.toml} file with inputs to the Guix package.
|
||
The @code{install} phase installs the binaries, and it also installs the
|
||
source code and @file{Cargo.toml} file.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} cmake-build-system
|
||
This variable is exported by @code{(guix build-system cmake)}. It
|
||
implements the build procedure for packages using the
|
||
@url{http://www.cmake.org, CMake build tool}.
|
||
|
||
It automatically adds the @code{cmake} package to the set of inputs.
|
||
Which package is used can be specified with the @code{#:cmake}
|
||
parameter.
|
||
|
||
The @code{#:configure-flags} parameter is taken as a list of flags
|
||
passed to the @command{cmake} command. The @code{#:build-type}
|
||
parameter specifies in abstract terms the flags passed to the compiler;
|
||
it defaults to @code{"RelWithDebInfo"} (short for ``release mode with
|
||
debugging information''), which roughly means that code is compiled with
|
||
@code{-O2 -g}, as is the case for Autoconf-based packages by default.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} go-build-system
|
||
This variable is exported by @code{(guix build-system go)}. It
|
||
implements a build procedure for Go packages using the standard
|
||
@url{https://golang.org/cmd/go/#hdr-Compile_packages_and_dependencies,
|
||
Go build mechanisms}.
|
||
|
||
The user is expected to provide a value for the key @code{#:import-path}
|
||
and, in some cases, @code{#:unpack-path}. The
|
||
@url{https://golang.org/doc/code.html#ImportPaths, import path}
|
||
corresponds to the filesystem path expected by the package's build
|
||
scripts and any referring packages, and provides a unique way to
|
||
refer to a Go package. It is typically based on a combination of the
|
||
package source code's remote URI and filesystem hierarchy structure. In
|
||
some cases, you will need to unpack the package's source code to a
|
||
different directory structure than the one indicated by the import path,
|
||
and @code{#:unpack-path} should be used in such cases.
|
||
|
||
Packages that provide Go libraries should be installed along with their
|
||
source code. The key @code{#:install-source?}, which defaults to
|
||
@code{#t}, controls whether or not the source code is installed. It can
|
||
be set to @code{#f} for packages that only provide executable files.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} glib-or-gtk-build-system
|
||
This variable is exported by @code{(guix build-system glib-or-gtk)}. It
|
||
is intended for use with packages making use of GLib or GTK+.
|
||
|
||
This build system adds the following two phases to the ones defined by
|
||
@var{gnu-build-system}:
|
||
|
||
@table @code
|
||
@item glib-or-gtk-wrap
|
||
The phase @code{glib-or-gtk-wrap} ensures that programs in
|
||
@file{bin/} are able to find GLib ``schemas'' and
|
||
@uref{https://developer.gnome.org/gtk3/stable/gtk-running.html, GTK+
|
||
modules}. This is achieved by wrapping the programs in launch scripts
|
||
that appropriately set the @code{XDG_DATA_DIRS} and @code{GTK_PATH}
|
||
environment variables.
|
||
|
||
It is possible to exclude specific package outputs from that wrapping
|
||
process by listing their names in the
|
||
@code{#:glib-or-gtk-wrap-excluded-outputs} parameter. This is useful
|
||
when an output is known not to contain any GLib or GTK+ binaries, and
|
||
where wrapping would gratuitously add a dependency of that output on
|
||
GLib and GTK+.
|
||
|
||
@item glib-or-gtk-compile-schemas
|
||
The phase @code{glib-or-gtk-compile-schemas} makes sure that all
|
||
@uref{https://developer.gnome.org/gio/stable/glib-compile-schemas.html,
|
||
GSettings schemas} of GLib are compiled. Compilation is performed by the
|
||
@command{glib-compile-schemas} program. It is provided by the package
|
||
@code{glib:bin} which is automatically imported by the build system.
|
||
The @code{glib} package providing @command{glib-compile-schemas} can be
|
||
specified with the @code{#:glib} parameter.
|
||
@end table
|
||
|
||
Both phases are executed after the @code{install} phase.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} minify-build-system
|
||
This variable is exported by @code{(guix build-system minify)}. It
|
||
implements a minification procedure for simple JavaScript packages.
|
||
|
||
It adds @code{uglify-js} to the set of inputs and uses it to compress
|
||
all JavaScript files in the @file{src} directory. A different minifier
|
||
package can be specified with the @code{#:uglify-js} parameter, but it
|
||
is expected that the package writes the minified code to the standard
|
||
output.
|
||
|
||
When the input JavaScript files are not all located in the @file{src}
|
||
directory, the parameter @code{#:javascript-files} can be used to
|
||
specify a list of file names to feed to the minifier.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} ocaml-build-system
|
||
This variable is exported by @code{(guix build-system ocaml)}. It implements
|
||
a build procedure for @uref{https://ocaml.org, OCaml} packages, which consists
|
||
of choosing the correct set of commands to run for each package. OCaml
|
||
packages can expect many different commands to be run. This build system will
|
||
try some of them.
|
||
|
||
When the package has a @file{setup.ml} file present at the top-level, it will
|
||
run @code{ocaml setup.ml -configure}, @code{ocaml setup.ml -build} and
|
||
@code{ocaml setup.ml -install}. The build system will assume that this file
|
||
was generated by @uref{http://oasis.forge.ocamlcore.org/, OASIS} and will take
|
||
care of setting the prefix and enabling tests if they are not disabled. You
|
||
can pass configure and build flags with the @code{#:configure-flags} and
|
||
@code{#:build-flags}. The @code{#:test-flags} key can be passed to change the
|
||
set of flags used to enable tests. The @code{#:use-make?} key can be used to
|
||
bypass this system in the build and install phases.
|
||
|
||
When the package has a @file{configure} file, it is assumed that it is a
|
||
hand-made configure script that requires a different argument format than
|
||
in the @code{gnu-build-system}. You can add more flags with the
|
||
@code{#:configure-flags} key.
|
||
|
||
When the package has a @file{Makefile} file (or @code{#:use-make?} is
|
||
@code{#t}), it will be used and more flags can be passed to the build and
|
||
install phases with the @code{#:make-flags} key.
|
||
|
||
Finally, some packages do not have these files and use a somewhat standard
|
||
location for its build system. In that case, the build system will run
|
||
@code{ocaml pkg/pkg.ml} or @code{ocaml pkg/build.ml} and take care of
|
||
providing the path to the required findlib module. Additional flags can
|
||
be passed via the @code{#:build-flags} key. Install is taken care of by
|
||
@command{opam-installer}. In this case, the @code{opam} package must
|
||
be added to the @code{native-inputs} field of the package definition.
|
||
|
||
Note that most OCaml packages assume they will be installed in the same
|
||
directory as OCaml, which is not what we want in guix. In particular, they
|
||
will install @file{.so} files in their module's directory, which is usually
|
||
fine because it is in the OCaml compiler directory. In guix though, these
|
||
libraries cannot be found and we use @code{CAML_LD_LIBRARY_PATH}. This
|
||
variable points to @file{lib/ocaml/site-lib/stubslibs} and this is where
|
||
@file{.so} libraries should be installed.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} python-build-system
|
||
This variable is exported by @code{(guix build-system python)}. It
|
||
implements the more or less standard build procedure used by Python
|
||
packages, which consists in running @code{python setup.py build} and
|
||
then @code{python setup.py install --prefix=/gnu/store/@dots{}}.
|
||
|
||
For packages that install stand-alone Python programs under @code{bin/},
|
||
it takes care of wrapping these programs so that their @code{PYTHONPATH}
|
||
environment variable points to all the Python libraries they depend on.
|
||
|
||
Which Python package is used to perform the build can be specified with
|
||
the @code{#:python} parameter. This is a useful way to force a package
|
||
to be built for a specific version of the Python interpreter, which
|
||
might be necessary if the package is only compatible with a single
|
||
interpreter version.
|
||
|
||
By default guix calls @code{setup.py} under control of
|
||
@code{setuptools}, much like @command{pip} does. Some packages are not
|
||
compatible with setuptools (and pip), thus you can disable this by
|
||
setting the @code{#:use-setuptools} parameter to @code{#f}.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} perl-build-system
|
||
This variable is exported by @code{(guix build-system perl)}. It
|
||
implements the standard build procedure for Perl packages, which either
|
||
consists in running @code{perl Build.PL --prefix=/gnu/store/@dots{}},
|
||
followed by @code{Build} and @code{Build install}; or in running
|
||
@code{perl Makefile.PL PREFIX=/gnu/store/@dots{}}, followed by
|
||
@code{make} and @code{make install}, depending on which of
|
||
@code{Build.PL} or @code{Makefile.PL} is present in the package
|
||
distribution. Preference is given to the former if both @code{Build.PL}
|
||
and @code{Makefile.PL} exist in the package distribution. This
|
||
preference can be reversed by specifying @code{#t} for the
|
||
@code{#:make-maker?} parameter.
|
||
|
||
The initial @code{perl Makefile.PL} or @code{perl Build.PL} invocation
|
||
passes flags specified by the @code{#:make-maker-flags} or
|
||
@code{#:module-build-flags} parameter, respectively.
|
||
|
||
Which Perl package is used can be specified with @code{#:perl}.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} r-build-system
|
||
This variable is exported by @code{(guix build-system r)}. It
|
||
implements the build procedure used by @uref{http://r-project.org, R}
|
||
packages, which essentially is little more than running @code{R CMD
|
||
INSTALL --library=/gnu/store/@dots{}} in an environment where
|
||
@code{R_LIBS_SITE} contains the paths to all R package inputs. Tests
|
||
are run after installation using the R function
|
||
@code{tools::testInstalledPackage}.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} texlive-build-system
|
||
This variable is exported by @code{(guix build-system texlive)}. It is
|
||
used to build TeX packages in batch mode with a specified engine. The
|
||
build system sets the @code{TEXINPUTS} variable to find all TeX source
|
||
files in the inputs.
|
||
|
||
By default it runs @code{luatex} on all files ending on @code{ins}. A
|
||
different engine and format can be specified with the
|
||
@code{#:tex-format} argument. Different build targets can be specified
|
||
with the @code{#:build-targets} argument, which expects a list of file
|
||
names. The build system adds only @code{texlive-bin} and
|
||
@code{texlive-latex-base} (both from @code{(gnu packages tex}) to the
|
||
inputs. Both can be overridden with the arguments @code{#:texlive-bin}
|
||
and @code{#:texlive-latex-base}, respectively.
|
||
|
||
The @code{#:tex-directory} parameter tells the build system where to
|
||
install the built files under the texmf tree.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} ruby-build-system
|
||
This variable is exported by @code{(guix build-system ruby)}. It
|
||
implements the RubyGems build procedure used by Ruby packages, which
|
||
involves running @code{gem build} followed by @code{gem install}.
|
||
|
||
The @code{source} field of a package that uses this build system
|
||
typically references a gem archive, since this is the format that Ruby
|
||
developers use when releasing their software. The build system unpacks
|
||
the gem archive, potentially patches the source, runs the test suite,
|
||
repackages the gem, and installs it. Additionally, directories and
|
||
tarballs may be referenced to allow building unreleased gems from Git or
|
||
a traditional source release tarball.
|
||
|
||
Which Ruby package is used can be specified with the @code{#:ruby}
|
||
parameter. A list of additional flags to be passed to the @command{gem}
|
||
command can be specified with the @code{#:gem-flags} parameter.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} waf-build-system
|
||
This variable is exported by @code{(guix build-system waf)}. It
|
||
implements a build procedure around the @code{waf} script. The common
|
||
phases---@code{configure}, @code{build}, and @code{install}---are
|
||
implemented by passing their names as arguments to the @code{waf}
|
||
script.
|
||
|
||
The @code{waf} script is executed by the Python interpreter. Which
|
||
Python package is used to run the script can be specified with the
|
||
@code{#:python} parameter.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} haskell-build-system
|
||
This variable is exported by @code{(guix build-system haskell)}. It
|
||
implements the Cabal build procedure used by Haskell packages, which
|
||
involves running @code{runhaskell Setup.hs configure
|
||
--prefix=/gnu/store/@dots{}} and @code{runhaskell Setup.hs build}.
|
||
Instead of installing the package by running @code{runhaskell Setup.hs
|
||
install}, to avoid trying to register libraries in the read-only
|
||
compiler store directory, the build system uses @code{runhaskell
|
||
Setup.hs copy}, followed by @code{runhaskell Setup.hs register}. In
|
||
addition, the build system generates the package documentation by
|
||
running @code{runhaskell Setup.hs haddock}, unless @code{#:haddock? #f}
|
||
is passed. Optional Haddock parameters can be passed with the help of
|
||
the @code{#:haddock-flags} parameter. If the file @code{Setup.hs} is
|
||
not found, the build system looks for @code{Setup.lhs} instead.
|
||
|
||
Which Haskell compiler is used can be specified with the @code{#:haskell}
|
||
parameter which defaults to @code{ghc}.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} dub-build-system
|
||
This variable is exported by @code{(guix build-system dub)}. It
|
||
implements the Dub build procedure used by D packages, which
|
||
involves running @code{dub build} and @code{dub run}.
|
||
Installation is done by copying the files manually.
|
||
|
||
Which D compiler is used can be specified with the @code{#:ldc}
|
||
parameter which defaults to @code{ldc}.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} emacs-build-system
|
||
This variable is exported by @code{(guix build-system emacs)}. It
|
||
implements an installation procedure similar to the packaging system
|
||
of Emacs itself (@pxref{Packages,,, emacs, The GNU Emacs Manual}).
|
||
|
||
It first creates the @code{@var{package}-autoloads.el} file, then it
|
||
byte compiles all Emacs Lisp files. Differently from the Emacs
|
||
packaging system, the Info documentation files are moved to the standard
|
||
documentation directory and the @file{dir} file is deleted. Each
|
||
package is installed in its own directory under
|
||
@file{share/emacs/site-lisp/guix.d}.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} font-build-system
|
||
This variable is exported by @code{(guix build-system font)}. It
|
||
implements an installation procedure for font packages where upstream
|
||
provides pre-compiled TrueType, OpenType, etc. font files that merely
|
||
need to be copied into place. It copies font files to standard
|
||
locations in the output directory.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} meson-build-system
|
||
This variable is exported by @code{(guix build-system meson)}. It
|
||
implements the build procedure for packages that use
|
||
@url{http://mesonbuild.com, Meson} as their build system.
|
||
|
||
It adds both Meson and @uref{https://ninja-build.org/, Ninja} to the set
|
||
of inputs, and they can be changed with the parameters @code{#:meson}
|
||
and @code{#:ninja} if needed. The default Meson is
|
||
@code{meson-for-build}, which is special because it doesn't clear the
|
||
@code{RUNPATH} of binaries and libraries when they are installed.
|
||
|
||
This build system is an extension of @var{gnu-build-system}, but with the
|
||
following phases changed to some specific for Meson:
|
||
|
||
@table @code
|
||
|
||
@item configure
|
||
The phase runs @code{meson} with the flags specified in
|
||
@code{#:configure-flags}. The flag @code{--build-type} is always set to
|
||
@code{plain} unless something else is specified in @code{#:build-type}.
|
||
|
||
@item build
|
||
The phase runs @code{ninja} to build the package in parallel by default, but
|
||
this can be changed with @code{#:parallel-build?}.
|
||
|
||
@item check
|
||
The phase runs @code{ninja} with the target specified in @code{#:test-target},
|
||
which is @code{"test"} by default.
|
||
|
||
@item install
|
||
The phase runs @code{ninja install} and can not be changed.
|
||
@end table
|
||
|
||
Apart from that, the build system also adds the following phases:
|
||
|
||
@table @code
|
||
|
||
@item fix-runpath
|
||
This phase tries to locate the local directories in the package being build,
|
||
which has libraries that some of the binaries need. If any are found, they will
|
||
be added to the programs @code{RUNPATH}. It is needed because
|
||
@code{meson-for-build} keeps the @code{RUNPATH} of binaries and libraries from
|
||
when they are build, but often that is not the @code{RUNPATH} we want.
|
||
Therefor it is also shrinked to the minimum needed by the program.
|
||
|
||
@item glib-or-gtk-wrap
|
||
This phase is the phase provided by @code{glib-or-gtk-build-system}, and it
|
||
is not enabled by default. It can be enabled with @code{#:glib-or-gtk?}.
|
||
|
||
@item glib-or-gtk-compile-schemas
|
||
This phase is the phase provided by @code{glib-or-gtk-build-system}, and it
|
||
is not enabled by default. It can be enabled with @code{#:glib-or-gtk?}.
|
||
@end table
|
||
@end defvr
|
||
|
||
Lastly, for packages that do not need anything as sophisticated, a
|
||
``trivial'' build system is provided. It is trivial in the sense that
|
||
it provides basically no support: it does not pull any implicit inputs,
|
||
and does not have a notion of build phases.
|
||
|
||
@defvr {Scheme Variable} trivial-build-system
|
||
This variable is exported by @code{(guix build-system trivial)}.
|
||
|
||
This build system requires a @code{#:builder} argument. This argument
|
||
must be a Scheme expression that builds the package output(s)---as
|
||
with @code{build-expression->derivation} (@pxref{Derivations,
|
||
@code{build-expression->derivation}}).
|
||
@end defvr
|
||
|
||
@node The Store
|
||
@section The Store
|
||
|
||
@cindex store
|
||
@cindex store items
|
||
@cindex store paths
|
||
|
||
Conceptually, the @dfn{store} is the place where derivations that have
|
||
been built successfully are stored---by default, @file{/gnu/store}.
|
||
Sub-directories in the store are referred to as @dfn{store items} or
|
||
sometimes @dfn{store paths}. The store has an associated database that
|
||
contains information such as the store paths referred to by each store
|
||
path, and the list of @emph{valid} store items---results of successful
|
||
builds. This database resides in @file{@var{localstatedir}/guix/db},
|
||
where @var{localstatedir} is the state directory specified @i{via}
|
||
@option{--localstatedir} at configure time, usually @file{/var}.
|
||
|
||
The store is @emph{always} accessed by the daemon on behalf of its clients
|
||
(@pxref{Invoking guix-daemon}). To manipulate the store, clients
|
||
connect to the daemon over a Unix-domain socket, send requests to it,
|
||
and read the result---these are remote procedure calls, or RPCs.
|
||
|
||
@quotation Note
|
||
Users must @emph{never} modify files under @file{/gnu/store} directly.
|
||
This would lead to inconsistencies and break the immutability
|
||
assumptions of Guix's functional model (@pxref{Introduction}).
|
||
|
||
@xref{Invoking guix gc, @command{guix gc --verify}}, for information on
|
||
how to check the integrity of the store and attempt recovery from
|
||
accidental modifications.
|
||
@end quotation
|
||
|
||
The @code{(guix store)} module provides procedures to connect to the
|
||
daemon, and to perform RPCs. These are described below. By default,
|
||
@code{open-connection}, and thus all the @command{guix} commands,
|
||
connect to the local daemon or to the URI specified by the
|
||
@code{GUIX_DAEMON_SOCKET} environment variable.
|
||
|
||
@defvr {Environment Variable} GUIX_DAEMON_SOCKET
|
||
When set, the value of this variable should be a file name or a URI
|
||
designating the daemon endpoint. When it is a file name, it denotes a
|
||
Unix-domain socket to connect to. In addition to file names, the
|
||
supported URI schemes are:
|
||
|
||
@table @code
|
||
@item file
|
||
@itemx unix
|
||
These are for Unix-domain sockets.
|
||
@code{file:///var/guix/daemon-socket/socket} is equivalent to
|
||
@file{/var/guix/daemon-socket/socket}.
|
||
|
||
@item guix
|
||
@cindex daemon, remote access
|
||
@cindex remote access to the daemon
|
||
@cindex daemon, cluster setup
|
||
@cindex clusters, daemon setup
|
||
These URIs denote connections over TCP/IP, without encryption nor
|
||
authentication of the remote host. The URI must specify the host name
|
||
and optionally a port number (by default port 44146 is used):
|
||
|
||
@example
|
||
guix://master.guix.example.org:1234
|
||
@end example
|
||
|
||
This setup is suitable on local networks, such as clusters, where only
|
||
trusted nodes may connect to the build daemon at
|
||
@code{master.guix.example.org}.
|
||
|
||
The @code{--listen} option of @command{guix-daemon} can be used to
|
||
instruct it to listen for TCP connections (@pxref{Invoking guix-daemon,
|
||
@code{--listen}}).
|
||
|
||
@item ssh
|
||
@cindex SSH access to build daemons
|
||
These URIs allow you to connect to a remote daemon over
|
||
SSH@footnote{This feature requires Guile-SSH (@pxref{Requirements}).}.
|
||
A typical URL might look like this:
|
||
|
||
@example
|
||
ssh://charlie@@guix.example.org:22
|
||
@end example
|
||
|
||
As for @command{guix copy}, the usual OpenSSH client configuration files
|
||
are honored (@pxref{Invoking guix copy}).
|
||
@end table
|
||
|
||
Additional URI schemes may be supported in the future.
|
||
|
||
@c XXX: Remove this note when the protocol incurs fewer round trips
|
||
@c and when (guix derivations) no longer relies on file system access.
|
||
@quotation Note
|
||
The ability to connect to remote build daemons is considered
|
||
experimental as of @value{VERSION}. Please get in touch with us to
|
||
share any problems or suggestions you may have (@pxref{Contributing}).
|
||
@end quotation
|
||
@end defvr
|
||
|
||
@deffn {Scheme Procedure} open-connection [@var{uri}] [#:reserve-space? #t]
|
||
Connect to the daemon over the Unix-domain socket at @var{uri} (a string). When
|
||
@var{reserve-space?} is true, instruct it to reserve a little bit of
|
||
extra space on the file system so that the garbage collector can still
|
||
operate should the disk become full. Return a server object.
|
||
|
||
@var{file} defaults to @var{%default-socket-path}, which is the normal
|
||
location given the options that were passed to @command{configure}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} close-connection @var{server}
|
||
Close the connection to @var{server}.
|
||
@end deffn
|
||
|
||
@defvr {Scheme Variable} current-build-output-port
|
||
This variable is bound to a SRFI-39 parameter, which refers to the port
|
||
where build and error logs sent by the daemon should be written.
|
||
@end defvr
|
||
|
||
Procedures that make RPCs all take a server object as their first
|
||
argument.
|
||
|
||
@deffn {Scheme Procedure} valid-path? @var{server} @var{path}
|
||
@cindex invalid store items
|
||
Return @code{#t} when @var{path} designates a valid store item and
|
||
@code{#f} otherwise (an invalid item may exist on disk but still be
|
||
invalid, for instance because it is the result of an aborted or failed
|
||
build.)
|
||
|
||
A @code{&nix-protocol-error} condition is raised if @var{path} is not
|
||
prefixed by the store directory (@file{/gnu/store}).
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} add-text-to-store @var{server} @var{name} @var{text} [@var{references}]
|
||
Add @var{text} under file @var{name} in the store, and return its store
|
||
path. @var{references} is the list of store paths referred to by the
|
||
resulting store path.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} build-derivations @var{server} @var{derivations}
|
||
Build @var{derivations} (a list of @code{<derivation>} objects or
|
||
derivation paths), and return when the worker is done building them.
|
||
Return @code{#t} on success.
|
||
@end deffn
|
||
|
||
Note that the @code{(guix monads)} module provides a monad as well as
|
||
monadic versions of the above procedures, with the goal of making it
|
||
more convenient to work with code that accesses the store (@pxref{The
|
||
Store Monad}).
|
||
|
||
@c FIXME
|
||
@i{This section is currently incomplete.}
|
||
|
||
@node Derivations
|
||
@section Derivations
|
||
|
||
@cindex derivations
|
||
Low-level build actions and the environment in which they are performed
|
||
are represented by @dfn{derivations}. A derivation contains the
|
||
following pieces of information:
|
||
|
||
@itemize
|
||
@item
|
||
The outputs of the derivation---derivations produce at least one file or
|
||
directory in the store, but may produce more.
|
||
|
||
@item
|
||
The inputs of the derivations, which may be other derivations or plain
|
||
files in the store (patches, build scripts, etc.)
|
||
|
||
@item
|
||
The system type targeted by the derivation---e.g., @code{x86_64-linux}.
|
||
|
||
@item
|
||
The file name of a build script in the store, along with the arguments
|
||
to be passed.
|
||
|
||
@item
|
||
A list of environment variables to be defined.
|
||
|
||
@end itemize
|
||
|
||
@cindex derivation path
|
||
Derivations allow clients of the daemon to communicate build actions to
|
||
the store. They exist in two forms: as an in-memory representation,
|
||
both on the client- and daemon-side, and as files in the store whose
|
||
name end in @code{.drv}---these files are referred to as @dfn{derivation
|
||
paths}. Derivations paths can be passed to the @code{build-derivations}
|
||
procedure to perform the build actions they prescribe (@pxref{The
|
||
Store}).
|
||
|
||
The @code{(guix derivations)} module provides a representation of
|
||
derivations as Scheme objects, along with procedures to create and
|
||
otherwise manipulate derivations. The lowest-level primitive to create
|
||
a derivation is the @code{derivation} procedure:
|
||
|
||
@deffn {Scheme Procedure} derivation @var{store} @var{name} @var{builder} @
|
||
@var{args} [#:outputs '("out")] [#:hash #f] [#:hash-algo #f] @
|
||
[#:recursive? #f] [#:inputs '()] [#:env-vars '()] @
|
||
[#:system (%current-system)] [#:references-graphs #f] @
|
||
[#:allowed-references #f] [#:disallowed-references #f] @
|
||
[#:leaked-env-vars #f] [#:local-build? #f] @
|
||
[#:substitutable? #t]
|
||
Build a derivation with the given arguments, and return the resulting
|
||
@code{<derivation>} object.
|
||
|
||
When @var{hash} and @var{hash-algo} are given, a
|
||
@dfn{fixed-output derivation} is created---i.e., one whose result is
|
||
known in advance, such as a file download. If, in addition,
|
||
@var{recursive?} is true, then that fixed output may be an executable
|
||
file or a directory and @var{hash} must be the hash of an archive
|
||
containing this output.
|
||
|
||
When @var{references-graphs} is true, it must be a list of file
|
||
name/store path pairs. In that case, the reference graph of each store
|
||
path is exported in the build environment in the corresponding file, in
|
||
a simple text format.
|
||
|
||
When @var{allowed-references} is true, it must be a list of store items
|
||
or outputs that the derivation's output may refer to. Likewise,
|
||
@var{disallowed-references}, if true, must be a list of things the
|
||
outputs may @emph{not} refer to.
|
||
|
||
When @var{leaked-env-vars} is true, it must be a list of strings
|
||
denoting environment variables that are allowed to ``leak'' from the
|
||
daemon's environment to the build environment. This is only applicable
|
||
to fixed-output derivations---i.e., when @var{hash} is true. The main
|
||
use is to allow variables such as @code{http_proxy} to be passed to
|
||
derivations that download files.
|
||
|
||
When @var{local-build?} is true, declare that the derivation is not a
|
||
good candidate for offloading and should rather be built locally
|
||
(@pxref{Daemon Offload Setup}). This is the case for small derivations
|
||
where the costs of data transfers would outweigh the benefits.
|
||
|
||
When @var{substitutable?} is false, declare that substitutes of the
|
||
derivation's output should not be used (@pxref{Substitutes}). This is
|
||
useful, for instance, when building packages that capture details of the
|
||
host CPU instruction set.
|
||
@end deffn
|
||
|
||
@noindent
|
||
Here's an example with a shell script as its builder, assuming
|
||
@var{store} is an open connection to the daemon, and @var{bash} points
|
||
to a Bash executable in the store:
|
||
|
||
@lisp
|
||
(use-modules (guix utils)
|
||
(guix store)
|
||
(guix derivations))
|
||
|
||
(let ((builder ; add the Bash script to the store
|
||
(add-text-to-store store "my-builder.sh"
|
||
"echo hello world > $out\n" '())))
|
||
(derivation store "foo"
|
||
bash `("-e" ,builder)
|
||
#:inputs `((,bash) (,builder))
|
||
#:env-vars '(("HOME" . "/homeless"))))
|
||
@result{} #<derivation /gnu/store/@dots{}-foo.drv => /gnu/store/@dots{}-foo>
|
||
@end lisp
|
||
|
||
As can be guessed, this primitive is cumbersome to use directly. A
|
||
better approach is to write build scripts in Scheme, of course! The
|
||
best course of action for that is to write the build code as a
|
||
``G-expression'', and to pass it to @code{gexp->derivation}. For more
|
||
information, @pxref{G-Expressions}.
|
||
|
||
Once upon a time, @code{gexp->derivation} did not exist and constructing
|
||
derivations with build code written in Scheme was achieved with
|
||
@code{build-expression->derivation}, documented below. This procedure
|
||
is now deprecated in favor of the much nicer @code{gexp->derivation}.
|
||
|
||
@deffn {Scheme Procedure} build-expression->derivation @var{store} @
|
||
@var{name} @var{exp} @
|
||
[#:system (%current-system)] [#:inputs '()] @
|
||
[#:outputs '("out")] [#:hash #f] [#:hash-algo #f] @
|
||
[#:recursive? #f] [#:env-vars '()] [#:modules '()] @
|
||
[#:references-graphs #f] [#:allowed-references #f] @
|
||
[#:disallowed-references #f] @
|
||
[#:local-build? #f] [#:substitutable? #t] [#:guile-for-build #f]
|
||
Return a derivation that executes Scheme expression @var{exp} as a
|
||
builder for derivation @var{name}. @var{inputs} must be a list of
|
||
@code{(name drv-path sub-drv)} tuples; when @var{sub-drv} is omitted,
|
||
@code{"out"} is assumed. @var{modules} is a list of names of Guile
|
||
modules from the current search path to be copied in the store,
|
||
compiled, and made available in the load path during the execution of
|
||
@var{exp}---e.g., @code{((guix build utils) (guix build
|
||
gnu-build-system))}.
|
||
|
||
@var{exp} is evaluated in an environment where @code{%outputs} is bound
|
||
to a list of output/path pairs, and where @code{%build-inputs} is bound
|
||
to a list of string/output-path pairs made from @var{inputs}.
|
||
Optionally, @var{env-vars} is a list of string pairs specifying the name
|
||
and value of environment variables visible to the builder. The builder
|
||
terminates by passing the result of @var{exp} to @code{exit}; thus, when
|
||
@var{exp} returns @code{#f}, the build is considered to have failed.
|
||
|
||
@var{exp} is built using @var{guile-for-build} (a derivation). When
|
||
@var{guile-for-build} is omitted or is @code{#f}, the value of the
|
||
@code{%guile-for-build} fluid is used instead.
|
||
|
||
See the @code{derivation} procedure for the meaning of
|
||
@var{references-graphs}, @var{allowed-references},
|
||
@var{disallowed-references}, @var{local-build?}, and
|
||
@var{substitutable?}.
|
||
@end deffn
|
||
|
||
@noindent
|
||
Here's an example of a single-output derivation that creates a directory
|
||
containing one file:
|
||
|
||
@lisp
|
||
(let ((builder '(let ((out (assoc-ref %outputs "out")))
|
||
(mkdir out) ; create /gnu/store/@dots{}-goo
|
||
(call-with-output-file (string-append out "/test")
|
||
(lambda (p)
|
||
(display '(hello guix) p))))))
|
||
(build-expression->derivation store "goo" builder))
|
||
|
||
@result{} #<derivation /gnu/store/@dots{}-goo.drv => @dots{}>
|
||
@end lisp
|
||
|
||
|
||
@node The Store Monad
|
||
@section The Store Monad
|
||
|
||
@cindex monad
|
||
|
||
The procedures that operate on the store described in the previous
|
||
sections all take an open connection to the build daemon as their first
|
||
argument. Although the underlying model is functional, they either have
|
||
side effects or depend on the current state of the store.
|
||
|
||
The former is inconvenient: the connection to the build daemon has to be
|
||
carried around in all those functions, making it impossible to compose
|
||
functions that do not take that parameter with functions that do. The
|
||
latter can be problematic: since store operations have side effects
|
||
and/or depend on external state, they have to be properly sequenced.
|
||
|
||
@cindex monadic values
|
||
@cindex monadic functions
|
||
This is where the @code{(guix monads)} module comes in. This module
|
||
provides a framework for working with @dfn{monads}, and a particularly
|
||
useful monad for our uses, the @dfn{store monad}. Monads are a
|
||
construct that allows two things: associating ``context'' with values
|
||
(in our case, the context is the store), and building sequences of
|
||
computations (here computations include accesses to the store). Values
|
||
in a monad---values that carry this additional context---are called
|
||
@dfn{monadic values}; procedures that return such values are called
|
||
@dfn{monadic procedures}.
|
||
|
||
Consider this ``normal'' procedure:
|
||
|
||
@example
|
||
(define (sh-symlink store)
|
||
;; Return a derivation that symlinks the 'bash' executable.
|
||
(let* ((drv (package-derivation store bash))
|
||
(out (derivation->output-path drv))
|
||
(sh (string-append out "/bin/bash")))
|
||
(build-expression->derivation store "sh"
|
||
`(symlink ,sh %output))))
|
||
@end example
|
||
|
||
Using @code{(guix monads)} and @code{(guix gexp)}, it may be rewritten
|
||
as a monadic function:
|
||
|
||
@example
|
||
(define (sh-symlink)
|
||
;; Same, but return a monadic value.
|
||
(mlet %store-monad ((drv (package->derivation bash)))
|
||
(gexp->derivation "sh"
|
||
#~(symlink (string-append #$drv "/bin/bash")
|
||
#$output))))
|
||
@end example
|
||
|
||
There are several things to note in the second version: the @code{store}
|
||
parameter is now implicit and is ``threaded'' in the calls to the
|
||
@code{package->derivation} and @code{gexp->derivation} monadic
|
||
procedures, and the monadic value returned by @code{package->derivation}
|
||
is @dfn{bound} using @code{mlet} instead of plain @code{let}.
|
||
|
||
As it turns out, the call to @code{package->derivation} can even be
|
||
omitted since it will take place implicitly, as we will see later
|
||
(@pxref{G-Expressions}):
|
||
|
||
@example
|
||
(define (sh-symlink)
|
||
(gexp->derivation "sh"
|
||
#~(symlink (string-append #$bash "/bin/bash")
|
||
#$output)))
|
||
@end example
|
||
|
||
@c See
|
||
@c <https://syntaxexclamation.wordpress.com/2014/06/26/escaping-continuations/>
|
||
@c for the funny quote.
|
||
Calling the monadic @code{sh-symlink} has no effect. As someone once
|
||
said, ``you exit a monad like you exit a building on fire: by running''.
|
||
So, to exit the monad and get the desired effect, one must use
|
||
@code{run-with-store}:
|
||
|
||
@example
|
||
(run-with-store (open-connection) (sh-symlink))
|
||
@result{} /gnu/store/...-sh-symlink
|
||
@end example
|
||
|
||
Note that the @code{(guix monad-repl)} module extends the Guile REPL with
|
||
new ``meta-commands'' to make it easier to deal with monadic procedures:
|
||
@code{run-in-store}, and @code{enter-store-monad}. The former is used
|
||
to ``run'' a single monadic value through the store:
|
||
|
||
@example
|
||
scheme@@(guile-user)> ,run-in-store (package->derivation hello)
|
||
$1 = #<derivation /gnu/store/@dots{}-hello-2.9.drv => @dots{}>
|
||
@end example
|
||
|
||
The latter enters a recursive REPL, where all the return values are
|
||
automatically run through the store:
|
||
|
||
@example
|
||
scheme@@(guile-user)> ,enter-store-monad
|
||
store-monad@@(guile-user) [1]> (package->derivation hello)
|
||
$2 = #<derivation /gnu/store/@dots{}-hello-2.9.drv => @dots{}>
|
||
store-monad@@(guile-user) [1]> (text-file "foo" "Hello!")
|
||
$3 = "/gnu/store/@dots{}-foo"
|
||
store-monad@@(guile-user) [1]> ,q
|
||
scheme@@(guile-user)>
|
||
@end example
|
||
|
||
@noindent
|
||
Note that non-monadic values cannot be returned in the
|
||
@code{store-monad} REPL.
|
||
|
||
The main syntactic forms to deal with monads in general are provided by
|
||
the @code{(guix monads)} module and are described below.
|
||
|
||
@deffn {Scheme Syntax} with-monad @var{monad} @var{body} ...
|
||
Evaluate any @code{>>=} or @code{return} forms in @var{body} as being
|
||
in @var{monad}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Syntax} return @var{val}
|
||
Return a monadic value that encapsulates @var{val}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Syntax} >>= @var{mval} @var{mproc} ...
|
||
@dfn{Bind} monadic value @var{mval}, passing its ``contents'' to monadic
|
||
procedures @var{mproc}@dots{}@footnote{This operation is commonly
|
||
referred to as ``bind'', but that name denotes an unrelated procedure in
|
||
Guile. Thus we use this somewhat cryptic symbol inherited from the
|
||
Haskell language.}. There can be one @var{mproc} or several of them, as
|
||
in this example:
|
||
|
||
@example
|
||
(run-with-state
|
||
(with-monad %state-monad
|
||
(>>= (return 1)
|
||
(lambda (x) (return (+ 1 x)))
|
||
(lambda (x) (return (* 2 x)))))
|
||
'some-state)
|
||
|
||
@result{} 4
|
||
@result{} some-state
|
||
@end example
|
||
@end deffn
|
||
|
||
@deffn {Scheme Syntax} mlet @var{monad} ((@var{var} @var{mval}) ...) @
|
||
@var{body} ...
|
||
@deffnx {Scheme Syntax} mlet* @var{monad} ((@var{var} @var{mval}) ...) @
|
||
@var{body} ...
|
||
Bind the variables @var{var} to the monadic values @var{mval} in
|
||
@var{body}, which is a sequence of expressions. As with the bind
|
||
operator, this can be thought of as ``unpacking'' the raw, non-monadic
|
||
value ``contained'' in @var{mval} and making @var{var} refer to that
|
||
raw, non-monadic value within the scope of the @var{body}. The form
|
||
(@var{var} -> @var{val}) binds @var{var} to the ``normal'' value
|
||
@var{val}, as per @code{let}. The binding operations occur in sequence
|
||
from left to right. The last expression of @var{body} must be a monadic
|
||
expression, and its result will become the result of the @code{mlet} or
|
||
@code{mlet*} when run in the @var{monad}.
|
||
|
||
@code{mlet*} is to @code{mlet} what @code{let*} is to @code{let}
|
||
(@pxref{Local Bindings,,, guile, GNU Guile Reference Manual}).
|
||
@end deffn
|
||
|
||
@deffn {Scheme System} mbegin @var{monad} @var{mexp} ...
|
||
Bind @var{mexp} and the following monadic expressions in sequence,
|
||
returning the result of the last expression. Every expression in the
|
||
sequence must be a monadic expression.
|
||
|
||
This is akin to @code{mlet}, except that the return values of the
|
||
monadic expressions are ignored. In that sense, it is analogous to
|
||
@code{begin}, but applied to monadic expressions.
|
||
@end deffn
|
||
|
||
@deffn {Scheme System} mwhen @var{condition} @var{mexp0} @var{mexp*} ...
|
||
When @var{condition} is true, evaluate the sequence of monadic
|
||
expressions @var{mexp0}..@var{mexp*} as in an @code{mbegin}. When
|
||
@var{condition} is false, return @code{*unspecified*} in the current
|
||
monad. Every expression in the sequence must be a monadic expression.
|
||
@end deffn
|
||
|
||
@deffn {Scheme System} munless @var{condition} @var{mexp0} @var{mexp*} ...
|
||
When @var{condition} is false, evaluate the sequence of monadic
|
||
expressions @var{mexp0}..@var{mexp*} as in an @code{mbegin}. When
|
||
@var{condition} is true, return @code{*unspecified*} in the current
|
||
monad. Every expression in the sequence must be a monadic expression.
|
||
@end deffn
|
||
|
||
@cindex state monad
|
||
The @code{(guix monads)} module provides the @dfn{state monad}, which
|
||
allows an additional value---the state---to be @emph{threaded} through
|
||
monadic procedure calls.
|
||
|
||
@defvr {Scheme Variable} %state-monad
|
||
The state monad. Procedures in the state monad can access and change
|
||
the state that is threaded.
|
||
|
||
Consider the example below. The @code{square} procedure returns a value
|
||
in the state monad. It returns the square of its argument, but also
|
||
increments the current state value:
|
||
|
||
@example
|
||
(define (square x)
|
||
(mlet %state-monad ((count (current-state)))
|
||
(mbegin %state-monad
|
||
(set-current-state (+ 1 count))
|
||
(return (* x x)))))
|
||
|
||
(run-with-state (sequence %state-monad (map square (iota 3))) 0)
|
||
@result{} (0 1 4)
|
||
@result{} 3
|
||
@end example
|
||
|
||
When ``run'' through @var{%state-monad}, we obtain that additional state
|
||
value, which is the number of @code{square} calls.
|
||
@end defvr
|
||
|
||
@deffn {Monadic Procedure} current-state
|
||
Return the current state as a monadic value.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} set-current-state @var{value}
|
||
Set the current state to @var{value} and return the previous state as a
|
||
monadic value.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} state-push @var{value}
|
||
Push @var{value} to the current state, which is assumed to be a list,
|
||
and return the previous state as a monadic value.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} state-pop
|
||
Pop a value from the current state and return it as a monadic value.
|
||
The state is assumed to be a list.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} run-with-state @var{mval} [@var{state}]
|
||
Run monadic value @var{mval} starting with @var{state} as the initial
|
||
state. Return two values: the resulting value, and the resulting state.
|
||
@end deffn
|
||
|
||
The main interface to the store monad, provided by the @code{(guix
|
||
store)} module, is as follows.
|
||
|
||
@defvr {Scheme Variable} %store-monad
|
||
The store monad---an alias for @var{%state-monad}.
|
||
|
||
Values in the store monad encapsulate accesses to the store. When its
|
||
effect is needed, a value of the store monad must be ``evaluated'' by
|
||
passing it to the @code{run-with-store} procedure (see below.)
|
||
@end defvr
|
||
|
||
@deffn {Scheme Procedure} run-with-store @var{store} @var{mval} [#:guile-for-build] [#:system (%current-system)]
|
||
Run @var{mval}, a monadic value in the store monad, in @var{store}, an
|
||
open store connection.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} text-file @var{name} @var{text} [@var{references}]
|
||
Return as a monadic value the absolute file name in the store of the file
|
||
containing @var{text}, a string. @var{references} is a list of store items that the
|
||
resulting text file refers to; it defaults to the empty list.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} interned-file @var{file} [@var{name}] @
|
||
[#:recursive? #t] [#:select? (const #t)]
|
||
Return the name of @var{file} once interned in the store. Use
|
||
@var{name} as its store name, or the basename of @var{file} if
|
||
@var{name} is omitted.
|
||
|
||
When @var{recursive?} is true, the contents of @var{file} are added
|
||
recursively; if @var{file} designates a flat file and @var{recursive?}
|
||
is true, its contents are added, and its permission bits are kept.
|
||
|
||
When @var{recursive?} is true, call @code{(@var{select?} @var{file}
|
||
@var{stat})} for each directory entry, where @var{file} is the entry's
|
||
absolute file name and @var{stat} is the result of @code{lstat}; exclude
|
||
entries for which @var{select?} does not return true.
|
||
|
||
The example below adds a file to the store, under two different names:
|
||
|
||
@example
|
||
(run-with-store (open-connection)
|
||
(mlet %store-monad ((a (interned-file "README"))
|
||
(b (interned-file "README" "LEGU-MIN")))
|
||
(return (list a b))))
|
||
|
||
@result{} ("/gnu/store/rwm@dots{}-README" "/gnu/store/44i@dots{}-LEGU-MIN")
|
||
@end example
|
||
|
||
@end deffn
|
||
|
||
The @code{(guix packages)} module exports the following package-related
|
||
monadic procedures:
|
||
|
||
@deffn {Monadic Procedure} package-file @var{package} [@var{file}] @
|
||
[#:system (%current-system)] [#:target #f] @
|
||
[#:output "out"]
|
||
Return as a monadic
|
||
value in the absolute file name of @var{file} within the @var{output}
|
||
directory of @var{package}. When @var{file} is omitted, return the name
|
||
of the @var{output} directory of @var{package}. When @var{target} is
|
||
true, use it as a cross-compilation target triplet.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} package->derivation @var{package} [@var{system}]
|
||
@deffnx {Monadic Procedure} package->cross-derivation @var{package} @
|
||
@var{target} [@var{system}]
|
||
Monadic version of @code{package-derivation} and
|
||
@code{package-cross-derivation} (@pxref{Defining Packages}).
|
||
@end deffn
|
||
|
||
|
||
@node G-Expressions
|
||
@section G-Expressions
|
||
|
||
@cindex G-expression
|
||
@cindex build code quoting
|
||
So we have ``derivations'', which represent a sequence of build actions
|
||
to be performed to produce an item in the store (@pxref{Derivations}).
|
||
These build actions are performed when asking the daemon to actually
|
||
build the derivations; they are run by the daemon in a container
|
||
(@pxref{Invoking guix-daemon}).
|
||
|
||
@cindex strata of code
|
||
It should come as no surprise that we like to write these build actions
|
||
in Scheme. When we do that, we end up with two @dfn{strata} of Scheme
|
||
code@footnote{The term @dfn{stratum} in this context was coined by
|
||
Manuel Serrano et al.@: in the context of their work on Hop. Oleg
|
||
Kiselyov, who has written insightful
|
||
@url{http://okmij.org/ftp/meta-programming/#meta-scheme, essays and code
|
||
on this topic}, refers to this kind of code generation as
|
||
@dfn{staging}.}: the ``host code''---code that defines packages, talks
|
||
to the daemon, etc.---and the ``build code''---code that actually
|
||
performs build actions, such as making directories, invoking
|
||
@command{make}, etc.
|
||
|
||
To describe a derivation and its build actions, one typically needs to
|
||
embed build code inside host code. It boils down to manipulating build
|
||
code as data, and the homoiconicity of Scheme---code has a direct
|
||
representation as data---comes in handy for that. But we need more than
|
||
the normal @code{quasiquote} mechanism in Scheme to construct build
|
||
expressions.
|
||
|
||
The @code{(guix gexp)} module implements @dfn{G-expressions}, a form of
|
||
S-expressions adapted to build expressions. G-expressions, or
|
||
@dfn{gexps}, consist essentially of three syntactic forms: @code{gexp},
|
||
@code{ungexp}, and @code{ungexp-splicing} (or simply: @code{#~},
|
||
@code{#$}, and @code{#$@@}), which are comparable to
|
||
@code{quasiquote}, @code{unquote}, and @code{unquote-splicing},
|
||
respectively (@pxref{Expression Syntax, @code{quasiquote},, guile,
|
||
GNU Guile Reference Manual}). However, there are major differences:
|
||
|
||
@itemize
|
||
@item
|
||
Gexps are meant to be written to a file and run or manipulated by other
|
||
processes.
|
||
|
||
@item
|
||
When a high-level object such as a package or derivation is unquoted
|
||
inside a gexp, the result is as if its output file name had been
|
||
introduced.
|
||
|
||
@item
|
||
Gexps carry information about the packages or derivations they refer to,
|
||
and these dependencies are automatically added as inputs to the build
|
||
processes that use them.
|
||
@end itemize
|
||
|
||
@cindex lowering, of high-level objects in gexps
|
||
This mechanism is not limited to package and derivation
|
||
objects: @dfn{compilers} able to ``lower'' other high-level objects to
|
||
derivations or files in the store can be defined,
|
||
such that these objects can also be inserted
|
||
into gexps. For example, a useful type of high-level objects that can be
|
||
inserted in a gexp is ``file-like objects'', which make it easy to
|
||
add files to the store and to refer to them in
|
||
derivations and such (see @code{local-file} and @code{plain-file}
|
||
below.)
|
||
|
||
To illustrate the idea, here is an example of a gexp:
|
||
|
||
@example
|
||
(define build-exp
|
||
#~(begin
|
||
(mkdir #$output)
|
||
(chdir #$output)
|
||
(symlink (string-append #$coreutils "/bin/ls")
|
||
"list-files")))
|
||
@end example
|
||
|
||
This gexp can be passed to @code{gexp->derivation}; we obtain a
|
||
derivation that builds a directory containing exactly one symlink to
|
||
@file{/gnu/store/@dots{}-coreutils-8.22/bin/ls}:
|
||
|
||
@example
|
||
(gexp->derivation "the-thing" build-exp)
|
||
@end example
|
||
|
||
As one would expect, the @code{"/gnu/store/@dots{}-coreutils-8.22"} string is
|
||
substituted to the reference to the @var{coreutils} package in the
|
||
actual build code, and @var{coreutils} is automatically made an input to
|
||
the derivation. Likewise, @code{#$output} (equivalent to @code{(ungexp
|
||
output)}) is replaced by a string containing the directory name of the
|
||
output of the derivation.
|
||
|
||
@cindex cross compilation
|
||
In a cross-compilation context, it is useful to distinguish between
|
||
references to the @emph{native} build of a package---that can run on the
|
||
host---versus references to cross builds of a package. To that end, the
|
||
@code{#+} plays the same role as @code{#$}, but is a reference to a
|
||
native package build:
|
||
|
||
@example
|
||
(gexp->derivation "vi"
|
||
#~(begin
|
||
(mkdir #$output)
|
||
(system* (string-append #+coreutils "/bin/ln")
|
||
"-s"
|
||
(string-append #$emacs "/bin/emacs")
|
||
(string-append #$output "/bin/vi")))
|
||
#:target "mips64el-linux-gnu")
|
||
@end example
|
||
|
||
@noindent
|
||
In the example above, the native build of @var{coreutils} is used, so
|
||
that @command{ln} can actually run on the host; but then the
|
||
cross-compiled build of @var{emacs} is referenced.
|
||
|
||
@cindex imported modules, for gexps
|
||
@findex with-imported-modules
|
||
Another gexp feature is @dfn{imported modules}: sometimes you want to be
|
||
able to use certain Guile modules from the ``host environment'' in the
|
||
gexp, so those modules should be imported in the ``build environment''.
|
||
The @code{with-imported-modules} form allows you to express that:
|
||
|
||
@example
|
||
(let ((build (with-imported-modules '((guix build utils))
|
||
#~(begin
|
||
(use-modules (guix build utils))
|
||
(mkdir-p (string-append #$output "/bin"))))))
|
||
(gexp->derivation "empty-dir"
|
||
#~(begin
|
||
#$build
|
||
(display "success!\n")
|
||
#t)))
|
||
@end example
|
||
|
||
@noindent
|
||
In this example, the @code{(guix build utils)} module is automatically
|
||
pulled into the isolated build environment of our gexp, such that
|
||
@code{(use-modules (guix build utils))} works as expected.
|
||
|
||
@cindex module closure
|
||
@findex source-module-closure
|
||
Usually you want the @emph{closure} of the module to be imported---i.e.,
|
||
the module itself and all the modules it depends on---rather than just
|
||
the module; failing to do that, attempts to use the module will fail
|
||
because of missing dependent modules. The @code{source-module-closure}
|
||
procedure computes the closure of a module by looking at its source file
|
||
headers, which comes in handy in this case:
|
||
|
||
@example
|
||
(use-modules (guix modules)) ;for 'source-module-closure'
|
||
|
||
(with-imported-modules (source-module-closure
|
||
'((guix build utils)
|
||
(gnu build vm)))
|
||
(gexp->derivation "something-with-vms"
|
||
#~(begin
|
||
(use-modules (guix build utils)
|
||
(gnu build vm))
|
||
@dots{})))
|
||
@end example
|
||
|
||
The syntactic form to construct gexps is summarized below.
|
||
|
||
@deffn {Scheme Syntax} #~@var{exp}
|
||
@deffnx {Scheme Syntax} (gexp @var{exp})
|
||
Return a G-expression containing @var{exp}. @var{exp} may contain one
|
||
or more of the following forms:
|
||
|
||
@table @code
|
||
@item #$@var{obj}
|
||
@itemx (ungexp @var{obj})
|
||
Introduce a reference to @var{obj}. @var{obj} may have one of the
|
||
supported types, for example a package or a
|
||
derivation, in which case the @code{ungexp} form is replaced by its
|
||
output file name---e.g., @code{"/gnu/store/@dots{}-coreutils-8.22}.
|
||
|
||
If @var{obj} is a list, it is traversed and references to supported
|
||
objects are substituted similarly.
|
||
|
||
If @var{obj} is another gexp, its contents are inserted and its
|
||
dependencies are added to those of the containing gexp.
|
||
|
||
If @var{obj} is another kind of object, it is inserted as is.
|
||
|
||
@item #$@var{obj}:@var{output}
|
||
@itemx (ungexp @var{obj} @var{output})
|
||
This is like the form above, but referring explicitly to the
|
||
@var{output} of @var{obj}---this is useful when @var{obj} produces
|
||
multiple outputs (@pxref{Packages with Multiple Outputs}).
|
||
|
||
@item #+@var{obj}
|
||
@itemx #+@var{obj}:output
|
||
@itemx (ungexp-native @var{obj})
|
||
@itemx (ungexp-native @var{obj} @var{output})
|
||
Same as @code{ungexp}, but produces a reference to the @emph{native}
|
||
build of @var{obj} when used in a cross compilation context.
|
||
|
||
@item #$output[:@var{output}]
|
||
@itemx (ungexp output [@var{output}])
|
||
Insert a reference to derivation output @var{output}, or to the main
|
||
output when @var{output} is omitted.
|
||
|
||
This only makes sense for gexps passed to @code{gexp->derivation}.
|
||
|
||
@item #$@@@var{lst}
|
||
@itemx (ungexp-splicing @var{lst})
|
||
Like the above, but splices the contents of @var{lst} inside the
|
||
containing list.
|
||
|
||
@item #+@@@var{lst}
|
||
@itemx (ungexp-native-splicing @var{lst})
|
||
Like the above, but refers to native builds of the objects listed in
|
||
@var{lst}.
|
||
|
||
@end table
|
||
|
||
G-expressions created by @code{gexp} or @code{#~} are run-time objects
|
||
of the @code{gexp?} type (see below.)
|
||
@end deffn
|
||
|
||
@deffn {Scheme Syntax} with-imported-modules @var{modules} @var{body}@dots{}
|
||
Mark the gexps defined in @var{body}@dots{} as requiring @var{modules}
|
||
in their execution environment.
|
||
|
||
Each item in @var{modules} can be the name of a module, such as
|
||
@code{(guix build utils)}, or it can be a module name, followed by an
|
||
arrow, followed by a file-like object:
|
||
|
||
@example
|
||
`((guix build utils)
|
||
(guix gcrypt)
|
||
((guix config) => ,(scheme-file "config.scm"
|
||
#~(define-module @dots{}))))
|
||
@end example
|
||
|
||
@noindent
|
||
In the example above, the first two modules are taken from the search
|
||
path, and the last one is created from the given file-like object.
|
||
|
||
This form has @emph{lexical} scope: it has an effect on the gexps
|
||
directly defined in @var{body}@dots{}, but not on those defined, say, in
|
||
procedures called from @var{body}@dots{}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} gexp? @var{obj}
|
||
Return @code{#t} if @var{obj} is a G-expression.
|
||
@end deffn
|
||
|
||
G-expressions are meant to be written to disk, either as code building
|
||
some derivation, or as plain files in the store. The monadic procedures
|
||
below allow you to do that (@pxref{The Store Monad}, for more
|
||
information about monads.)
|
||
|
||
@deffn {Monadic Procedure} gexp->derivation @var{name} @var{exp} @
|
||
[#:system (%current-system)] [#:target #f] [#:graft? #t] @
|
||
[#:hash #f] [#:hash-algo #f] @
|
||
[#:recursive? #f] [#:env-vars '()] [#:modules '()] @
|
||
[#:module-path @var{%load-path}] @
|
||
[#:references-graphs #f] [#:allowed-references #f] @
|
||
[#:disallowed-references #f] @
|
||
[#:leaked-env-vars #f] @
|
||
[#:script-name (string-append @var{name} "-builder")] @
|
||
[#:local-build? #f] [#:substitutable? #t] [#:guile-for-build #f]
|
||
Return a derivation @var{name} that runs @var{exp} (a gexp) with
|
||
@var{guile-for-build} (a derivation) on @var{system}; @var{exp} is
|
||
stored in a file called @var{script-name}. When @var{target} is true,
|
||
it is used as the cross-compilation target triplet for packages referred
|
||
to by @var{exp}.
|
||
|
||
@var{modules} is deprecated in favor of @code{with-imported-modules}.
|
||
Its meaning is to
|
||
make @var{modules} available in the evaluation context of @var{exp};
|
||
@var{modules} is a list of names of Guile modules searched in
|
||
@var{module-path} to be copied in the store, compiled, and made available in
|
||
the load path during the execution of @var{exp}---e.g., @code{((guix
|
||
build utils) (guix build gnu-build-system))}.
|
||
|
||
@var{graft?} determines whether packages referred to by @var{exp} should be grafted when
|
||
applicable.
|
||
|
||
When @var{references-graphs} is true, it must be a list of tuples of one of the
|
||
following forms:
|
||
|
||
@example
|
||
(@var{file-name} @var{package})
|
||
(@var{file-name} @var{package} @var{output})
|
||
(@var{file-name} @var{derivation})
|
||
(@var{file-name} @var{derivation} @var{output})
|
||
(@var{file-name} @var{store-item})
|
||
@end example
|
||
|
||
The right-hand-side of each element of @var{references-graphs} is automatically made
|
||
an input of the build process of @var{exp}. In the build environment, each
|
||
@var{file-name} contains the reference graph of the corresponding item, in a simple
|
||
text format.
|
||
|
||
@var{allowed-references} must be either @code{#f} or a list of output names and packages.
|
||
In the latter case, the list denotes store items that the result is allowed to
|
||
refer to. Any reference to another store item will lead to a build error.
|
||
Similarly for @var{disallowed-references}, which can list items that must not be
|
||
referenced by the outputs.
|
||
|
||
The other arguments are as for @code{derivation} (@pxref{Derivations}).
|
||
@end deffn
|
||
|
||
@cindex file-like objects
|
||
The @code{local-file}, @code{plain-file}, @code{computed-file},
|
||
@code{program-file}, and @code{scheme-file} procedures below return
|
||
@dfn{file-like objects}. That is, when unquoted in a G-expression,
|
||
these objects lead to a file in the store. Consider this G-expression:
|
||
|
||
@example
|
||
#~(system* #$(file-append glibc "/sbin/nscd") "-f"
|
||
#$(local-file "/tmp/my-nscd.conf"))
|
||
@end example
|
||
|
||
The effect here is to ``intern'' @file{/tmp/my-nscd.conf} by copying it
|
||
to the store. Once expanded, for instance @i{via}
|
||
@code{gexp->derivation}, the G-expression refers to that copy under
|
||
@file{/gnu/store}; thus, modifying or removing the file in @file{/tmp}
|
||
does not have any effect on what the G-expression does.
|
||
@code{plain-file} can be used similarly; it differs in that the file
|
||
content is directly passed as a string.
|
||
|
||
@deffn {Scheme Procedure} local-file @var{file} [@var{name}] @
|
||
[#:recursive? #f] [#:select? (const #t)]
|
||
Return an object representing local file @var{file} to add to the store; this
|
||
object can be used in a gexp. If @var{file} is a relative file name, it is looked
|
||
up relative to the source file where this form appears. @var{file} will be added to
|
||
the store under @var{name}--by default the base name of @var{file}.
|
||
|
||
When @var{recursive?} is true, the contents of @var{file} are added recursively; if @var{file}
|
||
designates a flat file and @var{recursive?} is true, its contents are added, and its
|
||
permission bits are kept.
|
||
|
||
When @var{recursive?} is true, call @code{(@var{select?} @var{file}
|
||
@var{stat})} for each directory entry, where @var{file} is the entry's
|
||
absolute file name and @var{stat} is the result of @code{lstat}; exclude
|
||
entries for which @var{select?} does not return true.
|
||
|
||
This is the declarative counterpart of the @code{interned-file} monadic
|
||
procedure (@pxref{The Store Monad, @code{interned-file}}).
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} plain-file @var{name} @var{content}
|
||
Return an object representing a text file called @var{name} with the given
|
||
@var{content} (a string) to be added to the store.
|
||
|
||
This is the declarative counterpart of @code{text-file}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} computed-file @var{name} @var{gexp} @
|
||
[#:options '(#:local-build? #t)]
|
||
Return an object representing the store item @var{name}, a file or
|
||
directory computed by @var{gexp}. @var{options}
|
||
is a list of additional arguments to pass to @code{gexp->derivation}.
|
||
|
||
This is the declarative counterpart of @code{gexp->derivation}.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} gexp->script @var{name} @var{exp}
|
||
Return an executable script @var{name} that runs @var{exp} using
|
||
@var{guile}, with @var{exp}'s imported modules in its search path.
|
||
|
||
The example below builds a script that simply invokes the @command{ls}
|
||
command:
|
||
|
||
@example
|
||
(use-modules (guix gexp) (gnu packages base))
|
||
|
||
(gexp->script "list-files"
|
||
#~(execl #$(file-append coreutils "/bin/ls")
|
||
"ls"))
|
||
@end example
|
||
|
||
When ``running'' it through the store (@pxref{The Store Monad,
|
||
@code{run-with-store}}), we obtain a derivation that produces an
|
||
executable file @file{/gnu/store/@dots{}-list-files} along these lines:
|
||
|
||
@example
|
||
#!/gnu/store/@dots{}-guile-2.0.11/bin/guile -ds
|
||
!#
|
||
(execl "/gnu/store/@dots{}-coreutils-8.22"/bin/ls" "ls")
|
||
@end example
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} program-file @var{name} @var{exp} @
|
||
[#:guile #f]
|
||
Return an object representing the executable store item @var{name} that
|
||
runs @var{gexp}. @var{guile} is the Guile package used to execute that
|
||
script.
|
||
|
||
This is the declarative counterpart of @code{gexp->script}.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} gexp->file @var{name} @var{exp} @
|
||
[#:set-load-path? #t]
|
||
Return a derivation that builds a file @var{name} containing @var{exp}.
|
||
When @var{set-load-path?} is true, emit code in the resulting file to
|
||
set @code{%load-path} and @code{%load-compiled-path} to honor
|
||
@var{exp}'s imported modules.
|
||
|
||
The resulting file holds references to all the dependencies of @var{exp}
|
||
or a subset thereof.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} scheme-file @var{name} @var{exp}
|
||
Return an object representing the Scheme file @var{name} that contains
|
||
@var{exp}.
|
||
|
||
This is the declarative counterpart of @code{gexp->file}.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} text-file* @var{name} @var{text} @dots{}
|
||
Return as a monadic value a derivation that builds a text file
|
||
containing all of @var{text}. @var{text} may list, in addition to
|
||
strings, objects of any type that can be used in a gexp: packages,
|
||
derivations, local file objects, etc. The resulting store file holds
|
||
references to all these.
|
||
|
||
This variant should be preferred over @code{text-file} anytime the file
|
||
to create will reference items from the store. This is typically the
|
||
case when building a configuration file that embeds store file names,
|
||
like this:
|
||
|
||
@example
|
||
(define (profile.sh)
|
||
;; Return the name of a shell script in the store that
|
||
;; initializes the 'PATH' environment variable.
|
||
(text-file* "profile.sh"
|
||
"export PATH=" coreutils "/bin:"
|
||
grep "/bin:" sed "/bin\n"))
|
||
@end example
|
||
|
||
In this example, the resulting @file{/gnu/store/@dots{}-profile.sh} file
|
||
will reference @var{coreutils}, @var{grep}, and @var{sed}, thereby
|
||
preventing them from being garbage-collected during its lifetime.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} mixed-text-file @var{name} @var{text} @dots{}
|
||
Return an object representing store file @var{name} containing
|
||
@var{text}. @var{text} is a sequence of strings and file-like objects,
|
||
as in:
|
||
|
||
@example
|
||
(mixed-text-file "profile"
|
||
"export PATH=" coreutils "/bin:" grep "/bin")
|
||
@end example
|
||
|
||
This is the declarative counterpart of @code{text-file*}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} file-union @var{name} @var{files}
|
||
Return a @code{<computed-file>} that builds a directory containing all of @var{files}.
|
||
Each item in @var{files} must be a two-element list where the first element is the
|
||
file name to use in the new directory, and the second element is a gexp
|
||
denoting the target file. Here's an example:
|
||
|
||
@example
|
||
(file-union "etc"
|
||
`(("hosts" ,(plain-file "hosts"
|
||
"127.0.0.1 localhost"))
|
||
("bashrc" ,(plain-file "bashrc"
|
||
"alias ls='ls --color'"))))
|
||
@end example
|
||
|
||
This yields an @code{etc} directory containing these two files.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} directory-union @var{name} @var{things}
|
||
Return a directory that is the union of @var{things}, where @var{things} is a list of
|
||
file-like objects denoting directories. For example:
|
||
|
||
@example
|
||
(directory-union "guile+emacs" (list guile emacs))
|
||
@end example
|
||
|
||
yields a directory that is the union of the @code{guile} and @code{emacs} packages.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} file-append @var{obj} @var{suffix} @dots{}
|
||
Return a file-like object that expands to the concatenation of @var{obj}
|
||
and @var{suffix}, where @var{obj} is a lowerable object and each
|
||
@var{suffix} is a string.
|
||
|
||
As an example, consider this gexp:
|
||
|
||
@example
|
||
(gexp->script "run-uname"
|
||
#~(system* #$(file-append coreutils
|
||
"/bin/uname")))
|
||
@end example
|
||
|
||
The same effect could be achieved with:
|
||
|
||
@example
|
||
(gexp->script "run-uname"
|
||
#~(system* (string-append #$coreutils
|
||
"/bin/uname")))
|
||
@end example
|
||
|
||
There is one difference though: in the @code{file-append} case, the
|
||
resulting script contains the absolute file name as a string, whereas in
|
||
the second case, the resulting script contains a @code{(string-append
|
||
@dots{})} expression to construct the file name @emph{at run time}.
|
||
@end deffn
|
||
|
||
|
||
Of course, in addition to gexps embedded in ``host'' code, there are
|
||
also modules containing build tools. To make it clear that they are
|
||
meant to be used in the build stratum, these modules are kept in the
|
||
@code{(guix build @dots{})} name space.
|
||
|
||
@cindex lowering, of high-level objects in gexps
|
||
Internally, high-level objects are @dfn{lowered}, using their compiler,
|
||
to either derivations or store items. For instance, lowering a package
|
||
yields a derivation, and lowering a @code{plain-file} yields a store
|
||
item. This is achieved using the @code{lower-object} monadic procedure.
|
||
|
||
@deffn {Monadic Procedure} lower-object @var{obj} [@var{system}] @
|
||
[#:target #f]
|
||
Return as a value in @var{%store-monad} the derivation or store item
|
||
corresponding to @var{obj} for @var{system}, cross-compiling for
|
||
@var{target} if @var{target} is true. @var{obj} must be an object that
|
||
has an associated gexp compiler, such as a @code{<package>}.
|
||
@end deffn
|
||
|
||
|
||
@c *********************************************************************
|
||
@node Utilities
|
||
@chapter Utilities
|
||
|
||
This section describes Guix command-line utilities. Some of them are
|
||
primarily targeted at developers and users who write new package
|
||
definitions, while others are more generally useful. They complement
|
||
the Scheme programming interface of Guix in a convenient way.
|
||
|
||
@menu
|
||
* Invoking guix build:: Building packages from the command line.
|
||
* Invoking guix edit:: Editing package definitions.
|
||
* Invoking guix download:: Downloading a file and printing its hash.
|
||
* Invoking guix hash:: Computing the cryptographic hash of a file.
|
||
* Invoking guix import:: Importing package definitions.
|
||
* Invoking guix refresh:: Updating package definitions.
|
||
* Invoking guix lint:: Finding errors in package definitions.
|
||
* Invoking guix size:: Profiling disk usage.
|
||
* Invoking guix graph:: Visualizing the graph of packages.
|
||
* Invoking guix environment:: Setting up development environments.
|
||
* Invoking guix publish:: Sharing substitutes.
|
||
* Invoking guix challenge:: Challenging substitute servers.
|
||
* Invoking guix copy:: Copying to and from a remote store.
|
||
* Invoking guix container:: Process isolation.
|
||
* Invoking guix weather:: Assessing substitute availability.
|
||
@end menu
|
||
|
||
@node Invoking guix build
|
||
@section Invoking @command{guix build}
|
||
|
||
@cindex package building
|
||
@cindex @command{guix build}
|
||
The @command{guix build} command builds packages or derivations and
|
||
their dependencies, and prints the resulting store paths. Note that it
|
||
does not modify the user's profile---this is the job of the
|
||
@command{guix package} command (@pxref{Invoking guix package}). Thus,
|
||
it is mainly useful for distribution developers.
|
||
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix build @var{options} @var{package-or-derivation}@dots{}
|
||
@end example
|
||
|
||
As an example, the following command builds the latest versions of Emacs
|
||
and of Guile, displays their build logs, and finally displays the
|
||
resulting directories:
|
||
|
||
@example
|
||
guix build emacs guile
|
||
@end example
|
||
|
||
Similarly, the following command builds all the available packages:
|
||
|
||
@example
|
||
guix build --quiet --keep-going \
|
||
`guix package -A | cut -f1,2 --output-delimiter=@@`
|
||
@end example
|
||
|
||
@var{package-or-derivation} may be either the name of a package found in
|
||
the software distribution such as @code{coreutils} or
|
||
@code{coreutils@@8.20}, or a derivation such as
|
||
@file{/gnu/store/@dots{}-coreutils-8.19.drv}. In the former case, a
|
||
package with the corresponding name (and optionally version) is searched
|
||
for among the GNU distribution modules (@pxref{Package Modules}).
|
||
|
||
Alternatively, the @code{--expression} option may be used to specify a
|
||
Scheme expression that evaluates to a package; this is useful when
|
||
disambiguating among several same-named packages or package variants is
|
||
needed.
|
||
|
||
There may be zero or more @var{options}. The available options are
|
||
described in the subsections below.
|
||
|
||
@menu
|
||
* Common Build Options:: Build options for most commands.
|
||
* Package Transformation Options:: Creating variants of packages.
|
||
* Additional Build Options:: Options specific to 'guix build'.
|
||
* Debugging Build Failures:: Real life packaging experience.
|
||
@end menu
|
||
|
||
@node Common Build Options
|
||
@subsection Common Build Options
|
||
|
||
A number of options that control the build process are common to
|
||
@command{guix build} and other commands that can spawn builds, such as
|
||
@command{guix package} or @command{guix archive}. These are the
|
||
following:
|
||
|
||
@table @code
|
||
|
||
@item --load-path=@var{directory}
|
||
@itemx -L @var{directory}
|
||
Add @var{directory} to the front of the package module search path
|
||
(@pxref{Package Modules}).
|
||
|
||
This allows users to define their own packages and make them visible to
|
||
the command-line tools.
|
||
|
||
@item --keep-failed
|
||
@itemx -K
|
||
Keep the build tree of failed builds. Thus, if a build fails, its build
|
||
tree is kept under @file{/tmp}, in a directory whose name is shown at
|
||
the end of the build log. This is useful when debugging build issues.
|
||
@xref{Debugging Build Failures}, for tips and tricks on how to debug
|
||
build issues.
|
||
|
||
@item --keep-going
|
||
@itemx -k
|
||
Keep going when some of the derivations fail to build; return only once
|
||
all the builds have either completed or failed.
|
||
|
||
The default behavior is to stop as soon as one of the specified
|
||
derivations has failed.
|
||
|
||
@item --dry-run
|
||
@itemx -n
|
||
Do not build the derivations.
|
||
|
||
@item --fallback
|
||
When substituting a pre-built binary fails, fall back to building
|
||
packages locally.
|
||
|
||
@item --substitute-urls=@var{urls}
|
||
@anchor{client-substitute-urls}
|
||
Consider @var{urls} the whitespace-separated list of substitute source
|
||
URLs, overriding the default list of URLs of @command{guix-daemon}
|
||
(@pxref{daemon-substitute-urls,, @command{guix-daemon} URLs}).
|
||
|
||
This means that substitutes may be downloaded from @var{urls}, provided
|
||
they are signed by a key authorized by the system administrator
|
||
(@pxref{Substitutes}).
|
||
|
||
When @var{urls} is the empty string, substitutes are effectively
|
||
disabled.
|
||
|
||
@item --no-substitutes
|
||
Do not use substitutes for build products. That is, always build things
|
||
locally instead of allowing downloads of pre-built binaries
|
||
(@pxref{Substitutes}).
|
||
|
||
@item --no-grafts
|
||
Do not ``graft'' packages. In practice, this means that package updates
|
||
available as grafts are not applied. @xref{Security Updates}, for more
|
||
information on grafts.
|
||
|
||
@item --rounds=@var{n}
|
||
Build each derivation @var{n} times in a row, and raise an error if
|
||
consecutive build results are not bit-for-bit identical.
|
||
|
||
This is a useful way to detect non-deterministic builds processes.
|
||
Non-deterministic build processes are a problem because they make it
|
||
practically impossible for users to @emph{verify} whether third-party
|
||
binaries are genuine. @xref{Invoking guix challenge}, for more.
|
||
|
||
Note that, currently, the differing build results are not kept around,
|
||
so you will have to manually investigate in case of an error---e.g., by
|
||
stashing one of the build results with @code{guix archive --export}
|
||
(@pxref{Invoking guix archive}), then rebuilding, and finally comparing
|
||
the two results.
|
||
|
||
@item --no-build-hook
|
||
Do not attempt to offload builds @i{via} the ``build hook'' of the daemon
|
||
(@pxref{Daemon Offload Setup}). That is, always build things locally
|
||
instead of offloading builds to remote machines.
|
||
|
||
@item --max-silent-time=@var{seconds}
|
||
When the build or substitution process remains silent for more than
|
||
@var{seconds}, terminate it and report a build failure.
|
||
|
||
By default, the daemon's setting is honored (@pxref{Invoking
|
||
guix-daemon, @code{--max-silent-time}}).
|
||
|
||
@item --timeout=@var{seconds}
|
||
Likewise, when the build or substitution process lasts for more than
|
||
@var{seconds}, terminate it and report a build failure.
|
||
|
||
By default, the daemon's setting is honored (@pxref{Invoking
|
||
guix-daemon, @code{--timeout}}).
|
||
|
||
@item --verbosity=@var{level}
|
||
Use the given verbosity level. @var{level} must be an integer between 0
|
||
and 5; higher means more verbose output. Setting a level of 4 or more
|
||
may be helpful when debugging setup issues with the build daemon.
|
||
|
||
@item --cores=@var{n}
|
||
@itemx -c @var{n}
|
||
Allow the use of up to @var{n} CPU cores for the build. The special
|
||
value @code{0} means to use as many CPU cores as available.
|
||
|
||
@item --max-jobs=@var{n}
|
||
@itemx -M @var{n}
|
||
Allow at most @var{n} build jobs in parallel. @xref{Invoking
|
||
guix-daemon, @code{--max-jobs}}, for details about this option and the
|
||
equivalent @command{guix-daemon} option.
|
||
|
||
@end table
|
||
|
||
Behind the scenes, @command{guix build} is essentially an interface to
|
||
the @code{package-derivation} procedure of the @code{(guix packages)}
|
||
module, and to the @code{build-derivations} procedure of the @code{(guix
|
||
derivations)} module.
|
||
|
||
In addition to options explicitly passed on the command line,
|
||
@command{guix build} and other @command{guix} commands that support
|
||
building honor the @code{GUIX_BUILD_OPTIONS} environment variable.
|
||
|
||
@defvr {Environment Variable} GUIX_BUILD_OPTIONS
|
||
Users can define this variable to a list of command line options that
|
||
will automatically be used by @command{guix build} and other
|
||
@command{guix} commands that can perform builds, as in the example
|
||
below:
|
||
|
||
@example
|
||
$ export GUIX_BUILD_OPTIONS="--no-substitutes -c 2 -L /foo/bar"
|
||
@end example
|
||
|
||
These options are parsed independently, and the result is appended to
|
||
the parsed command-line options.
|
||
@end defvr
|
||
|
||
|
||
@node Package Transformation Options
|
||
@subsection Package Transformation Options
|
||
|
||
@cindex package variants
|
||
Another set of command-line options supported by @command{guix build}
|
||
and also @command{guix package} are @dfn{package transformation
|
||
options}. These are options that make it possible to define @dfn{package
|
||
variants}---for instance, packages built from different source code.
|
||
This is a convenient way to create customized packages on the fly
|
||
without having to type in the definitions of package variants
|
||
(@pxref{Defining Packages}).
|
||
|
||
@table @code
|
||
|
||
@item --with-source=@var{source}
|
||
Use @var{source} as the source of the corresponding package.
|
||
@var{source} must be a file name or a URL, as for @command{guix
|
||
download} (@pxref{Invoking guix download}).
|
||
|
||
The ``corresponding package'' is taken to be the one specified on the
|
||
command line the name of which matches the base of @var{source}---e.g.,
|
||
if @var{source} is @code{/src/guile-2.0.10.tar.gz}, the corresponding
|
||
package is @code{guile}. Likewise, the version string is inferred from
|
||
@var{source}; in the previous example, it is @code{2.0.10}.
|
||
|
||
This option allows users to try out versions of packages other than the
|
||
one provided by the distribution. The example below downloads
|
||
@file{ed-1.7.tar.gz} from a GNU mirror and uses that as the source for
|
||
the @code{ed} package:
|
||
|
||
@example
|
||
guix build ed --with-source=mirror://gnu/ed/ed-1.7.tar.gz
|
||
@end example
|
||
|
||
As a developer, @code{--with-source} makes it easy to test release
|
||
candidates:
|
||
|
||
@example
|
||
guix build guile --with-source=../guile-2.0.9.219-e1bb7.tar.xz
|
||
@end example
|
||
|
||
@dots{} or to build from a checkout in a pristine environment:
|
||
|
||
@example
|
||
$ git clone git://git.sv.gnu.org/guix.git
|
||
$ guix build guix --with-source=./guix
|
||
@end example
|
||
|
||
@item --with-input=@var{package}=@var{replacement}
|
||
Replace dependency on @var{package} by a dependency on
|
||
@var{replacement}. @var{package} must be a package name, and
|
||
@var{replacement} must be a package specification such as @code{guile}
|
||
or @code{guile@@1.8}.
|
||
|
||
For instance, the following command builds Guix, but replaces its
|
||
dependency on the current stable version of Guile with a dependency on
|
||
the legacy version of Guile, @code{guile@@2.0}:
|
||
|
||
@example
|
||
guix build --with-input=guile=guile@@2.0 guix
|
||
@end example
|
||
|
||
This is a recursive, deep replacement. So in this example, both
|
||
@code{guix} and its dependency @code{guile-json} (which also depends on
|
||
@code{guile}) get rebuilt against @code{guile@@2.0}.
|
||
|
||
This is implemented using the @code{package-input-rewriting} Scheme
|
||
procedure (@pxref{Defining Packages, @code{package-input-rewriting}}).
|
||
|
||
@item --with-graft=@var{package}=@var{replacement}
|
||
This is similar to @code{--with-input} but with an important difference:
|
||
instead of rebuilding the whole dependency chain, @var{replacement} is
|
||
built and then @dfn{grafted} onto the binaries that were initially
|
||
referring to @var{package}. @xref{Security Updates}, for more
|
||
information on grafts.
|
||
|
||
For example, the command below grafts version 3.5.4 of GnuTLS onto Wget
|
||
and all its dependencies, replacing references to the version of GnuTLS
|
||
they currently refer to:
|
||
|
||
@example
|
||
guix build --with-graft=gnutls=gnutls@@3.5.4 wget
|
||
@end example
|
||
|
||
This has the advantage of being much faster than rebuilding everything.
|
||
But there is a caveat: it works if and only if @var{package} and
|
||
@var{replacement} are strictly compatible---for example, if they provide
|
||
a library, the application binary interface (ABI) of those libraries
|
||
must be compatible. If @var{replacement} is somehow incompatible with
|
||
@var{package}, then the resulting package may be unusable. Use with
|
||
care!
|
||
|
||
@end table
|
||
|
||
@node Additional Build Options
|
||
@subsection Additional Build Options
|
||
|
||
The command-line options presented below are specific to @command{guix
|
||
build}.
|
||
|
||
@table @code
|
||
|
||
@item --quiet
|
||
@itemx -q
|
||
Build quietly, without displaying the build log. Upon completion, the
|
||
build log is kept in @file{/var} (or similar) and can always be
|
||
retrieved using the @option{--log-file} option.
|
||
|
||
@item --file=@var{file}
|
||
@itemx -f @var{file}
|
||
|
||
Build the package or derivation that the code within @var{file}
|
||
evaluates to.
|
||
|
||
As an example, @var{file} might contain a package definition like this
|
||
(@pxref{Defining Packages}):
|
||
|
||
@example
|
||
@verbatiminclude package-hello.scm
|
||
@end example
|
||
|
||
@item --expression=@var{expr}
|
||
@itemx -e @var{expr}
|
||
Build the package or derivation @var{expr} evaluates to.
|
||
|
||
For example, @var{expr} may be @code{(@@ (gnu packages guile)
|
||
guile-1.8)}, which unambiguously designates this specific variant of
|
||
version 1.8 of Guile.
|
||
|
||
Alternatively, @var{expr} may be a G-expression, in which case it is used
|
||
as a build program passed to @code{gexp->derivation}
|
||
(@pxref{G-Expressions}).
|
||
|
||
Lastly, @var{expr} may refer to a zero-argument monadic procedure
|
||
(@pxref{The Store Monad}). The procedure must return a derivation as a
|
||
monadic value, which is then passed through @code{run-with-store}.
|
||
|
||
@item --source
|
||
@itemx -S
|
||
Build the source derivations of the packages, rather than the packages
|
||
themselves.
|
||
|
||
For instance, @code{guix build -S gcc} returns something like
|
||
@file{/gnu/store/@dots{}-gcc-4.7.2.tar.bz2}, which is the GCC
|
||
source tarball.
|
||
|
||
The returned source tarball is the result of applying any patches and
|
||
code snippets specified in the package @code{origin} (@pxref{Defining
|
||
Packages}).
|
||
|
||
@item --sources
|
||
Fetch and return the source of @var{package-or-derivation} and all their
|
||
dependencies, recursively. This is a handy way to obtain a local copy
|
||
of all the source code needed to build @var{packages}, allowing you to
|
||
eventually build them even without network access. It is an extension
|
||
of the @code{--source} option and can accept one of the following
|
||
optional argument values:
|
||
|
||
@table @code
|
||
@item package
|
||
This value causes the @code{--sources} option to behave in the same way
|
||
as the @code{--source} option.
|
||
|
||
@item all
|
||
Build the source derivations of all packages, including any source that
|
||
might be listed as @code{inputs}. This is the default value.
|
||
|
||
@example
|
||
$ guix build --sources tzdata
|
||
The following derivations will be built:
|
||
/gnu/store/@dots{}-tzdata2015b.tar.gz.drv
|
||
/gnu/store/@dots{}-tzcode2015b.tar.gz.drv
|
||
@end example
|
||
|
||
@item transitive
|
||
Build the source derivations of all packages, as well of all transitive
|
||
inputs to the packages. This can be used e.g. to
|
||
prefetch package source for later offline building.
|
||
|
||
@example
|
||
$ guix build --sources=transitive tzdata
|
||
The following derivations will be built:
|
||
/gnu/store/@dots{}-tzcode2015b.tar.gz.drv
|
||
/gnu/store/@dots{}-findutils-4.4.2.tar.xz.drv
|
||
/gnu/store/@dots{}-grep-2.21.tar.xz.drv
|
||
/gnu/store/@dots{}-coreutils-8.23.tar.xz.drv
|
||
/gnu/store/@dots{}-make-4.1.tar.xz.drv
|
||
/gnu/store/@dots{}-bash-4.3.tar.xz.drv
|
||
@dots{}
|
||
@end example
|
||
|
||
@end table
|
||
|
||
@item --system=@var{system}
|
||
@itemx -s @var{system}
|
||
Attempt to build for @var{system}---e.g., @code{i686-linux}---instead of
|
||
the system type of the build host.
|
||
|
||
An example use of this is on Linux-based systems, which can emulate
|
||
different personalities. For instance, passing
|
||
@code{--system=i686-linux} on an @code{x86_64-linux} system allows users
|
||
to build packages in a complete 32-bit environment.
|
||
|
||
@item --target=@var{triplet}
|
||
@cindex cross-compilation
|
||
Cross-build for @var{triplet}, which must be a valid GNU triplet, such
|
||
as @code{"mips64el-linux-gnu"} (@pxref{Specifying target triplets, GNU
|
||
configuration triplets,, autoconf, Autoconf}).
|
||
|
||
@anchor{build-check}
|
||
@item --check
|
||
@cindex determinism, checking
|
||
@cindex reproducibility, checking
|
||
Rebuild @var{package-or-derivation}, which are already available in the
|
||
store, and raise an error if the build results are not bit-for-bit
|
||
identical.
|
||
|
||
This mechanism allows you to check whether previously installed
|
||
substitutes are genuine (@pxref{Substitutes}), or whether the build result
|
||
of a package is deterministic. @xref{Invoking guix challenge}, for more
|
||
background information and tools.
|
||
|
||
When used in conjunction with @option{--keep-failed}, the differing
|
||
output is kept in the store, under @file{/gnu/store/@dots{}-check}.
|
||
This makes it easy to look for differences between the two results.
|
||
|
||
@item --repair
|
||
@cindex repairing store items
|
||
@cindex corruption, recovering from
|
||
Attempt to repair the specified store items, if they are corrupt, by
|
||
re-downloading or rebuilding them.
|
||
|
||
This operation is not atomic and thus restricted to @code{root}.
|
||
|
||
@item --derivations
|
||
@itemx -d
|
||
Return the derivation paths, not the output paths, of the given
|
||
packages.
|
||
|
||
@item --root=@var{file}
|
||
@itemx -r @var{file}
|
||
@cindex GC roots, adding
|
||
@cindex garbage collector roots, adding
|
||
Make @var{file} a symlink to the result, and register it as a garbage
|
||
collector root.
|
||
|
||
Consequently, the results of this @command{guix build} invocation are
|
||
protected from garbage collection until @var{file} is removed. When
|
||
that option is omitted, build results are eligible for garbage
|
||
collection as soon as the build completes. @xref{Invoking guix gc}, for
|
||
more on GC roots.
|
||
|
||
@item --log-file
|
||
Return the build log file names or URLs for the given
|
||
@var{package-or-derivation}, or raise an error if build logs are
|
||
missing.
|
||
|
||
This works regardless of how packages or derivations are specified. For
|
||
instance, the following invocations are equivalent:
|
||
|
||
@example
|
||
guix build --log-file `guix build -d guile`
|
||
guix build --log-file `guix build guile`
|
||
guix build --log-file guile
|
||
guix build --log-file -e '(@@ (gnu packages guile) guile-2.0)'
|
||
@end example
|
||
|
||
If a log is unavailable locally, and unless @code{--no-substitutes} is
|
||
passed, the command looks for a corresponding log on one of the
|
||
substitute servers (as specified with @code{--substitute-urls}.)
|
||
|
||
So for instance, imagine you want to see the build log of GDB on MIPS,
|
||
but you are actually on an @code{x86_64} machine:
|
||
|
||
@example
|
||
$ guix build --log-file gdb -s mips64el-linux
|
||
https://hydra.gnu.org/log/@dots{}-gdb-7.10
|
||
@end example
|
||
|
||
You can freely access a huge library of build logs!
|
||
@end table
|
||
|
||
@node Debugging Build Failures
|
||
@subsection Debugging Build Failures
|
||
|
||
@cindex build failures, debugging
|
||
When defining a new package (@pxref{Defining Packages}), you will
|
||
probably find yourself spending some time debugging and tweaking the
|
||
build until it succeeds. To do that, you need to operate the build
|
||
commands yourself in an environment as close as possible to the one the
|
||
build daemon uses.
|
||
|
||
To that end, the first thing to do is to use the @option{--keep-failed}
|
||
or @option{-K} option of @command{guix build}, which will keep the
|
||
failed build tree in @file{/tmp} or whatever directory you specified as
|
||
@code{TMPDIR} (@pxref{Invoking guix build, @code{--keep-failed}}).
|
||
|
||
From there on, you can @command{cd} to the failed build tree and source
|
||
the @file{environment-variables} file, which contains all the
|
||
environment variable definitions that were in place when the build
|
||
failed. So let's say you're debugging a build failure in package
|
||
@code{foo}; a typical session would look like this:
|
||
|
||
@example
|
||
$ guix build foo -K
|
||
@dots{} @i{build fails}
|
||
$ cd /tmp/guix-build-foo.drv-0
|
||
$ source ./environment-variables
|
||
$ cd foo-1.2
|
||
@end example
|
||
|
||
Now, you can invoke commands as if you were the daemon (almost) and
|
||
troubleshoot your build process.
|
||
|
||
Sometimes it happens that, for example, a package's tests pass when you
|
||
run them manually but they fail when the daemon runs them. This can
|
||
happen because the daemon runs builds in containers where, unlike in our
|
||
environment above, network access is missing, @file{/bin/sh} does not
|
||
exist, etc. (@pxref{Build Environment Setup}).
|
||
|
||
In such cases, you may need to run inspect the build process from within
|
||
a container similar to the one the build daemon creates:
|
||
|
||
@example
|
||
$ guix build -K foo
|
||
@dots{}
|
||
$ cd /tmp/guix-build-foo.drv-0
|
||
$ guix environment --no-grafts -C foo --ad-hoc strace gdb
|
||
[env]# source ./environment-variables
|
||
[env]# cd foo-1.2
|
||
@end example
|
||
|
||
Here, @command{guix environment -C} creates a container and spawns a new
|
||
shell in it (@pxref{Invoking guix environment}). The @command{--ad-hoc
|
||
strace gdb} part adds the @command{strace} and @command{gdb} commands to
|
||
the container, which would may find handy while debugging. The
|
||
@option{--no-grafts} option makes sure we get the exact same
|
||
environment, with ungrafted packages (@pxref{Security Updates}, for more
|
||
info on grafts).
|
||
|
||
To get closer to a container like that used by the build daemon, we can
|
||
remove @file{/bin/sh}:
|
||
|
||
@example
|
||
[env]# rm /bin/sh
|
||
@end example
|
||
|
||
(Don't worry, this is harmless: this is all happening in the throw-away
|
||
container created by @command{guix environment}.)
|
||
|
||
The @command{strace} command is probably not in the search path, but we
|
||
can run:
|
||
|
||
@example
|
||
[env]# $GUIX_ENVIRONMENT/bin/strace -f -o log make check
|
||
@end example
|
||
|
||
In this way, not only you will have reproduced the environment variables
|
||
the daemon uses, you will also be running the build process in a container
|
||
similar to the one the daemon uses.
|
||
|
||
|
||
@node Invoking guix edit
|
||
@section Invoking @command{guix edit}
|
||
|
||
@cindex @command{guix edit}
|
||
@cindex package definition, editing
|
||
So many packages, so many source files! The @command{guix edit} command
|
||
facilitates the life of users and packagers by pointing their editor at
|
||
the source file containing the definition of the specified packages.
|
||
For instance:
|
||
|
||
@example
|
||
guix edit gcc@@4.9 vim
|
||
@end example
|
||
|
||
@noindent
|
||
launches the program specified in the @code{VISUAL} or in the
|
||
@code{EDITOR} environment variable to view the recipe of GCC@tie{}4.9.3
|
||
and that of Vim.
|
||
|
||
If you are using a Guix Git checkout (@pxref{Building from Git}), or
|
||
have created your own packages on @code{GUIX_PACKAGE_PATH}
|
||
(@pxref{Defining Packages}), you will be able to edit the package
|
||
recipes. Otherwise, you will be able to examine the read-only recipes
|
||
for packages currently in the store.
|
||
|
||
|
||
@node Invoking guix download
|
||
@section Invoking @command{guix download}
|
||
|
||
@cindex @command{guix download}
|
||
@cindex downloading package sources
|
||
When writing a package definition, developers typically need to download
|
||
a source tarball, compute its SHA256 hash, and write that
|
||
hash in the package definition (@pxref{Defining Packages}). The
|
||
@command{guix download} tool helps with this task: it downloads a file
|
||
from the given URI, adds it to the store, and prints both its file name
|
||
in the store and its SHA256 hash.
|
||
|
||
The fact that the downloaded file is added to the store saves bandwidth:
|
||
when the developer eventually tries to build the newly defined package
|
||
with @command{guix build}, the source tarball will not have to be
|
||
downloaded again because it is already in the store. It is also a
|
||
convenient way to temporarily stash files, which may be deleted
|
||
eventually (@pxref{Invoking guix gc}).
|
||
|
||
The @command{guix download} command supports the same URIs as used in
|
||
package definitions. In particular, it supports @code{mirror://} URIs.
|
||
@code{https} URIs (HTTP over TLS) are supported @emph{provided} the
|
||
Guile bindings for GnuTLS are available in the user's environment; when
|
||
they are not available, an error is raised. @xref{Guile Preparations,
|
||
how to install the GnuTLS bindings for Guile,, gnutls-guile,
|
||
GnuTLS-Guile}, for more information.
|
||
|
||
@command{guix download} verifies HTTPS server certificates by loading
|
||
the certificates of X.509 authorities from the directory pointed to by
|
||
the @code{SSL_CERT_DIR} environment variable (@pxref{X.509
|
||
Certificates}), unless @option{--no-check-certificate} is used.
|
||
|
||
The following options are available:
|
||
|
||
@table @code
|
||
@item --format=@var{fmt}
|
||
@itemx -f @var{fmt}
|
||
Write the hash in the format specified by @var{fmt}. For more
|
||
information on the valid values for @var{fmt}, @pxref{Invoking guix hash}.
|
||
|
||
@item --no-check-certificate
|
||
Do not validate the X.509 certificates of HTTPS servers.
|
||
|
||
When using this option, you have @emph{absolutely no guarantee} that you
|
||
are communicating with the authentic server responsible for the given
|
||
URL, which makes you vulnerable to ``man-in-the-middle'' attacks.
|
||
|
||
@item --output=@var{file}
|
||
@itemx -o @var{file}
|
||
Save the downloaded file to @var{file} instead of adding it to the
|
||
store.
|
||
@end table
|
||
|
||
@node Invoking guix hash
|
||
@section Invoking @command{guix hash}
|
||
|
||
@cindex @command{guix hash}
|
||
The @command{guix hash} command computes the SHA256 hash of a file.
|
||
It is primarily a convenience tool for anyone contributing to the
|
||
distribution: it computes the cryptographic hash of a file, which can be
|
||
used in the definition of a package (@pxref{Defining Packages}).
|
||
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix hash @var{option} @var{file}
|
||
@end example
|
||
|
||
When @var{file} is @code{-} (a hyphen), @command{guix hash} computes the
|
||
hash of data read from standard input. @command{guix hash} has the
|
||
following options:
|
||
|
||
@table @code
|
||
|
||
@item --format=@var{fmt}
|
||
@itemx -f @var{fmt}
|
||
Write the hash in the format specified by @var{fmt}.
|
||
|
||
Supported formats: @code{nix-base32}, @code{base32}, @code{base16}
|
||
(@code{hex} and @code{hexadecimal} can be used as well).
|
||
|
||
If the @option{--format} option is not specified, @command{guix hash}
|
||
will output the hash in @code{nix-base32}. This representation is used
|
||
in the definitions of packages.
|
||
|
||
@item --recursive
|
||
@itemx -r
|
||
Compute the hash on @var{file} recursively.
|
||
|
||
In this case, the hash is computed on an archive containing @var{file},
|
||
including its children if it is a directory. Some of the metadata of
|
||
@var{file} is part of the archive; for instance, when @var{file} is a
|
||
regular file, the hash is different depending on whether @var{file} is
|
||
executable or not. Metadata such as time stamps has no impact on the
|
||
hash (@pxref{Invoking guix archive}).
|
||
@c FIXME: Replace xref above with xref to an ``Archive'' section when
|
||
@c it exists.
|
||
|
||
@item --exclude-vcs
|
||
@itemx -x
|
||
When combined with @option{--recursive}, exclude version control system
|
||
directories (@file{.bzr}, @file{.git}, @file{.hg}, etc.)
|
||
|
||
@vindex git-fetch
|
||
As an example, here is how you would compute the hash of a Git checkout,
|
||
which is useful when using the @code{git-fetch} method (@pxref{origin
|
||
Reference}):
|
||
|
||
@example
|
||
$ git clone http://example.org/foo.git
|
||
$ cd foo
|
||
$ guix hash -rx .
|
||
@end example
|
||
@end table
|
||
|
||
@node Invoking guix import
|
||
@section Invoking @command{guix import}
|
||
|
||
@cindex importing packages
|
||
@cindex package import
|
||
@cindex package conversion
|
||
@cindex Invoking @command{guix import}
|
||
The @command{guix import} command is useful for people who would like to
|
||
add a package to the distribution with as little work as
|
||
possible---a legitimate demand. The command knows of a few
|
||
repositories from which it can ``import'' package metadata. The result
|
||
is a package definition, or a template thereof, in the format we know
|
||
(@pxref{Defining Packages}).
|
||
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix import @var{importer} @var{options}@dots{}
|
||
@end example
|
||
|
||
@var{importer} specifies the source from which to import package
|
||
metadata, and @var{options} specifies a package identifier and other
|
||
options specific to @var{importer}. Currently, the available
|
||
``importers'' are:
|
||
|
||
@table @code
|
||
@item gnu
|
||
Import metadata for the given GNU package. This provides a template
|
||
for the latest version of that GNU package, including the hash of its
|
||
source tarball, and its canonical synopsis and description.
|
||
|
||
Additional information such as the package dependencies and its
|
||
license needs to be figured out manually.
|
||
|
||
For example, the following command returns a package definition for
|
||
GNU@tie{}Hello:
|
||
|
||
@example
|
||
guix import gnu hello
|
||
@end example
|
||
|
||
Specific command-line options are:
|
||
|
||
@table @code
|
||
@item --key-download=@var{policy}
|
||
As for @code{guix refresh}, specify the policy to handle missing OpenPGP
|
||
keys when verifying the package signature. @xref{Invoking guix
|
||
refresh, @code{--key-download}}.
|
||
@end table
|
||
|
||
@item pypi
|
||
@cindex pypi
|
||
Import metadata from the @uref{https://pypi.python.org/, Python Package
|
||
Index}@footnote{This functionality requires Guile-JSON to be installed.
|
||
@xref{Requirements}.}. Information is taken from the JSON-formatted
|
||
description available at @code{pypi.python.org} and usually includes all
|
||
the relevant information, including package dependencies. For maximum
|
||
efficiency, it is recommended to install the @command{unzip} utility, so
|
||
that the importer can unzip Python wheels and gather data from them.
|
||
|
||
The command below imports metadata for the @code{itsdangerous} Python
|
||
package:
|
||
|
||
@example
|
||
guix import pypi itsdangerous
|
||
@end example
|
||
|
||
@item gem
|
||
@cindex gem
|
||
Import metadata from @uref{https://rubygems.org/,
|
||
RubyGems}@footnote{This functionality requires Guile-JSON to be
|
||
installed. @xref{Requirements}.}. Information is taken from the
|
||
JSON-formatted description available at @code{rubygems.org} and includes
|
||
most relevant information, including runtime dependencies. There are
|
||
some caveats, however. The metadata doesn't distinguish between
|
||
synopses and descriptions, so the same string is used for both fields.
|
||
Additionally, the details of non-Ruby dependencies required to build
|
||
native extensions is unavailable and left as an exercise to the
|
||
packager.
|
||
|
||
The command below imports metadata for the @code{rails} Ruby package:
|
||
|
||
@example
|
||
guix import gem rails
|
||
@end example
|
||
|
||
@item cpan
|
||
@cindex CPAN
|
||
Import metadata from @uref{https://www.metacpan.org/, MetaCPAN}@footnote{This
|
||
functionality requires Guile-JSON to be installed.
|
||
@xref{Requirements}.}.
|
||
Information is taken from the JSON-formatted metadata provided through
|
||
@uref{https://api.metacpan.org/, MetaCPAN's API} and includes most
|
||
relevant information, such as module dependencies. License information
|
||
should be checked closely. If Perl is available in the store, then the
|
||
@code{corelist} utility will be used to filter core modules out of the
|
||
list of dependencies.
|
||
|
||
The command command below imports metadata for the @code{Acme::Boolean}
|
||
Perl module:
|
||
|
||
@example
|
||
guix import cpan Acme::Boolean
|
||
@end example
|
||
|
||
@item cran
|
||
@cindex CRAN
|
||
@cindex Bioconductor
|
||
Import metadata from @uref{http://cran.r-project.org/, CRAN}, the
|
||
central repository for the @uref{http://r-project.org, GNU@tie{}R
|
||
statistical and graphical environment}.
|
||
|
||
Information is extracted from the @code{DESCRIPTION} file of the package.
|
||
|
||
The command command below imports metadata for the @code{Cairo}
|
||
R package:
|
||
|
||
@example
|
||
guix import cran Cairo
|
||
@end example
|
||
|
||
When @code{--recursive} is added, the importer will traverse the
|
||
dependency graph of the given upstream package recursively and generate
|
||
package expressions for all those packages that are not yet in Guix.
|
||
|
||
When @code{--archive=bioconductor} is added, metadata is imported from
|
||
@uref{https://www.bioconductor.org/, Bioconductor}, a repository of R
|
||
packages for for the analysis and comprehension of high-throughput
|
||
genomic data in bioinformatics.
|
||
|
||
Information is extracted from the @code{DESCRIPTION} file of a package
|
||
published on the web interface of the Bioconductor SVN repository.
|
||
|
||
The command below imports metadata for the @code{GenomicRanges}
|
||
R package:
|
||
|
||
@example
|
||
guix import cran --archive=bioconductor GenomicRanges
|
||
@end example
|
||
|
||
@item texlive
|
||
@cindex TeX Live
|
||
@cindex CTAN
|
||
Import metadata from @uref{http://www.ctan.org/, CTAN}, the
|
||
comprehensive TeX archive network for TeX packages that are part of the
|
||
@uref{https://www.tug.org/texlive/, TeX Live distribution}.
|
||
|
||
Information about the package is obtained through the XML API provided
|
||
by CTAN, while the source code is downloaded from the SVN repository of
|
||
the Tex Live project. This is done because the CTAN does not keep
|
||
versioned archives.
|
||
|
||
The command command below imports metadata for the @code{fontspec}
|
||
TeX package:
|
||
|
||
@example
|
||
guix import texlive fontspec
|
||
@end example
|
||
|
||
When @code{--archive=DIRECTORY} is added, the source code is downloaded
|
||
not from the @file{latex} sub-directory of the @file{texmf-dist/source}
|
||
tree in the TeX Live SVN repository, but from the specified sibling
|
||
directory under the same root.
|
||
|
||
The command below imports metadata for the @code{ifxetex} package from
|
||
CTAN while fetching the sources from the directory
|
||
@file{texmf/source/generic}:
|
||
|
||
@example
|
||
guix import texlive --archive=generic ifxetex
|
||
@end example
|
||
|
||
@item json
|
||
@cindex JSON, import
|
||
Import package metadata from a local JSON file@footnote{This
|
||
functionality requires Guile-JSON to be installed.
|
||
@xref{Requirements}.}. Consider the following example package
|
||
definition in JSON format:
|
||
|
||
@example
|
||
@{
|
||
"name": "hello",
|
||
"version": "2.10",
|
||
"source": "mirror://gnu/hello/hello-2.10.tar.gz",
|
||
"build-system": "gnu",
|
||
"home-page": "https://www.gnu.org/software/hello/",
|
||
"synopsis": "Hello, GNU world: An example GNU package",
|
||
"description": "GNU Hello prints a greeting.",
|
||
"license": "GPL-3.0+",
|
||
"native-inputs": ["gcc@@6"]
|
||
@}
|
||
@end example
|
||
|
||
The field names are the same as for the @code{<package>} record
|
||
(@xref{Defining Packages}). References to other packages are provided
|
||
as JSON lists of quoted package specification strings such as
|
||
@code{guile} or @code{guile@@2.0}.
|
||
|
||
The importer also supports a more explicit source definition using the
|
||
common fields for @code{<origin>} records:
|
||
|
||
@example
|
||
@{
|
||
@dots{}
|
||
"source": @{
|
||
"method": "url-fetch",
|
||
"uri": "mirror://gnu/hello/hello-2.10.tar.gz",
|
||
"sha256": @{
|
||
"base32": "0ssi1wpaf7plaswqqjwigppsg5fyh99vdlb9kzl7c9lng89ndq1i"
|
||
@}
|
||
@}
|
||
@dots{}
|
||
@}
|
||
@end example
|
||
|
||
The command below reads metadata from the JSON file @code{hello.json}
|
||
and outputs a package expression:
|
||
|
||
@example
|
||
guix import json hello.json
|
||
@end example
|
||
|
||
@item nix
|
||
Import metadata from a local copy of the source of the
|
||
@uref{http://nixos.org/nixpkgs/, Nixpkgs distribution}@footnote{This
|
||
relies on the @command{nix-instantiate} command of
|
||
@uref{http://nixos.org/nix/, Nix}.}. Package definitions in Nixpkgs are
|
||
typically written in a mixture of Nix-language and Bash code. This
|
||
command only imports the high-level package structure that is written in
|
||
the Nix language. It normally includes all the basic fields of a
|
||
package definition.
|
||
|
||
When importing a GNU package, the synopsis and descriptions are replaced
|
||
by their canonical upstream variant.
|
||
|
||
Usually, you will first need to do:
|
||
|
||
@example
|
||
export NIX_REMOTE=daemon
|
||
@end example
|
||
|
||
@noindent
|
||
so that @command{nix-instantiate} does not try to open the Nix database.
|
||
|
||
As an example, the command below imports the package definition of
|
||
LibreOffice (more precisely, it imports the definition of the package
|
||
bound to the @code{libreoffice} top-level attribute):
|
||
|
||
@example
|
||
guix import nix ~/path/to/nixpkgs libreoffice
|
||
@end example
|
||
|
||
@item hackage
|
||
@cindex hackage
|
||
Import metadata from the Haskell community's central package archive
|
||
@uref{https://hackage.haskell.org/, Hackage}. Information is taken from
|
||
Cabal files and includes all the relevant information, including package
|
||
dependencies.
|
||
|
||
Specific command-line options are:
|
||
|
||
@table @code
|
||
@item --stdin
|
||
@itemx -s
|
||
Read a Cabal file from standard input.
|
||
@item --no-test-dependencies
|
||
@itemx -t
|
||
Do not include dependencies required only by the test suites.
|
||
@item --cabal-environment=@var{alist}
|
||
@itemx -e @var{alist}
|
||
@var{alist} is a Scheme alist defining the environment in which the
|
||
Cabal conditionals are evaluated. The accepted keys are: @code{os},
|
||
@code{arch}, @code{impl} and a string representing the name of a flag.
|
||
The value associated with a flag has to be either the symbol
|
||
@code{true} or @code{false}. The value associated with other keys
|
||
has to conform to the Cabal file format definition. The default value
|
||
associated with the keys @code{os}, @code{arch} and @code{impl} is
|
||
@samp{linux}, @samp{x86_64} and @samp{ghc}, respectively.
|
||
@end table
|
||
|
||
The command below imports metadata for the latest version of the
|
||
@code{HTTP} Haskell package without including test dependencies and
|
||
specifying the value of the flag @samp{network-uri} as @code{false}:
|
||
|
||
@example
|
||
guix import hackage -t -e "'((\"network-uri\" . false))" HTTP
|
||
@end example
|
||
|
||
A specific package version may optionally be specified by following the
|
||
package name by an at-sign and a version number as in the following example:
|
||
|
||
@example
|
||
guix import hackage mtl@@2.1.3.1
|
||
@end example
|
||
|
||
@item stackage
|
||
@cindex stackage
|
||
The @code{stackage} importer is a wrapper around the @code{hackage} one.
|
||
It takes a package name, looks up the package version included in a
|
||
long-term support (LTS) @uref{https://www.stackage.org, Stackage}
|
||
release and uses the @code{hackage} importer to retrieve its metadata.
|
||
Note that it is up to you to select an LTS release compatible with the
|
||
GHC compiler used by Guix.
|
||
|
||
Specific command-line options are:
|
||
|
||
@table @code
|
||
@item --no-test-dependencies
|
||
@itemx -t
|
||
Do not include dependencies required only by the test suites.
|
||
@item --lts-version=@var{version}
|
||
@itemx -r @var{version}
|
||
@var{version} is the desired LTS release version. If omitted the latest
|
||
release is used.
|
||
@end table
|
||
|
||
The command below imports metadata for the @code{HTTP} Haskell package
|
||
included in the LTS Stackage release version 7.18:
|
||
|
||
@example
|
||
guix import stackage --lts-version=7.18 HTTP
|
||
@end example
|
||
|
||
@item elpa
|
||
@cindex elpa
|
||
Import metadata from an Emacs Lisp Package Archive (ELPA) package
|
||
repository (@pxref{Packages,,, emacs, The GNU Emacs Manual}).
|
||
|
||
Specific command-line options are:
|
||
|
||
@table @code
|
||
@item --archive=@var{repo}
|
||
@itemx -a @var{repo}
|
||
@var{repo} identifies the archive repository from which to retrieve the
|
||
information. Currently the supported repositories and their identifiers
|
||
are:
|
||
@itemize -
|
||
@item
|
||
@uref{http://elpa.gnu.org/packages, GNU}, selected by the @code{gnu}
|
||
identifier. This is the default.
|
||
|
||
Packages from @code{elpa.gnu.org} are signed with one of the keys
|
||
contained in the GnuPG keyring at
|
||
@file{share/emacs/25.1/etc/package-keyring.gpg} (or similar) in the
|
||
@code{emacs} package (@pxref{Package Installation, ELPA package
|
||
signatures,, emacs, The GNU Emacs Manual}).
|
||
|
||
@item
|
||
@uref{http://stable.melpa.org/packages, MELPA-Stable}, selected by the
|
||
@code{melpa-stable} identifier.
|
||
|
||
@item
|
||
@uref{http://melpa.org/packages, MELPA}, selected by the @code{melpa}
|
||
identifier.
|
||
@end itemize
|
||
@end table
|
||
|
||
@item crate
|
||
@cindex crate
|
||
Import metadata from the crates.io Rust package repository
|
||
@uref{https://crates.io, crates.io}.
|
||
@end table
|
||
|
||
The structure of the @command{guix import} code is modular. It would be
|
||
useful to have more importers for other package formats, and your help
|
||
is welcome here (@pxref{Contributing}).
|
||
|
||
@node Invoking guix refresh
|
||
@section Invoking @command{guix refresh}
|
||
|
||
@cindex @command {guix refresh}
|
||
The primary audience of the @command{guix refresh} command is developers
|
||
of the GNU software distribution. By default, it reports any packages
|
||
provided by the distribution that are outdated compared to the latest
|
||
upstream version, like this:
|
||
|
||
@example
|
||
$ guix refresh
|
||
gnu/packages/gettext.scm:29:13: gettext would be upgraded from 0.18.1.1 to 0.18.2.1
|
||
gnu/packages/glib.scm:77:12: glib would be upgraded from 2.34.3 to 2.37.0
|
||
@end example
|
||
|
||
Alternately, one can specify packages to consider, in which case a
|
||
warning is emitted for packages that lack an updater:
|
||
|
||
@example
|
||
$ guix refresh coreutils guile guile-ssh
|
||
gnu/packages/ssh.scm:205:2: warning: no updater for guile-ssh
|
||
gnu/packages/guile.scm:136:12: guile would be upgraded from 2.0.12 to 2.0.13
|
||
@end example
|
||
|
||
@command{guix refresh} browses the upstream repository of each package and determines
|
||
the highest version number of the releases therein. The command
|
||
knows how to update specific types of packages: GNU packages, ELPA
|
||
packages, etc.---see the documentation for @option{--type} below. There
|
||
are many packages, though, for which it lacks a method to determine
|
||
whether a new upstream release is available. However, the mechanism is
|
||
extensible, so feel free to get in touch with us to add a new method!
|
||
|
||
When passed @code{--update}, it modifies distribution source files to
|
||
update the version numbers and source tarball hashes of those package
|
||
recipes (@pxref{Defining Packages}). This is achieved by downloading
|
||
each package's latest source tarball and its associated OpenPGP
|
||
signature, authenticating the downloaded tarball against its signature
|
||
using @command{gpg}, and finally computing its hash. When the public
|
||
key used to sign the tarball is missing from the user's keyring, an
|
||
attempt is made to automatically retrieve it from a public key server;
|
||
when this is successful, the key is added to the user's keyring; otherwise,
|
||
@command{guix refresh} reports an error.
|
||
|
||
The following options are supported:
|
||
|
||
@table @code
|
||
|
||
@item --expression=@var{expr}
|
||
@itemx -e @var{expr}
|
||
Consider the package @var{expr} evaluates to.
|
||
|
||
This is useful to precisely refer to a package, as in this example:
|
||
|
||
@example
|
||
guix refresh -l -e '(@@@@ (gnu packages commencement) glibc-final)'
|
||
@end example
|
||
|
||
This command lists the dependents of the ``final'' libc (essentially all
|
||
the packages.)
|
||
|
||
@item --update
|
||
@itemx -u
|
||
Update distribution source files (package recipes) in place. This is
|
||
usually run from a checkout of the Guix source tree (@pxref{Running
|
||
Guix Before It Is Installed}):
|
||
|
||
@example
|
||
$ ./pre-inst-env guix refresh -s non-core -u
|
||
@end example
|
||
|
||
@xref{Defining Packages}, for more information on package definitions.
|
||
|
||
@item --select=[@var{subset}]
|
||
@itemx -s @var{subset}
|
||
Select all the packages in @var{subset}, one of @code{core} or
|
||
@code{non-core}.
|
||
|
||
The @code{core} subset refers to all the packages at the core of the
|
||
distribution---i.e., packages that are used to build ``everything
|
||
else''. This includes GCC, libc, Binutils, Bash, etc. Usually,
|
||
changing one of these packages in the distribution entails a rebuild of
|
||
all the others. Thus, such updates are an inconvenience to users in
|
||
terms of build time or bandwidth used to achieve the upgrade.
|
||
|
||
The @code{non-core} subset refers to the remaining packages. It is
|
||
typically useful in cases where an update of the core packages would be
|
||
inconvenient.
|
||
|
||
@item --manifest=@var{file}
|
||
@itemx -m @var{file}
|
||
Select all the packages from the manifest in @var{file}. This is useful to
|
||
check if any packages of the user manifest can be updated.
|
||
|
||
@item --type=@var{updater}
|
||
@itemx -t @var{updater}
|
||
Select only packages handled by @var{updater} (may be a comma-separated
|
||
list of updaters). Currently, @var{updater} may be one of:
|
||
|
||
@table @code
|
||
@item gnu
|
||
the updater for GNU packages;
|
||
@item gnome
|
||
the updater for GNOME packages;
|
||
@item kde
|
||
the updater for KDE packages;
|
||
@item xorg
|
||
the updater for X.org packages;
|
||
@item kernel.org
|
||
the updater for packages hosted on kernel.org;
|
||
@item elpa
|
||
the updater for @uref{http://elpa.gnu.org/, ELPA} packages;
|
||
@item cran
|
||
the updater for @uref{http://cran.r-project.org/, CRAN} packages;
|
||
@item bioconductor
|
||
the updater for @uref{https://www.bioconductor.org/, Bioconductor} R packages;
|
||
@item cpan
|
||
the updater for @uref{http://www.cpan.org/, CPAN} packages;
|
||
@item pypi
|
||
the updater for @uref{https://pypi.python.org, PyPI} packages.
|
||
@item gem
|
||
the updater for @uref{https://rubygems.org, RubyGems} packages.
|
||
@item github
|
||
the updater for @uref{https://github.com, GitHub} packages.
|
||
@item hackage
|
||
the updater for @uref{https://hackage.haskell.org, Hackage} packages.
|
||
@item stackage
|
||
the updater for @uref{https://www.stackage.org, Stackage} packages.
|
||
@item crate
|
||
the updater for @uref{https://crates.io, Crates} packages.
|
||
@end table
|
||
|
||
For instance, the following command only checks for updates of Emacs
|
||
packages hosted at @code{elpa.gnu.org} and for updates of CRAN packages:
|
||
|
||
@example
|
||
$ guix refresh --type=elpa,cran
|
||
gnu/packages/statistics.scm:819:13: r-testthat would be upgraded from 0.10.0 to 0.11.0
|
||
gnu/packages/emacs.scm:856:13: emacs-auctex would be upgraded from 11.88.6 to 11.88.9
|
||
@end example
|
||
|
||
@end table
|
||
|
||
In addition, @command{guix refresh} can be passed one or more package
|
||
names, as in this example:
|
||
|
||
@example
|
||
$ ./pre-inst-env guix refresh -u emacs idutils gcc@@4.8
|
||
@end example
|
||
|
||
@noindent
|
||
The command above specifically updates the @code{emacs} and
|
||
@code{idutils} packages. The @code{--select} option would have no
|
||
effect in this case.
|
||
|
||
When considering whether to upgrade a package, it is sometimes
|
||
convenient to know which packages would be affected by the upgrade and
|
||
should be checked for compatibility. For this the following option may
|
||
be used when passing @command{guix refresh} one or more package names:
|
||
|
||
@table @code
|
||
|
||
@item --list-updaters
|
||
@itemx -L
|
||
List available updaters and exit (see @option{--type} above.)
|
||
|
||
For each updater, display the fraction of packages it covers; at the
|
||
end, display the fraction of packages covered by all these updaters.
|
||
|
||
@item --list-dependent
|
||
@itemx -l
|
||
List top-level dependent packages that would need to be rebuilt as a
|
||
result of upgrading one or more packages.
|
||
|
||
@xref{Invoking guix graph, the @code{reverse-package} type of
|
||
@command{guix graph}}, for information on how to visualize the list of
|
||
dependents of a package.
|
||
|
||
@end table
|
||
|
||
Be aware that the @code{--list-dependent} option only
|
||
@emph{approximates} the rebuilds that would be required as a result of
|
||
an upgrade. More rebuilds might be required under some circumstances.
|
||
|
||
@example
|
||
$ guix refresh --list-dependent flex
|
||
Building the following 120 packages would ensure 213 dependent packages are rebuilt:
|
||
hop@@2.4.0 geiser@@0.4 notmuch@@0.18 mu@@0.9.9.5 cflow@@1.4 idutils@@4.6 @dots{}
|
||
@end example
|
||
|
||
The command above lists a set of packages that could be built to check
|
||
for compatibility with an upgraded @code{flex} package.
|
||
|
||
The following options can be used to customize GnuPG operation:
|
||
|
||
@table @code
|
||
|
||
@item --gpg=@var{command}
|
||
Use @var{command} as the GnuPG 2.x command. @var{command} is searched
|
||
for in @code{$PATH}.
|
||
|
||
@item --key-download=@var{policy}
|
||
Handle missing OpenPGP keys according to @var{policy}, which may be one
|
||
of:
|
||
|
||
@table @code
|
||
@item always
|
||
Always download missing OpenPGP keys from the key server, and add them
|
||
to the user's GnuPG keyring.
|
||
|
||
@item never
|
||
Never try to download missing OpenPGP keys. Instead just bail out.
|
||
|
||
@item interactive
|
||
When a package signed with an unknown OpenPGP key is encountered, ask
|
||
the user whether to download it or not. This is the default behavior.
|
||
@end table
|
||
|
||
@item --key-server=@var{host}
|
||
Use @var{host} as the OpenPGP key server when importing a public key.
|
||
|
||
@end table
|
||
|
||
The @code{github} updater uses the
|
||
@uref{https://developer.github.com/v3/, GitHub API} to query for new
|
||
releases. When used repeatedly e.g. when refreshing all packages,
|
||
GitHub will eventually refuse to answer any further API requests. By
|
||
default 60 API requests per hour are allowed, and a full refresh on all
|
||
GitHub packages in Guix requires more than this. Authentication with
|
||
GitHub through the use of an API token alleviates these limits. To use
|
||
an API token, set the environment variable @code{GUIX_GITHUB_TOKEN} to a
|
||
token procured from @uref{https://github.com/settings/tokens} or
|
||
otherwise.
|
||
|
||
|
||
@node Invoking guix lint
|
||
@section Invoking @command{guix lint}
|
||
|
||
@cindex @command{guix lint}
|
||
@cindex package, checking for errors
|
||
The @command{guix lint} command is meant to help package developers avoid
|
||
common errors and use a consistent style. It runs a number of checks on
|
||
a given set of packages in order to find common mistakes in their
|
||
definitions. Available @dfn{checkers} include (see
|
||
@code{--list-checkers} for a complete list):
|
||
|
||
@table @code
|
||
@item synopsis
|
||
@itemx description
|
||
Validate certain typographical and stylistic rules about package
|
||
descriptions and synopses.
|
||
|
||
@item inputs-should-be-native
|
||
Identify inputs that should most likely be native inputs.
|
||
|
||
@item source
|
||
@itemx home-page
|
||
@itemx mirror-url
|
||
@itemx source-file-name
|
||
Probe @code{home-page} and @code{source} URLs and report those that are
|
||
invalid. Suggest a @code{mirror://} URL when applicable. Check that
|
||
the source file name is meaningful, e.g. is not
|
||
just a version number or ``git-checkout'', without a declared
|
||
@code{file-name} (@pxref{origin Reference}).
|
||
|
||
@item cve
|
||
@cindex security vulnerabilities
|
||
@cindex CVE, Common Vulnerabilities and Exposures
|
||
Report known vulnerabilities found in the Common Vulnerabilities and
|
||
Exposures (CVE) databases of the current and past year
|
||
@uref{https://nvd.nist.gov/download.cfm#CVE_FEED, published by the US
|
||
NIST}.
|
||
|
||
To view information about a particular vulnerability, visit pages such as:
|
||
|
||
@itemize
|
||
@item
|
||
@indicateurl{https://web.nvd.nist.gov/view/vuln/detail?vulnId=CVE-YYYY-ABCD}
|
||
@item
|
||
@indicateurl{https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-YYYY-ABCD}
|
||
@end itemize
|
||
|
||
@noindent
|
||
where @code{CVE-YYYY-ABCD} is the CVE identifier---e.g.,
|
||
@code{CVE-2015-7554}.
|
||
|
||
Package developers can specify in package recipes the
|
||
@uref{https://nvd.nist.gov/cpe.cfm,Common Platform Enumeration (CPE)}
|
||
name and version of the package when they differ from the name that Guix
|
||
uses, as in this example:
|
||
|
||
@example
|
||
(package
|
||
(name "grub")
|
||
;; @dots{}
|
||
;; CPE calls this package "grub2".
|
||
(properties '((cpe-name . "grub2"))))
|
||
@end example
|
||
|
||
@item formatting
|
||
Warn about obvious source code formatting issues: trailing white space,
|
||
use of tabulations, etc.
|
||
@end table
|
||
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix lint @var{options} @var{package}@dots{}
|
||
@end example
|
||
|
||
If no package is given on the command line, then all packages are checked.
|
||
The @var{options} may be zero or more of the following:
|
||
|
||
@table @code
|
||
@item --list-checkers
|
||
@itemx -l
|
||
List and describe all the available checkers that will be run on packages
|
||
and exit.
|
||
|
||
@item --checkers
|
||
@itemx -c
|
||
Only enable the checkers specified in a comma-separated list using the
|
||
names returned by @code{--list-checkers}.
|
||
|
||
@end table
|
||
|
||
@node Invoking guix size
|
||
@section Invoking @command{guix size}
|
||
|
||
@cindex size
|
||
@cindex package size
|
||
@cindex closure
|
||
@cindex @command{guix size}
|
||
The @command{guix size} command helps package developers profile the
|
||
disk usage of packages. It is easy to overlook the impact of an
|
||
additional dependency added to a package, or the impact of using a
|
||
single output for a package that could easily be split (@pxref{Packages
|
||
with Multiple Outputs}). Such are the typical issues that
|
||
@command{guix size} can highlight.
|
||
|
||
The command can be passed a package specification such as @code{gcc@@4.8}
|
||
or @code{guile:debug}, or a file name in the store. Consider this
|
||
example:
|
||
|
||
@example
|
||
$ guix size coreutils
|
||
store item total self
|
||
/gnu/store/@dots{}-coreutils-8.23 70.0 13.9 19.8%
|
||
/gnu/store/@dots{}-gmp-6.0.0a 55.3 2.5 3.6%
|
||
/gnu/store/@dots{}-acl-2.2.52 53.7 0.5 0.7%
|
||
/gnu/store/@dots{}-attr-2.4.46 53.2 0.3 0.5%
|
||
/gnu/store/@dots{}-gcc-4.8.4-lib 52.9 15.7 22.4%
|
||
/gnu/store/@dots{}-glibc-2.21 37.2 37.2 53.1%
|
||
@end example
|
||
|
||
@cindex closure
|
||
The store items listed here constitute the @dfn{transitive closure} of
|
||
Coreutils---i.e., Coreutils and all its dependencies, recursively---as
|
||
would be returned by:
|
||
|
||
@example
|
||
$ guix gc -R /gnu/store/@dots{}-coreutils-8.23
|
||
@end example
|
||
|
||
Here the output shows three columns next to store items. The first column,
|
||
labeled ``total'', shows the size in mebibytes (MiB) of the closure of
|
||
the store item---that is, its own size plus the size of all its
|
||
dependencies. The next column, labeled ``self'', shows the size of the
|
||
item itself. The last column shows the ratio of the size of the item
|
||
itself to the space occupied by all the items listed here.
|
||
|
||
In this example, we see that the closure of Coreutils weighs in at
|
||
70@tie{}MiB, half of which is taken by libc. (That libc represents a
|
||
large fraction of the closure is not a problem @i{per se} because it is
|
||
always available on the system anyway.)
|
||
|
||
When the package passed to @command{guix size} is available in the
|
||
store, @command{guix size} queries the daemon to determine its
|
||
dependencies, and measures its size in the store, similar to @command{du
|
||
-ms --apparent-size} (@pxref{du invocation,,, coreutils, GNU
|
||
Coreutils}).
|
||
|
||
When the given package is @emph{not} in the store, @command{guix size}
|
||
reports information based on the available substitutes
|
||
(@pxref{Substitutes}). This makes it possible it to profile disk usage of
|
||
store items that are not even on disk, only available remotely.
|
||
|
||
You can also specify several package names:
|
||
|
||
@example
|
||
$ guix size coreutils grep sed bash
|
||
store item total self
|
||
/gnu/store/@dots{}-coreutils-8.24 77.8 13.8 13.4%
|
||
/gnu/store/@dots{}-grep-2.22 73.1 0.8 0.8%
|
||
/gnu/store/@dots{}-bash-4.3.42 72.3 4.7 4.6%
|
||
/gnu/store/@dots{}-readline-6.3 67.6 1.2 1.2%
|
||
@dots{}
|
||
total: 102.3 MiB
|
||
@end example
|
||
|
||
@noindent
|
||
In this example we see that the combination of the four packages takes
|
||
102.3@tie{}MiB in total, which is much less than the sum of each closure
|
||
since they have a lot of dependencies in common.
|
||
|
||
The available options are:
|
||
|
||
@table @option
|
||
|
||
@item --substitute-urls=@var{urls}
|
||
Use substitute information from @var{urls}.
|
||
@xref{client-substitute-urls, the same option for @code{guix build}}.
|
||
|
||
@item --sort=@var{key}
|
||
Sort lines according to @var{key}, one of the following options:
|
||
|
||
@table @code
|
||
@item self
|
||
the size of each item (the default);
|
||
@item closure
|
||
the total size of the item's closure.
|
||
@end table
|
||
|
||
@item --map-file=@var{file}
|
||
Write a graphical map of disk usage in PNG format to @var{file}.
|
||
|
||
For the example above, the map looks like this:
|
||
|
||
@image{images/coreutils-size-map,5in,, map of Coreutils disk usage
|
||
produced by @command{guix size}}
|
||
|
||
This option requires that
|
||
@uref{http://wingolog.org/software/guile-charting/, Guile-Charting} be
|
||
installed and visible in Guile's module search path. When that is not
|
||
the case, @command{guix size} fails as it tries to load it.
|
||
|
||
@item --system=@var{system}
|
||
@itemx -s @var{system}
|
||
Consider packages for @var{system}---e.g., @code{x86_64-linux}.
|
||
|
||
@end table
|
||
|
||
@node Invoking guix graph
|
||
@section Invoking @command{guix graph}
|
||
|
||
@cindex DAG
|
||
@cindex @command{guix graph}
|
||
@cindex package dependencies
|
||
Packages and their dependencies form a @dfn{graph}, specifically a
|
||
directed acyclic graph (DAG). It can quickly become difficult to have a
|
||
mental model of the package DAG, so the @command{guix graph} command
|
||
provides a visual representation of the DAG. By default,
|
||
@command{guix graph} emits a DAG representation in the input format of
|
||
@uref{http://www.graphviz.org/, Graphviz}, so its output can be passed
|
||
directly to the @command{dot} command of Graphviz. It can also emit an
|
||
HTML page with embedded JavaScript code to display a ``chord diagram''
|
||
in a Web browser, using the @uref{https://d3js.org/, d3.js} library, or
|
||
emit Cypher queries to construct a graph in a graph database supporting
|
||
the @uref{http://www.opencypher.org/, openCypher} query language.
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix graph @var{options} @var{package}@dots{}
|
||
@end example
|
||
|
||
For example, the following command generates a PDF file representing the
|
||
package DAG for the GNU@tie{}Core Utilities, showing its build-time
|
||
dependencies:
|
||
|
||
@example
|
||
guix graph coreutils | dot -Tpdf > dag.pdf
|
||
@end example
|
||
|
||
The output looks like this:
|
||
|
||
@image{images/coreutils-graph,2in,,Dependency graph of the GNU Coreutils}
|
||
|
||
Nice little graph, no?
|
||
|
||
But there is more than one graph! The one above is concise: it is the
|
||
graph of package objects, omitting implicit inputs such as GCC, libc,
|
||
grep, etc. It is often useful to have such a concise graph, but
|
||
sometimes one may want to see more details. @command{guix graph} supports
|
||
several types of graphs, allowing you to choose the level of detail:
|
||
|
||
@table @code
|
||
@item package
|
||
This is the default type used in the example above. It shows the DAG of
|
||
package objects, excluding implicit dependencies. It is concise, but
|
||
filters out many details.
|
||
|
||
@item reverse-package
|
||
This shows the @emph{reverse} DAG of packages. For example:
|
||
|
||
@example
|
||
guix graph --type=reverse-package ocaml
|
||
@end example
|
||
|
||
... yields the graph of packages that depend on OCaml.
|
||
|
||
Note that for core packages this can yield huge graphs. If all you want
|
||
is to know the number of packages that depend on a given package, use
|
||
@command{guix refresh --list-dependent} (@pxref{Invoking guix refresh,
|
||
@option{--list-dependent}}).
|
||
|
||
@item bag-emerged
|
||
This is the package DAG, @emph{including} implicit inputs.
|
||
|
||
For instance, the following command:
|
||
|
||
@example
|
||
guix graph --type=bag-emerged coreutils | dot -Tpdf > dag.pdf
|
||
@end example
|
||
|
||
... yields this bigger graph:
|
||
|
||
@image{images/coreutils-bag-graph,,5in,Detailed dependency graph of the GNU Coreutils}
|
||
|
||
At the bottom of the graph, we see all the implicit inputs of
|
||
@var{gnu-build-system} (@pxref{Build Systems, @code{gnu-build-system}}).
|
||
|
||
Now, note that the dependencies of these implicit inputs---that is, the
|
||
@dfn{bootstrap dependencies} (@pxref{Bootstrapping})---are not shown
|
||
here, for conciseness.
|
||
|
||
@item bag
|
||
Similar to @code{bag-emerged}, but this time including all the bootstrap
|
||
dependencies.
|
||
|
||
@item bag-with-origins
|
||
Similar to @code{bag}, but also showing origins and their dependencies.
|
||
|
||
@item derivation
|
||
This is the most detailed representation: It shows the DAG of
|
||
derivations (@pxref{Derivations}) and plain store items. Compared to
|
||
the above representation, many additional nodes are visible, including
|
||
build scripts, patches, Guile modules, etc.
|
||
|
||
For this type of graph, it is also possible to pass a @file{.drv} file
|
||
name instead of a package name, as in:
|
||
|
||
@example
|
||
guix graph -t derivation `guix system build -d my-config.scm`
|
||
@end example
|
||
@end table
|
||
|
||
All the types above correspond to @emph{build-time dependencies}. The
|
||
following graph type represents the @emph{run-time dependencies}:
|
||
|
||
@table @code
|
||
@item references
|
||
This is the graph of @dfn{references} of a package output, as returned
|
||
by @command{guix gc --references} (@pxref{Invoking guix gc}).
|
||
|
||
If the given package output is not available in the store, @command{guix
|
||
graph} attempts to obtain dependency information from substitutes.
|
||
|
||
Here you can also pass a store file name instead of a package name. For
|
||
example, the command below produces the reference graph of your profile
|
||
(which can be big!):
|
||
|
||
@example
|
||
guix graph -t references `readlink -f ~/.guix-profile`
|
||
@end example
|
||
|
||
@item referrers
|
||
This is the graph of the @dfn{referrers} of a store item, as returned by
|
||
@command{guix gc --referrers} (@pxref{Invoking guix gc}).
|
||
|
||
This relies exclusively on local information from your store. For
|
||
instance, let us suppose that the current Inkscape is available in 10
|
||
profiles on your machine; @command{guix graph -t referrers inkscape}
|
||
will show a graph rooted at Inkscape and with those 10 profiles linked
|
||
to it.
|
||
|
||
It can help determine what is preventing a store item from being garbage
|
||
collected.
|
||
|
||
@end table
|
||
|
||
The available options are the following:
|
||
|
||
@table @option
|
||
@item --type=@var{type}
|
||
@itemx -t @var{type}
|
||
Produce a graph output of @var{type}, where @var{type} must be one of
|
||
the values listed above.
|
||
|
||
@item --list-types
|
||
List the supported graph types.
|
||
|
||
@item --backend=@var{backend}
|
||
@itemx -b @var{backend}
|
||
Produce a graph using the selected @var{backend}.
|
||
|
||
@item --list-backends
|
||
List the supported graph backends.
|
||
|
||
Currently, the available backends are Graphviz and d3.js.
|
||
|
||
@item --expression=@var{expr}
|
||
@itemx -e @var{expr}
|
||
Consider the package @var{expr} evaluates to.
|
||
|
||
This is useful to precisely refer to a package, as in this example:
|
||
|
||
@example
|
||
guix graph -e '(@@@@ (gnu packages commencement) gnu-make-final)'
|
||
@end example
|
||
@end table
|
||
|
||
|
||
@node Invoking guix environment
|
||
@section Invoking @command{guix environment}
|
||
|
||
@cindex reproducible build environments
|
||
@cindex development environments
|
||
@cindex @command{guix environment}
|
||
@cindex environment, package build environment
|
||
The purpose of @command{guix environment} is to assist hackers in
|
||
creating reproducible development environments without polluting their
|
||
package profile. The @command{guix environment} tool takes one or more
|
||
packages, builds all of their inputs, and creates a shell
|
||
environment to use them.
|
||
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix environment @var{options} @var{package}@dots{}
|
||
@end example
|
||
|
||
The following example spawns a new shell set up for the development of
|
||
GNU@tie{}Guile:
|
||
|
||
@example
|
||
guix environment guile
|
||
@end example
|
||
|
||
If the needed dependencies are not built yet, @command{guix environment}
|
||
automatically builds them. The environment of the new shell is an augmented
|
||
version of the environment that @command{guix environment} was run in.
|
||
It contains the necessary search paths for building the given package
|
||
added to the existing environment variables. To create a ``pure''
|
||
environment, in which the original environment variables have been unset,
|
||
use the @code{--pure} option@footnote{Users sometimes wrongfully augment
|
||
environment variables such as @code{PATH} in their @file{~/.bashrc}
|
||
file. As a consequence, when @code{guix environment} launches it, Bash
|
||
may read @file{~/.bashrc}, thereby introducing ``impurities'' in these
|
||
environment variables. It is an error to define such environment
|
||
variables in @file{.bashrc}; instead, they should be defined in
|
||
@file{.bash_profile}, which is sourced only by log-in shells.
|
||
@xref{Bash Startup Files,,, bash, The GNU Bash Reference Manual}, for
|
||
details on Bash start-up files.}.
|
||
|
||
@vindex GUIX_ENVIRONMENT
|
||
@command{guix environment} defines the @code{GUIX_ENVIRONMENT}
|
||
variable in the shell it spawns; its value is the file name of the
|
||
profile of this environment. This allows users to, say, define a
|
||
specific prompt for development environments in their @file{.bashrc}
|
||
(@pxref{Bash Startup Files,,, bash, The GNU Bash Reference Manual}):
|
||
|
||
@example
|
||
if [ -n "$GUIX_ENVIRONMENT" ]
|
||
then
|
||
export PS1="\u@@\h \w [dev]\$ "
|
||
fi
|
||
@end example
|
||
|
||
@noindent
|
||
... or to browse the profile:
|
||
|
||
@example
|
||
$ ls "$GUIX_ENVIRONMENT/bin"
|
||
@end example
|
||
|
||
Additionally, more than one package may be specified, in which case the
|
||
union of the inputs for the given packages are used. For example, the
|
||
command below spawns a shell where all of the dependencies of both Guile
|
||
and Emacs are available:
|
||
|
||
@example
|
||
guix environment guile emacs
|
||
@end example
|
||
|
||
Sometimes an interactive shell session is not desired. An arbitrary
|
||
command may be invoked by placing the @code{--} token to separate the
|
||
command from the rest of the arguments:
|
||
|
||
@example
|
||
guix environment guile -- make -j4
|
||
@end example
|
||
|
||
In other situations, it is more convenient to specify the list of
|
||
packages needed in the environment. For example, the following command
|
||
runs @command{python} from an environment containing Python@tie{}2.7 and
|
||
NumPy:
|
||
|
||
@example
|
||
guix environment --ad-hoc python2-numpy python-2.7 -- python
|
||
@end example
|
||
|
||
Furthermore, one might want the dependencies of a package and also some
|
||
additional packages that are not build-time or runtime dependencies, but
|
||
are useful when developing nonetheless. Because of this, the
|
||
@code{--ad-hoc} flag is positional. Packages appearing before
|
||
@code{--ad-hoc} are interpreted as packages whose dependencies will be
|
||
added to the environment. Packages appearing after are interpreted as
|
||
packages that will be added to the environment directly. For example,
|
||
the following command creates a Guix development environment that
|
||
additionally includes Git and strace:
|
||
|
||
@example
|
||
guix environment guix --ad-hoc git strace
|
||
@end example
|
||
|
||
Sometimes it is desirable to isolate the environment as much as
|
||
possible, for maximal purity and reproducibility. In particular, when
|
||
using Guix on a host distro that is not GuixSD, it is desirable to
|
||
prevent access to @file{/usr/bin} and other system-wide resources from
|
||
the development environment. For example, the following command spawns
|
||
a Guile REPL in a ``container'' where only the store and the current
|
||
working directory are mounted:
|
||
|
||
@example
|
||
guix environment --ad-hoc --container guile -- guile
|
||
@end example
|
||
|
||
@quotation Note
|
||
The @code{--container} option requires Linux-libre 3.19 or newer.
|
||
@end quotation
|
||
|
||
The available options are summarized below.
|
||
|
||
@table @code
|
||
@item --root=@var{file}
|
||
@itemx -r @var{file}
|
||
@cindex persistent environment
|
||
@cindex garbage collector root, for environments
|
||
Make @var{file} a symlink to the profile for this environment, and
|
||
register it as a garbage collector root.
|
||
|
||
This is useful if you want to protect your environment from garbage
|
||
collection, to make it ``persistent''.
|
||
|
||
When this option is omitted, the environment is protected from garbage
|
||
collection only for the duration of the @command{guix environment}
|
||
session. This means that next time you recreate the same environment,
|
||
you could have to rebuild or re-download packages. @xref{Invoking guix
|
||
gc}, for more on GC roots.
|
||
|
||
@item --expression=@var{expr}
|
||
@itemx -e @var{expr}
|
||
Create an environment for the package or list of packages that
|
||
@var{expr} evaluates to.
|
||
|
||
For example, running:
|
||
|
||
@example
|
||
guix environment -e '(@@ (gnu packages maths) petsc-openmpi)'
|
||
@end example
|
||
|
||
starts a shell with the environment for this specific variant of the
|
||
PETSc package.
|
||
|
||
Running:
|
||
|
||
@example
|
||
guix environment --ad-hoc -e '(@@ (gnu) %base-packages)'
|
||
@end example
|
||
|
||
starts a shell with all the GuixSD base packages available.
|
||
|
||
The above commands only use the default output of the given packages.
|
||
To select other outputs, two element tuples can be specified:
|
||
|
||
@example
|
||
guix environment --ad-hoc -e '(list (@ (gnu packages bash) bash) "include")'
|
||
@end example
|
||
|
||
@item --load=@var{file}
|
||
@itemx -l @var{file}
|
||
Create an environment for the package or list of packages that the code
|
||
within @var{file} evaluates to.
|
||
|
||
As an example, @var{file} might contain a definition like this
|
||
(@pxref{Defining Packages}):
|
||
|
||
@example
|
||
@verbatiminclude environment-gdb.scm
|
||
@end example
|
||
|
||
@item --ad-hoc
|
||
Include all specified packages in the resulting environment, as if an
|
||
@i{ad hoc} package were defined with them as inputs. This option is
|
||
useful for quickly creating an environment without having to write a
|
||
package expression to contain the desired inputs.
|
||
|
||
For instance, the command:
|
||
|
||
@example
|
||
guix environment --ad-hoc guile guile-sdl -- guile
|
||
@end example
|
||
|
||
runs @command{guile} in an environment where Guile and Guile-SDL are
|
||
available.
|
||
|
||
Note that this example implicitly asks for the default output of
|
||
@code{guile} and @code{guile-sdl}, but it is possible to ask for a
|
||
specific output---e.g., @code{glib:bin} asks for the @code{bin} output
|
||
of @code{glib} (@pxref{Packages with Multiple Outputs}).
|
||
|
||
This option may be composed with the default behavior of @command{guix
|
||
environment}. Packages appearing before @code{--ad-hoc} are interpreted
|
||
as packages whose dependencies will be added to the environment, the
|
||
default behavior. Packages appearing after are interpreted as packages
|
||
that will be added to the environment directly.
|
||
|
||
@item --pure
|
||
Unset existing environment variables when building the new environment.
|
||
This has the effect of creating an environment in which search paths
|
||
only contain package inputs.
|
||
|
||
@item --search-paths
|
||
Display the environment variable definitions that make up the
|
||
environment.
|
||
|
||
@item --system=@var{system}
|
||
@itemx -s @var{system}
|
||
Attempt to build for @var{system}---e.g., @code{i686-linux}.
|
||
|
||
@item --container
|
||
@itemx -C
|
||
@cindex container
|
||
Run @var{command} within an isolated container. The current working
|
||
directory outside the container is mapped inside the container.
|
||
Additionally, a dummy home directory is created that matches the current
|
||
user's home directory, and @file{/etc/passwd} is configured accordingly.
|
||
The spawned process runs as the current user outside the container, but
|
||
has root privileges in the context of the container.
|
||
|
||
@item --network
|
||
@itemx -N
|
||
For containers, share the network namespace with the host system.
|
||
Containers created without this flag only have access to the loopback
|
||
device.
|
||
|
||
@item --expose=@var{source}[=@var{target}]
|
||
For containers, expose the file system @var{source} from the host system
|
||
as the read-only file system @var{target} within the container. If
|
||
@var{target} is not specified, @var{source} is used as the target mount
|
||
point in the container.
|
||
|
||
The example below spawns a Guile REPL in a container in which the user's
|
||
home directory is accessible read-only via the @file{/exchange}
|
||
directory:
|
||
|
||
@example
|
||
guix environment --container --expose=$HOME=/exchange --ad-hoc guile -- guile
|
||
@end example
|
||
|
||
@item --share=@var{source}[=@var{target}]
|
||
For containers, share the file system @var{source} from the host system
|
||
as the writable file system @var{target} within the container. If
|
||
@var{target} is not specified, @var{source} is used as the target mount
|
||
point in the container.
|
||
|
||
The example below spawns a Guile REPL in a container in which the user's
|
||
home directory is accessible for both reading and writing via the
|
||
@file{/exchange} directory:
|
||
|
||
@example
|
||
guix environment --container --share=$HOME=/exchange --ad-hoc guile -- guile
|
||
@end example
|
||
@end table
|
||
|
||
@command{guix environment}
|
||
also supports all of the common build options that @command{guix
|
||
build} supports (@pxref{Common Build Options}).
|
||
|
||
|
||
@node Invoking guix publish
|
||
@section Invoking @command{guix publish}
|
||
|
||
@cindex @command{guix publish}
|
||
The purpose of @command{guix publish} is to enable users to easily share
|
||
their store with others, who can then use it as a substitute server
|
||
(@pxref{Substitutes}).
|
||
|
||
When @command{guix publish} runs, it spawns an HTTP server which allows
|
||
anyone with network access to obtain substitutes from it. This means
|
||
that any machine running Guix can also act as if it were a build farm,
|
||
since the HTTP interface is compatible with Hydra, the software behind
|
||
the @code{hydra.gnu.org} build farm.
|
||
|
||
For security, each substitute is signed, allowing recipients to check
|
||
their authenticity and integrity (@pxref{Substitutes}). Because
|
||
@command{guix publish} uses the signing key of the system, which is only
|
||
readable by the system administrator, it must be started as root; the
|
||
@code{--user} option makes it drop root privileges early on.
|
||
|
||
The signing key pair must be generated before @command{guix publish} is
|
||
launched, using @command{guix archive --generate-key} (@pxref{Invoking
|
||
guix archive}).
|
||
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix publish @var{options}@dots{}
|
||
@end example
|
||
|
||
Running @command{guix publish} without any additional arguments will
|
||
spawn an HTTP server on port 8080:
|
||
|
||
@example
|
||
guix publish
|
||
@end example
|
||
|
||
Once a publishing server has been authorized (@pxref{Invoking guix
|
||
archive}), the daemon may download substitutes from it:
|
||
|
||
@example
|
||
guix-daemon --substitute-urls=http://example.org:8080
|
||
@end example
|
||
|
||
By default, @command{guix publish} compresses archives on the fly as it
|
||
serves them. This ``on-the-fly'' mode is convenient in that it requires
|
||
no setup and is immediately available. However, when serving lots of
|
||
clients, we recommend using the @option{--cache} option, which enables
|
||
caching of the archives before they are sent to clients---see below for
|
||
details. The @command{guix weather} command provides a handy way to
|
||
check what a server provides (@pxref{Invoking guix weather}).
|
||
|
||
As a bonus, @command{guix publish} also serves as a content-addressed
|
||
mirror for source files referenced in @code{origin} records
|
||
(@pxref{origin Reference}). For instance, assuming @command{guix
|
||
publish} is running on @code{example.org}, the following URL returns the
|
||
raw @file{hello-2.10.tar.gz} file with the given SHA256 hash
|
||
(represented in @code{nix-base32} format, @pxref{Invoking guix hash}):
|
||
|
||
@example
|
||
http://example.org/file/hello-2.10.tar.gz/sha256/0ssi1@dots{}ndq1i
|
||
@end example
|
||
|
||
Obviously, these URLs only work for files that are in the store; in
|
||
other cases, they return 404 (``Not Found'').
|
||
|
||
The following options are available:
|
||
|
||
@table @code
|
||
@item --port=@var{port}
|
||
@itemx -p @var{port}
|
||
Listen for HTTP requests on @var{port}.
|
||
|
||
@item --listen=@var{host}
|
||
Listen on the network interface for @var{host}. The default is to
|
||
accept connections from any interface.
|
||
|
||
@item --user=@var{user}
|
||
@itemx -u @var{user}
|
||
Change privileges to @var{user} as soon as possible---i.e., once the
|
||
server socket is open and the signing key has been read.
|
||
|
||
@item --compression[=@var{level}]
|
||
@itemx -C [@var{level}]
|
||
Compress data using the given @var{level}. When @var{level} is zero,
|
||
disable compression. The range 1 to 9 corresponds to different gzip
|
||
compression levels: 1 is the fastest, and 9 is the best (CPU-intensive).
|
||
The default is 3.
|
||
|
||
Unless @option{--cache} is used, compression occurs on the fly and
|
||
the compressed streams are not
|
||
cached. Thus, to reduce load on the machine that runs @command{guix
|
||
publish}, it may be a good idea to choose a low compression level, to
|
||
run @command{guix publish} behind a caching proxy, or to use
|
||
@option{--cache}. Using @option{--cache} has the advantage that it
|
||
allows @command{guix publish} to add @code{Content-Length} HTTP header
|
||
to its responses.
|
||
|
||
@item --cache=@var{directory}
|
||
@itemx -c @var{directory}
|
||
Cache archives and meta-data (@code{.narinfo} URLs) to @var{directory}
|
||
and only serve archives that are in cache.
|
||
|
||
When this option is omitted, archives and meta-data are created
|
||
on-the-fly. This can reduce the available bandwidth, especially when
|
||
compression is enabled, since this may become CPU-bound. Another
|
||
drawback of the default mode is that the length of archives is not known
|
||
in advance, so @command{guix publish} does not add a
|
||
@code{Content-Length} HTTP header to its responses, which in turn
|
||
prevents clients from knowing the amount of data being downloaded.
|
||
|
||
Conversely, when @option{--cache} is used, the first request for a store
|
||
item (@i{via} a @code{.narinfo} URL) returns 404 and triggers a
|
||
background process to @dfn{bake} the archive---computing its
|
||
@code{.narinfo} and compressing the archive, if needed. Once the
|
||
archive is cached in @var{directory}, subsequent requests succeed and
|
||
are served directly from the cache, which guarantees that clients get
|
||
the best possible bandwidth.
|
||
|
||
The ``baking'' process is performed by worker threads. By default, one
|
||
thread per CPU core is created, but this can be customized. See
|
||
@option{--workers} below.
|
||
|
||
When @option{--ttl} is used, cached entries are automatically deleted
|
||
when they have expired.
|
||
|
||
@item --workers=@var{N}
|
||
When @option{--cache} is used, request the allocation of @var{N} worker
|
||
threads to ``bake'' archives.
|
||
|
||
@item --ttl=@var{ttl}
|
||
Produce @code{Cache-Control} HTTP headers that advertise a time-to-live
|
||
(TTL) of @var{ttl}. @var{ttl} must denote a duration: @code{5d} means 5
|
||
days, @code{1m} means 1 month, and so on.
|
||
|
||
This allows the user's Guix to keep substitute information in cache for
|
||
@var{ttl}. However, note that @code{guix publish} does not itself
|
||
guarantee that the store items it provides will indeed remain available
|
||
for as long as @var{ttl}.
|
||
|
||
Additionally, when @option{--cache} is used, cached entries that have
|
||
not been accessed for @var{ttl} and that no longer have a corresponding
|
||
item in the store, may be deleted.
|
||
|
||
@item --nar-path=@var{path}
|
||
Use @var{path} as the prefix for the URLs of ``nar'' files
|
||
(@pxref{Invoking guix archive, normalized archives}).
|
||
|
||
By default, nars are served at a URL such as
|
||
@code{/nar/gzip/@dots{}-coreutils-8.25}. This option allows you to
|
||
change the @code{/nar} part to @var{path}.
|
||
|
||
@item --public-key=@var{file}
|
||
@itemx --private-key=@var{file}
|
||
Use the specific @var{file}s as the public/private key pair used to sign
|
||
the store items being published.
|
||
|
||
The files must correspond to the same key pair (the private key is used
|
||
for signing and the public key is merely advertised in the signature
|
||
metadata). They must contain keys in the canonical s-expression format
|
||
as produced by @command{guix archive --generate-key} (@pxref{Invoking
|
||
guix archive}). By default, @file{/etc/guix/signing-key.pub} and
|
||
@file{/etc/guix/signing-key.sec} are used.
|
||
|
||
@item --repl[=@var{port}]
|
||
@itemx -r [@var{port}]
|
||
Spawn a Guile REPL server (@pxref{REPL Servers,,, guile, GNU Guile
|
||
Reference Manual}) on @var{port} (37146 by default). This is used
|
||
primarily for debugging a running @command{guix publish} server.
|
||
@end table
|
||
|
||
Enabling @command{guix publish} on a GuixSD system is a one-liner: just
|
||
instantiate a @code{guix-publish-service-type} service in the @code{services} field
|
||
of the @code{operating-system} declaration (@pxref{guix-publish-service-type,
|
||
@code{guix-publish-service-type}}).
|
||
|
||
If you are instead running Guix on a ``foreign distro'', follow these
|
||
instructions:”
|
||
|
||
@itemize
|
||
@item
|
||
If your host distro uses the systemd init system:
|
||
|
||
@example
|
||
# ln -s ~root/.guix-profile/lib/systemd/system/guix-publish.service \
|
||
/etc/systemd/system/
|
||
# systemctl start guix-publish && systemctl enable guix-publish
|
||
@end example
|
||
|
||
@item
|
||
If your host distro uses the Upstart init system:
|
||
|
||
@example
|
||
# ln -s ~root/.guix-profile/lib/upstart/system/guix-publish.conf /etc/init/
|
||
# start guix-publish
|
||
@end example
|
||
|
||
@item
|
||
Otherwise, proceed similarly with your distro's init system.
|
||
@end itemize
|
||
|
||
@node Invoking guix challenge
|
||
@section Invoking @command{guix challenge}
|
||
|
||
@cindex reproducible builds
|
||
@cindex verifiable builds
|
||
@cindex @command{guix challenge}
|
||
@cindex challenge
|
||
Do the binaries provided by this server really correspond to the source
|
||
code it claims to build? Is a package build process deterministic?
|
||
These are the questions the @command{guix challenge} command attempts to
|
||
answer.
|
||
|
||
The former is obviously an important question: Before using a substitute
|
||
server (@pxref{Substitutes}), one had better @emph{verify} that it
|
||
provides the right binaries, and thus @emph{challenge} it. The latter
|
||
is what enables the former: If package builds are deterministic, then
|
||
independent builds of the package should yield the exact same result,
|
||
bit for bit; if a server provides a binary different from the one
|
||
obtained locally, it may be either corrupt or malicious.
|
||
|
||
We know that the hash that shows up in @file{/gnu/store} file names is
|
||
the hash of all the inputs of the process that built the file or
|
||
directory---compilers, libraries, build scripts,
|
||
etc. (@pxref{Introduction}). Assuming deterministic build processes,
|
||
one store file name should map to exactly one build output.
|
||
@command{guix challenge} checks whether there is, indeed, a single
|
||
mapping by comparing the build outputs of several independent builds of
|
||
any given store item.
|
||
|
||
The command output looks like this:
|
||
|
||
@smallexample
|
||
$ guix challenge --substitute-urls="https://hydra.gnu.org https://guix.example.org"
|
||
updating list of substitutes from 'https://hydra.gnu.org'... 100.0%
|
||
updating list of substitutes from 'https://guix.example.org'... 100.0%
|
||
/gnu/store/@dots{}-openssl-1.0.2d contents differ:
|
||
local hash: 0725l22r5jnzazaacncwsvp9kgf42266ayyp814v7djxs7nk963q
|
||
https://hydra.gnu.org/nar/@dots{}-openssl-1.0.2d: 0725l22r5jnzazaacncwsvp9kgf42266ayyp814v7djxs7nk963q
|
||
https://guix.example.org/nar/@dots{}-openssl-1.0.2d: 1zy4fmaaqcnjrzzajkdn3f5gmjk754b43qkq47llbyak9z0qjyim
|
||
/gnu/store/@dots{}-git-2.5.0 contents differ:
|
||
local hash: 00p3bmryhjxrhpn2gxs2fy0a15lnip05l97205pgbk5ra395hyha
|
||
https://hydra.gnu.org/nar/@dots{}-git-2.5.0: 069nb85bv4d4a6slrwjdy8v1cn4cwspm3kdbmyb81d6zckj3nq9f
|
||
https://guix.example.org/nar/@dots{}-git-2.5.0: 0mdqa9w1p6cmli6976v4wi0sw9r4p5prkj7lzfd1877wk11c9c73
|
||
/gnu/store/@dots{}-pius-2.1.1 contents differ:
|
||
local hash: 0k4v3m9z1zp8xzzizb7d8kjj72f9172xv078sq4wl73vnq9ig3ax
|
||
https://hydra.gnu.org/nar/@dots{}-pius-2.1.1: 0k4v3m9z1zp8xzzizb7d8kjj72f9172xv078sq4wl73vnq9ig3ax
|
||
https://guix.example.org/nar/@dots{}-pius-2.1.1: 1cy25x1a4fzq5rk0pmvc8xhwyffnqz95h2bpvqsz2mpvlbccy0gs
|
||
|
||
@dots{}
|
||
|
||
6,406 store items were analyzed:
|
||
- 4,749 (74.1%) were identical
|
||
- 525 (8.2%) differed
|
||
- 1,132 (17.7%) were inconclusive
|
||
@end smallexample
|
||
|
||
@noindent
|
||
In this example, @command{guix challenge} first scans the store to
|
||
determine the set of locally-built derivations---as opposed to store
|
||
items that were downloaded from a substitute server---and then queries
|
||
all the substitute servers. It then reports those store items for which
|
||
the servers obtained a result different from the local build.
|
||
|
||
@cindex non-determinism, in package builds
|
||
As an example, @code{guix.example.org} always gets a different answer.
|
||
Conversely, @code{hydra.gnu.org} agrees with local builds, except in the
|
||
case of Git. This might indicate that the build process of Git is
|
||
non-deterministic, meaning that its output varies as a function of
|
||
various things that Guix does not fully control, in spite of building
|
||
packages in isolated environments (@pxref{Features}). Most common
|
||
sources of non-determinism include the addition of timestamps in build
|
||
results, the inclusion of random numbers, and directory listings sorted
|
||
by inode number. See @uref{https://reproducible-builds.org/docs/}, for
|
||
more information.
|
||
|
||
To find out what is wrong with this Git binary, we can do something along
|
||
these lines (@pxref{Invoking guix archive}):
|
||
|
||
@example
|
||
$ wget -q -O - https://hydra.gnu.org/nar/@dots{}-git-2.5.0 \
|
||
| guix archive -x /tmp/git
|
||
$ diff -ur --no-dereference /gnu/store/@dots{}-git.2.5.0 /tmp/git
|
||
@end example
|
||
|
||
This command shows the difference between the files resulting from the
|
||
local build, and the files resulting from the build on
|
||
@code{hydra.gnu.org} (@pxref{Overview, Comparing and Merging Files,,
|
||
diffutils, Comparing and Merging Files}). The @command{diff} command
|
||
works great for text files. When binary files differ, a better option
|
||
is @uref{https://diffoscope.org/, Diffoscope}, a tool that helps
|
||
visualize differences for all kinds of files.
|
||
|
||
Once you have done that work, you can tell whether the differences are due
|
||
to a non-deterministic build process or to a malicious server. We try
|
||
hard to remove sources of non-determinism in packages to make it easier
|
||
to verify substitutes, but of course, this is a process that
|
||
involves not just Guix, but a large part of the free software community.
|
||
In the meantime, @command{guix challenge} is one tool to help address
|
||
the problem.
|
||
|
||
If you are writing packages for Guix, you are encouraged to check
|
||
whether @code{hydra.gnu.org} and other substitute servers obtain the
|
||
same build result as you did with:
|
||
|
||
@example
|
||
$ guix challenge @var{package}
|
||
@end example
|
||
|
||
@noindent
|
||
where @var{package} is a package specification such as
|
||
@code{guile@@2.0} or @code{glibc:debug}.
|
||
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix challenge @var{options} [@var{packages}@dots{}]
|
||
@end example
|
||
|
||
When a difference is found between the hash of a locally-built item and
|
||
that of a server-provided substitute, or among substitutes provided by
|
||
different servers, the command displays it as in the example above and
|
||
its exit code is 2 (other non-zero exit codes denote other kinds of
|
||
errors.)
|
||
|
||
The one option that matters is:
|
||
|
||
@table @code
|
||
|
||
@item --substitute-urls=@var{urls}
|
||
Consider @var{urls} the whitespace-separated list of substitute source
|
||
URLs to compare to.
|
||
|
||
@item --verbose
|
||
@itemx -v
|
||
Show details about matches (identical contents) in addition to
|
||
information about mismatches.
|
||
|
||
@end table
|
||
|
||
@node Invoking guix copy
|
||
@section Invoking @command{guix copy}
|
||
|
||
@cindex copy, of store items, over SSH
|
||
@cindex SSH, copy of store items
|
||
@cindex sharing store items across machines
|
||
@cindex transferring store items across machines
|
||
The @command{guix copy} command copies items from the store of one
|
||
machine to that of another machine over a secure shell (SSH)
|
||
connection@footnote{This command is available only when Guile-SSH was
|
||
found. @xref{Requirements}, for details.}. For example, the following
|
||
command copies the @code{coreutils} package, the user's profile, and all
|
||
their dependencies over to @var{host}, logged in as @var{user}:
|
||
|
||
@example
|
||
guix copy --to=@var{user}@@@var{host} \
|
||
coreutils `readlink -f ~/.guix-profile`
|
||
@end example
|
||
|
||
If some of the items to be copied are already present on @var{host},
|
||
they are not actually sent.
|
||
|
||
The command below retrieves @code{libreoffice} and @code{gimp} from
|
||
@var{host}, assuming they are available there:
|
||
|
||
@example
|
||
guix copy --from=@var{host} libreoffice gimp
|
||
@end example
|
||
|
||
The SSH connection is established using the Guile-SSH client, which is
|
||
compatible with OpenSSH: it honors @file{~/.ssh/known_hosts} and
|
||
@file{~/.ssh/config}, and uses the SSH agent for authentication.
|
||
|
||
The key used to sign items that are sent must be accepted by the remote
|
||
machine. Likewise, the key used by the remote machine to sign items you
|
||
are retrieving must be in @file{/etc/guix/acl} so it is accepted by your
|
||
own daemon. @xref{Invoking guix archive}, for more information about
|
||
store item authentication.
|
||
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix copy [--to=@var{spec}|--from=@var{spec}] @var{items}@dots{}
|
||
@end example
|
||
|
||
You must always specify one of the following options:
|
||
|
||
@table @code
|
||
@item --to=@var{spec}
|
||
@itemx --from=@var{spec}
|
||
Specify the host to send to or receive from. @var{spec} must be an SSH
|
||
spec such as @code{example.org}, @code{charlie@@example.org}, or
|
||
@code{charlie@@example.org:2222}.
|
||
@end table
|
||
|
||
The @var{items} can be either package names, such as @code{gimp}, or
|
||
store items, such as @file{/gnu/store/@dots{}-idutils-4.6}.
|
||
|
||
When specifying the name of a package to send, it is first built if
|
||
needed, unless @option{--dry-run} was specified. Common build options
|
||
are supported (@pxref{Common Build Options}).
|
||
|
||
|
||
@node Invoking guix container
|
||
@section Invoking @command{guix container}
|
||
@cindex container
|
||
@cindex @command{guix container}
|
||
@quotation Note
|
||
As of version @value{VERSION}, this tool is experimental. The interface
|
||
is subject to radical change in the future.
|
||
@end quotation
|
||
|
||
The purpose of @command{guix container} is to manipulate processes
|
||
running within an isolated environment, commonly known as a
|
||
``container'', typically created by the @command{guix environment}
|
||
(@pxref{Invoking guix environment}) and @command{guix system container}
|
||
(@pxref{Invoking guix system}) commands.
|
||
|
||
The general syntax is:
|
||
|
||
@example
|
||
guix container @var{action} @var{options}@dots{}
|
||
@end example
|
||
|
||
@var{action} specifies the operation to perform with a container, and
|
||
@var{options} specifies the context-specific arguments for the action.
|
||
|
||
The following actions are available:
|
||
|
||
@table @code
|
||
@item exec
|
||
Execute a command within the context of a running container.
|
||
|
||
The syntax is:
|
||
|
||
@example
|
||
guix container exec @var{pid} @var{program} @var{arguments}@dots{}
|
||
@end example
|
||
|
||
@var{pid} specifies the process ID of the running container.
|
||
@var{program} specifies an executable file name within the root file
|
||
system of the container. @var{arguments} are the additional options that
|
||
will be passed to @var{program}.
|
||
|
||
The following command launches an interactive login shell inside a
|
||
GuixSD container, started by @command{guix system container}, and whose
|
||
process ID is 9001:
|
||
|
||
@example
|
||
guix container exec 9001 /run/current-system/profile/bin/bash --login
|
||
@end example
|
||
|
||
Note that the @var{pid} cannot be the parent process of a container. It
|
||
must be PID 1 of the container or one of its child processes.
|
||
|
||
@end table
|
||
|
||
@node Invoking guix weather
|
||
@section Invoking @command{guix weather}
|
||
|
||
Occasionally you're grumpy because substitutes are lacking and you end
|
||
up building packages by yourself (@pxref{Substitutes}). The
|
||
@command{guix weather} command reports on substitute availability on the
|
||
specified servers so you can have an idea of whether you'll be grumpy
|
||
today. It can sometimes be useful info as a user, but it is primarily
|
||
useful to people running @command{guix publish} (@pxref{Invoking guix
|
||
publish}).
|
||
|
||
@cindex statistics, for substitutes
|
||
@cindex availability of substitutes
|
||
@cindex substitute availability
|
||
@cindex weather, substitute availability
|
||
Here's a sample run:
|
||
|
||
@example
|
||
$ guix weather --substitute-urls=https://guix.example.org
|
||
computing 5,872 package derivations for x86_64-linux...
|
||
looking for 6,128 store items on https://guix.example.org..
|
||
updating list of substitutes from 'https://guix.example.org'... 100.0%
|
||
https://guix.example.org
|
||
43.4% substitutes available (2,658 out of 6,128)
|
||
7,032.5 MiB of nars (compressed)
|
||
19,824.2 MiB on disk (uncompressed)
|
||
0.030 seconds per request (182.9 seconds in total)
|
||
33.5 requests per second
|
||
@end example
|
||
|
||
As you can see, it reports the fraction of all the packages for which
|
||
substitutes are available on the server---regardless of whether
|
||
substitutes are enabled, and regardless of whether this server's signing
|
||
key is authorized. It also reports the size of the compressed archives
|
||
(``nars'') provided by the server, the size the corresponding store
|
||
items occupy in the store (assuming deduplication is turned off), and
|
||
the server's throughput.
|
||
|
||
To achieve that, @command{guix weather} queries over HTTP(S) meta-data
|
||
(@dfn{narinfos}) for all the relevant store items. Like @command{guix
|
||
challenge}, it ignores signatures on those substitutes, which is
|
||
innocuous since the command only gathers statistics and cannot install
|
||
those substitutes.
|
||
|
||
Among other things, it is possible to query specific system types and
|
||
specific package sets. The available options are listed below.
|
||
|
||
@table @code
|
||
@item --substitute-urls=@var{urls}
|
||
@var{urls} is the space-separated list of substitute server URLs to
|
||
query. When this option is omitted, the default set of substitute
|
||
servers is queried.
|
||
|
||
@item --system=@var{system}
|
||
@itemx -s @var{system}
|
||
Query substitutes for @var{system}---e.g., @code{aarch64-linux}. This
|
||
option can be repeated, in which case @command{guix weather} will query
|
||
substitutes for several system types.
|
||
|
||
@item --manifest=@var{file}
|
||
Instead of querying substitutes for all the packages, only ask for those
|
||
specified in @var{file}. @var{file} must contain a @dfn{manifest}, as
|
||
with the @code{-m} option of @command{guix package} (@pxref{Invoking
|
||
guix package}).
|
||
@end table
|
||
|
||
|
||
@c *********************************************************************
|
||
@node GNU Distribution
|
||
@chapter GNU Distribution
|
||
|
||
@cindex Guix System Distribution
|
||
@cindex GuixSD
|
||
Guix comes with a distribution of the GNU system consisting entirely of
|
||
free software@footnote{The term ``free'' here refers to the
|
||
@url{http://www.gnu.org/philosophy/free-sw.html,freedom provided to
|
||
users of that software}.}. The
|
||
distribution can be installed on its own (@pxref{System Installation}),
|
||
but it is also possible to install Guix as a package manager on top of
|
||
an installed GNU/Linux system (@pxref{Installation}). To distinguish
|
||
between the two, we refer to the standalone distribution as the Guix
|
||
System Distribution, or GuixSD.
|
||
|
||
The distribution provides core GNU packages such as GNU libc, GCC, and
|
||
Binutils, as well as many GNU and non-GNU applications. The complete
|
||
list of available packages can be browsed
|
||
@url{http://www.gnu.org/software/guix/packages,on-line} or by
|
||
running @command{guix package} (@pxref{Invoking guix package}):
|
||
|
||
@example
|
||
guix package --list-available
|
||
@end example
|
||
|
||
Our goal is to provide a practical 100% free software distribution of
|
||
Linux-based and other variants of GNU, with a focus on the promotion and
|
||
tight integration of GNU components, and an emphasis on programs and
|
||
tools that help users exert that freedom.
|
||
|
||
Packages are currently available on the following platforms:
|
||
|
||
@table @code
|
||
|
||
@item x86_64-linux
|
||
Intel/AMD @code{x86_64} architecture, Linux-Libre kernel;
|
||
|
||
@item i686-linux
|
||
Intel 32-bit architecture (IA32), Linux-Libre kernel;
|
||
|
||
@item armhf-linux
|
||
ARMv7-A architecture with hard float, Thumb-2 and NEON,
|
||
using the EABI hard-float application binary interface (ABI),
|
||
and Linux-Libre kernel.
|
||
|
||
@item aarch64-linux
|
||
little-endian 64-bit ARMv8-A processors, Linux-Libre kernel. This is
|
||
currently in an experimental stage, with limited support.
|
||
@xref{Contributing}, for how to help!
|
||
|
||
@item mips64el-linux
|
||
little-endian 64-bit MIPS processors, specifically the Loongson series,
|
||
n32 ABI, and Linux-Libre kernel.
|
||
|
||
@end table
|
||
|
||
GuixSD itself is currently only available on @code{i686} and @code{x86_64}.
|
||
|
||
@noindent
|
||
For information on porting to other architectures or kernels,
|
||
@pxref{Porting}.
|
||
|
||
@menu
|
||
* System Installation:: Installing the whole operating system.
|
||
* System Configuration:: Configuring the operating system.
|
||
* Documentation:: Browsing software user manuals.
|
||
* Installing Debugging Files:: Feeding the debugger.
|
||
* Security Updates:: Deploying security fixes quickly.
|
||
* Package Modules:: Packages from the programmer's viewpoint.
|
||
* Packaging Guidelines:: Growing the distribution.
|
||
* Bootstrapping:: GNU/Linux built from scratch.
|
||
* Porting:: Targeting another platform or kernel.
|
||
@end menu
|
||
|
||
Building this distribution is a cooperative effort, and you are invited
|
||
to join! @xref{Contributing}, for information about how you can help.
|
||
|
||
@node System Installation
|
||
@section System Installation
|
||
|
||
@cindex installing GuixSD
|
||
@cindex Guix System Distribution
|
||
This section explains how to install the Guix System Distribution (GuixSD)
|
||
on a machine. The Guix package manager can
|
||
also be installed on top of a running GNU/Linux system,
|
||
@pxref{Installation}.
|
||
|
||
@ifinfo
|
||
@quotation Note
|
||
@c This paragraph is for people reading this from tty2 of the
|
||
@c installation image.
|
||
You are reading this documentation with an Info reader. For details on
|
||
how to use it, hit the @key{RET} key (``return'' or ``enter'') on the
|
||
link that follows: @pxref{Top, Info reader,, info-stnd, Stand-alone GNU
|
||
Info}. Hit @kbd{l} afterwards to come back here.
|
||
|
||
Alternately, run @command{info info} in another tty to keep the manual
|
||
available.
|
||
@end quotation
|
||
@end ifinfo
|
||
|
||
@menu
|
||
* Limitations:: What you can expect.
|
||
* Hardware Considerations:: Supported hardware.
|
||
* USB Stick Installation:: Preparing the installation medium.
|
||
* DVD Installation:: Preparing the installation medium.
|
||
* Preparing for Installation:: Networking, partitioning, etc.
|
||
* Proceeding with the Installation:: The real thing.
|
||
* Installing GuixSD in a VM:: GuixSD playground.
|
||
* Building the Installation Image:: How this comes to be.
|
||
@end menu
|
||
|
||
@node Limitations
|
||
@subsection Limitations
|
||
|
||
As of version @value{VERSION}, the Guix System Distribution (GuixSD) is
|
||
not production-ready. It may contain bugs and lack important
|
||
features. Thus, if you are looking for a stable production system that
|
||
respects your freedom as a computer user, a good solution at this point
|
||
is to consider @url{http://www.gnu.org/distros/free-distros.html, one of
|
||
the more established GNU/Linux distributions}. We hope you can soon switch
|
||
to the GuixSD without fear, of course. In the meantime, you can
|
||
also keep using your distribution and try out the package manager on top
|
||
of it (@pxref{Installation}).
|
||
|
||
Before you proceed with the installation, be aware of the following
|
||
noteworthy limitations applicable to version @value{VERSION}:
|
||
|
||
@itemize
|
||
@item
|
||
The installation process does not include a graphical user interface and
|
||
requires familiarity with GNU/Linux (see the following subsections to
|
||
get a feel of what that means.)
|
||
|
||
@item
|
||
Support for the Logical Volume Manager (LVM) is missing.
|
||
|
||
@item
|
||
More and more system services are provided (@pxref{Services}), but some
|
||
may be missing.
|
||
|
||
@item
|
||
More than 5,300 packages are available, but you may
|
||
occasionally find that a useful package is missing.
|
||
|
||
@item
|
||
GNOME, Xfce, LXDE, and Enlightenment are available (@pxref{Desktop Services}),
|
||
as well as a number of X11 window managers. However, some graphical
|
||
applications may be missing, as well as KDE.
|
||
@end itemize
|
||
|
||
You have been warned! But more than a disclaimer, this is an invitation
|
||
to report issues (and success stories!), and to join us in improving it.
|
||
@xref{Contributing}, for more info.
|
||
|
||
|
||
@node Hardware Considerations
|
||
@subsection Hardware Considerations
|
||
|
||
@cindex hardware support on GuixSD
|
||
GNU@tie{}GuixSD focuses on respecting the user's computing freedom. It
|
||
builds around the kernel Linux-libre, which means that only hardware for
|
||
which free software drivers and firmware exist is supported. Nowadays,
|
||
a wide range of off-the-shelf hardware is supported on
|
||
GNU/Linux-libre---from keyboards to graphics cards to scanners and
|
||
Ethernet controllers. Unfortunately, there are still areas where
|
||
hardware vendors deny users control over their own computing, and such
|
||
hardware is not supported on GuixSD.
|
||
|
||
@cindex WiFi, hardware support
|
||
One of the main areas where free drivers or firmware are lacking is WiFi
|
||
devices. WiFi devices known to work include those using Atheros chips
|
||
(AR9271 and AR7010), which corresponds to the @code{ath9k} Linux-libre
|
||
driver, and those using Broadcom/AirForce chips (BCM43xx with
|
||
Wireless-Core Revision 5), which corresponds to the @code{b43-open}
|
||
Linux-libre driver. Free firmware exists for both and is available
|
||
out-of-the-box on GuixSD, as part of @var{%base-firmware}
|
||
(@pxref{operating-system Reference, @code{firmware}}).
|
||
|
||
@cindex RYF, Respects Your Freedom
|
||
The @uref{https://www.fsf.org/, Free Software Foundation} runs
|
||
@uref{https://www.fsf.org/ryf, @dfn{Respects Your Freedom}} (RYF), a
|
||
certification program for hardware products that respect your freedom
|
||
and your privacy and ensure that you have control over your device. We
|
||
encourage you to check the list of RYF-certified devices.
|
||
|
||
Another useful resource is the @uref{https://www.h-node.org/, H-Node}
|
||
web site. It contains a catalog of hardware devices with information
|
||
about their support in GNU/Linux.
|
||
|
||
|
||
@node USB Stick Installation
|
||
@subsection USB Stick Installation
|
||
|
||
An installation image for USB sticks can be downloaded from
|
||
@indicateurl{ftp://alpha.gnu.org/gnu/guix/guixsd-install-@value{VERSION}.@var{system}.xz},
|
||
where @var{system} is one of:
|
||
|
||
@table @code
|
||
@item x86_64-linux
|
||
for a GNU/Linux system on Intel/AMD-compatible 64-bit CPUs;
|
||
|
||
@item i686-linux
|
||
for a 32-bit GNU/Linux system on Intel-compatible CPUs.
|
||
@end table
|
||
|
||
@c start duplication of authentication part from ``Binary Installation''
|
||
Make sure to download the associated @file{.sig} file and to verify the
|
||
authenticity of the image against it, along these lines:
|
||
|
||
@example
|
||
$ wget ftp://alpha.gnu.org/gnu/guix/guixsd-install-@value{VERSION}.@var{system}.xz.sig
|
||
$ gpg --verify guixsd-install-@value{VERSION}.@var{system}.xz.sig
|
||
@end example
|
||
|
||
If that command fails because you do not have the required public key,
|
||
then run this command to import it:
|
||
|
||
@example
|
||
$ gpg --keyserver pgp.mit.edu --recv-keys @value{OPENPGP-SIGNING-KEY-ID}
|
||
@end example
|
||
|
||
@noindent
|
||
and rerun the @code{gpg --verify} command.
|
||
@c end duplication
|
||
|
||
This image contains the tools necessary for an installation.
|
||
It is meant to be copied @emph{as is} to a large-enough USB stick or DVD.
|
||
|
||
To copy the image to a USB stick, follow these steps:
|
||
|
||
@enumerate
|
||
@item
|
||
Decompress the image using the @command{xz} command:
|
||
|
||
@example
|
||
xz -d guixsd-install-@value{VERSION}.@var{system}.xz
|
||
@end example
|
||
|
||
@item
|
||
Insert a USB stick of 1@tie{}GiB or more into your machine, and determine
|
||
its device name. Assuming that the USB stick is known as @file{/dev/sdX},
|
||
copy the image with:
|
||
|
||
@example
|
||
dd if=guixsd-install-@value{VERSION}.x86_64 of=/dev/sdX
|
||
sync
|
||
@end example
|
||
|
||
Access to @file{/dev/sdX} usually requires root privileges.
|
||
@end enumerate
|
||
|
||
Once this is done, you should be able to reboot the system and boot from
|
||
the USB stick. The latter usually requires you to get in the BIOS or
|
||
UEFI boot menu, where you can choose to boot from the USB stick.
|
||
|
||
@xref{Installing GuixSD in a VM}, if, instead, you would like to install
|
||
GuixSD in a virtual machine (VM).
|
||
|
||
@node DVD Installation
|
||
@subsection DVD Installation
|
||
|
||
An installation image for DVDs can be downloaded from
|
||
@indicateurl{ftp://alpha.gnu.org/gnu/guix/guixsd-install-@value{VERSION}.@var{system}.xz},
|
||
where @var{system} is one of:
|
||
|
||
@table @code
|
||
@item x86_64-linux
|
||
for a GNU/Linux system on Intel/AMD-compatible 64-bit CPUs;
|
||
|
||
@item i686-linux
|
||
for a 32-bit GNU/Linux system on Intel-compatible CPUs.
|
||
@end table
|
||
|
||
@c start duplication of authentication part from ``Binary Installation''
|
||
Make sure to download the associated @file{.sig} file and to verify the
|
||
authenticity of the image against it, along these lines:
|
||
|
||
@example
|
||
$ wget ftp://alpha.gnu.org/gnu/guix/guixsd-install-@value{VERSION}.@var{system}.xz.sig
|
||
$ gpg --verify guixsd-install-@value{VERSION}.@var{system}.xz.sig
|
||
@end example
|
||
|
||
If that command fails because you do not have the required public key,
|
||
then run this command to import it:
|
||
|
||
@example
|
||
$ gpg --keyserver pgp.mit.edu --recv-keys @value{OPENPGP-SIGNING-KEY-ID}
|
||
@end example
|
||
|
||
@noindent
|
||
and rerun the @code{gpg --verify} command.
|
||
@c end duplication
|
||
|
||
This image contains the tools necessary for an installation.
|
||
It is meant to be copied @emph{as is} to a large-enough USB stick or DVD.
|
||
|
||
To copy the image to a DVD, follow these steps:
|
||
|
||
@enumerate
|
||
@item
|
||
Decompress the image using the @command{xz} command:
|
||
|
||
@example
|
||
xz -d guixsd-install-@value{VERSION}.@var{system}.xz
|
||
@end example
|
||
|
||
@item
|
||
Insert a blank DVD into your machine, and determine
|
||
its device name. Assuming that the DVD drive is known as @file{/dev/srX},
|
||
copy the image with:
|
||
|
||
@example
|
||
growisofs -dvd-compat -Z /dev/srX=guixsd-install-@value{VERSION}.x86_64
|
||
@end example
|
||
|
||
Access to @file{/dev/srX} usually requires root privileges.
|
||
@end enumerate
|
||
|
||
Once this is done, you should be able to reboot the system and boot from
|
||
the DVD. The latter usually requires you to get in the BIOS or
|
||
UEFI boot menu, where you can choose to boot from the DVD.
|
||
|
||
@xref{Installing GuixSD in a VM}, if, instead, you would like to install
|
||
GuixSD in a virtual machine (VM).
|
||
|
||
@node Preparing for Installation
|
||
@subsection Preparing for Installation
|
||
|
||
Once you have successfully booted your computer using the installation medium,
|
||
you should end up with a root prompt. Several console TTYs are configured
|
||
and can be used to run commands as root. TTY2 shows this documentation,
|
||
browsable using the Info reader commands (@pxref{Top,,, info-stnd,
|
||
Stand-alone GNU Info}). The installation system runs the GPM mouse
|
||
daemon, which allows you to select text with the left mouse button and
|
||
to paste it with the middle button.
|
||
|
||
@quotation Note
|
||
Installation requires access to the Internet so that any missing
|
||
dependencies of your system configuration can be downloaded. See the
|
||
``Networking'' section below.
|
||
@end quotation
|
||
|
||
The installation system includes many common tools needed for this task.
|
||
But it is also a full-blown GuixSD system, which means that you can
|
||
install additional packages, should you need it, using @command{guix
|
||
package} (@pxref{Invoking guix package}).
|
||
|
||
@subsubsection Keyboard Layout
|
||
|
||
@cindex keyboard layout
|
||
The installation image uses the US qwerty keyboard layout. If you want
|
||
to change it, you can use the @command{loadkeys} command. For example,
|
||
the following command selects the Dvorak keyboard layout:
|
||
|
||
@example
|
||
loadkeys dvorak
|
||
@end example
|
||
|
||
See the files under @file{/run/current-system/profile/share/keymaps} for
|
||
a list of available keyboard layouts. Run @command{man loadkeys} for
|
||
more information.
|
||
|
||
@subsubsection Networking
|
||
|
||
Run the following command see what your network interfaces are called:
|
||
|
||
@example
|
||
ifconfig -a
|
||
@end example
|
||
|
||
@noindent
|
||
@dots{} or, using the GNU/Linux-specific @command{ip} command:
|
||
|
||
@example
|
||
ip a
|
||
@end example
|
||
|
||
@c http://cgit.freedesktop.org/systemd/systemd/tree/src/udev/udev-builtin-net_id.c#n20
|
||
Wired interfaces have a name starting with @samp{e}; for example, the
|
||
interface corresponding to the first on-board Ethernet controller is
|
||
called @samp{eno1}. Wireless interfaces have a name starting with
|
||
@samp{w}, like @samp{w1p2s0}.
|
||
|
||
@table @asis
|
||
@item Wired connection
|
||
To configure a wired network run the following command, substituting
|
||
@var{interface} with the name of the wired interface you want to use.
|
||
|
||
@example
|
||
ifconfig @var{interface} up
|
||
@end example
|
||
|
||
@item Wireless connection
|
||
@cindex wireless
|
||
@cindex WiFi
|
||
To configure wireless networking, you can create a configuration file
|
||
for the @command{wpa_supplicant} configuration tool (its location is not
|
||
important) using one of the available text editors such as
|
||
@command{zile}:
|
||
|
||
@example
|
||
zile wpa_supplicant.conf
|
||
@end example
|
||
|
||
As an example, the following stanza can go to this file and will work
|
||
for many wireless networks, provided you give the actual SSID and
|
||
passphrase for the network you are connecting to:
|
||
|
||
@example
|
||
network=@{
|
||
ssid="@var{my-ssid}"
|
||
key_mgmt=WPA-PSK
|
||
psk="the network's secret passphrase"
|
||
@}
|
||
@end example
|
||
|
||
Start the wireless service and run it in the background with the
|
||
following command (substitute @var{interface} with the name of the
|
||
network interface you want to use):
|
||
|
||
@example
|
||
wpa_supplicant -c wpa_supplicant.conf -i @var{interface} -B
|
||
@end example
|
||
|
||
Run @command{man wpa_supplicant} for more information.
|
||
@end table
|
||
|
||
@cindex DHCP
|
||
At this point, you need to acquire an IP address. On a network where IP
|
||
addresses are automatically assigned @i{via} DHCP, you can run:
|
||
|
||
@example
|
||
dhclient -v @var{interface}
|
||
@end example
|
||
|
||
Try to ping a server to see if networking is up and running:
|
||
|
||
@example
|
||
ping -c 3 gnu.org
|
||
@end example
|
||
|
||
Setting up network access is almost always a requirement because the
|
||
image does not contain all the software and tools that may be needed.
|
||
|
||
@cindex installing over SSH
|
||
If you want to, you can continue the installation remotely by starting
|
||
an SSH server:
|
||
|
||
@example
|
||
herd start ssh-daemon
|
||
@end example
|
||
|
||
Make sure to either set a password with @command{passwd}, or configure
|
||
OpenSSH public key authentication before logging in.
|
||
|
||
@subsubsection Disk Partitioning
|
||
|
||
Unless this has already been done, the next step is to partition, and
|
||
then format the target partition(s).
|
||
|
||
The installation image includes several partitioning tools, including
|
||
Parted (@pxref{Overview,,, parted, GNU Parted User Manual}),
|
||
@command{fdisk}, and @command{cfdisk}. Run it and set up your disk with
|
||
the partition layout you want:
|
||
|
||
@example
|
||
cfdisk
|
||
@end example
|
||
|
||
If your disk uses the GUID Partition Table (GPT) format and you plan to
|
||
install BIOS-based GRUB (which is the default), make sure a BIOS Boot
|
||
Partition is available (@pxref{BIOS installation,,, grub, GNU GRUB
|
||
manual}).
|
||
|
||
@cindex EFI, installation
|
||
@cindex UEFI, installation
|
||
@cindex ESP, EFI system partition
|
||
If you instead wish to use EFI-based GRUB, a FAT32 @dfn{EFI System Partition}
|
||
(ESP) is required. This partition should be mounted at @file{/boot/efi} and
|
||
must have the @code{esp} flag set. E.g., for @command{parted}:
|
||
|
||
@example
|
||
parted /dev/sda set 1 esp on
|
||
@end example
|
||
|
||
Once you are done partitioning the target hard disk drive, you have to
|
||
create a file system on the relevant partition(s)@footnote{Currently
|
||
GuixSD only supports ext4 and btrfs file systems. In particular, code
|
||
that reads partition UUIDs and labels only works for these file system
|
||
types.}. For the ESP, if you have one and assuming it is
|
||
@file{/dev/sda2}, run:
|
||
|
||
@example
|
||
mkfs.fat -F32 /dev/sda2
|
||
@end example
|
||
|
||
Preferably, assign file systems a label so that you can easily and
|
||
reliably refer to them in @code{file-system} declarations (@pxref{File
|
||
Systems}). This is typically done using the @code{-L} option of
|
||
@command{mkfs.ext4} and related commands. So, assuming the target root
|
||
partition lives at @file{/dev/sda1}, a file system with the label
|
||
@code{my-root} can be created with:
|
||
|
||
@example
|
||
mkfs.ext4 -L my-root /dev/sda1
|
||
@end example
|
||
|
||
@cindex encrypted disk
|
||
If you are instead planning to encrypt the root partition, you can use
|
||
the Cryptsetup/LUKS utilities to do that (see @inlinefmtifelse{html,
|
||
@uref{https://linux.die.net/man/8/cryptsetup, @code{man cryptsetup}},
|
||
@code{man cryptsetup}} for more information.) Assuming you want to
|
||
store the root partition on @file{/dev/sda1}, the command sequence would
|
||
be along these lines:
|
||
|
||
@example
|
||
cryptsetup luksFormat /dev/sda1
|
||
cryptsetup open --type luks /dev/sda1 my-partition
|
||
mkfs.ext4 -L my-root /dev/mapper/my-partition
|
||
@end example
|
||
|
||
Once that is done, mount the target file system under @file{/mnt}
|
||
with a command like (again, assuming @code{my-root} is the label of the
|
||
root file system):
|
||
|
||
@example
|
||
mount LABEL=my-root /mnt
|
||
@end example
|
||
|
||
Also mount any other partitions you would like to use on the target
|
||
system relative to this path. If you have @file{/boot} on a separate
|
||
partition for example, mount it at @file{/mnt/boot} now so it is found
|
||
by @code{guix system init} afterwards.
|
||
|
||
Finally, if you plan to use one or more swap partitions (@pxref{Memory
|
||
Concepts, swap space,, libc, The GNU C Library Reference Manual}), make
|
||
sure to initialize them with @command{mkswap}. Assuming you have one
|
||
swap partition on @file{/dev/sda2}, you would run:
|
||
|
||
@example
|
||
mkswap /dev/sda2
|
||
swapon /dev/sda2
|
||
@end example
|
||
|
||
Alternatively, you may use a swap file. For example, assuming that in
|
||
the new system you want to use the file @file{/swapfile} as a swap file,
|
||
you would run@footnote{This example will work for many types of file
|
||
systems (e.g., ext4). However, for copy-on-write file systems (e.g.,
|
||
btrfs), the required steps may be different. For details, see the
|
||
manual pages for @command{mkswap} and @command{swapon}.}:
|
||
|
||
@example
|
||
# This is 10 GiB of swap space. Adjust "count" to change the size.
|
||
dd if=/dev/zero of=/mnt/swapfile bs=1MiB count=10240
|
||
# For security, make the file readable and writable only by root.
|
||
chmod 600 /mnt/swapfile
|
||
mkswap /mnt/swapfile
|
||
swapon /mnt/swapfile
|
||
@end example
|
||
|
||
Note that if you have encrypted the root partition and created a swap
|
||
file in its file system as described above, then the encryption also
|
||
protects the swap file, just like any other file in that file system.
|
||
|
||
@node Proceeding with the Installation
|
||
@subsection Proceeding with the Installation
|
||
|
||
With the target partitions ready and the target root mounted on
|
||
@file{/mnt}, we're ready to go. First, run:
|
||
|
||
@example
|
||
herd start cow-store /mnt
|
||
@end example
|
||
|
||
This makes @file{/gnu/store} copy-on-write, such that packages added to it
|
||
during the installation phase are written to the target disk on @file{/mnt}
|
||
rather than kept in memory. This is necessary because the first phase of
|
||
the @command{guix system init} command (see below) entails downloads or
|
||
builds to @file{/gnu/store} which, initially, is an in-memory file system.
|
||
|
||
Next, you have to edit a file and
|
||
provide the declaration of the operating system to be installed. To
|
||
that end, the installation system comes with three text editors: GNU nano
|
||
(@pxref{Top,,, nano, GNU nano Manual}), GNU Zile (an Emacs clone), and
|
||
nvi (a clone of the original BSD @command{vi} editor).
|
||
We strongly recommend storing that file on the target root file system, say,
|
||
as @file{/mnt/etc/config.scm}. Failing to do that, you will have lost your
|
||
configuration file once you have rebooted into the newly-installed system.
|
||
|
||
@xref{Using the Configuration System}, for an overview of the
|
||
configuration file. The example configurations discussed in that
|
||
section are available under @file{/etc/configuration} in the
|
||
installation image. Thus, to get started with a system configuration
|
||
providing a graphical display server (a ``desktop'' system), you can run
|
||
something along these lines:
|
||
|
||
@example
|
||
# mkdir /mnt/etc
|
||
# cp /etc/configuration/desktop.scm /mnt/etc/config.scm
|
||
# zile /mnt/etc/config.scm
|
||
@end example
|
||
|
||
You should pay attention to what your configuration file contains, and
|
||
in particular:
|
||
|
||
@itemize
|
||
@item
|
||
Make sure the @code{grub-configuration} form refers to the target you
|
||
want to install GRUB on. It should mention @code{grub-bootloader} if
|
||
you are installing GRUB in the legacy way, or @code{grub-efi-bootloader}
|
||
for newer UEFI systems. For legacy systems, the @code{target} field
|
||
names a device, like @code{/dev/sda}; for UEFI systems it names a path
|
||
to a mounted EFI partition, like @code{/boot/efi}, and do make sure the
|
||
path is actually mounted.
|
||
|
||
@item
|
||
Be sure that your partition labels match the value of their respective
|
||
@code{device} fields in your @code{file-system} configuration, assuming
|
||
your @code{file-system} configuration sets the value of @code{title} to
|
||
@code{'label}.
|
||
|
||
@item
|
||
If there are encrypted or RAID partitions, make sure to add a
|
||
@code{mapped-devices} field to describe them (@pxref{Mapped Devices}).
|
||
@end itemize
|
||
|
||
Once you are done preparing the configuration file, the new system must
|
||
be initialized (remember that the target root file system is mounted
|
||
under @file{/mnt}):
|
||
|
||
@example
|
||
guix system init /mnt/etc/config.scm /mnt
|
||
@end example
|
||
|
||
@noindent
|
||
This copies all the necessary files and installs GRUB on
|
||
@file{/dev/sdX}, unless you pass the @option{--no-bootloader} option. For
|
||
more information, @pxref{Invoking guix system}. This command may trigger
|
||
downloads or builds of missing packages, which can take some time.
|
||
|
||
Once that command has completed---and hopefully succeeded!---you can run
|
||
@command{reboot} and boot into the new system. The @code{root} password
|
||
in the new system is initially empty; other users' passwords need to be
|
||
initialized by running the @command{passwd} command as @code{root},
|
||
unless your configuration specifies otherwise
|
||
(@pxref{user-account-password, user account passwords}).
|
||
|
||
@cindex upgrading GuixSD
|
||
From then on, you can update GuixSD whenever you want by running
|
||
@command{guix pull} as @code{root} (@pxref{Invoking guix pull}), and
|
||
then running @command{guix system reconfigure} to build a new system
|
||
generation with the latest packages and services (@pxref{Invoking guix
|
||
system}). We recommend doing that regularly so that your system
|
||
includes the latest security updates (@pxref{Security Updates}).
|
||
|
||
Join us on @code{#guix} on the Freenode IRC network or on
|
||
@file{guix-devel@@gnu.org} to share your experience---good or not so
|
||
good.
|
||
|
||
@node Installing GuixSD in a VM
|
||
@subsection Installing GuixSD in a Virtual Machine
|
||
|
||
@cindex virtual machine, GuixSD installation
|
||
@cindex virtual private server (VPS)
|
||
@cindex VPS (virtual private server)
|
||
If you'd like to install GuixSD in a virtual machine (VM) or on a
|
||
virtual private server (VPS) rather than on your beloved machine, this
|
||
section is for you.
|
||
|
||
To boot a @uref{http://qemu.org/,QEMU} VM for installing GuixSD in a
|
||
disk image, follow these steps:
|
||
|
||
@enumerate
|
||
@item
|
||
First, retrieve and decompress the GuixSD installation image as
|
||
described previously (@pxref{USB Stick Installation}).
|
||
|
||
@item
|
||
Create a disk image that will hold the installed system. To make a
|
||
qcow2-formatted disk image, use the @command{qemu-img} command:
|
||
|
||
@example
|
||
qemu-img create -f qcow2 guixsd.img 50G
|
||
@end example
|
||
|
||
The resulting file will be much smaller than 50 GB (typically less than
|
||
1 MB), but it will grow as the virtualized storage device is filled up.
|
||
|
||
@item
|
||
Boot the USB installation image in an VM:
|
||
|
||
@example
|
||
qemu-system-x86_64 -m 1024 -smp 1 \
|
||
-net user -net nic,model=virtio -boot menu=on \
|
||
-drive file=guixsd-install-@value{VERSION}.@var{system} \
|
||
-drive file=guixsd.img
|
||
@end example
|
||
|
||
The ordering of the drives matters.
|
||
|
||
In the VM console, quickly press the @kbd{F12} key to enter the boot
|
||
menu. Then press the @kbd{2} key and the @kbd{RET} key to validate your
|
||
selection.
|
||
|
||
@item
|
||
You're now root in the VM, proceed with the installation process.
|
||
@xref{Preparing for Installation}, and follow the instructions.
|
||
@end enumerate
|
||
|
||
Once installation is complete, you can boot the system that's on your
|
||
@file{guixsd.img} image. @xref{Running GuixSD in a VM}, for how to do
|
||
that.
|
||
|
||
@node Building the Installation Image
|
||
@subsection Building the Installation Image
|
||
|
||
@cindex installation image
|
||
The installation image described above was built using the @command{guix
|
||
system} command, specifically:
|
||
|
||
@example
|
||
guix system disk-image gnu/system/install.scm
|
||
@end example
|
||
|
||
Have a look at @file{gnu/system/install.scm} in the source tree,
|
||
and see also @ref{Invoking guix system} for more information
|
||
about the installation image.
|
||
|
||
@node System Configuration
|
||
@section System Configuration
|
||
|
||
@cindex system configuration
|
||
The Guix System Distribution supports a consistent whole-system configuration
|
||
mechanism. By that we mean that all aspects of the global system
|
||
configuration---such as the available system services, timezone and
|
||
locale settings, user accounts---are declared in a single place. Such
|
||
a @dfn{system configuration} can be @dfn{instantiated}---i.e., effected.
|
||
|
||
One of the advantages of putting all the system configuration under the
|
||
control of Guix is that it supports transactional system upgrades, and
|
||
makes it possible to roll back to a previous system instantiation,
|
||
should something go wrong with the new one (@pxref{Features}). Another
|
||
advantage is that it makes it easy to replicate the exact same configuration
|
||
across different machines, or at different points in time, without
|
||
having to resort to additional administration tools layered on top of
|
||
the own tools of the system.
|
||
@c Yes, we're talking of Puppet, Chef, & co. here. ↑
|
||
|
||
This section describes this mechanism. First we focus on the system
|
||
administrator's viewpoint---explaining how the system is configured and
|
||
instantiated. Then we show how this mechanism can be extended, for
|
||
instance to support new system services.
|
||
|
||
@menu
|
||
* Using the Configuration System:: Customizing your GNU system.
|
||
* operating-system Reference:: Detail of operating-system declarations.
|
||
* File Systems:: Configuring file system mounts.
|
||
* Mapped Devices:: Block device extra processing.
|
||
* User Accounts:: Specifying user accounts.
|
||
* Locales:: Language and cultural convention settings.
|
||
* Services:: Specifying system services.
|
||
* Setuid Programs:: Programs running with root privileges.
|
||
* X.509 Certificates:: Authenticating HTTPS servers.
|
||
* Name Service Switch:: Configuring libc's name service switch.
|
||
* Initial RAM Disk:: Linux-Libre bootstrapping.
|
||
* Bootloader Configuration:: Configuring the boot loader.
|
||
* Invoking guix system:: Instantiating a system configuration.
|
||
* Running GuixSD in a VM:: How to run GuixSD in a virtual machine.
|
||
* Defining Services:: Adding new service definitions.
|
||
@end menu
|
||
|
||
@node Using the Configuration System
|
||
@subsection Using the Configuration System
|
||
|
||
The operating system is configured by providing an
|
||
@code{operating-system} declaration in a file that can then be passed to
|
||
the @command{guix system} command (@pxref{Invoking guix system}). A
|
||
simple setup, with the default system services, the default Linux-Libre
|
||
kernel, initial RAM disk, and boot loader looks like this:
|
||
|
||
@findex operating-system
|
||
@lisp
|
||
@include os-config-bare-bones.texi
|
||
@end lisp
|
||
|
||
This example should be self-describing. Some of the fields defined
|
||
above, such as @code{host-name} and @code{bootloader}, are mandatory.
|
||
Others, such as @code{packages} and @code{services}, can be omitted, in
|
||
which case they get a default value.
|
||
|
||
Below we discuss the effect of some of the most important fields
|
||
(@pxref{operating-system Reference}, for details about all the available
|
||
fields), and how to @dfn{instantiate} the operating system using
|
||
@command{guix system}.
|
||
|
||
@unnumberedsubsubsec Globally-Visible Packages
|
||
|
||
@vindex %base-packages
|
||
The @code{packages} field lists packages that will be globally visible
|
||
on the system, for all user accounts---i.e., in every user's @code{PATH}
|
||
environment variable---in addition to the per-user profiles
|
||
(@pxref{Invoking guix package}). The @var{%base-packages} variable
|
||
provides all the tools one would expect for basic user and administrator
|
||
tasks---including the GNU Core Utilities, the GNU Networking Utilities,
|
||
the GNU Zile lightweight text editor, @command{find}, @command{grep},
|
||
etc. The example above adds GNU@tie{}Screen and OpenSSH to those,
|
||
taken from the @code{(gnu packages screen)} and @code{(gnu packages ssh)}
|
||
modules (@pxref{Package Modules}). The
|
||
@code{(list package output)} syntax can be used to add a specific output
|
||
of a package:
|
||
|
||
@lisp
|
||
(use-modules (gnu packages))
|
||
(use-modules (gnu packages dns))
|
||
|
||
(operating-system
|
||
;; ...
|
||
(packages (cons (list bind "utils")
|
||
%base-packages)))
|
||
@end lisp
|
||
|
||
@findex specification->package
|
||
Referring to packages by variable name, like @var{tcpdump} above, has
|
||
the advantage of being unambiguous; it also allows typos and such to be
|
||
diagnosed right away as ``unbound variables''. The downside is that one
|
||
needs to know which module defines which package, and to augment the
|
||
@code{use-package-modules} line accordingly. To avoid that, one can use
|
||
the @code{specification->package} procedure of the @code{(gnu packages)}
|
||
module, which returns the best package for a given name or name and
|
||
version:
|
||
|
||
@lisp
|
||
(use-modules (gnu packages))
|
||
|
||
(operating-system
|
||
;; ...
|
||
(packages (append (map specification->package
|
||
'("tcpdump" "htop" "gnupg@@2.0"))
|
||
%base-packages)))
|
||
@end lisp
|
||
|
||
@unnumberedsubsubsec System Services
|
||
|
||
@cindex services
|
||
@vindex %base-services
|
||
The @code{services} field lists @dfn{system services} to be made
|
||
available when the system starts (@pxref{Services}).
|
||
The @code{operating-system} declaration above specifies that, in
|
||
addition to the basic services, we want the @command{lshd} secure shell
|
||
daemon listening on port 2222 (@pxref{Networking Services,
|
||
@code{lsh-service}}). Under the hood,
|
||
@code{lsh-service} arranges so that @code{lshd} is started with the
|
||
right command-line options, possibly with supporting configuration files
|
||
generated as needed (@pxref{Defining Services}).
|
||
|
||
@cindex customization, of services
|
||
@findex modify-services
|
||
Occasionally, instead of using the base services as is, you will want to
|
||
customize them. To do this, use @code{modify-services} (@pxref{Service
|
||
Reference, @code{modify-services}}) to modify the list.
|
||
|
||
For example, suppose you want to modify @code{guix-daemon} and Mingetty
|
||
(the console log-in) in the @var{%base-services} list (@pxref{Base
|
||
Services, @code{%base-services}}). To do that, you can write the
|
||
following in your operating system declaration:
|
||
|
||
@lisp
|
||
(define %my-services
|
||
;; My very own list of services.
|
||
(modify-services %base-services
|
||
(guix-service-type config =>
|
||
(guix-configuration
|
||
(inherit config)
|
||
(use-substitutes? #f)
|
||
(extra-options '("--gc-keep-derivations"))))
|
||
(mingetty-service-type config =>
|
||
(mingetty-configuration
|
||
(inherit config)))))
|
||
|
||
(operating-system
|
||
;; @dots{}
|
||
(services %my-services))
|
||
@end lisp
|
||
|
||
This changes the configuration---i.e., the service parameters---of the
|
||
@code{guix-service-type} instance, and that of all the
|
||
@code{mingetty-service-type} instances in the @var{%base-services} list.
|
||
Observe how this is accomplished: first, we arrange for the original
|
||
configuration to be bound to the identifier @code{config} in the
|
||
@var{body}, and then we write the @var{body} so that it evaluates to the
|
||
desired configuration. In particular, notice how we use @code{inherit}
|
||
to create a new configuration which has the same values as the old
|
||
configuration, but with a few modifications.
|
||
|
||
@cindex encrypted disk
|
||
The configuration for a typical ``desktop'' usage, with an encrypted
|
||
root partition, the X11 display
|
||
server, GNOME and Xfce (users can choose which of these desktop
|
||
environments to use at the log-in screen by pressing @kbd{F1}), network
|
||
management, power management, and more, would look like this:
|
||
|
||
@lisp
|
||
@include os-config-desktop.texi
|
||
@end lisp
|
||
|
||
@cindex UEFI
|
||
A graphical UEFI system with a choice of lightweight window managers
|
||
instead of full-blown desktop environments would look like this:
|
||
|
||
@lisp
|
||
@include os-config-lightweight-desktop.texi
|
||
@end lisp
|
||
|
||
This example refers to the @file{/boot/efi} partition by its UUID,
|
||
@code{1234-ABCD}. Replace this UUID with the right UUID on your system,
|
||
as returned by the @command{blkid} command.
|
||
|
||
@xref{Desktop Services}, for the exact list of services provided by
|
||
@var{%desktop-services}. @xref{X.509 Certificates}, for background
|
||
information about the @code{nss-certs} package that is used here.
|
||
|
||
Again, @var{%desktop-services} is just a list of service objects. If
|
||
you want to remove services from there, you can do so using the
|
||
procedures for list filtering (@pxref{SRFI-1 Filtering and
|
||
Partitioning,,, guile, GNU Guile Reference Manual}). For instance, the
|
||
following expression returns a list that contains all the services in
|
||
@var{%desktop-services} minus the Avahi service:
|
||
|
||
@example
|
||
(remove (lambda (service)
|
||
(eq? (service-kind service) avahi-service-type))
|
||
%desktop-services)
|
||
@end example
|
||
|
||
@unnumberedsubsubsec Instantiating the System
|
||
|
||
Assuming the @code{operating-system} declaration
|
||
is stored in the @file{my-system-config.scm}
|
||
file, the @command{guix system reconfigure my-system-config.scm} command
|
||
instantiates that configuration, and makes it the default GRUB boot
|
||
entry (@pxref{Invoking guix system}).
|
||
|
||
The normal way to change the system configuration is by updating this
|
||
file and re-running @command{guix system reconfigure}. One should never
|
||
have to touch files in @file{/etc} or to run commands that modify the
|
||
system state such as @command{useradd} or @command{grub-install}. In
|
||
fact, you must avoid that since that would not only void your warranty
|
||
but also prevent you from rolling back to previous versions of your
|
||
system, should you ever need to.
|
||
|
||
@cindex roll-back, of the operating system
|
||
Speaking of roll-back, each time you run @command{guix system
|
||
reconfigure}, a new @dfn{generation} of the system is created---without
|
||
modifying or deleting previous generations. Old system generations get
|
||
an entry in the bootloader boot menu, allowing you to boot them in case
|
||
something went wrong with the latest generation. Reassuring, no? The
|
||
@command{guix system list-generations} command lists the system
|
||
generations available on disk. It is also possible to roll back the
|
||
system via the commands @command{guix system roll-back} and
|
||
@command{guix system switch-generation}.
|
||
|
||
Although the command @command{guix system reconfigure} will not modify
|
||
previous generations, must take care when the current generation is not
|
||
the latest (e.g., after invoking @command{guix system roll-back}), since
|
||
the operation might overwrite a later generation (@pxref{Invoking guix
|
||
system}).
|
||
|
||
@unnumberedsubsubsec The Programming Interface
|
||
|
||
At the Scheme level, the bulk of an @code{operating-system} declaration
|
||
is instantiated with the following monadic procedure (@pxref{The Store
|
||
Monad}):
|
||
|
||
@deffn {Monadic Procedure} operating-system-derivation os
|
||
Return a derivation that builds @var{os}, an @code{operating-system}
|
||
object (@pxref{Derivations}).
|
||
|
||
The output of the derivation is a single directory that refers to all
|
||
the packages, configuration files, and other supporting files needed to
|
||
instantiate @var{os}.
|
||
@end deffn
|
||
|
||
This procedure is provided by the @code{(gnu system)} module. Along
|
||
with @code{(gnu services)} (@pxref{Services}), this module contains the
|
||
guts of GuixSD. Make sure to visit it!
|
||
|
||
|
||
@node operating-system Reference
|
||
@subsection @code{operating-system} Reference
|
||
|
||
This section summarizes all the options available in
|
||
@code{operating-system} declarations (@pxref{Using the Configuration
|
||
System}).
|
||
|
||
@deftp {Data Type} operating-system
|
||
This is the data type representing an operating system configuration.
|
||
By that, we mean all the global system configuration, not per-user
|
||
configuration (@pxref{Using the Configuration System}).
|
||
|
||
@table @asis
|
||
@item @code{kernel} (default: @var{linux-libre})
|
||
The package object of the operating system kernel to use@footnote{Currently
|
||
only the Linux-libre kernel is supported. In the future, it will be
|
||
possible to use the GNU@tie{}Hurd.}.
|
||
|
||
@item @code{kernel-arguments} (default: @code{'()})
|
||
List of strings or gexps representing additional arguments to pass on
|
||
the command-line of the kernel---e.g., @code{("console=ttyS0")}.
|
||
|
||
@item @code{bootloader}
|
||
The system bootloader configuration object. @xref{Bootloader Configuration}.
|
||
|
||
@item @code{initrd} (default: @code{base-initrd})
|
||
@cindex initrd
|
||
@cindex initial RAM disk
|
||
A two-argument monadic procedure that returns an initial RAM disk for
|
||
the Linux kernel. @xref{Initial RAM Disk}.
|
||
|
||
@item @code{firmware} (default: @var{%base-firmware})
|
||
@cindex firmware
|
||
List of firmware packages loadable by the operating system kernel.
|
||
|
||
The default includes firmware needed for Atheros- and Broadcom-based
|
||
WiFi devices (Linux-libre modules @code{ath9k} and @code{b43-open},
|
||
respectively). @xref{Hardware Considerations}, for more info on
|
||
supported hardware.
|
||
|
||
@item @code{host-name}
|
||
The host name.
|
||
|
||
@item @code{hosts-file}
|
||
@cindex hosts file
|
||
A file-like object (@pxref{G-Expressions, file-like objects}) for use as
|
||
@file{/etc/hosts} (@pxref{Host Names,,, libc, The GNU C Library
|
||
Reference Manual}). The default is a file with entries for
|
||
@code{localhost} and @var{host-name}.
|
||
|
||
@item @code{mapped-devices} (default: @code{'()})
|
||
A list of mapped devices. @xref{Mapped Devices}.
|
||
|
||
@item @code{file-systems}
|
||
A list of file systems. @xref{File Systems}.
|
||
|
||
@item @code{swap-devices} (default: @code{'()})
|
||
@cindex swap devices
|
||
A list of strings identifying devices or files to be used for ``swap
|
||
space'' (@pxref{Memory Concepts,,, libc, The GNU C Library Reference
|
||
Manual}). For example, @code{'("/dev/sda3")} or @code{'("/swapfile")}.
|
||
It is possible to specify a swap file in a file system on a mapped
|
||
device, provided that the necessary device mapping and file system are
|
||
also specified. @xref{Mapped Devices} and @ref{File Systems}.
|
||
|
||
@item @code{users} (default: @code{%base-user-accounts})
|
||
@itemx @code{groups} (default: @var{%base-groups})
|
||
List of user accounts and groups. @xref{User Accounts}.
|
||
|
||
@item @code{skeletons} (default: @code{(default-skeletons)})
|
||
A list target file name/file-like object tuples (@pxref{G-Expressions,
|
||
file-like objects}). These are the skeleton files that will be added to
|
||
the home directory of newly-created user accounts.
|
||
|
||
For instance, a valid value may look like this:
|
||
|
||
@example
|
||
`((".bashrc" ,(plain-file "bashrc" "echo Hello\n"))
|
||
(".guile" ,(plain-file "guile"
|
||
"(use-modules (ice-9 readline))
|
||
(activate-readline)")))
|
||
@end example
|
||
|
||
@item @code{issue} (default: @var{%default-issue})
|
||
A string denoting the contents of the @file{/etc/issue} file, which is
|
||
displayed when users log in on a text console.
|
||
|
||
@item @code{packages} (default: @var{%base-packages})
|
||
The set of packages installed in the global profile, which is accessible
|
||
at @file{/run/current-system/profile}.
|
||
|
||
The default set includes core utilities and it is good practice to
|
||
install non-core utilities in user profiles (@pxref{Invoking guix
|
||
package}).
|
||
|
||
@item @code{timezone}
|
||
A timezone identifying string---e.g., @code{"Europe/Paris"}.
|
||
|
||
You can run the @command{tzselect} command to find out which timezone
|
||
string corresponds to your region. Choosing an invalid timezone name
|
||
causes @command{guix system} to fail.
|
||
|
||
@item @code{locale} (default: @code{"en_US.utf8"})
|
||
The name of the default locale (@pxref{Locale Names,,, libc, The GNU C
|
||
Library Reference Manual}). @xref{Locales}, for more information.
|
||
|
||
@item @code{locale-definitions} (default: @var{%default-locale-definitions})
|
||
The list of locale definitions to be compiled and that may be used at
|
||
run time. @xref{Locales}.
|
||
|
||
@item @code{locale-libcs} (default: @code{(list @var{glibc})})
|
||
The list of GNU@tie{}libc packages whose locale data and tools are used
|
||
to build the locale definitions. @xref{Locales}, for compatibility
|
||
considerations that justify this option.
|
||
|
||
@item @code{name-service-switch} (default: @var{%default-nss})
|
||
Configuration of the libc name service switch (NSS)---a
|
||
@code{<name-service-switch>} object. @xref{Name Service Switch}, for
|
||
details.
|
||
|
||
@item @code{services} (default: @var{%base-services})
|
||
A list of service objects denoting system services. @xref{Services}.
|
||
|
||
@item @code{pam-services} (default: @code{(base-pam-services)})
|
||
@cindex PAM
|
||
@cindex pluggable authentication modules
|
||
Linux @dfn{pluggable authentication module} (PAM) services.
|
||
@c FIXME: Add xref to PAM services section.
|
||
|
||
@item @code{setuid-programs} (default: @var{%setuid-programs})
|
||
List of string-valued G-expressions denoting setuid programs.
|
||
@xref{Setuid Programs}.
|
||
|
||
@item @code{sudoers-file} (default: @var{%sudoers-specification})
|
||
@cindex sudoers file
|
||
The contents of the @file{/etc/sudoers} file as a file-like object
|
||
(@pxref{G-Expressions, @code{local-file} and @code{plain-file}}).
|
||
|
||
This file specifies which users can use the @command{sudo} command, what
|
||
they are allowed to do, and what privileges they may gain. The default
|
||
is that only @code{root} and members of the @code{wheel} group may use
|
||
@code{sudo}.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@node File Systems
|
||
@subsection File Systems
|
||
|
||
The list of file systems to be mounted is specified in the
|
||
@code{file-systems} field of the operating system declaration
|
||
(@pxref{Using the Configuration System}). Each file system is declared
|
||
using the @code{file-system} form, like this:
|
||
|
||
@example
|
||
(file-system
|
||
(mount-point "/home")
|
||
(device "/dev/sda3")
|
||
(type "ext4"))
|
||
@end example
|
||
|
||
As usual, some of the fields are mandatory---those shown in the example
|
||
above---while others can be omitted. These are described below.
|
||
|
||
@deftp {Data Type} file-system
|
||
Objects of this type represent file systems to be mounted. They
|
||
contain the following members:
|
||
|
||
@table @asis
|
||
@item @code{type}
|
||
This is a string specifying the type of the file system---e.g.,
|
||
@code{"ext4"}.
|
||
|
||
@item @code{mount-point}
|
||
This designates the place where the file system is to be mounted.
|
||
|
||
@item @code{device}
|
||
This names the ``source'' of the file system. By default it is the name
|
||
of a node under @file{/dev}, but its meaning depends on the @code{title}
|
||
field described below.
|
||
|
||
@item @code{title} (default: @code{'device})
|
||
This is a symbol that specifies how the @code{device} field is to be
|
||
interpreted.
|
||
|
||
When it is the symbol @code{device}, then the @code{device} field is
|
||
interpreted as a file name; when it is @code{label}, then @code{device}
|
||
is interpreted as a partition label name; when it is @code{uuid},
|
||
@code{device} is interpreted as a partition unique identifier (UUID).
|
||
|
||
UUIDs may be converted from their string representation (as shown by the
|
||
@command{tune2fs -l} command) using the @code{uuid} form@footnote{The
|
||
@code{uuid} form expects 16-byte UUIDs as defined in
|
||
@uref{https://tools.ietf.org/html/rfc4122, RFC@tie{}4122}. This is the
|
||
form of UUID used by the ext2 family of file systems and others, but it
|
||
is different from ``UUIDs'' found in FAT file systems, for instance.},
|
||
like this:
|
||
|
||
@example
|
||
(file-system
|
||
(mount-point "/home")
|
||
(type "ext4")
|
||
(title 'uuid)
|
||
(device (uuid "4dab5feb-d176-45de-b287-9b0a6e4c01cb")))
|
||
@end example
|
||
|
||
The @code{label} and @code{uuid} options offer a way to refer to disk
|
||
partitions without having to hard-code their actual device
|
||
name@footnote{Note that, while it is tempting to use
|
||
@file{/dev/disk/by-uuid} and similar device names to achieve the same
|
||
result, this is not recommended: These special device nodes are created
|
||
by the udev daemon and may be unavailable at the time the device is
|
||
mounted.}.
|
||
|
||
However, when the source of a file system is a mapped device (@pxref{Mapped
|
||
Devices}), its @code{device} field @emph{must} refer to the mapped
|
||
device name---e.g., @file{/dev/mapper/root-partition}---and consequently
|
||
@code{title} must be set to @code{'device}. This is required so that
|
||
the system knows that mounting the file system depends on having the
|
||
corresponding device mapping established.
|
||
|
||
@item @code{flags} (default: @code{'()})
|
||
This is a list of symbols denoting mount flags. Recognized flags
|
||
include @code{read-only}, @code{bind-mount}, @code{no-dev} (disallow
|
||
access to special files), @code{no-suid} (ignore setuid and setgid
|
||
bits), and @code{no-exec} (disallow program execution.)
|
||
|
||
@item @code{options} (default: @code{#f})
|
||
This is either @code{#f}, or a string denoting mount options.
|
||
|
||
@item @code{mount?} (default: @code{#t})
|
||
This value indicates whether to automatically mount the file system when
|
||
the system is brought up. When set to @code{#f}, the file system gets
|
||
an entry in @file{/etc/fstab} (read by the @command{mount} command) but
|
||
is not automatically mounted.
|
||
|
||
@item @code{needed-for-boot?} (default: @code{#f})
|
||
This Boolean value indicates whether the file system is needed when
|
||
booting. If that is true, then the file system is mounted when the
|
||
initial RAM disk (initrd) is loaded. This is always the case, for
|
||
instance, for the root file system.
|
||
|
||
@item @code{check?} (default: @code{#t})
|
||
This Boolean indicates whether the file system needs to be checked for
|
||
errors before being mounted.
|
||
|
||
@item @code{create-mount-point?} (default: @code{#f})
|
||
When true, the mount point is created if it does not exist yet.
|
||
|
||
@item @code{dependencies} (default: @code{'()})
|
||
This is a list of @code{<file-system>} or @code{<mapped-device>} objects
|
||
representing file systems that must be mounted or mapped devices that
|
||
must be opened before (and unmounted or closed after) this one.
|
||
|
||
As an example, consider a hierarchy of mounts: @file{/sys/fs/cgroup} is
|
||
a dependency of @file{/sys/fs/cgroup/cpu} and
|
||
@file{/sys/fs/cgroup/memory}.
|
||
|
||
Another example is a file system that depends on a mapped device, for
|
||
example for an encrypted partition (@pxref{Mapped Devices}).
|
||
@end table
|
||
@end deftp
|
||
|
||
The @code{(gnu system file-systems)} exports the following useful
|
||
variables.
|
||
|
||
@defvr {Scheme Variable} %base-file-systems
|
||
These are essential file systems that are required on normal systems,
|
||
such as @var{%pseudo-terminal-file-system} and @var{%immutable-store} (see
|
||
below.) Operating system declarations should always contain at least
|
||
these.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} %pseudo-terminal-file-system
|
||
This is the file system to be mounted as @file{/dev/pts}. It supports
|
||
@dfn{pseudo-terminals} created @i{via} @code{openpty} and similar
|
||
functions (@pxref{Pseudo-Terminals,,, libc, The GNU C Library Reference
|
||
Manual}). Pseudo-terminals are used by terminal emulators such as
|
||
@command{xterm}.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} %shared-memory-file-system
|
||
This file system is mounted as @file{/dev/shm} and is used to support
|
||
memory sharing across processes (@pxref{Memory-mapped I/O,
|
||
@code{shm_open},, libc, The GNU C Library Reference Manual}).
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} %immutable-store
|
||
This file system performs a read-only ``bind mount'' of
|
||
@file{/gnu/store}, making it read-only for all the users including
|
||
@code{root}. This prevents against accidental modification by software
|
||
running as @code{root} or by system administrators.
|
||
|
||
The daemon itself is still able to write to the store: it remounts it
|
||
read-write in its own ``name space.''
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} %binary-format-file-system
|
||
The @code{binfmt_misc} file system, which allows handling of arbitrary
|
||
executable file types to be delegated to user space. This requires the
|
||
@code{binfmt.ko} kernel module to be loaded.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} %fuse-control-file-system
|
||
The @code{fusectl} file system, which allows unprivileged users to mount
|
||
and unmount user-space FUSE file systems. This requires the
|
||
@code{fuse.ko} kernel module to be loaded.
|
||
@end defvr
|
||
|
||
@node Mapped Devices
|
||
@subsection Mapped Devices
|
||
|
||
@cindex device mapping
|
||
@cindex mapped devices
|
||
The Linux kernel has a notion of @dfn{device mapping}: a block device,
|
||
such as a hard disk partition, can be @dfn{mapped} into another device,
|
||
usually in @code{/dev/mapper/},
|
||
with additional processing over the data that flows through
|
||
it@footnote{Note that the GNU@tie{}Hurd makes no difference between the
|
||
concept of a ``mapped device'' and that of a file system: both boil down
|
||
to @emph{translating} input/output operations made on a file to
|
||
operations on its backing store. Thus, the Hurd implements mapped
|
||
devices, like file systems, using the generic @dfn{translator} mechanism
|
||
(@pxref{Translators,,, hurd, The GNU Hurd Reference Manual}).}. A
|
||
typical example is encryption device mapping: all writes to the mapped
|
||
device are encrypted, and all reads are deciphered, transparently.
|
||
Guix extends this notion by considering any device or set of devices that
|
||
are @dfn{transformed} in some way to create a new device; for instance,
|
||
RAID devices are obtained by @dfn{assembling} several other devices, such
|
||
as hard disks or partitions, into a new one that behaves as one partition.
|
||
Other examples, not yet implemented, are LVM logical volumes.
|
||
|
||
Mapped devices are declared using the @code{mapped-device} form,
|
||
defined as follows; for examples, see below.
|
||
|
||
@deftp {Data Type} mapped-device
|
||
Objects of this type represent device mappings that will be made when
|
||
the system boots up.
|
||
|
||
@table @code
|
||
@item source
|
||
This is either a string specifying the name of the block device to be mapped,
|
||
such as @code{"/dev/sda3"}, or a list of such strings when several devices
|
||
need to be assembled for creating a new one.
|
||
|
||
@item target
|
||
This string specifies the name of the resulting mapped device. For
|
||
kernel mappers such as encrypted devices of type @code{luks-device-mapping},
|
||
specifying @code{"my-partition"} leads to the creation of
|
||
the @code{"/dev/mapper/my-partition"} device.
|
||
For RAID devices of type @code{raid-device-mapping}, the full device name
|
||
such as @code{"/dev/md0"} needs to be given.
|
||
|
||
@item type
|
||
This must be a @code{mapped-device-kind} object, which specifies how
|
||
@var{source} is mapped to @var{target}.
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} luks-device-mapping
|
||
This defines LUKS block device encryption using the @command{cryptsetup}
|
||
command from the package with the same name. It relies on the
|
||
@code{dm-crypt} Linux kernel module.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} raid-device-mapping
|
||
This defines a RAID device, which is assembled using the @code{mdadm}
|
||
command from the package with the same name. It requires a Linux kernel
|
||
module for the appropriate RAID level to be loaded, such as @code{raid456}
|
||
for RAID-4, RAID-5 or RAID-6, or @code{raid10} for RAID-10.
|
||
@end defvr
|
||
|
||
@cindex disk encryption
|
||
@cindex LUKS
|
||
The following example specifies a mapping from @file{/dev/sda3} to
|
||
@file{/dev/mapper/home} using LUKS---the
|
||
@url{https://gitlab.com/cryptsetup/cryptsetup,Linux Unified Key Setup}, a
|
||
standard mechanism for disk encryption.
|
||
The @file{/dev/mapper/home}
|
||
device can then be used as the @code{device} of a @code{file-system}
|
||
declaration (@pxref{File Systems}).
|
||
|
||
@example
|
||
(mapped-device
|
||
(source "/dev/sda3")
|
||
(target "home")
|
||
(type luks-device-mapping))
|
||
@end example
|
||
|
||
Alternatively, to become independent of device numbering, one may obtain
|
||
the LUKS UUID (@dfn{unique identifier}) of the source device by a
|
||
command like:
|
||
|
||
@example
|
||
cryptsetup luksUUID /dev/sda3
|
||
@end example
|
||
|
||
and use it as follows:
|
||
|
||
@example
|
||
(mapped-device
|
||
(source (uuid "cb67fc72-0d54-4c88-9d4b-b225f30b0f44"))
|
||
(target "home")
|
||
(type luks-device-mapping))
|
||
@end example
|
||
|
||
@cindex swap encryption
|
||
It is also desirable to encrypt swap space, since swap space may contain
|
||
sensitive data. One way to accomplish that is to use a swap file in a
|
||
file system on a device mapped via LUKS encryption. In this way, the
|
||
swap file is encrypted because the entire device is encrypted.
|
||
@xref{Preparing for Installation,,Disk Partitioning}, for an example.
|
||
|
||
A RAID device formed of the partitions @file{/dev/sda1} and @file{/dev/sdb1}
|
||
may be declared as follows:
|
||
|
||
@example
|
||
(mapped-device
|
||
(source (list "/dev/sda1" "/dev/sdb1"))
|
||
(target "/dev/md0")
|
||
(type raid-device-mapping))
|
||
@end example
|
||
|
||
The @file{/dev/md0} device can then be used as the @code{device} of a
|
||
@code{file-system} declaration (@pxref{File Systems}).
|
||
Note that the RAID level need not be given; it is chosen during the
|
||
initial creation and formatting of the RAID device and is determined
|
||
automatically later.
|
||
|
||
|
||
@node User Accounts
|
||
@subsection User Accounts
|
||
|
||
@cindex users
|
||
@cindex accounts
|
||
@cindex user accounts
|
||
User accounts and groups are entirely managed through the
|
||
@code{operating-system} declaration. They are specified with the
|
||
@code{user-account} and @code{user-group} forms:
|
||
|
||
@example
|
||
(user-account
|
||
(name "alice")
|
||
(group "users")
|
||
(supplementary-groups '("wheel" ;allow use of sudo, etc.
|
||
"audio" ;sound card
|
||
"video" ;video devices such as webcams
|
||
"cdrom")) ;the good ol' CD-ROM
|
||
(comment "Bob's sister")
|
||
(home-directory "/home/alice"))
|
||
@end example
|
||
|
||
When booting or upon completion of @command{guix system reconfigure},
|
||
the system ensures that only the user accounts and groups specified in
|
||
the @code{operating-system} declaration exist, and with the specified
|
||
properties. Thus, account or group creations or modifications made by
|
||
directly invoking commands such as @command{useradd} are lost upon
|
||
reconfiguration or reboot. This ensures that the system remains exactly
|
||
as declared.
|
||
|
||
@deftp {Data Type} user-account
|
||
Objects of this type represent user accounts. The following members may
|
||
be specified:
|
||
|
||
@table @asis
|
||
@item @code{name}
|
||
The name of the user account.
|
||
|
||
@item @code{group}
|
||
@cindex groups
|
||
This is the name (a string) or identifier (a number) of the user group
|
||
this account belongs to.
|
||
|
||
@item @code{supplementary-groups} (default: @code{'()})
|
||
Optionally, this can be defined as a list of group names that this
|
||
account belongs to.
|
||
|
||
@item @code{uid} (default: @code{#f})
|
||
This is the user ID for this account (a number), or @code{#f}. In the
|
||
latter case, a number is automatically chosen by the system when the
|
||
account is created.
|
||
|
||
@item @code{comment} (default: @code{""})
|
||
A comment about the account, such as the account owner's full name.
|
||
|
||
@item @code{home-directory}
|
||
This is the name of the home directory for the account.
|
||
|
||
@item @code{create-home-directory?} (default: @code{#t})
|
||
Indicates whether the home directory of this account should be created
|
||
if it does not exist yet.
|
||
|
||
@item @code{shell} (default: Bash)
|
||
This is a G-expression denoting the file name of a program to be used as
|
||
the shell (@pxref{G-Expressions}).
|
||
|
||
@item @code{system?} (default: @code{#f})
|
||
This Boolean value indicates whether the account is a ``system''
|
||
account. System accounts are sometimes treated specially; for instance,
|
||
graphical login managers do not list them.
|
||
|
||
@anchor{user-account-password}
|
||
@item @code{password} (default: @code{#f})
|
||
You would normally leave this field to @code{#f}, initialize user
|
||
passwords as @code{root} with the @command{passwd} command, and then let
|
||
users change it with @command{passwd}. Passwords set with
|
||
@command{passwd} are of course preserved across reboot and
|
||
reconfiguration.
|
||
|
||
If you @emph{do} want to have a preset password for an account, then
|
||
this field must contain the encrypted password, as a string.
|
||
@xref{crypt,,, libc, The GNU C Library Reference Manual}, for more information
|
||
on password encryption, and @ref{Encryption,,, guile, GNU Guile Reference
|
||
Manual}, for information on Guile's @code{crypt} procedure.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@cindex groups
|
||
User group declarations are even simpler:
|
||
|
||
@example
|
||
(user-group (name "students"))
|
||
@end example
|
||
|
||
@deftp {Data Type} user-group
|
||
This type is for, well, user groups. There are just a few fields:
|
||
|
||
@table @asis
|
||
@item @code{name}
|
||
The name of the group.
|
||
|
||
@item @code{id} (default: @code{#f})
|
||
The group identifier (a number). If @code{#f}, a new number is
|
||
automatically allocated when the group is created.
|
||
|
||
@item @code{system?} (default: @code{#f})
|
||
This Boolean value indicates whether the group is a ``system'' group.
|
||
System groups have low numerical IDs.
|
||
|
||
@item @code{password} (default: @code{#f})
|
||
What, user groups can have a password? Well, apparently yes. Unless
|
||
@code{#f}, this field specifies the password of the group.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
For convenience, a variable lists all the basic user groups one may
|
||
expect:
|
||
|
||
@defvr {Scheme Variable} %base-groups
|
||
This is the list of basic user groups that users and/or packages expect
|
||
to be present on the system. This includes groups such as ``root'',
|
||
``wheel'', and ``users'', as well as groups used to control access to
|
||
specific devices such as ``audio'', ``disk'', and ``cdrom''.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} %base-user-accounts
|
||
This is the list of basic system accounts that programs may expect to
|
||
find on a GNU/Linux system, such as the ``nobody'' account.
|
||
|
||
Note that the ``root'' account is not included here. It is a
|
||
special-case and is automatically added whether or not it is specified.
|
||
@end defvr
|
||
|
||
@node Locales
|
||
@subsection Locales
|
||
|
||
@cindex locale
|
||
A @dfn{locale} defines cultural conventions for a particular language
|
||
and region of the world (@pxref{Locales,,, libc, The GNU C Library
|
||
Reference Manual}). Each locale has a name that typically has the form
|
||
@code{@var{language}_@var{territory}.@var{codeset}}---e.g.,
|
||
@code{fr_LU.utf8} designates the locale for the French language, with
|
||
cultural conventions from Luxembourg, and using the UTF-8 encoding.
|
||
|
||
@cindex locale definition
|
||
Usually, you will want to specify the default locale for the machine
|
||
using the @code{locale} field of the @code{operating-system} declaration
|
||
(@pxref{operating-system Reference, @code{locale}}).
|
||
|
||
The selected locale is automatically added to the @dfn{locale
|
||
definitions} known to the system if needed, with its codeset inferred
|
||
from its name---e.g., @code{bo_CN.utf8} will be assumed to use the
|
||
@code{UTF-8} codeset. Additional locale definitions can be specified in
|
||
the @code{locale-definitions} slot of @code{operating-system}---this is
|
||
useful, for instance, if the codeset could not be inferred from the
|
||
locale name. The default set of locale definitions includes some widely
|
||
used locales, but not all the available locales, in order to save space.
|
||
|
||
For instance, to add the North Frisian locale for Germany, the value of
|
||
that field may be:
|
||
|
||
@example
|
||
(cons (locale-definition
|
||
(name "fy_DE.utf8") (source "fy_DE"))
|
||
%default-locale-definitions)
|
||
@end example
|
||
|
||
Likewise, to save space, one might want @code{locale-definitions} to
|
||
list only the locales that are actually used, as in:
|
||
|
||
@example
|
||
(list (locale-definition
|
||
(name "ja_JP.eucjp") (source "ja_JP")
|
||
(charset "EUC-JP")))
|
||
@end example
|
||
|
||
@vindex LOCPATH
|
||
The compiled locale definitions are available at
|
||
@file{/run/current-system/locale/X.Y}, where @code{X.Y} is the libc
|
||
version, which is the default location where the GNU@tie{}libc provided
|
||
by Guix looks for locale data. This can be overridden using the
|
||
@code{LOCPATH} environment variable (@pxref{locales-and-locpath,
|
||
@code{LOCPATH} and locale packages}).
|
||
|
||
The @code{locale-definition} form is provided by the @code{(gnu system
|
||
locale)} module. Details are given below.
|
||
|
||
@deftp {Data Type} locale-definition
|
||
This is the data type of a locale definition.
|
||
|
||
@table @asis
|
||
|
||
@item @code{name}
|
||
The name of the locale. @xref{Locale Names,,, libc, The GNU C Library
|
||
Reference Manual}, for more information on locale names.
|
||
|
||
@item @code{source}
|
||
The name of the source for that locale. This is typically the
|
||
@code{@var{language}_@var{territory}} part of the locale name.
|
||
|
||
@item @code{charset} (default: @code{"UTF-8"})
|
||
The ``character set'' or ``code set'' for that locale,
|
||
@uref{http://www.iana.org/assignments/character-sets, as defined by
|
||
IANA}.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} %default-locale-definitions
|
||
A list of commonly used UTF-8 locales, used as the default
|
||
value of the @code{locale-definitions} field of @code{operating-system}
|
||
declarations.
|
||
|
||
@cindex locale name
|
||
@cindex normalized codeset in locale names
|
||
These locale definitions use the @dfn{normalized codeset} for the part
|
||
that follows the dot in the name (@pxref{Using gettextized software,
|
||
normalized codeset,, libc, The GNU C Library Reference Manual}). So for
|
||
instance it has @code{uk_UA.utf8} but @emph{not}, say,
|
||
@code{uk_UA.UTF-8}.
|
||
@end defvr
|
||
|
||
@subsubsection Locale Data Compatibility Considerations
|
||
|
||
@cindex incompatibility, of locale data
|
||
@code{operating-system} declarations provide a @code{locale-libcs} field
|
||
to specify the GNU@tie{}libc packages that are used to compile locale
|
||
declarations (@pxref{operating-system Reference}). ``Why would I
|
||
care?'', you may ask. Well, it turns out that the binary format of
|
||
locale data is occasionally incompatible from one libc version to
|
||
another.
|
||
|
||
@c See <https://sourceware.org/ml/libc-alpha/2015-09/msg00575.html>
|
||
@c and <https://lists.gnu.org/archive/html/guix-devel/2015-08/msg00737.html>.
|
||
For instance, a program linked against libc version 2.21 is unable to
|
||
read locale data produced with libc 2.22; worse, that program
|
||
@emph{aborts} instead of simply ignoring the incompatible locale
|
||
data@footnote{Versions 2.23 and later of GNU@tie{}libc will simply skip
|
||
the incompatible locale data, which is already an improvement.}.
|
||
Similarly, a program linked against libc 2.22 can read most, but not
|
||
all, of the locale data from libc 2.21 (specifically, @code{LC_COLLATE}
|
||
data is incompatible); thus calls to @code{setlocale} may fail, but
|
||
programs will not abort.
|
||
|
||
The ``problem'' in GuixSD is that users have a lot of freedom: They can
|
||
choose whether and when to upgrade software in their profiles, and might
|
||
be using a libc version different from the one the system administrator
|
||
used to build the system-wide locale data.
|
||
|
||
Fortunately, unprivileged users can also install their own locale data
|
||
and define @var{GUIX_LOCPATH} accordingly (@pxref{locales-and-locpath,
|
||
@code{GUIX_LOCPATH} and locale packages}).
|
||
|
||
Still, it is best if the system-wide locale data at
|
||
@file{/run/current-system/locale} is built for all the libc versions
|
||
actually in use on the system, so that all the programs can access
|
||
it---this is especially crucial on a multi-user system. To do that, the
|
||
administrator can specify several libc packages in the
|
||
@code{locale-libcs} field of @code{operating-system}:
|
||
|
||
@example
|
||
(use-package-modules base)
|
||
|
||
(operating-system
|
||
;; @dots{}
|
||
(locale-libcs (list glibc-2.21 (canonical-package glibc))))
|
||
@end example
|
||
|
||
This example would lead to a system containing locale definitions for
|
||
both libc 2.21 and the current version of libc in
|
||
@file{/run/current-system/locale}.
|
||
|
||
|
||
@node Services
|
||
@subsection Services
|
||
|
||
@cindex system services
|
||
An important part of preparing an @code{operating-system} declaration is
|
||
listing @dfn{system services} and their configuration (@pxref{Using the
|
||
Configuration System}). System services are typically daemons launched
|
||
when the system boots, or other actions needed at that time---e.g.,
|
||
configuring network access.
|
||
|
||
GuixSD has a broad definition of ``service'' (@pxref{Service
|
||
Composition}), but many services are managed by the GNU@tie{}Shepherd
|
||
(@pxref{Shepherd Services}). On a running system, the @command{herd}
|
||
command allows you to list the available services, show their status,
|
||
start and stop them, or do other specific operations (@pxref{Jump
|
||
Start,,, shepherd, The GNU Shepherd Manual}). For example:
|
||
|
||
@example
|
||
# herd status
|
||
@end example
|
||
|
||
The above command, run as @code{root}, lists the currently defined
|
||
services. The @command{herd doc} command shows a synopsis of the given
|
||
service:
|
||
|
||
@example
|
||
# herd doc nscd
|
||
Run libc's name service cache daemon (nscd).
|
||
@end example
|
||
|
||
The @command{start}, @command{stop}, and @command{restart} sub-commands
|
||
have the effect you would expect. For instance, the commands below stop
|
||
the nscd service and restart the Xorg display server:
|
||
|
||
@example
|
||
# herd stop nscd
|
||
Service nscd has been stopped.
|
||
# herd restart xorg-server
|
||
Service xorg-server has been stopped.
|
||
Service xorg-server has been started.
|
||
@end example
|
||
|
||
The following sections document the available services, starting with
|
||
the core services, that may be used in an @code{operating-system}
|
||
declaration.
|
||
|
||
@menu
|
||
* Base Services:: Essential system services.
|
||
* Scheduled Job Execution:: The mcron service.
|
||
* Log Rotation:: The rottlog service.
|
||
* Networking Services:: Network setup, SSH daemon, etc.
|
||
* X Window:: Graphical display.
|
||
* Printing Services:: Local and remote printer support.
|
||
* Desktop Services:: D-Bus and desktop services.
|
||
* Database Services:: SQL databases, key-value stores, etc.
|
||
* Mail Services:: IMAP, POP3, SMTP, and all that.
|
||
* Messaging Services:: Messaging services.
|
||
* Telephony Services:: Telephony services.
|
||
* Monitoring Services:: Monitoring services.
|
||
* Kerberos Services:: Kerberos services.
|
||
* Web Services:: Web servers.
|
||
* DNS Services:: DNS daemons.
|
||
* VPN Services:: VPN daemons.
|
||
* Network File System:: NFS related services.
|
||
* Continuous Integration:: The Cuirass service.
|
||
* Power management Services:: The TLP tool.
|
||
* Audio Services:: The MPD.
|
||
* Virtualization Services:: Virtualization services.
|
||
* Miscellaneous Services:: Other services.
|
||
@end menu
|
||
|
||
@node Base Services
|
||
@subsubsection Base Services
|
||
|
||
The @code{(gnu services base)} module provides definitions for the basic
|
||
services that one expects from the system. The services exported by
|
||
this module are listed below.
|
||
|
||
@defvr {Scheme Variable} %base-services
|
||
This variable contains a list of basic services (@pxref{Service Types
|
||
and Services}, for more information on service objects) one would
|
||
expect from the system: a login service (mingetty) on each tty, syslogd,
|
||
the libc name service cache daemon (nscd), the udev device manager, and
|
||
more.
|
||
|
||
This is the default value of the @code{services} field of
|
||
@code{operating-system} declarations. Usually, when customizing a
|
||
system, you will want to append services to @var{%base-services}, like
|
||
this:
|
||
|
||
@example
|
||
(cons* (avahi-service) (lsh-service) %base-services)
|
||
@end example
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} special-files-service-type
|
||
This is the service that sets up ``special files'' such as
|
||
@file{/bin/sh}; an instance of it is part of @code{%base-services}.
|
||
|
||
The value associated with @code{special-files-service-type} services
|
||
must be a list of tuples where the first element is the ``special file''
|
||
and the second element is its target. By default it is:
|
||
|
||
@cindex @file{/bin/sh}
|
||
@cindex @file{sh}, in @file{/bin}
|
||
@example
|
||
`(("/bin/sh" ,(file-append @var{bash} "/bin/sh")))
|
||
@end example
|
||
|
||
@cindex @file{/usr/bin/env}
|
||
@cindex @file{env}, in @file{/usr/bin}
|
||
If you want to add, say, @code{/usr/bin/env} to your system, you can
|
||
change it to:
|
||
|
||
@example
|
||
`(("/bin/sh" ,(file-append @var{bash} "/bin/sh"))
|
||
("/usr/bin/env" ,(file-append @var{coreutils} "/bin/env")))
|
||
@end example
|
||
|
||
Since this is part of @code{%base-services}, you can use
|
||
@code{modify-services} to customize the set of special files
|
||
(@pxref{Service Reference, @code{modify-services}}). But the simple way
|
||
to add a special file is @i{via} the @code{extra-special-file} procedure
|
||
(see below.)
|
||
@end defvr
|
||
|
||
@deffn {Scheme Procedure} extra-special-file @var{file} @var{target}
|
||
Use @var{target} as the ``special file'' @var{file}.
|
||
|
||
For example, adding the following lines to the @code{services} field of
|
||
your operating system declaration leads to a @file{/usr/bin/env}
|
||
symlink:
|
||
|
||
@example
|
||
(extra-special-file "/usr/bin/env"
|
||
(file-append coreutils "/bin/env"))
|
||
@end example
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} host-name-service @var{name}
|
||
Return a service that sets the host name to @var{name}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} login-service @var{config}
|
||
Return a service to run login according to @var{config}, a
|
||
@code{<login-configuration>} object, which specifies the message of the day,
|
||
among other things.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} login-configuration
|
||
This is the data type representing the configuration of login.
|
||
|
||
@table @asis
|
||
|
||
@item @code{motd}
|
||
@cindex message of the day
|
||
A file-like object containing the ``message of the day''.
|
||
|
||
@item @code{allow-empty-passwords?} (default: @code{#t})
|
||
Allow empty passwords by default so that first-time users can log in when
|
||
the 'root' account has just been created.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deffn {Scheme Procedure} mingetty-service @var{config}
|
||
Return a service to run mingetty according to @var{config}, a
|
||
@code{<mingetty-configuration>} object, which specifies the tty to run, among
|
||
other things.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} mingetty-configuration
|
||
This is the data type representing the configuration of Mingetty, which
|
||
provides the default implementation of virtual console log-in.
|
||
|
||
@table @asis
|
||
|
||
@item @code{tty}
|
||
The name of the console this Mingetty runs on---e.g., @code{"tty1"}.
|
||
|
||
@item @code{auto-login} (default: @code{#f})
|
||
When true, this field must be a string denoting the user name under
|
||
which the system automatically logs in. When it is @code{#f}, a
|
||
user name and password must be entered to log in.
|
||
|
||
@item @code{login-program} (default: @code{#f})
|
||
This must be either @code{#f}, in which case the default log-in program
|
||
is used (@command{login} from the Shadow tool suite), or a gexp denoting
|
||
the name of the log-in program.
|
||
|
||
@item @code{login-pause?} (default: @code{#f})
|
||
When set to @code{#t} in conjunction with @var{auto-login}, the user
|
||
will have to press a key before the log-in shell is launched.
|
||
|
||
@item @code{mingetty} (default: @var{mingetty})
|
||
The Mingetty package to use.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deffn {Scheme Procedure} agetty-service @var{config}
|
||
Return a service to run agetty according to @var{config}, an
|
||
@code{<agetty-configuration>} object, which specifies the tty to run,
|
||
among other things.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} agetty-configuration
|
||
This is the data type representing the configuration of agetty, which
|
||
implements virtual and serial console log-in. See the @code{agetty(8)}
|
||
man page for more information.
|
||
|
||
@table @asis
|
||
|
||
@item @code{tty}
|
||
The name of the console this agetty runs on, as a string---e.g.,
|
||
@code{"ttyS0"}. This argument is mandatory.
|
||
|
||
@item @code{baud-rate} (default: @code{#f})
|
||
A string containing a comma-separated list of one or more baud rates, in
|
||
descending order.
|
||
|
||
@item @code{term} (default: @code{#f})
|
||
A string containing the value used for the @code{TERM} environment
|
||
variable.
|
||
|
||
@item @code{eight-bits?} (default: @code{#f})
|
||
When @code{#t}, the tty is assumed to be 8-bit clean, and parity detection is
|
||
disabled.
|
||
|
||
@item @code{auto-login} (default: @code{#f})
|
||
When passed a login name, as a string, the specified user will be logged
|
||
in automatically without prompting for their login name or password.
|
||
|
||
@item @code{no-reset?} (default: @code{#f})
|
||
When @code{#t}, don't reset terminal cflags (control modes).
|
||
|
||
@item @code{host} (default: @code{#f})
|
||
This accepts a string containing the "login_host", which will be written
|
||
into the @file{/var/run/utmpx} file.
|
||
|
||
@item @code{remote?} (default: @code{#f})
|
||
When set to @code{#t} in conjunction with @var{host}, this will add an
|
||
@code{-r} fakehost option to the command line of the login program
|
||
specified in @var{login-program}.
|
||
|
||
@item @code{flow-control?} (default: @code{#f})
|
||
When set to @code{#t}, enable hardware (RTS/CTS) flow control.
|
||
|
||
@item @code{no-issue?} (default: @code{#f})
|
||
When set to @code{#t}, the contents of the @file{/etc/issue} file will
|
||
not be displayed before presenting the login prompt.
|
||
|
||
@item @code{init-string} (default: @code{#f})
|
||
This accepts a string that will be sent to the tty or modem before
|
||
sending anything else. It can be used to initialize a modem.
|
||
|
||
@item @code{no-clear?} (default: @code{#f})
|
||
When set to @code{#t}, agetty will not clear the screen before showing
|
||
the login prompt.
|
||
|
||
@item @code{login-program} (default: (file-append shadow "/bin/login"))
|
||
This must be either a gexp denoting the name of a log-in program, or
|
||
unset, in which case the default value is the @command{login} from the
|
||
Shadow tool suite.
|
||
|
||
@item @code{local-line} (default: @code{#f})
|
||
Control the CLOCAL line flag. This accepts one of three symbols as
|
||
arguments, @code{'auto}, @code{'always}, or @code{'never}. If @code{#f},
|
||
the default value chosen by agetty is @code{'auto}.
|
||
|
||
@item @code{extract-baud?} (default: @code{#f})
|
||
When set to @code{#t}, instruct agetty to try to extract the baud rate
|
||
from the status messages produced by certain types of modems.
|
||
|
||
@item @code{skip-login?} (default: @code{#f})
|
||
When set to @code{#t}, do not prompt the user for a login name. This
|
||
can be used with @var{login-program} field to use non-standard login
|
||
systems.
|
||
|
||
@item @code{no-newline?} (default: @code{#f})
|
||
When set to @code{#t}, do not print a newline before printing the
|
||
@file{/etc/issue} file.
|
||
|
||
@c Is this dangerous only when used with login-program, or always?
|
||
@item @code{login-options} (default: @code{#f})
|
||
This option accepts a string containing options that are passed to the
|
||
login program. When used with the @var{login-program}, be aware that a
|
||
malicious user could try to enter a login name containing embedded
|
||
options that could be parsed by the login program.
|
||
|
||
@item @code{login-pause} (default: @code{#f})
|
||
When set to @code{#t}, wait for any key before showing the login prompt.
|
||
This can be used in conjunction with @var{auto-login} to save memory by
|
||
lazily spawning shells.
|
||
|
||
@item @code{chroot} (default: @code{#f})
|
||
Change root to the specified directory. This option accepts a directory
|
||
path as a string.
|
||
|
||
@item @code{hangup?} (default: @code{#f})
|
||
Use the Linux system call @code{vhangup} to do a virtual hangup of the
|
||
specified terminal.
|
||
|
||
@item @code{keep-baud?} (default: @code{#f})
|
||
When set to @code{#t}, try to keep the existing baud rate. The baud
|
||
rates from @var{baud-rate} are used when agetty receives a @key{BREAK}
|
||
character.
|
||
|
||
@item @code{timeout} (default: @code{#f})
|
||
When set to an integer value, terminate if no user name could be read
|
||
within @var{timeout} seconds.
|
||
|
||
@item @code{detect-case?} (default: @code{#f})
|
||
When set to @code{#t}, turn on support for detecting an uppercase-only
|
||
terminal. This setting will detect a login name containing only
|
||
uppercase letters as indicating an uppercase-only terminal and turn on
|
||
some upper-to-lower case conversions. Note that this will not support
|
||
Unicode characters.
|
||
|
||
@item @code{wait-cr?} (default: @code{#f})
|
||
When set to @code{#t}, wait for the user or modem to send a
|
||
carriage-return or linefeed character before displaying
|
||
@file{/etc/issue} or login prompt. This is typically used with the
|
||
@var{init-string} option.
|
||
|
||
@item @code{no-hints?} (default: @code{#f})
|
||
When set to @code{#t}, do not print hints about Num, Caps, and Scroll
|
||
locks.
|
||
|
||
@item @code{no-hostname?} (default: @code{#f})
|
||
By default, the hostname is printed. When this option is set to
|
||
@code{#t}, no hostname will be shown at all.
|
||
|
||
@item @code{long-hostname?} (default: @code{#f})
|
||
By default, the hostname is only printed until the first dot. When this
|
||
option is set to @code{#t}, the fully qualified hostname by
|
||
@code{gethostname} or @code{getaddrinfo} is shown.
|
||
|
||
@item @code{erase-characters} (default: @code{#f})
|
||
This option accepts a string of additional characters that should be
|
||
interpreted as backspace when the user types their login name.
|
||
|
||
@item @code{kill-characters} (default: @code{#f})
|
||
This option accepts a string that should be interpreted to mean "ignore
|
||
all previous characters" (also called a "kill" character) when the types
|
||
their login name.
|
||
|
||
@item @code{chdir} (default: @code{#f})
|
||
This option accepts, as a string, a directory path that will be changed
|
||
to before login.
|
||
|
||
@item @code{delay} (default: @code{#f})
|
||
This options accepts, as an integer, the number of seconds to sleep
|
||
before opening the tty and displaying the login prompt.
|
||
|
||
@item @code{nice} (default: @code{#f})
|
||
This option accepts, as an integer, the nice value with which to run the
|
||
@command{login} program.
|
||
|
||
@item @code{extra-options} (default: @code{'()})
|
||
This option provides an "escape hatch" for the user to provide arbitrary
|
||
command-line arguments to @command{agetty} as a list of strings.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deffn {Scheme Procedure} kmscon-service-type @var{config}
|
||
Return a service to run @uref{https://www.freedesktop.org/wiki/Software/kmscon,kmscon}
|
||
according to @var{config}, a @code{<kmscon-configuration>} object, which
|
||
specifies the tty to run, among other things.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} kmscon-configuration
|
||
This is the data type representing the configuration of Kmscon, which
|
||
implements virtual console log-in.
|
||
|
||
@table @asis
|
||
|
||
@item @code{virtual-terminal}
|
||
The name of the console this Kmscon runs on---e.g., @code{"tty1"}.
|
||
|
||
@item @code{login-program} (default: @code{#~(string-append #$shadow "/bin/login")})
|
||
A gexp denoting the name of the log-in program. The default log-in program is
|
||
@command{login} from the Shadow tool suite.
|
||
|
||
@item @code{login-arguments} (default: @code{'("-p")})
|
||
A list of arguments to pass to @command{login}.
|
||
|
||
@item @code{hardware-acceleration?} (default: #f)
|
||
Whether to use hardware acceleration.
|
||
|
||
@item @code{kmscon} (default: @var{kmscon})
|
||
The Kmscon package to use.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@cindex name service cache daemon
|
||
@cindex nscd
|
||
@deffn {Scheme Procedure} nscd-service [@var{config}] [#:glibc glibc] @
|
||
[#:name-services '()]
|
||
Return a service that runs the libc name service cache daemon (nscd) with the
|
||
given @var{config}---an @code{<nscd-configuration>} object. @xref{Name
|
||
Service Switch}, for an example.
|
||
@end deffn
|
||
|
||
@defvr {Scheme Variable} %nscd-default-configuration
|
||
This is the default @code{<nscd-configuration>} value (see below) used
|
||
by @code{nscd-service}. It uses the caches defined by
|
||
@var{%nscd-default-caches}; see below.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} nscd-configuration
|
||
This is the data type representing the name service cache daemon (nscd)
|
||
configuration.
|
||
|
||
@table @asis
|
||
|
||
@item @code{name-services} (default: @code{'()})
|
||
List of packages denoting @dfn{name services} that must be visible to
|
||
the nscd---e.g., @code{(list @var{nss-mdns})}.
|
||
|
||
@item @code{glibc} (default: @var{glibc})
|
||
Package object denoting the GNU C Library providing the @command{nscd}
|
||
command.
|
||
|
||
@item @code{log-file} (default: @code{"/var/log/nscd.log"})
|
||
Name of the nscd log file. This is where debugging output goes when
|
||
@code{debug-level} is strictly positive.
|
||
|
||
@item @code{debug-level} (default: @code{0})
|
||
Integer denoting the debugging levels. Higher numbers mean that more
|
||
debugging output is logged.
|
||
|
||
@item @code{caches} (default: @var{%nscd-default-caches})
|
||
List of @code{<nscd-cache>} objects denoting things to be cached; see
|
||
below.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} nscd-cache
|
||
Data type representing a cache database of nscd and its parameters.
|
||
|
||
@table @asis
|
||
|
||
@item @code{database}
|
||
This is a symbol representing the name of the database to be cached.
|
||
Valid values are @code{passwd}, @code{group}, @code{hosts}, and
|
||
@code{services}, which designate the corresponding NSS database
|
||
(@pxref{NSS Basics,,, libc, The GNU C Library Reference Manual}).
|
||
|
||
@item @code{positive-time-to-live}
|
||
@itemx @code{negative-time-to-live} (default: @code{20})
|
||
A number representing the number of seconds during which a positive or
|
||
negative lookup result remains in cache.
|
||
|
||
@item @code{check-files?} (default: @code{#t})
|
||
Whether to check for updates of the files corresponding to
|
||
@var{database}.
|
||
|
||
For instance, when @var{database} is @code{hosts}, setting this flag
|
||
instructs nscd to check for updates in @file{/etc/hosts} and to take
|
||
them into account.
|
||
|
||
@item @code{persistent?} (default: @code{#t})
|
||
Whether the cache should be stored persistently on disk.
|
||
|
||
@item @code{shared?} (default: @code{#t})
|
||
Whether the cache should be shared among users.
|
||
|
||
@item @code{max-database-size} (default: 32@tie{}MiB)
|
||
Maximum size in bytes of the database cache.
|
||
|
||
@c XXX: 'suggested-size' and 'auto-propagate?' seem to be expert
|
||
@c settings, so leave them out.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} %nscd-default-caches
|
||
List of @code{<nscd-cache>} objects used by default by
|
||
@code{nscd-configuration} (see above).
|
||
|
||
It enables persistent and aggressive caching of service and host name
|
||
lookups. The latter provides better host name lookup performance,
|
||
resilience in the face of unreliable name servers, and also better
|
||
privacy---often the result of host name lookups is in local cache, so
|
||
external name servers do not even need to be queried.
|
||
@end defvr
|
||
|
||
@anchor{syslog-configuration-type}
|
||
@cindex syslog
|
||
@cindex logging
|
||
@deftp {Data Type} syslog-configuration
|
||
This data type represents the configuration of the syslog daemon.
|
||
|
||
@table @asis
|
||
@item @code{syslogd} (default: @code{#~(string-append #$inetutils "/libexec/syslogd")})
|
||
The syslog daemon to use.
|
||
|
||
@item @code{config-file} (default: @code{%default-syslog.conf})
|
||
The syslog configuration file to use.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@anchor{syslog-service}
|
||
@cindex syslog
|
||
@deffn {Scheme Procedure} syslog-service @var{config}
|
||
Return a service that runs a syslog daemon according to @var{config}.
|
||
|
||
@xref{syslogd invocation,,, inetutils, GNU Inetutils}, for more
|
||
information on the configuration file syntax.
|
||
@end deffn
|
||
|
||
@anchor{guix-configuration-type}
|
||
@deftp {Data Type} guix-configuration
|
||
This data type represents the configuration of the Guix build daemon.
|
||
@xref{Invoking guix-daemon}, for more information.
|
||
|
||
@table @asis
|
||
@item @code{guix} (default: @var{guix})
|
||
The Guix package to use.
|
||
|
||
@item @code{build-group} (default: @code{"guixbuild"})
|
||
Name of the group for build user accounts.
|
||
|
||
@item @code{build-accounts} (default: @code{10})
|
||
Number of build user accounts to create.
|
||
|
||
@item @code{authorize-key?} (default: @code{#t})
|
||
@cindex substitutes, authorization thereof
|
||
Whether to authorize the substitute keys listed in
|
||
@code{authorized-keys}---by default that of @code{hydra.gnu.org}
|
||
(@pxref{Substitutes}).
|
||
|
||
@vindex %default-authorized-guix-keys
|
||
@item @code{authorized-keys} (default: @var{%default-authorized-guix-keys})
|
||
The list of authorized key files for archive imports, as a list of
|
||
string-valued gexps (@pxref{Invoking guix archive}). By default, it
|
||
contains that of @code{hydra.gnu.org} (@pxref{Substitutes}).
|
||
|
||
@item @code{use-substitutes?} (default: @code{#t})
|
||
Whether to use substitutes.
|
||
|
||
@item @code{substitute-urls} (default: @var{%default-substitute-urls})
|
||
The list of URLs where to look for substitutes by default.
|
||
|
||
@item @code{max-silent-time} (default: @code{0})
|
||
@itemx @code{timeout} (default: @code{0})
|
||
The number of seconds of silence and the number of seconds of activity,
|
||
respectively, after which a build process times out. A value of zero
|
||
disables the timeout.
|
||
|
||
@item @code{extra-options} (default: @code{'()})
|
||
List of extra command-line options for @command{guix-daemon}.
|
||
|
||
@item @code{log-file} (default: @code{"/var/log/guix-daemon.log"})
|
||
File where @command{guix-daemon}'s standard output and standard error
|
||
are written.
|
||
|
||
@item @code{http-proxy} (default: @code{#f})
|
||
The HTTP proxy used for downloading fixed-output derivations and
|
||
substitutes.
|
||
|
||
@item @code{tmpdir} (default: @code{#f})
|
||
A directory path where the @command{guix-daemon} will perform builds.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deffn {Scheme Procedure} guix-service @var{config}
|
||
Return a service that runs the Guix build daemon according to
|
||
@var{config}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} udev-service [#:udev @var{eudev} #:rules @code{'()}]
|
||
Run @var{udev}, which populates the @file{/dev} directory dynamically.
|
||
udev rules can be provided as a list of files through the @var{rules}
|
||
variable. The procedures @var{udev-rule} and @var{file->udev-rule} from
|
||
@code{(gnu services base)} simplify the creation of such rule files.
|
||
|
||
@deffn {Scheme Procedure} udev-rule [@var{file-name} @var{contents}]
|
||
Return a udev-rule file named @var{file-name} containing the rules
|
||
defined by the @var{contents} literal.
|
||
|
||
In the following example, a rule for a USB device is defined to be
|
||
stored in the file @file{90-usb-thing.rules}. The rule runs a script
|
||
upon detecting a USB device with a given product identifier.
|
||
|
||
@example
|
||
(define %example-udev-rule
|
||
(udev-rule
|
||
"90-usb-thing.rules"
|
||
(string-append "ACTION==\"add\", SUBSYSTEM==\"usb\", "
|
||
"ATTR@{product@}==\"Example\", "
|
||
"RUN+=\"/path/to/script\"")))
|
||
@end example
|
||
@end deffn
|
||
|
||
Here we show how the default @var{udev-service} can be extended with it.
|
||
|
||
@example
|
||
(operating-system
|
||
;; @dots{}
|
||
(services
|
||
(modify-services %desktop-services
|
||
(udev-service-type config =>
|
||
(udev-configuration (inherit config)
|
||
(rules (append (udev-configuration-rules config)
|
||
(list %example-udev-rule))))))))
|
||
@end example
|
||
|
||
@deffn {Scheme Procedure} file->udev-rule [@var{file-name} @var{file}]
|
||
Return a udev file named @var{file-name} containing the rules defined
|
||
within @var{file}, a file-like object.
|
||
|
||
The following example showcases how we can use an existing rule file.
|
||
|
||
@example
|
||
(use-modules (guix download) ;for url-fetch
|
||
(guix packages) ;for origin
|
||
;; @dots{})
|
||
|
||
(define %android-udev-rules
|
||
(file->udev-rule
|
||
"51-android-udev.rules"
|
||
(let ((version "20170910"))
|
||
(origin
|
||
(method url-fetch)
|
||
(uri (string-append "https://raw.githubusercontent.com/M0Rf30/"
|
||
"android-udev-rules/" version "/51-android.rules"))
|
||
(sha256
|
||
(base32 "0lmmagpyb6xsq6zcr2w1cyx9qmjqmajkvrdbhjx32gqf1d9is003"))))))
|
||
@end example
|
||
@end deffn
|
||
|
||
Additionally, Guix package definitions can be included in @var{rules} in
|
||
order to extend the udev rules with the definitions found under their
|
||
@file{lib/udev/rules.d} sub-directory. In lieu of the previous
|
||
@var{file->udev-rule} example, we could have used the
|
||
@var{android-udev-rules} package which exists in Guix in the @code{(gnu
|
||
packages android)} module.
|
||
|
||
The following example shows how to use the @var{android-udev-rules}
|
||
package so that the Android tool @command{adb} can detect devices
|
||
without root privileges. It also details how to create the
|
||
@code{adbusers} group, which is required for the proper functioning of
|
||
the rules defined within the @var{android-udev-rules} package. To
|
||
create such a group, we must define it both as part of the
|
||
@var{supplementary-groups} of our @var{user-account} declaration, as
|
||
well as in the @var{groups} field of the @var{operating-system} record.
|
||
|
||
@example
|
||
(use-modules (gnu packages android) ;for android-udev-rules
|
||
(gnu system shadow) ;for user-group
|
||
;; @dots{})
|
||
|
||
(operating-system
|
||
;; @dots{}
|
||
(users (cons (user-acount
|
||
;; @dots{}
|
||
(supplementary-groups
|
||
'("adbusers" ;for adb
|
||
"wheel" "netdev" "audio" "video"))
|
||
;; @dots{})))
|
||
|
||
(groups (cons (user-group (system? #t) (name "adbusers"))
|
||
%base-groups))
|
||
|
||
;; @dots{}
|
||
|
||
(services
|
||
(modify-services %desktop-services
|
||
(udev-service-type config =>
|
||
(udev-configuration (inherit config)
|
||
(rules (cons* android-udev-rules
|
||
(udev-configuration-rules config))))))))
|
||
@end example
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} urandom-seed-service
|
||
Save some entropy in @var{%random-seed-file} to seed @file{/dev/urandom}
|
||
when rebooting.
|
||
@end deffn
|
||
|
||
@defvr {Scheme Variable} %random-seed-file
|
||
This is the name of the file where some random bytes are saved by
|
||
@var{urandom-seed-service} to seed @file{/dev/urandom} when rebooting.
|
||
It defaults to @file{/var/lib/random-seed}.
|
||
@end defvr
|
||
|
||
@cindex keymap
|
||
@cindex keyboard
|
||
@deffn {Scheme Procedure} console-keymap-service @var{files} ...
|
||
@cindex keyboard layout
|
||
Return a service to load console keymaps from @var{files} using
|
||
@command{loadkeys} command. Most likely, you want to load some default
|
||
keymap, which can be done like this:
|
||
|
||
@example
|
||
(console-keymap-service "dvorak")
|
||
@end example
|
||
|
||
Or, for example, for a Swedish keyboard, you may need to combine
|
||
the following keymaps:
|
||
@example
|
||
(console-keymap-service "se-lat6" "se-fi-lat6")
|
||
@end example
|
||
|
||
Also you can specify a full file name (or file names) of your keymap(s).
|
||
See @code{man loadkeys} for details.
|
||
|
||
@end deffn
|
||
|
||
@cindex mouse
|
||
@cindex gpm
|
||
@deffn {Scheme Procedure} gpm-service [#:gpm @var{gpm}] @
|
||
[#:options]
|
||
Run @var{gpm}, the general-purpose mouse daemon, with the given
|
||
command-line @var{options}. GPM allows users to use the mouse in the console,
|
||
notably to select, copy, and paste text. The default value of @var{options}
|
||
uses the @code{ps2} protocol, which works for both USB and PS/2 mice.
|
||
|
||
This service is not part of @var{%base-services}.
|
||
@end deffn
|
||
|
||
@anchor{guix-publish-service-type}
|
||
@deffn {Scheme Variable} guix-publish-service-type
|
||
This is the service type for @command{guix publish} (@pxref{Invoking
|
||
guix publish}). Its value must be a @code{guix-configuration}
|
||
object, as described below.
|
||
|
||
This assumes that @file{/etc/guix} already contains a signing key pair as
|
||
created by @command{guix archive --generate-key} (@pxref{Invoking guix
|
||
archive}). If that is not the case, the service will fail to start.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} guix-publish-configuration
|
||
Data type representing the configuration of the @code{guix publish}
|
||
service.
|
||
|
||
@table @asis
|
||
@item @code{guix} (default: @code{guix})
|
||
The Guix package to use.
|
||
|
||
@item @code{port} (default: @code{80})
|
||
The TCP port to listen for connections.
|
||
|
||
@item @code{host} (default: @code{"localhost"})
|
||
The host (and thus, network interface) to listen to. Use
|
||
@code{"0.0.0.0"} to listen on all the network interfaces.
|
||
|
||
@item @code{compression-level} (default: @code{3})
|
||
The gzip compression level at which substitutes are compressed. Use
|
||
@code{0} to disable compression altogether, and @code{9} to get the best
|
||
compression ratio at the expense of increased CPU usage.
|
||
|
||
@item @code{nar-path} (default: @code{"nar"})
|
||
The URL path at which ``nars'' can be fetched. @xref{Invoking guix
|
||
publish, @code{--nar-path}}, for details.
|
||
|
||
@item @code{cache} (default: @code{#f})
|
||
When it is @code{#f}, disable caching and instead generate archives on
|
||
demand. Otherwise, this should be the name of a directory---e.g.,
|
||
@code{"/var/cache/guix/publish"}---where @command{guix publish} caches
|
||
archives and meta-data ready to be sent. @xref{Invoking guix publish,
|
||
@option{--cache}}, for more information on the tradeoffs involved.
|
||
|
||
@item @code{workers} (default: @code{#f})
|
||
When it is an integer, this is the number of worker threads used for
|
||
caching; when @code{#f}, the number of processors is used.
|
||
@xref{Invoking guix publish, @option{--workers}}, for more information.
|
||
|
||
@item @code{ttl} (default: @code{#f})
|
||
When it is an integer, this denotes the @dfn{time-to-live} of the
|
||
published archives. @xref{Invoking guix publish, @option{--ttl}}, for
|
||
more information.
|
||
@end table
|
||
@end deftp
|
||
|
||
@anchor{rngd-service}
|
||
@deffn {Scheme Procedure} rngd-service [#:rng-tools @var{rng-tools}] @
|
||
[#:device "/dev/hwrng"]
|
||
Return a service that runs the @command{rngd} program from @var{rng-tools}
|
||
to add @var{device} to the kernel's entropy pool. The service will fail if
|
||
@var{device} does not exist.
|
||
@end deffn
|
||
|
||
@anchor{pam-limits-service}
|
||
@cindex session limits
|
||
@cindex ulimit
|
||
@cindex priority
|
||
@deffn {Scheme Procedure} pam-limits-service [#:limits @code{'()}]
|
||
|
||
Return a service that installs a configuration file for the
|
||
@uref{http://linux-pam.org/Linux-PAM-html/sag-pam_limits.html,
|
||
@code{pam_limits} module}. The procedure optionally takes a list of
|
||
@code{pam-limits-entry} values, which can be used to specify
|
||
@code{ulimit} limits and nice priority limits to user sessions.
|
||
|
||
The following limits definition sets two hard and soft limits for all
|
||
login sessions of users in the @code{realtime} group:
|
||
|
||
@example
|
||
(pam-limits-service
|
||
(list
|
||
(pam-limits-entry "@@realtime" 'both 'rtprio 99)
|
||
(pam-limits-entry "@@realtime" 'both 'memlock 'unlimited)))
|
||
@end example
|
||
|
||
The first entry increases the maximum realtime priority for
|
||
non-privileged processes; the second entry lifts any restriction of the
|
||
maximum address space that can be locked in memory. These settings are
|
||
commonly used for real-time audio systems.
|
||
@end deffn
|
||
|
||
@node Scheduled Job Execution
|
||
@subsubsection Scheduled Job Execution
|
||
|
||
@cindex cron
|
||
@cindex mcron
|
||
@cindex scheduling jobs
|
||
The @code{(gnu services mcron)} module provides an interface to
|
||
GNU@tie{}mcron, a daemon to run jobs at scheduled times (@pxref{Top,,,
|
||
mcron, GNU@tie{}mcron}). GNU@tie{}mcron is similar to the traditional
|
||
Unix @command{cron} daemon; the main difference is that it is
|
||
implemented in Guile Scheme, which provides a lot of flexibility when
|
||
specifying the scheduling of jobs and their actions.
|
||
|
||
The example below defines an operating system that runs the
|
||
@command{updatedb} (@pxref{Invoking updatedb,,, find, Finding Files})
|
||
and the @command{guix gc} commands (@pxref{Invoking guix gc}) daily, as
|
||
well as the @command{mkid} command on behalf of an unprivileged user
|
||
(@pxref{mkid invocation,,, idutils, ID Database Utilities}). It uses
|
||
gexps to introduce job definitions that are passed to mcron
|
||
(@pxref{G-Expressions}).
|
||
|
||
@lisp
|
||
(use-modules (guix) (gnu) (gnu services mcron))
|
||
(use-package-modules base idutils)
|
||
|
||
(define updatedb-job
|
||
;; Run 'updatedb' at 3AM every day. Here we write the
|
||
;; job's action as a Scheme procedure.
|
||
#~(job '(next-hour '(3))
|
||
(lambda ()
|
||
(execl (string-append #$findutils "/bin/updatedb")
|
||
"updatedb"
|
||
"--prunepaths=/tmp /var/tmp /gnu/store"))))
|
||
|
||
(define garbage-collector-job
|
||
;; Collect garbage 5 minutes after midnight every day.
|
||
;; The job's action is a shell command.
|
||
#~(job "5 0 * * *" ;Vixie cron syntax
|
||
"guix gc -F 1G"))
|
||
|
||
(define idutils-job
|
||
;; Update the index database as user "charlie" at 12:15PM
|
||
;; and 19:15PM. This runs from the user's home directory.
|
||
#~(job '(next-minute-from (next-hour '(12 19)) '(15))
|
||
(string-append #$idutils "/bin/mkid src")
|
||
#:user "charlie"))
|
||
|
||
(operating-system
|
||
;; @dots{}
|
||
(services (cons (mcron-service (list garbage-collector-job
|
||
updatedb-job
|
||
idutils-job))
|
||
%base-services)))
|
||
@end lisp
|
||
|
||
@xref{Guile Syntax, mcron job specifications,, mcron, GNU@tie{}mcron},
|
||
for more information on mcron job specifications. Below is the
|
||
reference of the mcron service.
|
||
|
||
@deffn {Scheme Procedure} mcron-service @var{jobs} [#:mcron @var{mcron2}]
|
||
Return an mcron service running @var{mcron} that schedules @var{jobs}, a
|
||
list of gexps denoting mcron job specifications.
|
||
|
||
This is a shorthand for:
|
||
@example
|
||
(service mcron-service-type
|
||
(mcron-configuration (mcron mcron) (jobs jobs)))
|
||
@end example
|
||
@end deffn
|
||
|
||
@defvr {Scheme Variable} mcron-service-type
|
||
This is the type of the @code{mcron} service, whose value is an
|
||
@code{mcron-configuration} object.
|
||
|
||
This service type can be the target of a service extension that provides
|
||
it additional job specifications (@pxref{Service Composition}). In
|
||
other words, it is possible to define services that provide additional
|
||
mcron jobs to run.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} mcron-configuration
|
||
Data type representing the configuration of mcron.
|
||
|
||
@table @asis
|
||
@item @code{mcron} (default: @var{mcron2})
|
||
The mcron package to use.
|
||
|
||
@item @code{jobs}
|
||
This is a list of gexps (@pxref{G-Expressions}), where each gexp
|
||
corresponds to an mcron job specification (@pxref{Syntax, mcron job
|
||
specifications,, mcron, GNU@tie{}mcron}).
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@node Log Rotation
|
||
@subsubsection Log Rotation
|
||
|
||
@cindex rottlog
|
||
@cindex log rotation
|
||
@cindex logging
|
||
Log files such as those found in @file{/var/log} tend to grow endlessly,
|
||
so it's a good idea to @dfn{rotate} them once in a while---i.e., archive
|
||
their contents in separate files, possibly compressed. The @code{(gnu
|
||
services admin)} module provides an interface to GNU@tie{}Rot[t]log, a
|
||
log rotation tool (@pxref{Top,,, rottlog, GNU Rot[t]log Manual}).
|
||
|
||
The example below defines an operating system that provides log rotation
|
||
with the default settings, for commonly encountered log files.
|
||
|
||
@lisp
|
||
(use-modules (guix) (gnu))
|
||
(use-service-modules admin mcron)
|
||
(use-package-modules base idutils)
|
||
|
||
(operating-system
|
||
;; @dots{}
|
||
(services (cons* (service mcron-service-type)
|
||
(service rottlog-service-type)
|
||
%base-services)))
|
||
@end lisp
|
||
|
||
@defvr {Scheme Variable} rottlog-service-type
|
||
This is the type of the Rottlog service, whose value is a
|
||
@code{rottlog-configuration} object.
|
||
|
||
Other services can extend this one with new @code{log-rotation} objects
|
||
(see below), thereby augmenting the set of files to be rotated.
|
||
|
||
This service type can define mcron jobs (@pxref{Scheduled Job
|
||
Execution}) to run the rottlog service.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} rottlog-configuration
|
||
Data type representing the configuration of rottlog.
|
||
|
||
@table @asis
|
||
@item @code{rottlog} (default: @code{rottlog})
|
||
The Rottlog package to use.
|
||
|
||
@item @code{rc-file} (default: @code{(file-append rottlog "/etc/rc")})
|
||
The Rottlog configuration file to use (@pxref{Mandatory RC Variables,,,
|
||
rottlog, GNU Rot[t]log Manual}).
|
||
|
||
@item @code{rotations} (default: @code{%default-rotations})
|
||
A list of @code{log-rotation} objects as defined below.
|
||
|
||
@item @code{jobs}
|
||
This is a list of gexps where each gexp corresponds to an mcron job
|
||
specification (@pxref{Scheduled Job Execution}).
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} log-rotation
|
||
Data type representing the rotation of a group of log files.
|
||
|
||
Taking an example from the Rottlog manual (@pxref{Period Related File
|
||
Examples,,, rottlog, GNU Rot[t]log Manual}), a log rotation might be
|
||
defined like this:
|
||
|
||
@example
|
||
(log-rotation
|
||
(frequency 'daily)
|
||
(files '("/var/log/apache/*"))
|
||
(options '("storedir apache-archives"
|
||
"rotate 6"
|
||
"notifempty"
|
||
"nocompress")))
|
||
@end example
|
||
|
||
The list of fields is as follows:
|
||
|
||
@table @asis
|
||
@item @code{frequency} (default: @code{'weekly})
|
||
The log rotation frequency, a symbol.
|
||
|
||
@item @code{files}
|
||
The list of files or file glob patterns to rotate.
|
||
|
||
@item @code{options} (default: @code{'()})
|
||
The list of rottlog options for this rotation (@pxref{Configuration
|
||
parameters,,, rottlog, GNU Rot[t]lg Manual}).
|
||
|
||
@item @code{post-rotate} (default: @code{#f})
|
||
Either @code{#f} or a gexp to execute once the rotation has completed.
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} %default-rotations
|
||
Specifies weekly rotation of @var{%rotated-files} and
|
||
a couple of other files.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} %rotated-files
|
||
The list of syslog-controlled files to be rotated. By default it is:
|
||
@code{'("/var/log/messages" "/var/log/secure")}.
|
||
@end defvr
|
||
|
||
@node Networking Services
|
||
@subsubsection Networking Services
|
||
|
||
The @code{(gnu services networking)} module provides services to configure
|
||
the network interface.
|
||
|
||
@cindex DHCP, networking service
|
||
@deffn {Scheme Procedure} dhcp-client-service [#:dhcp @var{isc-dhcp}]
|
||
Return a service that runs @var{dhcp}, a Dynamic Host Configuration
|
||
Protocol (DHCP) client, on all the non-loopback network interfaces.
|
||
@end deffn
|
||
|
||
@defvr {Scheme Variable} static-networking-service-type
|
||
This is the type for statically-configured network interfaces.
|
||
@c TODO Document <static-networking> data structures.
|
||
@end defvr
|
||
|
||
@deffn {Scheme Procedure} static-networking-service @var{interface} @var{ip} @
|
||
[#:netmask #f] [#:gateway #f] [#:name-servers @code{'()}]
|
||
Return a service that starts @var{interface} with address @var{ip}. If
|
||
@var{netmask} is true, use it as the network mask. If @var{gateway} is true,
|
||
it must be a string specifying the default network gateway.
|
||
|
||
This procedure can be called several times, one for each network
|
||
interface of interest. Behind the scenes what it does is extend
|
||
@code{static-networking-service-type} with additional network interfaces
|
||
to handle.
|
||
@end deffn
|
||
|
||
@cindex wicd
|
||
@cindex wireless
|
||
@cindex WiFi
|
||
@cindex network management
|
||
@deffn {Scheme Procedure} wicd-service [#:wicd @var{wicd}]
|
||
Return a service that runs @url{https://launchpad.net/wicd,Wicd}, a network
|
||
management daemon that aims to simplify wired and wireless networking.
|
||
|
||
This service adds the @var{wicd} package to the global profile, providing
|
||
several commands to interact with the daemon and configure networking:
|
||
@command{wicd-client}, a graphical user interface, and the @command{wicd-cli}
|
||
and @command{wicd-curses} user interfaces.
|
||
@end deffn
|
||
|
||
@cindex NetworkManager
|
||
|
||
@defvr {Scheme Variable} network-manager-service-type
|
||
This is the service type for the
|
||
@uref{https://wiki.gnome.org/Projects/NetworkManager, NetworkManager}
|
||
service. The value for this service type is a
|
||
@code{network-manager-configuration} record.
|
||
|
||
This service is part of @code{%desktop-services} (@pxref{Desktop
|
||
Services}).
|
||
@end defvr
|
||
|
||
@deftp {Data Type} network-manager-configuration
|
||
Data type representing the configuration of NetworkManager.
|
||
|
||
@table @asis
|
||
@item @code{network-manager} (default: @code{network-manager})
|
||
The NetworkManager package to use.
|
||
|
||
@item @code{dns} (default: @code{"default"})
|
||
Processing mode for DNS, which affects how NetworkManager uses the
|
||
@code{resolv.conf} configuration file.
|
||
|
||
@table @samp
|
||
@item default
|
||
NetworkManager will update @code{resolv.conf} to reflect the nameservers
|
||
provided by currently active connections.
|
||
|
||
@item dnsmasq
|
||
NetworkManager will run @code{dnsmasq} as a local caching nameserver,
|
||
using a "split DNS" configuration if you are connected to a VPN, and
|
||
then update @code{resolv.conf} to point to the local nameserver.
|
||
|
||
@item none
|
||
NetworkManager will not modify @code{resolv.conf}.
|
||
@end table
|
||
|
||
@item @code{vpn-plugins} (default: @code{'()})
|
||
This is the list of available plugins for virtual private networks
|
||
(VPNs). An example of this is the @code{network-manager-openvpn}
|
||
package, which allows NetworkManager to manage VPNs @i{via} OpenVPN.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@cindex Connman
|
||
@deffn {Scheme Variable} connman-service-type
|
||
This is the service type to run @url{https://01.org/connman,Connman},
|
||
a network connection manager.
|
||
|
||
Its value must be an
|
||
@code{connman-configuration} record as in this example:
|
||
|
||
@example
|
||
(service connman-service-type
|
||
(connman-configuration
|
||
(disable-vpn? #t)))
|
||
@end example
|
||
|
||
See below for details about @code{connman-configuration}.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} connman-configuration
|
||
Data Type representing the configuration of connman.
|
||
|
||
@table @asis
|
||
@item @code{connman} (default: @var{connman})
|
||
The connman package to use.
|
||
|
||
@item @code{disable-vpn?} (default: @code{#f})
|
||
When true, enable connman's vpn plugin.
|
||
@end table
|
||
@end deftp
|
||
|
||
@cindex WPA Supplicant
|
||
@defvr {Scheme Variable} wpa-supplicant-service-type
|
||
This is the service type to run @url{https://w1.fi/wpa_supplicant/,WPA
|
||
supplicant}, an authentication daemon required to authenticate against
|
||
encrypted WiFi or ethernet networks. It is configured to listen for
|
||
requests on D-Bus.
|
||
|
||
The value of this service is the @code{wpa-supplicant} package to use.
|
||
Thus, it can be instantiated like this:
|
||
|
||
@lisp
|
||
(use-modules (gnu services networking))
|
||
|
||
(service wpa-supplicant-service-type)
|
||
@end lisp
|
||
@end defvr
|
||
|
||
@cindex NTP
|
||
@cindex real time clock
|
||
@deffn {Scheme Procedure} ntp-service [#:ntp @var{ntp}] @
|
||
[#:servers @var{%ntp-servers}] @
|
||
[#:allow-large-adjustment? #f]
|
||
Return a service that runs the daemon from @var{ntp}, the
|
||
@uref{http://www.ntp.org, Network Time Protocol package}. The daemon will
|
||
keep the system clock synchronized with that of @var{servers}.
|
||
@var{allow-large-adjustment?} determines whether @command{ntpd} is allowed to
|
||
make an initial adjustment of more than 1,000 seconds.
|
||
@end deffn
|
||
|
||
@defvr {Scheme Variable} %ntp-servers
|
||
List of host names used as the default NTP servers.
|
||
@end defvr
|
||
|
||
@cindex inetd
|
||
@deffn {Scheme variable} inetd-service-type
|
||
This service runs the @command{inetd} (@pxref{inetd invocation,,,
|
||
inetutils, GNU Inetutils}) daemon. @command{inetd} listens for
|
||
connections on internet sockets, and lazily starts the specified server
|
||
program when a connection is made on one of these sockets.
|
||
|
||
The value of this service is an @code{inetd-configuration} object. The
|
||
following example configures the @command{inetd} daemon to provide the
|
||
built-in @command{echo} service, as well as an smtp service which
|
||
forwards smtp traffic over ssh to a server @code{smtp-server} behind a
|
||
gateway @code{hostname}:
|
||
|
||
@example
|
||
(service
|
||
inetd-service-type
|
||
(inetd-configuration
|
||
(entries (list
|
||
(inetd-entry
|
||
(name "echo")
|
||
(socket-type 'stream)
|
||
(protocol "tcp")
|
||
(wait? #f)
|
||
(user "root"))
|
||
(inetd-entry
|
||
(node "127.0.0.1")
|
||
(name "smtp")
|
||
(socket-type 'stream)
|
||
(protocol "tcp")
|
||
(wait? #f)
|
||
(user "root")
|
||
(program (file-append openssh "/bin/ssh"))
|
||
(arguments
|
||
'("ssh" "-qT" "-i" "/path/to/ssh_key"
|
||
"-W" "smtp-server:25" "user@@hostname")))))
|
||
@end example
|
||
|
||
See below for more details about @code{inetd-configuration}.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} inetd-configuration
|
||
Data type representing the configuration of @command{inetd}.
|
||
|
||
@table @asis
|
||
@item @code{program} (default: @code{(file-append inetutils "/libexec/inetd")})
|
||
The @command{inetd} executable to use.
|
||
|
||
@item @code{entries} (default: @code{'()})
|
||
A list of @command{inetd} service entries. Each entry should be created
|
||
by the @code{inetd-entry} constructor.
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} inetd-entry
|
||
Data type representing an entry in the @command{inetd} configuration.
|
||
Each entry corresponds to a socket where @command{inetd} will listen for
|
||
requests.
|
||
|
||
@table @asis
|
||
@item @code{node} (default: @code{#f})
|
||
Optional string, a comma-separated list of local addresses
|
||
@command{inetd} should use when listening for this service.
|
||
@xref{Configuration file,,, inetutils, GNU Inetutils} for a complete
|
||
description of all options.
|
||
@item @code{name}
|
||
A string, the name must correspond to an entry in @code{/etc/services}.
|
||
@item @code{socket-type}
|
||
One of @code{'stream}, @code{'dgram}, @code{'raw}, @code{'rdm} or
|
||
@code{'seqpacket}.
|
||
@item @code{protocol}
|
||
A string, must correspond to an entry in @code{/etc/protocols}.
|
||
@item @code{wait?} (default: @code{#t})
|
||
Whether @command{inetd} should wait for the server to exit before
|
||
listening to new service requests.
|
||
@item @code{user}
|
||
A string containing the user (and, optionally, group) name of the user
|
||
as whom the server should run. The group name can be specified in a
|
||
suffix, separated by a colon or period, i.e. @code{"user"},
|
||
@code{"user:group"} or @code{"user.group"}.
|
||
@item @code{program} (default: @code{"internal"})
|
||
The server program which will serve the requests, or @code{"internal"}
|
||
if @command{inetd} should use a built-in service.
|
||
@item @code{arguments} (default: @code{'()})
|
||
A list strings or file-like objects, which are the server program's
|
||
arguments, starting with the zeroth argument, i.e. the name of the
|
||
program itself. For @command{inetd}'s internal services, this entry
|
||
must be @code{'()} or @code{'("internal")}.
|
||
@end table
|
||
|
||
@xref{Configuration file,,, inetutils, GNU Inetutils} for a more
|
||
detailed discussion of each configuration field.
|
||
@end deftp
|
||
|
||
@cindex Tor
|
||
@deffn {Scheme Procedure} tor-service [@var{config-file}] [#:tor @var{tor}]
|
||
Return a service to run the @uref{https://torproject.org, Tor} anonymous
|
||
networking daemon.
|
||
|
||
The daemon runs as the @code{tor} unprivileged user. It is passed
|
||
@var{config-file}, a file-like object, with an additional @code{User tor} line
|
||
and lines for hidden services added via @code{tor-hidden-service}. Run
|
||
@command{man tor} for information about the configuration file.
|
||
@end deffn
|
||
|
||
@cindex hidden service
|
||
@deffn {Scheme Procedure} tor-hidden-service @var{name} @var{mapping}
|
||
Define a new Tor @dfn{hidden service} called @var{name} and implementing
|
||
@var{mapping}. @var{mapping} is a list of port/host tuples, such as:
|
||
|
||
@example
|
||
'((22 "127.0.0.1:22")
|
||
(80 "127.0.0.1:8080"))
|
||
@end example
|
||
|
||
In this example, port 22 of the hidden service is mapped to local port 22, and
|
||
port 80 is mapped to local port 8080.
|
||
|
||
This creates a @file{/var/lib/tor/hidden-services/@var{name}} directory, where
|
||
the @file{hostname} file contains the @code{.onion} host name for the hidden
|
||
service.
|
||
|
||
See @uref{https://www.torproject.org/docs/tor-hidden-service.html.en, the Tor
|
||
project's documentation} for more information.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} bitlbee-service [#:bitlbee bitlbee] @
|
||
[#:interface "127.0.0.1"] [#:port 6667] @
|
||
[#:extra-settings ""]
|
||
Return a service that runs @url{http://bitlbee.org,BitlBee}, a daemon that
|
||
acts as a gateway between IRC and chat networks.
|
||
|
||
The daemon will listen to the interface corresponding to the IP address
|
||
specified in @var{interface}, on @var{port}. @code{127.0.0.1} means that only
|
||
local clients can connect, whereas @code{0.0.0.0} means that connections can
|
||
come from any networking interface.
|
||
|
||
In addition, @var{extra-settings} specifies a string to append to the
|
||
configuration file.
|
||
@end deffn
|
||
|
||
The @code{(gnu services rsync)} module provides the following services:
|
||
|
||
You might want an rsync daemon if you have files that you want available
|
||
so anyone (or just yourself) can download existing files or upload new
|
||
files.
|
||
|
||
@deffn {Scheme Variable} rsync-service-type
|
||
This is the type for the @uref{https://rsync.samba.org, rsync} rsync daemon,
|
||
@command{rsync-configuration} record as in this example:
|
||
|
||
@example
|
||
(service rsync-service-type)
|
||
@end example
|
||
|
||
See below for details about @code{rsync-configuration}.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} rsync-configuration
|
||
Data type representing the configuration for @code{rsync-service}.
|
||
|
||
@table @asis
|
||
@item @code{package} (default: @var{rsync})
|
||
@code{rsync} package to use.
|
||
|
||
@item @code{port-number} (default: @code{873})
|
||
TCP port on which @command{rsync} listens for incoming connections. If port
|
||
is less than @code{1024} @command{rsync} needs to be started as the
|
||
@code{root} user and group.
|
||
|
||
@item @code{pid-file} (default: @code{"/var/run/rsyncd/rsyncd.pid"})
|
||
Name of the file where @command{rsync} writes its PID.
|
||
|
||
@item @code{lock-file} (default: @code{"/var/run/rsyncd/rsyncd.lock"})
|
||
Name of the file where @command{rsync} writes its lock file.
|
||
|
||
@item @code{log-file} (default: @code{"/var/log/rsyncd.log"})
|
||
Name of the file where @command{rsync} writes its log file.
|
||
|
||
@item @code{use-chroot?} (default: @var{#t})
|
||
Whether to use chroot for @command{rsync} shared directory.
|
||
|
||
@item @code{share-path} (default: @file{/srv/rsync})
|
||
Location of the @command{rsync} shared directory.
|
||
|
||
@item @code{share-comment} (default: @code{"Rsync share"})
|
||
Comment of the @command{rsync} shared directory.
|
||
|
||
@item @code{read-only?} (default: @var{#f})
|
||
Read-write permissions to shared directory.
|
||
|
||
@item @code{timeout} (default: @code{300})
|
||
I/O timeout in seconds.
|
||
|
||
@item @code{user} (default: @var{"root"})
|
||
Owner of the @code{rsync} process.
|
||
|
||
@item @code{group} (default: @var{"root"})
|
||
Group of the @code{rsync} process.
|
||
|
||
@item @code{uid} (default: @var{"rsyncd"})
|
||
User name or user ID that file transfers to and from that module should take
|
||
place as when the daemon was run as @code{root}.
|
||
|
||
@item @code{gid} (default: @var{"rsyncd"})
|
||
Group name or group ID that will be used when accessing the module.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
Furthermore, @code{(gnu services ssh)} provides the following services.
|
||
@cindex SSH
|
||
@cindex SSH server
|
||
|
||
@deffn {Scheme Procedure} lsh-service [#:host-key "/etc/lsh/host-key"] @
|
||
[#:daemonic? #t] [#:interfaces '()] [#:port-number 22] @
|
||
[#:allow-empty-passwords? #f] [#:root-login? #f] @
|
||
[#:syslog-output? #t] [#:x11-forwarding? #t] @
|
||
[#:tcp/ip-forwarding? #t] [#:password-authentication? #t] @
|
||
[#:public-key-authentication? #t] [#:initialize? #t]
|
||
Run the @command{lshd} program from @var{lsh} to listen on port @var{port-number}.
|
||
@var{host-key} must designate a file containing the host key, and readable
|
||
only by root.
|
||
|
||
When @var{daemonic?} is true, @command{lshd} will detach from the
|
||
controlling terminal and log its output to syslogd, unless one sets
|
||
@var{syslog-output?} to false. Obviously, it also makes lsh-service
|
||
depend on existence of syslogd service. When @var{pid-file?} is true,
|
||
@command{lshd} writes its PID to the file called @var{pid-file}.
|
||
|
||
When @var{initialize?} is true, automatically create the seed and host key
|
||
upon service activation if they do not exist yet. This may take long and
|
||
require interaction.
|
||
|
||
When @var{initialize?} is false, it is up to the user to initialize the
|
||
randomness generator (@pxref{lsh-make-seed,,, lsh, LSH Manual}), and to create
|
||
a key pair with the private key stored in file @var{host-key} (@pxref{lshd
|
||
basics,,, lsh, LSH Manual}).
|
||
|
||
When @var{interfaces} is empty, lshd listens for connections on all the
|
||
network interfaces; otherwise, @var{interfaces} must be a list of host names
|
||
or addresses.
|
||
|
||
@var{allow-empty-passwords?} specifies whether to accept log-ins with empty
|
||
passwords, and @var{root-login?} specifies whether to accept log-ins as
|
||
root.
|
||
|
||
The other options should be self-descriptive.
|
||
@end deffn
|
||
|
||
@cindex SSH
|
||
@cindex SSH server
|
||
@deffn {Scheme Variable} openssh-service-type
|
||
This is the type for the @uref{http://www.openssh.org, OpenSSH} secure
|
||
shell daemon, @command{sshd}. Its value must be an
|
||
@code{openssh-configuration} record as in this example:
|
||
|
||
@example
|
||
(service openssh-service-type
|
||
(openssh-configuration
|
||
(x11-forwarding? #t)
|
||
(permit-root-login 'without-password)
|
||
(authorized-keys
|
||
`(("alice" ,(local-file "alice.pub"))
|
||
("bob" ,(local-file "bob.pub"))))))
|
||
@end example
|
||
|
||
See below for details about @code{openssh-configuration}.
|
||
|
||
This service can be extended with extra authorized keys, as in this
|
||
example:
|
||
|
||
@example
|
||
(service-extension openssh-service-type
|
||
(const `(("charlie"
|
||
,(local-file "charlie.pub")))))
|
||
@end example
|
||
@end deffn
|
||
|
||
@deftp {Data Type} openssh-configuration
|
||
This is the configuration record for OpenSSH's @command{sshd}.
|
||
|
||
@table @asis
|
||
@item @code{pid-file} (default: @code{"/var/run/sshd.pid"})
|
||
Name of the file where @command{sshd} writes its PID.
|
||
|
||
@item @code{port-number} (default: @code{22})
|
||
TCP port on which @command{sshd} listens for incoming connections.
|
||
|
||
@item @code{permit-root-login} (default: @code{#f})
|
||
This field determines whether and when to allow logins as root. If
|
||
@code{#f}, root logins are disallowed; if @code{#t}, they are allowed.
|
||
If it's the symbol @code{'without-password}, then root logins are
|
||
permitted but not with password-based authentication.
|
||
|
||
@item @code{allow-empty-passwords?} (default: @code{#f})
|
||
When true, users with empty passwords may log in. When false, they may
|
||
not.
|
||
|
||
@item @code{password-authentication?} (default: @code{#t})
|
||
When true, users may log in with their password. When false, they have
|
||
other authentication methods.
|
||
|
||
@item @code{public-key-authentication?} (default: @code{#t})
|
||
When true, users may log in using public key authentication. When
|
||
false, users have to use other authentication method.
|
||
|
||
Authorized public keys are stored in @file{~/.ssh/authorized_keys}.
|
||
This is used only by protocol version 2.
|
||
|
||
@item @code{x11-forwarding?} (default: @code{#f})
|
||
When true, forwarding of X11 graphical client connections is
|
||
enabled---in other words, @command{ssh} options @option{-X} and
|
||
@option{-Y} will work.
|
||
|
||
@item @code{challenge-response-authentication?} (default: @code{#f})
|
||
Specifies whether challenge response authentication is allowed (e.g. via
|
||
PAM).
|
||
|
||
@item @code{use-pam?} (default: @code{#t})
|
||
Enables the Pluggable Authentication Module interface. If set to
|
||
@code{#t}, this will enable PAM authentication using
|
||
@code{challenge-response-authentication?} and
|
||
@code{password-authentication?}, in addition to PAM account and session
|
||
module processing for all authentication types.
|
||
|
||
Because PAM challenge response authentication usually serves an
|
||
equivalent role to password authentication, you should disable either
|
||
@code{challenge-response-authentication?} or
|
||
@code{password-authentication?}.
|
||
|
||
@item @code{print-last-log?} (default: @code{#t})
|
||
Specifies whether @command{sshd} should print the date and time of the
|
||
last user login when a user logs in interactively.
|
||
|
||
@item @code{subsystems} (default: @code{'(("sftp" "internal-sftp"))})
|
||
Configures external subsystems (e.g. file transfer daemon).
|
||
|
||
This is a list of two-element lists, each of which containing the
|
||
subsystem name and a command (with optional arguments) to execute upon
|
||
subsystem request.
|
||
|
||
The command @command{internal-sftp} implements an in-process SFTP
|
||
server. Alternately, one can specify the @command{sftp-server} command:
|
||
@example
|
||
(service openssh-service-type
|
||
(openssh-configuration
|
||
(subsystems
|
||
`(("sftp" ,(file-append openssh "/libexec/sftp-server"))))))
|
||
@end example
|
||
|
||
@item @code{authorized-keys} (default: @code{'()})
|
||
@cindex authorized keys, SSH
|
||
@cindex SSH authorized keys
|
||
This is the list of authorized keys. Each element of the list is a user
|
||
name followed by one or more file-like objects that represent SSH public
|
||
keys. For example:
|
||
|
||
@example
|
||
(openssh-configuration
|
||
(authorized-keys
|
||
`(("rekado" ,(local-file "rekado.pub"))
|
||
("chris" ,(local-file "chris.pub"))
|
||
("root" ,(local-file "rekado.pub") ,(local-file "chris.pub")))))
|
||
@end example
|
||
|
||
@noindent
|
||
registers the specified public keys for user accounts @code{rekado},
|
||
@code{chris}, and @code{root}.
|
||
|
||
Additional authorized keys can be specified @i{via}
|
||
@code{service-extension}.
|
||
|
||
Note that this does @emph{not} interfere with the use of
|
||
@file{~/.ssh/authorized_keys}.
|
||
@end table
|
||
@end deftp
|
||
|
||
@deffn {Scheme Procedure} dropbear-service [@var{config}]
|
||
Run the @uref{https://matt.ucc.asn.au/dropbear/dropbear.html,Dropbear SSH
|
||
daemon} with the given @var{config}, a @code{<dropbear-configuration>}
|
||
object.
|
||
|
||
For example, to specify a Dropbear service listening on port 1234, add
|
||
this call to the operating system's @code{services} field:
|
||
|
||
@example
|
||
(dropbear-service (dropbear-configuration
|
||
(port-number 1234)))
|
||
@end example
|
||
@end deffn
|
||
|
||
@deftp {Data Type} dropbear-configuration
|
||
This data type represents the configuration of a Dropbear SSH daemon.
|
||
|
||
@table @asis
|
||
@item @code{dropbear} (default: @var{dropbear})
|
||
The Dropbear package to use.
|
||
|
||
@item @code{port-number} (default: 22)
|
||
The TCP port where the daemon waits for incoming connections.
|
||
|
||
@item @code{syslog-output?} (default: @code{#t})
|
||
Whether to enable syslog output.
|
||
|
||
@item @code{pid-file} (default: @code{"/var/run/dropbear.pid"})
|
||
File name of the daemon's PID file.
|
||
|
||
@item @code{root-login?} (default: @code{#f})
|
||
Whether to allow @code{root} logins.
|
||
|
||
@item @code{allow-empty-passwords?} (default: @code{#f})
|
||
Whether to allow empty passwords.
|
||
|
||
@item @code{password-authentication?} (default: @code{#t})
|
||
Whether to enable password-based authentication.
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} %facebook-host-aliases
|
||
This variable contains a string for use in @file{/etc/hosts}
|
||
(@pxref{Host Names,,, libc, The GNU C Library Reference Manual}). Each
|
||
line contains a entry that maps a known server name of the Facebook
|
||
on-line service---e.g., @code{www.facebook.com}---to the local
|
||
host---@code{127.0.0.1} or its IPv6 equivalent, @code{::1}.
|
||
|
||
This variable is typically used in the @code{hosts-file} field of an
|
||
@code{operating-system} declaration (@pxref{operating-system Reference,
|
||
@file{/etc/hosts}}):
|
||
|
||
@example
|
||
(use-modules (gnu) (guix))
|
||
|
||
(operating-system
|
||
(host-name "mymachine")
|
||
;; ...
|
||
(hosts-file
|
||
;; Create a /etc/hosts file with aliases for "localhost"
|
||
;; and "mymachine", as well as for Facebook servers.
|
||
(plain-file "hosts"
|
||
(string-append (local-host-aliases host-name)
|
||
%facebook-host-aliases))))
|
||
@end example
|
||
|
||
This mechanism can prevent programs running locally, such as Web
|
||
browsers, from accessing Facebook.
|
||
@end defvr
|
||
|
||
The @code{(gnu services avahi)} provides the following definition.
|
||
|
||
@deffn {Scheme Procedure} avahi-service [#:avahi @var{avahi}] @
|
||
[#:host-name #f] [#:publish? #t] [#:ipv4? #t] @
|
||
[#:ipv6? #t] [#:wide-area? #f] @
|
||
[#:domains-to-browse '()] [#:debug? #f]
|
||
Return a service that runs @command{avahi-daemon}, a system-wide
|
||
mDNS/DNS-SD responder that allows for service discovery and
|
||
"zero-configuration" host name lookups (see @uref{http://avahi.org/}), and
|
||
extends the name service cache daemon (nscd) so that it can resolve
|
||
@code{.local} host names using
|
||
@uref{http://0pointer.de/lennart/projects/nss-mdns/, nss-mdns}. Additionally,
|
||
add the @var{avahi} package to the system profile so that commands such as
|
||
@command{avahi-browse} are directly usable.
|
||
|
||
If @var{host-name} is different from @code{#f}, use that as the host name to
|
||
publish for this machine; otherwise, use the machine's actual host name.
|
||
|
||
When @var{publish?} is true, publishing of host names and services is allowed;
|
||
in particular, avahi-daemon will publish the machine's host name and IP
|
||
address via mDNS on the local network.
|
||
|
||
When @var{wide-area?} is true, DNS-SD over unicast DNS is enabled.
|
||
|
||
Boolean values @var{ipv4?} and @var{ipv6?} determine whether to use IPv4/IPv6
|
||
sockets.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Variable} openvswitch-service-type
|
||
This is the type of the @uref{http://www.openvswitch.org, Open vSwitch}
|
||
service, whose value should be an @code{openvswitch-configuration}
|
||
object.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} openvswitch-configuration
|
||
Data type representing the configuration of Open vSwitch, a multilayer
|
||
virtual switch which is designed to enable massive network automation
|
||
through programmatic extension.
|
||
|
||
@table @asis
|
||
@item @code{package} (default: @var{openvswitch})
|
||
Package object of the Open vSwitch.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@node X Window
|
||
@subsubsection X Window
|
||
|
||
@cindex X11
|
||
@cindex X Window System
|
||
Support for the X Window graphical display system---specifically
|
||
Xorg---is provided by the @code{(gnu services xorg)} module. Note that
|
||
there is no @code{xorg-service} procedure. Instead, the X server is
|
||
started by the @dfn{login manager}, currently SLiM.
|
||
|
||
@deftp {Data Type} sddm-configuration
|
||
This is the data type representing the sddm service configuration.
|
||
|
||
@table @asis
|
||
@item @code{display-server} (default: "x11")
|
||
Select display server to use for the greeter. Valid values are "x11"
|
||
or "wayland".
|
||
|
||
@item @code{numlock} (default: "on")
|
||
Valid values are "on", "off" or "none".
|
||
|
||
@item @code{halt-command} (default @code{#~(string-apppend #$shepherd "/sbin/halt")})
|
||
Command to run when halting.
|
||
|
||
@item @code{reboot-command} (default @code{#~(string-append #$shepherd "/sbin/reboot")})
|
||
Command to run when rebooting.
|
||
|
||
@item @code{theme} (default "maldives")
|
||
Theme to use. Default themes provided by SDDM are "elarun" or "maldives".
|
||
|
||
@item @code{themes-directory} (default "/run/current-system/profile/share/sddm/themes")
|
||
Directory to look for themes.
|
||
|
||
@item @code{faces-directory} (default "/run/current-system/profile/share/sddm/faces")
|
||
Directory to look for faces.
|
||
|
||
@item @code{default-path} (default "/run/current-system/profile/bin")
|
||
Default PATH to use.
|
||
|
||
@item @code{minimum-uid} (default 1000)
|
||
Minimum UID to display in SDDM.
|
||
|
||
@item @code{maximum-uid} (default 2000)
|
||
Maximum UID to display in SDDM
|
||
|
||
@item @code{remember-last-user?} (default #t)
|
||
Remember last user.
|
||
|
||
@item @code{remember-last-session?} (default #t)
|
||
Remember last session.
|
||
|
||
@item @code{hide-users} (default "")
|
||
Usernames to hide from SDDM greeter.
|
||
|
||
@item @code{hide-shells} (default @code{#~(string-append #$shadow "/sbin/nologin")})
|
||
Users with shells listed will be hidden from the SDDM greeter.
|
||
|
||
@item @code{session-command} (default @code{#~(string-append #$sddm "/share/sddm/scripts/wayland-session")})
|
||
Script to run before starting a wayland session.
|
||
|
||
@item @code{sessions-directory} (default "/run/current-system/profile/share/wayland-sessions")
|
||
Directory to look for desktop files starting wayland sessions.
|
||
|
||
@item @code{xorg-server-path} (default @code{xorg-start-command})
|
||
Path to xorg-server.
|
||
|
||
@item @code{xauth-path} (default @code{#~(string-append #$xauth "/bin/xauth")})
|
||
Path to xauth.
|
||
|
||
@item @code{xephyr-path} (default @code{#~(string-append #$xorg-server "/bin/Xephyr")})
|
||
Path to Xephyr.
|
||
|
||
@item @code{xdisplay-start} (default @code{#~(string-append #$sddm "/share/sddm/scripts/Xsetup")})
|
||
Script to run after starting xorg-server.
|
||
|
||
@item @code{xdisplay-stop} (default @code{#~(string-append #$sddm "/share/sddm/scripts/Xstop")})
|
||
Script to run before stopping xorg-server.
|
||
|
||
@item @code{xsession-command} (default: @code{xinitr })
|
||
Script to run before starting a X session.
|
||
|
||
@item @code{xsessions-directory} (default: "/run/current-system/profile/share/xsessions")
|
||
Directory to look for desktop files starting X sessions.
|
||
|
||
@item @code{minimum-vt} (default: 7)
|
||
Minimum VT to use.
|
||
|
||
@item @code{xserver-arguments} (default "-nolisten tcp")
|
||
Arguments to pass to xorg-server.
|
||
|
||
@item @code{auto-login-user} (default "")
|
||
User to use for auto-login.
|
||
|
||
@item @code{auto-login-session} (default "")
|
||
Desktop file to use for auto-login.
|
||
|
||
@item @code{relogin?} (default #f)
|
||
Relogin after logout.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@cindex login manager
|
||
@deffn {Scheme Procedure} sddm-service config
|
||
Return a service that spawns the SDDM graphical login manager for config of
|
||
type @code{<sddm-configuration>}.
|
||
|
||
@example
|
||
(sddm-service (sddm-configuration
|
||
(auto-login-user "Alice")
|
||
(auto-login-session "xfce.desktop")))
|
||
@end example
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} slim-service [#:allow-empty-passwords? #f] @
|
||
[#:auto-login? #f] [#:default-user ""] [#:startx] @
|
||
[#:theme @var{%default-slim-theme}] @
|
||
[#:theme-name @var{%default-slim-theme-name}]
|
||
Return a service that spawns the SLiM graphical login manager, which in
|
||
turn starts the X display server with @var{startx}, a command as returned by
|
||
@code{xorg-start-command}.
|
||
|
||
@cindex X session
|
||
|
||
SLiM automatically looks for session types described by the @file{.desktop}
|
||
files in @file{/run/current-system/profile/share/xsessions} and allows users
|
||
to choose a session from the log-in screen using @kbd{F1}. Packages such as
|
||
@var{xfce}, @var{sawfish}, and @var{ratpoison} provide @file{.desktop} files;
|
||
adding them to the system-wide set of packages automatically makes them
|
||
available at the log-in screen.
|
||
|
||
In addition, @file{~/.xsession} files are honored. When available,
|
||
@file{~/.xsession} must be an executable that starts a window manager
|
||
and/or other X clients.
|
||
|
||
When @var{allow-empty-passwords?} is true, allow logins with an empty
|
||
password. When @var{auto-login?} is true, log in automatically as
|
||
@var{default-user}.
|
||
|
||
If @var{theme} is @code{#f}, use the default log-in theme; otherwise
|
||
@var{theme} must be a gexp denoting the name of a directory containing the
|
||
theme to use. In that case, @var{theme-name} specifies the name of the
|
||
theme.
|
||
@end deffn
|
||
|
||
@defvr {Scheme Variable} %default-theme
|
||
@defvrx {Scheme Variable} %default-theme-name
|
||
The G-Expression denoting the default SLiM theme and its name.
|
||
@end defvr
|
||
|
||
@deffn {Scheme Procedure} xorg-start-command [#:guile] @
|
||
[#:configuration-file #f] [#:xorg-server @var{xorg-server}]
|
||
Return a derivation that builds a @var{guile} script to start the X server
|
||
from @var{xorg-server}. @var{configuration-file} is the server configuration
|
||
file or a derivation that builds it; when omitted, the result of
|
||
@code{xorg-configuration-file} is used.
|
||
|
||
Usually the X server is started by a login manager.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} xorg-configuration-file @
|
||
[#:drivers '()] [#:resolutions '()] [#:extra-config '()]
|
||
Return a configuration file for the Xorg server containing search paths for
|
||
all the common drivers.
|
||
|
||
@var{drivers} must be either the empty list, in which case Xorg chooses a
|
||
graphics driver automatically, or a list of driver names that will be tried in
|
||
this order---e.g., @code{(\"modesetting\" \"vesa\")}.
|
||
|
||
Likewise, when @var{resolutions} is the empty list, Xorg chooses an
|
||
appropriate screen resolution; otherwise, it must be a list of
|
||
resolutions---e.g., @code{((1024 768) (640 480))}.
|
||
|
||
Last, @var{extra-config} is a list of strings or objects appended to the
|
||
@code{text-file*} argument list. It is used to pass extra text to be added
|
||
verbatim to the configuration file.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} screen-locker-service @var{package} [@var{name}]
|
||
Add @var{package}, a package for a screen-locker or screen-saver whose
|
||
command is @var{program}, to the set of setuid programs and add a PAM entry
|
||
for it. For example:
|
||
|
||
@lisp
|
||
(screen-locker-service xlockmore "xlock")
|
||
@end lisp
|
||
|
||
makes the good ol' XlockMore usable.
|
||
@end deffn
|
||
|
||
|
||
@node Printing Services
|
||
@subsubsection Printing Services
|
||
|
||
@cindex printer support with CUPS
|
||
The @code{(gnu services cups)} module provides a Guix service definition
|
||
for the CUPS printing service. To add printer support to a GuixSD
|
||
system, add a @code{cups-service} to the operating system definition:
|
||
|
||
@deffn {Scheme Variable} cups-service-type
|
||
The service type for the CUPS print server. Its value should be a valid
|
||
CUPS configuration (see below). To use the default settings, simply
|
||
write:
|
||
@example
|
||
(service cups-service-type)
|
||
@end example
|
||
@end deffn
|
||
|
||
The CUPS configuration controls the basic things about your CUPS
|
||
installation: what interfaces it listens on, what to do if a print job
|
||
fails, how much logging to do, and so on. To actually add a printer,
|
||
you have to visit the @url{http://localhost:631} URL, or use a tool such
|
||
as GNOME's printer configuration services. By default, configuring a
|
||
CUPS service will generate a self-signed certificate if needed, for
|
||
secure connections to the print server.
|
||
|
||
Suppose you want to enable the Web interface of CUPS and also add
|
||
support for HP printers @i{via} the @code{hplip} package. You can do
|
||
that directly, like this (you need to use the @code{(gnu packages cups)}
|
||
module):
|
||
|
||
@example
|
||
(service cups-service-type
|
||
(cups-configuration
|
||
(web-interface? #t)
|
||
(extensions
|
||
(list cups-filters hplip))))
|
||
@end example
|
||
|
||
The available configuration parameters follow. Each parameter
|
||
definition is preceded by its type; for example, @samp{string-list foo}
|
||
indicates that the @code{foo} parameter should be specified as a list of
|
||
strings. There is also a way to specify the configuration as a string,
|
||
if you have an old @code{cupsd.conf} file that you want to port over
|
||
from some other system; see the end for more details.
|
||
|
||
@c The following documentation was initially generated by
|
||
@c (generate-documentation) in (gnu services cups). Manually maintained
|
||
@c documentation is better, so we shouldn't hesitate to edit below as
|
||
@c needed. However if the change you want to make to this documentation
|
||
@c can be done in an automated way, it's probably easier to change
|
||
@c (generate-documentation) than to make it below and have to deal with
|
||
@c the churn as CUPS updates.
|
||
|
||
|
||
Available @code{cups-configuration} fields are:
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} package cups
|
||
The CUPS package.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} package-list extensions
|
||
Drivers and other extensions to the CUPS package.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} files-configuration files-configuration
|
||
Configuration of where to write logs, what directories to use for print
|
||
spools, and related privileged configuration parameters.
|
||
|
||
Available @code{files-configuration} fields are:
|
||
|
||
@deftypevr {@code{files-configuration} parameter} log-location access-log
|
||
Defines the access log filename. Specifying a blank filename disables
|
||
access log generation. The value @code{stderr} causes log entries to be
|
||
sent to the standard error file when the scheduler is running in the
|
||
foreground, or to the system log daemon when run in the background. The
|
||
value @code{syslog} causes log entries to be sent to the system log
|
||
daemon. The server name may be included in filenames using the string
|
||
@code{%s}, as in @code{/var/log/cups/%s-access_log}.
|
||
|
||
Defaults to @samp{"/var/log/cups/access_log"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} file-name cache-dir
|
||
Where CUPS should cache data.
|
||
|
||
Defaults to @samp{"/var/cache/cups"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} string config-file-perm
|
||
Specifies the permissions for all configuration files that the scheduler
|
||
writes.
|
||
|
||
Note that the permissions for the printers.conf file are currently
|
||
masked to only allow access from the scheduler user (typically root).
|
||
This is done because printer device URIs sometimes contain sensitive
|
||
authentication information that should not be generally known on the
|
||
system. There is no way to disable this security feature.
|
||
|
||
Defaults to @samp{"0640"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} log-location error-log
|
||
Defines the error log filename. Specifying a blank filename disables
|
||
access log generation. The value @code{stderr} causes log entries to be
|
||
sent to the standard error file when the scheduler is running in the
|
||
foreground, or to the system log daemon when run in the background. The
|
||
value @code{syslog} causes log entries to be sent to the system log
|
||
daemon. The server name may be included in filenames using the string
|
||
@code{%s}, as in @code{/var/log/cups/%s-error_log}.
|
||
|
||
Defaults to @samp{"/var/log/cups/error_log"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} string fatal-errors
|
||
Specifies which errors are fatal, causing the scheduler to exit. The
|
||
kind strings are:
|
||
|
||
@table @code
|
||
@item none
|
||
No errors are fatal.
|
||
|
||
@item all
|
||
All of the errors below are fatal.
|
||
|
||
@item browse
|
||
Browsing initialization errors are fatal, for example failed connections
|
||
to the DNS-SD daemon.
|
||
|
||
@item config
|
||
Configuration file syntax errors are fatal.
|
||
|
||
@item listen
|
||
Listen or Port errors are fatal, except for IPv6 failures on the
|
||
loopback or @code{any} addresses.
|
||
|
||
@item log
|
||
Log file creation or write errors are fatal.
|
||
|
||
@item permissions
|
||
Bad startup file permissions are fatal, for example shared TLS
|
||
certificate and key files with world-read permissions.
|
||
@end table
|
||
|
||
Defaults to @samp{"all -browse"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} boolean file-device?
|
||
Specifies whether the file pseudo-device can be used for new printer
|
||
queues. The URI @uref{file:///dev/null} is always allowed.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} string group
|
||
Specifies the group name or ID that will be used when executing external
|
||
programs.
|
||
|
||
Defaults to @samp{"lp"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} string log-file-perm
|
||
Specifies the permissions for all log files that the scheduler writes.
|
||
|
||
Defaults to @samp{"0644"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} log-location page-log
|
||
Defines the page log filename. Specifying a blank filename disables
|
||
access log generation. The value @code{stderr} causes log entries to be
|
||
sent to the standard error file when the scheduler is running in the
|
||
foreground, or to the system log daemon when run in the background. The
|
||
value @code{syslog} causes log entries to be sent to the system log
|
||
daemon. The server name may be included in filenames using the string
|
||
@code{%s}, as in @code{/var/log/cups/%s-page_log}.
|
||
|
||
Defaults to @samp{"/var/log/cups/page_log"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} string remote-root
|
||
Specifies the username that is associated with unauthenticated accesses
|
||
by clients claiming to be the root user. The default is @code{remroot}.
|
||
|
||
Defaults to @samp{"remroot"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} file-name request-root
|
||
Specifies the directory that contains print jobs and other HTTP request
|
||
data.
|
||
|
||
Defaults to @samp{"/var/spool/cups"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} sandboxing sandboxing
|
||
Specifies the level of security sandboxing that is applied to print
|
||
filters, backends, and other child processes of the scheduler; either
|
||
@code{relaxed} or @code{strict}. This directive is currently only
|
||
used/supported on macOS.
|
||
|
||
Defaults to @samp{strict}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} file-name server-keychain
|
||
Specifies the location of TLS certificates and private keys. CUPS will
|
||
look for public and private keys in this directory: a @code{.crt} files
|
||
for PEM-encoded certificates and corresponding @code{.key} files for
|
||
PEM-encoded private keys.
|
||
|
||
Defaults to @samp{"/etc/cups/ssl"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} file-name server-root
|
||
Specifies the directory containing the server configuration files.
|
||
|
||
Defaults to @samp{"/etc/cups"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} boolean sync-on-close?
|
||
Specifies whether the scheduler calls fsync(2) after writing
|
||
configuration or state files.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} space-separated-string-list system-group
|
||
Specifies the group(s) to use for @code{@@SYSTEM} group authentication.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} file-name temp-dir
|
||
Specifies the directory where temporary files are stored.
|
||
|
||
Defaults to @samp{"/var/spool/cups/tmp"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{files-configuration} parameter} string user
|
||
Specifies the user name or ID that is used when running external
|
||
programs.
|
||
|
||
Defaults to @samp{"lp"}.
|
||
@end deftypevr
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} access-log-level access-log-level
|
||
Specifies the logging level for the AccessLog file. The @code{config}
|
||
level logs when printers and classes are added, deleted, or modified and
|
||
when configuration files are accessed or updated. The @code{actions}
|
||
level logs when print jobs are submitted, held, released, modified, or
|
||
canceled, and any of the conditions for @code{config}. The @code{all}
|
||
level logs all requests.
|
||
|
||
Defaults to @samp{actions}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean auto-purge-jobs?
|
||
Specifies whether to purge job history data automatically when it is no
|
||
longer required for quotas.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} browse-local-protocols browse-local-protocols
|
||
Specifies which protocols to use for local printer sharing.
|
||
|
||
Defaults to @samp{dnssd}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean browse-web-if?
|
||
Specifies whether the CUPS web interface is advertised.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean browsing?
|
||
Specifies whether shared printers are advertised.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} string classification
|
||
Specifies the security classification of the server. Any valid banner
|
||
name can be used, including "classified", "confidential", "secret",
|
||
"topsecret", and "unclassified", or the banner can be omitted to disable
|
||
secure printing functions.
|
||
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean classify-override?
|
||
Specifies whether users may override the classification (cover page) of
|
||
individual print jobs using the @code{job-sheets} option.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} default-auth-type default-auth-type
|
||
Specifies the default type of authentication to use.
|
||
|
||
Defaults to @samp{Basic}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} default-encryption default-encryption
|
||
Specifies whether encryption will be used for authenticated requests.
|
||
|
||
Defaults to @samp{Required}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} string default-language
|
||
Specifies the default language to use for text and web content.
|
||
|
||
Defaults to @samp{"en"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} string default-paper-size
|
||
Specifies the default paper size for new print queues. @samp{"Auto"}
|
||
uses a locale-specific default, while @samp{"None"} specifies there is
|
||
no default paper size. Specific size names are typically
|
||
@samp{"Letter"} or @samp{"A4"}.
|
||
|
||
Defaults to @samp{"Auto"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} string default-policy
|
||
Specifies the default access policy to use.
|
||
|
||
Defaults to @samp{"default"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean default-shared?
|
||
Specifies whether local printers are shared by default.
|
||
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer dirty-clean-interval
|
||
Specifies the delay for updating of configuration and state files, in
|
||
seconds. A value of 0 causes the update to happen as soon as possible,
|
||
typically within a few milliseconds.
|
||
|
||
Defaults to @samp{30}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} error-policy error-policy
|
||
Specifies what to do when an error occurs. Possible values are
|
||
@code{abort-job}, which will discard the failed print job;
|
||
@code{retry-job}, which will retry the job at a later time;
|
||
@code{retry-this-job}, which retries the failed job immediately; and
|
||
@code{stop-printer}, which stops the printer.
|
||
|
||
Defaults to @samp{stop-printer}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer filter-limit
|
||
Specifies the maximum cost of filters that are run concurrently, which
|
||
can be used to minimize disk, memory, and CPU resource problems. A
|
||
limit of 0 disables filter limiting. An average print to a
|
||
non-PostScript printer needs a filter limit of about 200. A PostScript
|
||
printer needs about half that (100). Setting the limit below these
|
||
thresholds will effectively limit the scheduler to printing a single job
|
||
at any time.
|
||
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer filter-nice
|
||
Specifies the scheduling priority of filters that are run to print a
|
||
job. The nice value ranges from 0, the highest priority, to 19, the
|
||
lowest priority.
|
||
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} host-name-lookups host-name-lookups
|
||
Specifies whether to do reverse lookups on connecting clients. The
|
||
@code{double} setting causes @code{cupsd} to verify that the hostname
|
||
resolved from the address matches one of the addresses returned for that
|
||
hostname. Double lookups also prevent clients with unregistered
|
||
addresses from connecting to your server. Only set this option to
|
||
@code{#t} or @code{double} if absolutely required.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer job-kill-delay
|
||
Specifies the number of seconds to wait before killing the filters and
|
||
backend associated with a canceled or held job.
|
||
|
||
Defaults to @samp{30}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer job-retry-interval
|
||
Specifies the interval between retries of jobs in seconds. This is
|
||
typically used for fax queues but can also be used with normal print
|
||
queues whose error policy is @code{retry-job} or
|
||
@code{retry-current-job}.
|
||
|
||
Defaults to @samp{30}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer job-retry-limit
|
||
Specifies the number of retries that are done for jobs. This is
|
||
typically used for fax queues but can also be used with normal print
|
||
queues whose error policy is @code{retry-job} or
|
||
@code{retry-current-job}.
|
||
|
||
Defaults to @samp{5}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean keep-alive?
|
||
Specifies whether to support HTTP keep-alive connections.
|
||
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer keep-alive-timeout
|
||
Specifies how long an idle client connection remains open, in seconds.
|
||
|
||
Defaults to @samp{30}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer limit-request-body
|
||
Specifies the maximum size of print files, IPP requests, and HTML form
|
||
data. A limit of 0 disables the limit check.
|
||
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} multiline-string-list listen
|
||
Listens on the specified interfaces for connections. Valid values are
|
||
of the form @var{address}:@var{port}, where @var{address} is either an
|
||
IPv6 address enclosed in brackets, an IPv4 address, or @code{*} to
|
||
indicate all addresses. Values can also be file names of local UNIX
|
||
domain sockets. The Listen directive is similar to the Port directive
|
||
but allows you to restrict access to specific interfaces or networks.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer listen-back-log
|
||
Specifies the number of pending connections that will be allowed. This
|
||
normally only affects very busy servers that have reached the MaxClients
|
||
limit, but can also be triggered by large numbers of simultaneous
|
||
connections. When the limit is reached, the operating system will
|
||
refuse additional connections until the scheduler can accept the pending
|
||
ones.
|
||
|
||
Defaults to @samp{128}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} location-access-control-list location-access-controls
|
||
Specifies a set of additional access controls.
|
||
|
||
Available @code{location-access-controls} fields are:
|
||
|
||
@deftypevr {@code{location-access-controls} parameter} file-name path
|
||
Specifies the URI path to which the access control applies.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{location-access-controls} parameter} access-control-list access-controls
|
||
Access controls for all access to this path, in the same format as the
|
||
@code{access-controls} of @code{operation-access-control}.
|
||
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{location-access-controls} parameter} method-access-control-list method-access-controls
|
||
Access controls for method-specific access to this path.
|
||
|
||
Defaults to @samp{()}.
|
||
|
||
Available @code{method-access-controls} fields are:
|
||
|
||
@deftypevr {@code{method-access-controls} parameter} boolean reverse?
|
||
If @code{#t}, apply access controls to all methods except the listed
|
||
methods. Otherwise apply to only the listed methods.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{method-access-controls} parameter} method-list methods
|
||
Methods to which this access control applies.
|
||
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{method-access-controls} parameter} access-control-list access-controls
|
||
Access control directives, as a list of strings. Each string should be
|
||
one directive, such as "Order allow,deny".
|
||
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
@end deftypevr
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer log-debug-history
|
||
Specifies the number of debugging messages that are retained for logging
|
||
if an error occurs in a print job. Debug messages are logged regardless
|
||
of the LogLevel setting.
|
||
|
||
Defaults to @samp{100}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} log-level log-level
|
||
Specifies the level of logging for the ErrorLog file. The value
|
||
@code{none} stops all logging while @code{debug2} logs everything.
|
||
|
||
Defaults to @samp{info}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} log-time-format log-time-format
|
||
Specifies the format of the date and time in the log files. The value
|
||
@code{standard} logs whole seconds while @code{usecs} logs microseconds.
|
||
|
||
Defaults to @samp{standard}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer max-clients
|
||
Specifies the maximum number of simultaneous clients that are allowed by
|
||
the scheduler.
|
||
|
||
Defaults to @samp{100}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer max-clients-per-host
|
||
Specifies the maximum number of simultaneous clients that are allowed
|
||
from a single address.
|
||
|
||
Defaults to @samp{100}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer max-copies
|
||
Specifies the maximum number of copies that a user can print of each
|
||
job.
|
||
|
||
Defaults to @samp{9999}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer max-hold-time
|
||
Specifies the maximum time a job may remain in the @code{indefinite}
|
||
hold state before it is canceled. A value of 0 disables cancellation of
|
||
held jobs.
|
||
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer max-jobs
|
||
Specifies the maximum number of simultaneous jobs that are allowed. Set
|
||
to 0 to allow an unlimited number of jobs.
|
||
|
||
Defaults to @samp{500}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer max-jobs-per-printer
|
||
Specifies the maximum number of simultaneous jobs that are allowed per
|
||
printer. A value of 0 allows up to MaxJobs jobs per printer.
|
||
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer max-jobs-per-user
|
||
Specifies the maximum number of simultaneous jobs that are allowed per
|
||
user. A value of 0 allows up to MaxJobs jobs per user.
|
||
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer max-job-time
|
||
Specifies the maximum time a job may take to print before it is
|
||
canceled, in seconds. Set to 0 to disable cancellation of "stuck" jobs.
|
||
|
||
Defaults to @samp{10800}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer max-log-size
|
||
Specifies the maximum size of the log files before they are rotated, in
|
||
bytes. The value 0 disables log rotation.
|
||
|
||
Defaults to @samp{1048576}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer multiple-operation-timeout
|
||
Specifies the maximum amount of time to allow between files in a
|
||
multiple file print job, in seconds.
|
||
|
||
Defaults to @samp{300}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} string page-log-format
|
||
Specifies the format of PageLog lines. Sequences beginning with percent
|
||
(@samp{%}) characters are replaced with the corresponding information,
|
||
while all other characters are copied literally. The following percent
|
||
sequences are recognized:
|
||
|
||
@table @samp
|
||
@item %%
|
||
insert a single percent character
|
||
|
||
@item %@{name@}
|
||
insert the value of the specified IPP attribute
|
||
|
||
@item %C
|
||
insert the number of copies for the current page
|
||
|
||
@item %P
|
||
insert the current page number
|
||
|
||
@item %T
|
||
insert the current date and time in common log format
|
||
|
||
@item %j
|
||
insert the job ID
|
||
|
||
@item %p
|
||
insert the printer name
|
||
|
||
@item %u
|
||
insert the username
|
||
@end table
|
||
|
||
A value of the empty string disables page logging. The string @code{%p
|
||
%u %j %T %P %C %@{job-billing@} %@{job-originating-host-name@}
|
||
%@{job-name@} %@{media@} %@{sides@}} creates a page log with the
|
||
standard items.
|
||
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} environment-variables environment-variables
|
||
Passes the specified environment variable(s) to child processes; a list
|
||
of strings.
|
||
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} policy-configuration-list policies
|
||
Specifies named access control policies.
|
||
|
||
Available @code{policy-configuration} fields are:
|
||
|
||
@deftypevr {@code{policy-configuration} parameter} string name
|
||
Name of the policy.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{policy-configuration} parameter} string job-private-access
|
||
Specifies an access list for a job's private values. @code{@@ACL} maps
|
||
to the printer's requesting-user-name-allowed or
|
||
requesting-user-name-denied values. @code{@@OWNER} maps to the job's
|
||
owner. @code{@@SYSTEM} maps to the groups listed for the
|
||
@code{system-group} field of the @code{files-config} configuration,
|
||
which is reified into the @code{cups-files.conf(5)} file. Other
|
||
possible elements of the access list include specific user names, and
|
||
@code{@@@var{group}} to indicate members of a specific group. The
|
||
access list may also be simply @code{all} or @code{default}.
|
||
|
||
Defaults to @samp{"@@OWNER @@SYSTEM"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{policy-configuration} parameter} string job-private-values
|
||
Specifies the list of job values to make private, or @code{all},
|
||
@code{default}, or @code{none}.
|
||
|
||
Defaults to @samp{"job-name job-originating-host-name
|
||
job-originating-user-name phone"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{policy-configuration} parameter} string subscription-private-access
|
||
Specifies an access list for a subscription's private values.
|
||
@code{@@ACL} maps to the printer's requesting-user-name-allowed or
|
||
requesting-user-name-denied values. @code{@@OWNER} maps to the job's
|
||
owner. @code{@@SYSTEM} maps to the groups listed for the
|
||
@code{system-group} field of the @code{files-config} configuration,
|
||
which is reified into the @code{cups-files.conf(5)} file. Other
|
||
possible elements of the access list include specific user names, and
|
||
@code{@@@var{group}} to indicate members of a specific group. The
|
||
access list may also be simply @code{all} or @code{default}.
|
||
|
||
Defaults to @samp{"@@OWNER @@SYSTEM"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{policy-configuration} parameter} string subscription-private-values
|
||
Specifies the list of job values to make private, or @code{all},
|
||
@code{default}, or @code{none}.
|
||
|
||
Defaults to @samp{"notify-events notify-pull-method notify-recipient-uri
|
||
notify-subscriber-user-name notify-user-data"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{policy-configuration} parameter} operation-access-control-list access-controls
|
||
Access control by IPP operation.
|
||
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean-or-non-negative-integer preserve-job-files
|
||
Specifies whether job files (documents) are preserved after a job is
|
||
printed. If a numeric value is specified, job files are preserved for
|
||
the indicated number of seconds after printing. Otherwise a boolean
|
||
value applies indefinitely.
|
||
|
||
Defaults to @samp{86400}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean-or-non-negative-integer preserve-job-history
|
||
Specifies whether the job history is preserved after a job is printed.
|
||
If a numeric value is specified, the job history is preserved for the
|
||
indicated number of seconds after printing. If @code{#t}, the job
|
||
history is preserved until the MaxJobs limit is reached.
|
||
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer reload-timeout
|
||
Specifies the amount of time to wait for job completion before
|
||
restarting the scheduler.
|
||
|
||
Defaults to @samp{30}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} string rip-cache
|
||
Specifies the maximum amount of memory to use when converting documents
|
||
into bitmaps for a printer.
|
||
|
||
Defaults to @samp{"128m"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} string server-admin
|
||
Specifies the email address of the server administrator.
|
||
|
||
Defaults to @samp{"root@@localhost.localdomain"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} host-name-list-or-* server-alias
|
||
The ServerAlias directive is used for HTTP Host header validation when
|
||
clients connect to the scheduler from external interfaces. Using the
|
||
special name @code{*} can expose your system to known browser-based DNS
|
||
rebinding attacks, even when accessing sites through a firewall. If the
|
||
auto-discovery of alternate names does not work, we recommend listing
|
||
each alternate name with a ServerAlias directive instead of using
|
||
@code{*}.
|
||
|
||
Defaults to @samp{*}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} string server-name
|
||
Specifies the fully-qualified host name of the server.
|
||
|
||
Defaults to @samp{"localhost"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} server-tokens server-tokens
|
||
Specifies what information is included in the Server header of HTTP
|
||
responses. @code{None} disables the Server header. @code{ProductOnly}
|
||
reports @code{CUPS}. @code{Major} reports @code{CUPS 2}. @code{Minor}
|
||
reports @code{CUPS 2.0}. @code{Minimal} reports @code{CUPS 2.0.0}.
|
||
@code{OS} reports @code{CUPS 2.0.0 (@var{uname})} where @var{uname} is
|
||
the output of the @code{uname} command. @code{Full} reports @code{CUPS
|
||
2.0.0 (@var{uname}) IPP/2.0}.
|
||
|
||
Defaults to @samp{Minimal}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} string set-env
|
||
Set the specified environment variable to be passed to child processes.
|
||
|
||
Defaults to @samp{"variable value"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} multiline-string-list ssl-listen
|
||
Listens on the specified interfaces for encrypted connections. Valid
|
||
values are of the form @var{address}:@var{port}, where @var{address} is
|
||
either an IPv6 address enclosed in brackets, an IPv4 address, or
|
||
@code{*} to indicate all addresses.
|
||
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} ssl-options ssl-options
|
||
Sets encryption options. By default, CUPS only supports encryption
|
||
using TLS v1.0 or higher using known secure cipher suites. The
|
||
@code{AllowRC4} option enables the 128-bit RC4 cipher suites, which are
|
||
required for some older clients that do not implement newer ones. The
|
||
@code{AllowSSL3} option enables SSL v3.0, which is required for some
|
||
older clients that do not support TLS v1.0.
|
||
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean strict-conformance?
|
||
Specifies whether the scheduler requires clients to strictly adhere to
|
||
the IPP specifications.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} non-negative-integer timeout
|
||
Specifies the HTTP request timeout, in seconds.
|
||
|
||
Defaults to @samp{300}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{cups-configuration} parameter} boolean web-interface?
|
||
Specifies whether the web interface is enabled.
|
||
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
At this point you're probably thinking ``oh dear, Guix manual, I like
|
||
you but you can stop already with the configuration options''. Indeed.
|
||
However, one more point: it could be that you have an existing
|
||
@code{cupsd.conf} that you want to use. In that case, you can pass an
|
||
@code{opaque-cups-configuration} as the configuration of a
|
||
@code{cups-service-type}.
|
||
|
||
Available @code{opaque-cups-configuration} fields are:
|
||
|
||
@deftypevr {@code{opaque-cups-configuration} parameter} package cups
|
||
The CUPS package.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{opaque-cups-configuration} parameter} string cupsd.conf
|
||
The contents of the @code{cupsd.conf}, as a string.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{opaque-cups-configuration} parameter} string cups-files.conf
|
||
The contents of the @code{cups-files.conf} file, as a string.
|
||
@end deftypevr
|
||
|
||
For example, if your @code{cupsd.conf} and @code{cups-files.conf} are in
|
||
strings of the same name, you could instantiate a CUPS service like
|
||
this:
|
||
|
||
@example
|
||
(service cups-service-type
|
||
(opaque-cups-configuration
|
||
(cupsd.conf cupsd.conf)
|
||
(cups-files.conf cups-files.conf)))
|
||
@end example
|
||
|
||
|
||
@node Desktop Services
|
||
@subsubsection Desktop Services
|
||
|
||
The @code{(gnu services desktop)} module provides services that are
|
||
usually useful in the context of a ``desktop'' setup---that is, on a
|
||
machine running a graphical display server, possibly with graphical user
|
||
interfaces, etc. It also defines services that provide specific desktop
|
||
environments like GNOME and XFCE.
|
||
|
||
To simplify things, the module defines a variable containing the set of
|
||
services that users typically expect on a machine with a graphical
|
||
environment and networking:
|
||
|
||
@defvr {Scheme Variable} %desktop-services
|
||
This is a list of services that builds upon @var{%base-services} and
|
||
adds or adjusts services for a typical ``desktop'' setup.
|
||
|
||
In particular, it adds a graphical login manager (@pxref{X Window,
|
||
@code{slim-service}}), screen lockers, a network management tool
|
||
(@pxref{Networking Services, @code{network-manager-service-type}}), energy and color
|
||
management services, the @code{elogind} login and seat manager, the
|
||
Polkit privilege service, the GeoClue location service, the
|
||
AccountsService daemon that allows authorized users change system
|
||
passwords, an NTP client (@pxref{Networking Services}), the Avahi
|
||
daemon, and has the name service switch service configured to be able to
|
||
use @code{nss-mdns} (@pxref{Name Service Switch, mDNS}).
|
||
@end defvr
|
||
|
||
The @var{%desktop-services} variable can be used as the @code{services}
|
||
field of an @code{operating-system} declaration (@pxref{operating-system
|
||
Reference, @code{services}}).
|
||
|
||
Additionally, the @code{gnome-desktop-service} and
|
||
@code{xfce-desktop-service} procedures can add GNOME and/or XFCE to a
|
||
system. To ``add GNOME'' means that system-level services like the
|
||
backlight adjustment helpers and the power management utilities are
|
||
added to the system, extending @code{polkit} and @code{dbus}
|
||
appropriately, allowing GNOME to operate with elevated privileges on a
|
||
limited number of special-purpose system interfaces. Additionally,
|
||
adding a service made by @code{gnome-desktop-service} adds the GNOME
|
||
metapackage to the system profile. Likewise, adding the XFCE service
|
||
not only adds the @code{xfce} metapackage to the system profile, but it
|
||
also gives the Thunar file manager the ability to open a ``root-mode''
|
||
file management window, if the user authenticates using the
|
||
administrator's password via the standard polkit graphical interface.
|
||
|
||
@deffn {Scheme Procedure} gnome-desktop-service
|
||
Return a service that adds the @code{gnome} package to the system
|
||
profile, and extends polkit with the actions from
|
||
@code{gnome-settings-daemon}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} xfce-desktop-service
|
||
Return a service that adds the @code{xfce} package to the system profile,
|
||
and extends polkit with the ability for @code{thunar} to manipulate the
|
||
file system as root from within a user session, after the user has
|
||
authenticated with the administrator's password.
|
||
@end deffn
|
||
|
||
Because the GNOME and XFCE desktop services pull in so many packages,
|
||
the default @code{%desktop-services} variable doesn't include either of
|
||
them by default. To add GNOME or XFCE, just @code{cons} them onto
|
||
@code{%desktop-services} in the @code{services} field of your
|
||
@code{operating-system}:
|
||
|
||
@example
|
||
(use-modules (gnu))
|
||
(use-service-modules desktop)
|
||
(operating-system
|
||
...
|
||
;; cons* adds items to the list given as its last argument.
|
||
(services (cons* (gnome-desktop-service)
|
||
(xfce-desktop-service)
|
||
%desktop-services))
|
||
...)
|
||
@end example
|
||
|
||
These desktop environments will then be available as options in the
|
||
graphical login window.
|
||
|
||
The actual service definitions included in @code{%desktop-services} and
|
||
provided by @code{(gnu services dbus)} and @code{(gnu services desktop)}
|
||
are described below.
|
||
|
||
@deffn {Scheme Procedure} dbus-service [#:dbus @var{dbus}] [#:services '()]
|
||
Return a service that runs the ``system bus'', using @var{dbus}, with
|
||
support for @var{services}.
|
||
|
||
@uref{http://dbus.freedesktop.org/, D-Bus} is an inter-process communication
|
||
facility. Its system bus is used to allow system services to communicate
|
||
and to be notified of system-wide events.
|
||
|
||
@var{services} must be a list of packages that provide an
|
||
@file{etc/dbus-1/system.d} directory containing additional D-Bus configuration
|
||
and policy files. For example, to allow avahi-daemon to use the system bus,
|
||
@var{services} must be equal to @code{(list avahi)}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} elogind-service [#:config @var{config}]
|
||
Return a service that runs the @code{elogind} login and
|
||
seat management daemon. @uref{https://github.com/elogind/elogind,
|
||
Elogind} exposes a D-Bus interface that can be used to know which users
|
||
are logged in, know what kind of sessions they have open, suspend the
|
||
system, inhibit system suspend, reboot the system, and other tasks.
|
||
|
||
Elogind handles most system-level power events for a computer, for
|
||
example suspending the system when a lid is closed, or shutting it down
|
||
when the power button is pressed.
|
||
|
||
The @var{config} keyword argument specifies the configuration for
|
||
elogind, and should be the result of an @code{(elogind-configuration
|
||
(@var{parameter} @var{value})...)} invocation. Available parameters and
|
||
their default values are:
|
||
|
||
@table @code
|
||
@item kill-user-processes?
|
||
@code{#f}
|
||
@item kill-only-users
|
||
@code{()}
|
||
@item kill-exclude-users
|
||
@code{("root")}
|
||
@item inhibit-delay-max-seconds
|
||
@code{5}
|
||
@item handle-power-key
|
||
@code{poweroff}
|
||
@item handle-suspend-key
|
||
@code{suspend}
|
||
@item handle-hibernate-key
|
||
@code{hibernate}
|
||
@item handle-lid-switch
|
||
@code{suspend}
|
||
@item handle-lid-switch-docked
|
||
@code{ignore}
|
||
@item power-key-ignore-inhibited?
|
||
@code{#f}
|
||
@item suspend-key-ignore-inhibited?
|
||
@code{#f}
|
||
@item hibernate-key-ignore-inhibited?
|
||
@code{#f}
|
||
@item lid-switch-ignore-inhibited?
|
||
@code{#t}
|
||
@item holdoff-timeout-seconds
|
||
@code{30}
|
||
@item idle-action
|
||
@code{ignore}
|
||
@item idle-action-seconds
|
||
@code{(* 30 60)}
|
||
@item runtime-directory-size-percent
|
||
@code{10}
|
||
@item runtime-directory-size
|
||
@code{#f}
|
||
@item remove-ipc?
|
||
@code{#t}
|
||
@item suspend-state
|
||
@code{("mem" "standby" "freeze")}
|
||
@item suspend-mode
|
||
@code{()}
|
||
@item hibernate-state
|
||
@code{("disk")}
|
||
@item hibernate-mode
|
||
@code{("platform" "shutdown")}
|
||
@item hybrid-sleep-state
|
||
@code{("disk")}
|
||
@item hybrid-sleep-mode
|
||
@code{("suspend" "platform" "shutdown")}
|
||
@end table
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} accountsservice-service @
|
||
[#:accountsservice @var{accountsservice}]
|
||
Return a service that runs AccountsService, a system service that can
|
||
list available accounts, change their passwords, and so on.
|
||
AccountsService integrates with PolicyKit to enable unprivileged users
|
||
to acquire the capability to modify their system configuration.
|
||
@uref{https://www.freedesktop.org/wiki/Software/AccountsService/, the
|
||
accountsservice web site} for more information.
|
||
|
||
The @var{accountsservice} keyword argument is the @code{accountsservice}
|
||
package to expose as a service.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} polkit-service @
|
||
[#:polkit @var{polkit}]
|
||
Return a service that runs the
|
||
@uref{http://www.freedesktop.org/wiki/Software/polkit/, Polkit privilege
|
||
management service}, which allows system administrators to grant access to
|
||
privileged operations in a structured way. By querying the Polkit service, a
|
||
privileged system component can know when it should grant additional
|
||
capabilities to ordinary users. For example, an ordinary user can be granted
|
||
the capability to suspend the system if the user is logged in locally.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} upower-service [#:upower @var{upower}] @
|
||
[#:watts-up-pro? #f] @
|
||
[#:poll-batteries? #t] @
|
||
[#:ignore-lid? #f] @
|
||
[#:use-percentage-for-policy? #f] @
|
||
[#:percentage-low 10] @
|
||
[#:percentage-critical 3] @
|
||
[#:percentage-action 2] @
|
||
[#:time-low 1200] @
|
||
[#:time-critical 300] @
|
||
[#:time-action 120] @
|
||
[#:critical-power-action 'hybrid-sleep]
|
||
Return a service that runs @uref{http://upower.freedesktop.org/,
|
||
@command{upowerd}}, a system-wide monitor for power consumption and battery
|
||
levels, with the given configuration settings. It implements the
|
||
@code{org.freedesktop.UPower} D-Bus interface, and is notably used by
|
||
GNOME.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} udisks-service [#:udisks @var{udisks}]
|
||
Return a service for @uref{http://udisks.freedesktop.org/docs/latest/,
|
||
UDisks}, a @dfn{disk management} daemon that provides user interfaces with
|
||
notifications and ways to mount/unmount disks. Programs that talk to UDisks
|
||
include the @command{udisksctl} command, part of UDisks, and GNOME Disks.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} colord-service [#:colord @var{colord}]
|
||
Return a service that runs @command{colord}, a system service with a D-Bus
|
||
interface to manage the color profiles of input and output devices such as
|
||
screens and scanners. It is notably used by the GNOME Color Manager graphical
|
||
tool. See @uref{http://www.freedesktop.org/software/colord/, the colord web
|
||
site} for more information.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} geoclue-application name [#:allowed? #t] [#:system? #f] [#:users '()]
|
||
Return a configuration allowing an application to access GeoClue
|
||
location data. @var{name} is the Desktop ID of the application, without
|
||
the @code{.desktop} part. If @var{allowed?} is true, the application
|
||
will have access to location information by default. The boolean
|
||
@var{system?} value indicates whether an application is a system component
|
||
or not. Finally @var{users} is a list of UIDs of all users for which
|
||
this application is allowed location info access. An empty users list
|
||
means that all users are allowed.
|
||
@end deffn
|
||
|
||
@defvr {Scheme Variable} %standard-geoclue-applications
|
||
The standard list of well-known GeoClue application configurations,
|
||
granting authority to the GNOME date-and-time utility to ask for the
|
||
current location in order to set the time zone, and allowing the
|
||
IceCat and Epiphany web browsers to request location information.
|
||
IceCat and Epiphany both query the user before allowing a web page to
|
||
know the user's location.
|
||
@end defvr
|
||
|
||
@deffn {Scheme Procedure} geoclue-service [#:colord @var{colord}] @
|
||
[#:whitelist '()] @
|
||
[#:wifi-geolocation-url "https://location.services.mozilla.com/v1/geolocate?key=geoclue"] @
|
||
[#:submit-data? #f]
|
||
[#:wifi-submission-url "https://location.services.mozilla.com/v1/submit?key=geoclue"] @
|
||
[#:submission-nick "geoclue"] @
|
||
[#:applications %standard-geoclue-applications]
|
||
Return a service that runs the GeoClue location service. This service
|
||
provides a D-Bus interface to allow applications to request access to a
|
||
user's physical location, and optionally to add information to online
|
||
location databases. See
|
||
@uref{https://wiki.freedesktop.org/www/Software/GeoClue/, the GeoClue
|
||
web site} for more information.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} bluetooth-service [#:bluez @var{bluez}] @
|
||
[@w{#:auto-enable? #f}]
|
||
Return a service that runs the @command{bluetoothd} daemon, which
|
||
manages all the Bluetooth devices and provides a number of D-Bus
|
||
interfaces. When AUTO-ENABLE? is true, the bluetooth controller is
|
||
powered automatically at boot, which can be useful when using a
|
||
bluetooth keyboard or mouse.
|
||
|
||
Users need to be in the @code{lp} group to access the D-Bus service.
|
||
@end deffn
|
||
|
||
@node Database Services
|
||
@subsubsection Database Services
|
||
|
||
@cindex database
|
||
@cindex SQL
|
||
The @code{(gnu services databases)} module provides the following services.
|
||
|
||
@deffn {Scheme Procedure} postgresql-service [#:postgresql postgresql] @
|
||
[#:config-file] [#:data-directory ``/var/lib/postgresql/data''] @
|
||
[#:port 5432] [#:locale ``en_US.utf8'']
|
||
Return a service that runs @var{postgresql}, the PostgreSQL database
|
||
server.
|
||
|
||
The PostgreSQL daemon loads its runtime configuration from @var{config-file},
|
||
creates a database cluster with @var{locale} as the default
|
||
locale, stored in @var{data-directory}. It then listens on @var{port}.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} mysql-service [#:config (mysql-configuration)]
|
||
Return a service that runs @command{mysqld}, the MySQL or MariaDB
|
||
database server.
|
||
|
||
The optional @var{config} argument specifies the configuration for
|
||
@command{mysqld}, which should be a @code{<mysql-configuration>} object.
|
||
@end deffn
|
||
|
||
@deftp {Data Type} mysql-configuration
|
||
Data type representing the configuration of @var{mysql-service}.
|
||
|
||
@table @asis
|
||
@item @code{mysql} (default: @var{mariadb})
|
||
Package object of the MySQL database server, can be either @var{mariadb}
|
||
or @var{mysql}.
|
||
|
||
For MySQL, a temporary root password will be displayed at activation time.
|
||
For MariaDB, the root password is empty.
|
||
|
||
@item @code{port} (default: @code{3306})
|
||
TCP port on which the database server listens for incoming connections.
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} memcached-service-type
|
||
This is the service type for the @uref{https://memcached.org/,
|
||
Memcached} service, which provides a distributed in memory cache. The
|
||
value for the service type is a @code{memcached-configuration} object.
|
||
@end defvr
|
||
|
||
@example
|
||
(service memcached-service-type)
|
||
@end example
|
||
|
||
@deftp {Data Type} memcached-configuration
|
||
Data type representing the configuration of memcached.
|
||
|
||
@table @asis
|
||
@item @code{memcached} (default: @code{memcached})
|
||
The Memcached package to use.
|
||
|
||
@item @code{interfaces} (default: @code{'("0.0.0.0")})
|
||
Network interfaces on which to listen.
|
||
|
||
@item @code{tcp-port} (default: @code{11211})
|
||
Port on which to accept connections on,
|
||
|
||
@item @code{udp-port} (default: @code{11211})
|
||
Port on which to accept UDP connections on, a value of 0 will disable
|
||
listening on a UDP socket.
|
||
|
||
@item @code{additional-options} (default: @code{'()})
|
||
Additional command line options to pass to @code{memcached}.
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} mongodb-service-type
|
||
This is the service type for @uref{https://www.mongodb.com/, MongoDB}.
|
||
The value for the service type is a @code{mongodb-configuration} object.
|
||
@end defvr
|
||
|
||
@example
|
||
(service mongodb-service-type)
|
||
@end example
|
||
|
||
@deftp {Data Type} mongodb-configuration
|
||
Data type representing the configuration of mongodb.
|
||
|
||
@table @asis
|
||
@item @code{mongodb} (default: @code{mongodb})
|
||
The MongoDB package to use.
|
||
|
||
@item @code{config-file} (default: @code{%default-mongodb-configuration-file})
|
||
The configuration file for MongoDB.
|
||
|
||
@item @code{data-directory} (default: @code{"/var/lib/mongodb"})
|
||
This value is used to create the directory, so that it exists and is
|
||
owned by the mongodb user. It should match the data-directory which
|
||
MongoDB is configured to use through the configuration file.
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} redis-service-type
|
||
This is the service type for the @uref{https://redis.io/, Redis}
|
||
key/value store, whose value is a @code{redis-configuration} object.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} redis-configuration
|
||
Data type representing the configuration of redis.
|
||
|
||
@table @asis
|
||
@item @code{redis} (default: @code{redis})
|
||
The Redis package to use.
|
||
|
||
@item @code{bind} (default: @code{"127.0.0.1"})
|
||
Network interface on which to listen.
|
||
|
||
@item @code{port} (default: @code{6379})
|
||
Port on which to accept connections on, a value of 0 will disable
|
||
listening on a TCP socket.
|
||
|
||
@item @code{working-directory} (default: @code{"/var/lib/redis"})
|
||
Directory in which to store the database and related files.
|
||
@end table
|
||
@end deftp
|
||
|
||
@node Mail Services
|
||
@subsubsection Mail Services
|
||
|
||
@cindex mail
|
||
@cindex email
|
||
The @code{(gnu services mail)} module provides Guix service definitions
|
||
for email services: IMAP, POP3, and LMTP servers, as well as mail
|
||
transport agents (MTAs). Lots of acronyms! These services are detailed
|
||
in the subsections below.
|
||
|
||
@subsubheading Dovecot Service
|
||
|
||
@deffn {Scheme Procedure} dovecot-service [#:config (dovecot-configuration)]
|
||
Return a service that runs the Dovecot IMAP/POP3/LMTP mail server.
|
||
@end deffn
|
||
|
||
By default, Dovecot does not need much configuration; the default
|
||
configuration object created by @code{(dovecot-configuration)} will
|
||
suffice if your mail is delivered to @code{~/Maildir}. A self-signed
|
||
certificate will be generated for TLS-protected connections, though
|
||
Dovecot will also listen on cleartext ports by default. There are a
|
||
number of options, though, which mail administrators might need to change,
|
||
and as is the case with other services, Guix allows the system
|
||
administrator to specify these parameters via a uniform Scheme interface.
|
||
|
||
For example, to specify that mail is located at @code{maildir~/.mail},
|
||
one would instantiate the Dovecot service like this:
|
||
|
||
@example
|
||
(dovecot-service #:config
|
||
(dovecot-configuration
|
||
(mail-location "maildir:~/.mail")))
|
||
@end example
|
||
|
||
The available configuration parameters follow. Each parameter
|
||
definition is preceded by its type; for example, @samp{string-list foo}
|
||
indicates that the @code{foo} parameter should be specified as a list of
|
||
strings. There is also a way to specify the configuration as a string,
|
||
if you have an old @code{dovecot.conf} file that you want to port over
|
||
from some other system; see the end for more details.
|
||
|
||
@c The following documentation was initially generated by
|
||
@c (generate-documentation) in (gnu services mail). Manually maintained
|
||
@c documentation is better, so we shouldn't hesitate to edit below as
|
||
@c needed. However if the change you want to make to this documentation
|
||
@c can be done in an automated way, it's probably easier to change
|
||
@c (generate-documentation) than to make it below and have to deal with
|
||
@c the churn as dovecot updates.
|
||
|
||
Available @code{dovecot-configuration} fields are:
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} package dovecot
|
||
The dovecot package.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} comma-separated-string-list listen
|
||
A list of IPs or hosts where to listen for connections. @samp{*}
|
||
listens on all IPv4 interfaces, @samp{::} listens on all IPv6
|
||
interfaces. If you want to specify non-default ports or anything more
|
||
complex, customize the address and port fields of the
|
||
@samp{inet-listener} of the specific services you are interested in.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} protocol-configuration-list protocols
|
||
List of protocols we want to serve. Available protocols include
|
||
@samp{imap}, @samp{pop3}, and @samp{lmtp}.
|
||
|
||
Available @code{protocol-configuration} fields are:
|
||
|
||
@deftypevr {@code{protocol-configuration} parameter} string name
|
||
The name of the protocol.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{protocol-configuration} parameter} string auth-socket-path
|
||
UNIX socket path to the master authentication server to find users.
|
||
This is used by imap (for shared users) and lda.
|
||
It defaults to @samp{"/var/run/dovecot/auth-userdb"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{protocol-configuration} parameter} space-separated-string-list mail-plugins
|
||
Space separated list of plugins to load.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{protocol-configuration} parameter} non-negative-integer mail-max-userip-connections
|
||
Maximum number of IMAP connections allowed for a user from each IP
|
||
address. NOTE: The username is compared case-sensitively.
|
||
Defaults to @samp{10}.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} service-configuration-list services
|
||
List of services to enable. Available services include @samp{imap},
|
||
@samp{imap-login}, @samp{pop3}, @samp{pop3-login}, @samp{auth}, and
|
||
@samp{lmtp}.
|
||
|
||
Available @code{service-configuration} fields are:
|
||
|
||
@deftypevr {@code{service-configuration} parameter} string kind
|
||
The service kind. Valid values include @code{director},
|
||
@code{imap-login}, @code{pop3-login}, @code{lmtp}, @code{imap},
|
||
@code{pop3}, @code{auth}, @code{auth-worker}, @code{dict},
|
||
@code{tcpwrap}, @code{quota-warning}, or anything else.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{service-configuration} parameter} listener-configuration-list listeners
|
||
Listeners for the service. A listener is either a
|
||
@code{unix-listener-configuration}, a @code{fifo-listener-configuration}, or
|
||
an @code{inet-listener-configuration}.
|
||
Defaults to @samp{()}.
|
||
|
||
Available @code{unix-listener-configuration} fields are:
|
||
|
||
@deftypevr {@code{unix-listener-configuration} parameter} string path
|
||
Path to the file, relative to @code{base-dir} field. This is also used as
|
||
the section name.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{unix-listener-configuration} parameter} string mode
|
||
The access mode for the socket.
|
||
Defaults to @samp{"0600"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{unix-listener-configuration} parameter} string user
|
||
The user to own the socket.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{unix-listener-configuration} parameter} string group
|
||
The group to own the socket.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
|
||
Available @code{fifo-listener-configuration} fields are:
|
||
|
||
@deftypevr {@code{fifo-listener-configuration} parameter} string path
|
||
Path to the file, relative to @code{base-dir} field. This is also used as
|
||
the section name.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{fifo-listener-configuration} parameter} string mode
|
||
The access mode for the socket.
|
||
Defaults to @samp{"0600"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{fifo-listener-configuration} parameter} string user
|
||
The user to own the socket.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{fifo-listener-configuration} parameter} string group
|
||
The group to own the socket.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
|
||
Available @code{inet-listener-configuration} fields are:
|
||
|
||
@deftypevr {@code{inet-listener-configuration} parameter} string protocol
|
||
The protocol to listen for.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{inet-listener-configuration} parameter} string address
|
||
The address on which to listen, or empty for all addresses.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{inet-listener-configuration} parameter} non-negative-integer port
|
||
The port on which to listen.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{inet-listener-configuration} parameter} boolean ssl?
|
||
Whether to use SSL for this service; @samp{yes}, @samp{no}, or
|
||
@samp{required}.
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{service-configuration} parameter} non-negative-integer service-count
|
||
Number of connections to handle before starting a new process.
|
||
Typically the only useful values are 0 (unlimited) or 1. 1 is more
|
||
secure, but 0 is faster. <doc/wiki/LoginProcess.txt>.
|
||
Defaults to @samp{1}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{service-configuration} parameter} non-negative-integer process-min-avail
|
||
Number of processes to always keep waiting for more connections.
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{service-configuration} parameter} non-negative-integer vsz-limit
|
||
If you set @samp{service-count 0}, you probably need to grow
|
||
this.
|
||
Defaults to @samp{256000000}.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} dict-configuration dict
|
||
Dict configuration, as created by the @code{dict-configuration}
|
||
constructor.
|
||
|
||
Available @code{dict-configuration} fields are:
|
||
|
||
@deftypevr {@code{dict-configuration} parameter} free-form-fields entries
|
||
A list of key-value pairs that this dict should hold.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} passdb-configuration-list passdbs
|
||
A list of passdb configurations, each one created by the
|
||
@code{passdb-configuration} constructor.
|
||
|
||
Available @code{passdb-configuration} fields are:
|
||
|
||
@deftypevr {@code{passdb-configuration} parameter} string driver
|
||
The driver that the passdb should use. Valid values include
|
||
@samp{pam}, @samp{passwd}, @samp{shadow}, @samp{bsdauth}, and
|
||
@samp{static}.
|
||
Defaults to @samp{"pam"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{passdb-configuration} parameter} space-separated-string-list args
|
||
Space separated list of arguments to the passdb driver.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} userdb-configuration-list userdbs
|
||
List of userdb configurations, each one created by the
|
||
@code{userdb-configuration} constructor.
|
||
|
||
Available @code{userdb-configuration} fields are:
|
||
|
||
@deftypevr {@code{userdb-configuration} parameter} string driver
|
||
The driver that the userdb should use. Valid values include
|
||
@samp{passwd} and @samp{static}.
|
||
Defaults to @samp{"passwd"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{userdb-configuration} parameter} space-separated-string-list args
|
||
Space separated list of arguments to the userdb driver.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{userdb-configuration} parameter} free-form-args override-fields
|
||
Override fields from passwd.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} plugin-configuration plugin-configuration
|
||
Plug-in configuration, created by the @code{plugin-configuration}
|
||
constructor.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} list-of-namespace-configuration namespaces
|
||
List of namespaces. Each item in the list is created by the
|
||
@code{namespace-configuration} constructor.
|
||
|
||
Available @code{namespace-configuration} fields are:
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} string name
|
||
Name for this namespace.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} string type
|
||
Namespace type: @samp{private}, @samp{shared} or @samp{public}.
|
||
Defaults to @samp{"private"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} string separator
|
||
Hierarchy separator to use. You should use the same separator for
|
||
all namespaces or some clients get confused. @samp{/} is usually a good
|
||
one. The default however depends on the underlying mail storage
|
||
format.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} string prefix
|
||
Prefix required to access this namespace. This needs to be
|
||
different for all namespaces. For example @samp{Public/}.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} string location
|
||
Physical location of the mailbox. This is in the same format as
|
||
mail_location, which is also the default for it.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} boolean inbox?
|
||
There can be only one INBOX, and this setting defines which
|
||
namespace has it.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} boolean hidden?
|
||
If namespace is hidden, it's not advertised to clients via NAMESPACE
|
||
extension. You'll most likely also want to set @samp{list? #f}. This is mostly
|
||
useful when converting from another server with different namespaces
|
||
which you want to deprecate but still keep working. For example you can
|
||
create hidden namespaces with prefixes @samp{~/mail/}, @samp{~%u/mail/}
|
||
and @samp{mail/}.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} boolean list?
|
||
Show the mailboxes under this namespace with the LIST command. This
|
||
makes the namespace visible for clients that do not support the NAMESPACE
|
||
extension. The special @code{children} value lists child mailboxes, but
|
||
hides the namespace prefix.
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} boolean subscriptions?
|
||
Namespace handles its own subscriptions. If set to @code{#f}, the
|
||
parent namespace handles them. The empty prefix should always have this
|
||
as @code{#t}).
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{namespace-configuration} parameter} mailbox-configuration-list mailboxes
|
||
List of predefined mailboxes in this namespace.
|
||
Defaults to @samp{()}.
|
||
|
||
Available @code{mailbox-configuration} fields are:
|
||
|
||
@deftypevr {@code{mailbox-configuration} parameter} string name
|
||
Name for this mailbox.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{mailbox-configuration} parameter} string auto
|
||
@samp{create} will automatically create this mailbox.
|
||
@samp{subscribe} will both create and subscribe to the mailbox.
|
||
Defaults to @samp{"no"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{mailbox-configuration} parameter} space-separated-string-list special-use
|
||
List of IMAP @code{SPECIAL-USE} attributes as specified by RFC 6154.
|
||
Valid values are @code{\All}, @code{\Archive}, @code{\Drafts},
|
||
@code{\Flagged}, @code{\Junk}, @code{\Sent}, and @code{\Trash}.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} file-name base-dir
|
||
Base directory where to store runtime data.
|
||
Defaults to @samp{"/var/run/dovecot/"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string login-greeting
|
||
Greeting message for clients.
|
||
Defaults to @samp{"Dovecot ready."}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list login-trusted-networks
|
||
List of trusted network ranges. Connections from these IPs are
|
||
allowed to override their IP addresses and ports (for logging and for
|
||
authentication checks). @samp{disable-plaintext-auth} is also ignored
|
||
for these networks. Typically you would specify your IMAP proxy servers
|
||
here.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list login-access-sockets
|
||
List of login access check sockets (e.g. tcpwrap).
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean verbose-proctitle?
|
||
Show more verbose process titles (in ps). Currently shows user name
|
||
and IP address. Useful for seeing who is actually using the IMAP
|
||
processes (e.g. shared mailboxes or if the same uid is used for multiple
|
||
accounts).
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean shutdown-clients?
|
||
Should all processes be killed when Dovecot master process shuts down.
|
||
Setting this to @code{#f} means that Dovecot can be upgraded without
|
||
forcing existing client connections to close (although that could also
|
||
be a problem if the upgrade is e.g. due to a security fix).
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer doveadm-worker-count
|
||
If non-zero, run mail commands via this many connections to doveadm
|
||
server, instead of running them directly in the same process.
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string doveadm-socket-path
|
||
UNIX socket or host:port used for connecting to doveadm server.
|
||
Defaults to @samp{"doveadm-server"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list import-environment
|
||
List of environment variables that are preserved on Dovecot startup
|
||
and passed down to all of its child processes. You can also give
|
||
key=value pairs to always set specific settings.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean disable-plaintext-auth?
|
||
Disable LOGIN command and all other plaintext authentications unless
|
||
SSL/TLS is used (LOGINDISABLED capability). Note that if the remote IP
|
||
matches the local IP (i.e. you're connecting from the same computer),
|
||
the connection is considered secure and plaintext authentication is
|
||
allowed. See also ssl=required setting.
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer auth-cache-size
|
||
Authentication cache size (e.g. @samp{#e10e6}). 0 means it's disabled.
|
||
Note that bsdauth, PAM and vpopmail require @samp{cache-key} to be set
|
||
for caching to be used.
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-cache-ttl
|
||
Time to live for cached data. After TTL expires the cached record
|
||
is no longer used, *except* if the main database lookup returns internal
|
||
failure. We also try to handle password changes automatically: If
|
||
user's previous authentication was successful, but this one wasn't, the
|
||
cache isn't used. For now this works only with plaintext
|
||
authentication.
|
||
Defaults to @samp{"1 hour"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-cache-negative-ttl
|
||
TTL for negative hits (user not found, password mismatch).
|
||
0 disables caching them completely.
|
||
Defaults to @samp{"1 hour"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list auth-realms
|
||
List of realms for SASL authentication mechanisms that need them.
|
||
You can leave it empty if you don't want to support multiple realms.
|
||
Many clients simply use the first one listed here, so keep the default
|
||
realm first.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-default-realm
|
||
Default realm/domain to use if none was specified. This is used for
|
||
both SASL realms and appending @@domain to username in plaintext
|
||
logins.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-username-chars
|
||
List of allowed characters in username. If the user-given username
|
||
contains a character not listed in here, the login automatically fails.
|
||
This is just an extra check to make sure user can't exploit any
|
||
potential quote escaping vulnerabilities with SQL/LDAP databases. If
|
||
you want to allow all characters, set this value to empty.
|
||
Defaults to @samp{"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ01234567890.-_@@"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-username-translation
|
||
Username character translations before it's looked up from
|
||
databases. The value contains series of from -> to characters. For
|
||
example @samp{#@@/@@} means that @samp{#} and @samp{/} characters are
|
||
translated to @samp{@@}.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-username-format
|
||
Username formatting before it's looked up from databases. You can
|
||
use the standard variables here, e.g. %Lu would lowercase the username,
|
||
%n would drop away the domain if it was given, or @samp{%n-AT-%d} would
|
||
change the @samp{@@} into @samp{-AT-}. This translation is done after
|
||
@samp{auth-username-translation} changes.
|
||
Defaults to @samp{"%Lu"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-master-user-separator
|
||
If you want to allow master users to log in by specifying the master
|
||
username within the normal username string (i.e. not using SASL
|
||
mechanism's support for it), you can specify the separator character
|
||
here. The format is then <username><separator><master username>.
|
||
UW-IMAP uses @samp{*} as the separator, so that could be a good
|
||
choice.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-anonymous-username
|
||
Username to use for users logging in with ANONYMOUS SASL
|
||
mechanism.
|
||
Defaults to @samp{"anonymous"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer auth-worker-max-count
|
||
Maximum number of dovecot-auth worker processes. They're used to
|
||
execute blocking passdb and userdb queries (e.g. MySQL and PAM).
|
||
They're automatically created and destroyed as needed.
|
||
Defaults to @samp{30}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-gssapi-hostname
|
||
Host name to use in GSSAPI principal names. The default is to use
|
||
the name returned by gethostname(). Use @samp{$ALL} (with quotes) to
|
||
allow all keytab entries.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-krb5-keytab
|
||
Kerberos keytab to use for the GSSAPI mechanism. Will use the
|
||
system default (usually @file{/etc/krb5.keytab}) if not specified. You may
|
||
need to change the auth service to run as root to be able to read this
|
||
file.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean auth-use-winbind?
|
||
Do NTLM and GSS-SPNEGO authentication using Samba's winbind daemon
|
||
and @samp{ntlm-auth} helper.
|
||
<doc/wiki/Authentication/Mechanisms/Winbind.txt>.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} file-name auth-winbind-helper-path
|
||
Path for Samba's @samp{ntlm-auth} helper binary.
|
||
Defaults to @samp{"/usr/bin/ntlm_auth"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string auth-failure-delay
|
||
Time to delay before replying to failed authentications.
|
||
Defaults to @samp{"2 secs"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean auth-ssl-require-client-cert?
|
||
Require a valid SSL client certificate or the authentication
|
||
fails.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean auth-ssl-username-from-cert?
|
||
Take the username from client's SSL certificate, using
|
||
@code{X509_NAME_get_text_by_NID()} which returns the subject's DN's
|
||
CommonName.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list auth-mechanisms
|
||
List of wanted authentication mechanisms. Supported mechanisms are:
|
||
@samp{plain}, @samp{login}, @samp{digest-md5}, @samp{cram-md5},
|
||
@samp{ntlm}, @samp{rpa}, @samp{apop}, @samp{anonymous}, @samp{gssapi},
|
||
@samp{otp}, @samp{skey}, and @samp{gss-spnego}. NOTE: See also
|
||
@samp{disable-plaintext-auth} setting.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list director-servers
|
||
List of IPs or hostnames to all director servers, including ourself.
|
||
Ports can be specified as ip:port. The default port is the same as what
|
||
director service's @samp{inet-listener} is using.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list director-mail-servers
|
||
List of IPs or hostnames to all backend mail servers. Ranges are
|
||
allowed too, like 10.0.0.10-10.0.0.30.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string director-user-expire
|
||
How long to redirect users to a specific server after it no longer
|
||
has any connections.
|
||
Defaults to @samp{"15 min"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer director-doveadm-port
|
||
TCP/IP port that accepts doveadm connections (instead of director
|
||
connections) If you enable this, you'll also need to add
|
||
@samp{inet-listener} for the port.
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string director-username-hash
|
||
How the username is translated before being hashed. Useful values
|
||
include %Ln if user can log in with or without @@domain, %Ld if mailboxes
|
||
are shared within domain.
|
||
Defaults to @samp{"%Lu"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string log-path
|
||
Log file to use for error messages. @samp{syslog} logs to syslog,
|
||
@samp{/dev/stderr} logs to stderr.
|
||
Defaults to @samp{"syslog"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string info-log-path
|
||
Log file to use for informational messages. Defaults to
|
||
@samp{log-path}.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string debug-log-path
|
||
Log file to use for debug messages. Defaults to
|
||
@samp{info-log-path}.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string syslog-facility
|
||
Syslog facility to use if you're logging to syslog. Usually if you
|
||
don't want to use @samp{mail}, you'll use local0..local7. Also other
|
||
standard facilities are supported.
|
||
Defaults to @samp{"mail"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean auth-verbose?
|
||
Log unsuccessful authentication attempts and the reasons why they
|
||
failed.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean auth-verbose-passwords?
|
||
In case of password mismatches, log the attempted password. Valid
|
||
values are no, plain and sha1. sha1 can be useful for detecting brute
|
||
force password attempts vs. user simply trying the same password over
|
||
and over again. You can also truncate the value to n chars by appending
|
||
":n" (e.g. sha1:6).
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean auth-debug?
|
||
Even more verbose logging for debugging purposes. Shows for example
|
||
SQL queries.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean auth-debug-passwords?
|
||
In case of password mismatches, log the passwords and used scheme so
|
||
the problem can be debugged. Enabling this also enables
|
||
@samp{auth-debug}.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mail-debug?
|
||
Enable mail process debugging. This can help you figure out why
|
||
Dovecot isn't finding your mails.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean verbose-ssl?
|
||
Show protocol level SSL errors.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string log-timestamp
|
||
Prefix for each line written to log file. % codes are in
|
||
strftime(3) format.
|
||
Defaults to @samp{"\"%b %d %H:%M:%S \""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list login-log-format-elements
|
||
List of elements we want to log. The elements which have a
|
||
non-empty variable value are joined together to form a comma-separated
|
||
string.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string login-log-format
|
||
Login log format. %s contains @samp{login-log-format-elements}
|
||
string, %$ contains the data we want to log.
|
||
Defaults to @samp{"%$: %s"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-log-prefix
|
||
Log prefix for mail processes. See doc/wiki/Variables.txt for list
|
||
of possible variables you can use.
|
||
Defaults to @samp{"\"%s(%u): \""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string deliver-log-format
|
||
Format to use for logging mail deliveries. You can use variables:
|
||
@table @code
|
||
@item %$
|
||
Delivery status message (e.g. @samp{saved to INBOX})
|
||
@item %m
|
||
Message-ID
|
||
@item %s
|
||
Subject
|
||
@item %f
|
||
From address
|
||
@item %p
|
||
Physical size
|
||
@item %w
|
||
Virtual size.
|
||
@end table
|
||
Defaults to @samp{"msgid=%m: %$"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-location
|
||
Location for users' mailboxes. The default is empty, which means
|
||
that Dovecot tries to find the mailboxes automatically. This won't work
|
||
if the user doesn't yet have any mail, so you should explicitly tell
|
||
Dovecot the full location.
|
||
|
||
If you're using mbox, giving a path to the INBOX
|
||
file (e.g. /var/mail/%u) isn't enough. You'll also need to tell Dovecot
|
||
where the other mailboxes are kept. This is called the "root mail
|
||
directory", and it must be the first path given in the
|
||
@samp{mail-location} setting.
|
||
|
||
There are a few special variables you can use, eg.:
|
||
|
||
@table @samp
|
||
@item %u
|
||
username
|
||
@item %n
|
||
user part in user@@domain, same as %u if there's no domain
|
||
@item %d
|
||
domain part in user@@domain, empty if there's no domain
|
||
@item %h
|
||
home director
|
||
@end table
|
||
|
||
See doc/wiki/Variables.txt for full list. Some examples:
|
||
@table @samp
|
||
@item maildir:~/Maildir
|
||
@item mbox:~/mail:INBOX=/var/mail/%u
|
||
@item mbox:/var/mail/%d/%1n/%n:INDEX=/var/indexes/%d/%1n/%
|
||
@end table
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-uid
|
||
System user and group used to access mails. If you use multiple,
|
||
userdb can override these by returning uid or gid fields. You can use
|
||
either numbers or names. <doc/wiki/UserIds.txt>.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-gid
|
||
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-privileged-group
|
||
Group to enable temporarily for privileged operations. Currently
|
||
this is used only with INBOX when either its initial creation or
|
||
dotlocking fails. Typically this is set to "mail" to give access to
|
||
/var/mail.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-access-groups
|
||
Grant access to these supplementary groups for mail processes.
|
||
Typically these are used to set up access to shared mailboxes. Note
|
||
that it may be dangerous to set these if users can create
|
||
symlinks (e.g. if "mail" group is set here, ln -s /var/mail ~/mail/var
|
||
could allow a user to delete others' mailboxes, or ln -s
|
||
/secret/shared/box ~/mail/mybox would allow reading it).
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mail-full-filesystem-access?
|
||
Allow full file system access to clients. There's no access checks
|
||
other than what the operating system does for the active UID/GID. It
|
||
works with both maildir and mboxes, allowing you to prefix mailboxes
|
||
names with e.g. /path/ or ~user/.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mmap-disable?
|
||
Don't use mmap() at all. This is required if you store indexes to
|
||
shared file systems (NFS or clustered file system).
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean dotlock-use-excl?
|
||
Rely on @samp{O_EXCL} to work when creating dotlock files. NFS
|
||
supports @samp{O_EXCL} since version 3, so this should be safe to use
|
||
nowadays by default.
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-fsync
|
||
When to use fsync() or fdatasync() calls:
|
||
@table @code
|
||
@item optimized
|
||
Whenever necessary to avoid losing important data
|
||
@item always
|
||
Useful with e.g. NFS when write()s are delayed
|
||
@item never
|
||
Never use it (best performance, but crashes can lose data).
|
||
@end table
|
||
Defaults to @samp{"optimized"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mail-nfs-storage?
|
||
Mail storage exists in NFS. Set this to yes to make Dovecot flush
|
||
NFS caches whenever needed. If you're using only a single mail server
|
||
this isn't needed.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mail-nfs-index?
|
||
Mail index files also exist in NFS. Setting this to yes requires
|
||
@samp{mmap-disable? #t} and @samp{fsync-disable? #f}.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string lock-method
|
||
Locking method for index files. Alternatives are fcntl, flock and
|
||
dotlock. Dotlocking uses some tricks which may create more disk I/O
|
||
than other locking methods. NFS users: flock doesn't work, remember to
|
||
change @samp{mmap-disable}.
|
||
Defaults to @samp{"fcntl"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} file-name mail-temp-dir
|
||
Directory in which LDA/LMTP temporarily stores incoming mails >128
|
||
kB.
|
||
Defaults to @samp{"/tmp"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer first-valid-uid
|
||
Valid UID range for users. This is mostly to make sure that users can't
|
||
log in as daemons or other system users. Note that denying root logins is
|
||
hardcoded to dovecot binary and can't be done even if @samp{first-valid-uid}
|
||
is set to 0.
|
||
Defaults to @samp{500}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer last-valid-uid
|
||
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer first-valid-gid
|
||
Valid GID range for users. Users having non-valid GID as primary group ID
|
||
aren't allowed to log in. If user belongs to supplementary groups with
|
||
non-valid GIDs, those groups are not set.
|
||
Defaults to @samp{1}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer last-valid-gid
|
||
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer mail-max-keyword-length
|
||
Maximum allowed length for mail keyword name. It's only forced when
|
||
trying to create new keywords.
|
||
Defaults to @samp{50}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} colon-separated-file-name-list valid-chroot-dirs
|
||
List of directories under which chrooting is allowed for mail
|
||
processes (i.e. /var/mail will allow chrooting to /var/mail/foo/bar
|
||
too). This setting doesn't affect @samp{login-chroot}
|
||
@samp{mail-chroot} or auth chroot settings. If this setting is empty,
|
||
"/./" in home dirs are ignored. WARNING: Never add directories here
|
||
which local users can modify, that may lead to root exploit. Usually
|
||
this should be done only if you don't allow shell access for users.
|
||
<doc/wiki/Chrooting.txt>.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-chroot
|
||
Default chroot directory for mail processes. This can be overridden
|
||
for specific users in user database by giving /./ in user's home
|
||
directory (e.g. /home/./user chroots into /home). Note that usually
|
||
there is no real need to do chrooting, Dovecot doesn't allow users to
|
||
access files outside their mail directory anyway. If your home
|
||
directories are prefixed with the chroot directory, append "/." to
|
||
@samp{mail-chroot}. <doc/wiki/Chrooting.txt>.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} file-name auth-socket-path
|
||
UNIX socket path to master authentication server to find users.
|
||
This is used by imap (for shared users) and lda.
|
||
Defaults to @samp{"/var/run/dovecot/auth-userdb"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} file-name mail-plugin-dir
|
||
Directory where to look up mail plugins.
|
||
Defaults to @samp{"/usr/lib/dovecot"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list mail-plugins
|
||
List of plugins to load for all services. Plugins specific to IMAP,
|
||
LDA, etc. are added to this list in their own .conf files.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer mail-cache-min-mail-count
|
||
The minimum number of mails in a mailbox before updates are done to
|
||
cache file. This allows optimizing Dovecot's behavior to do less disk
|
||
writes at the cost of more disk reads.
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mailbox-idle-check-interval
|
||
When IDLE command is running, mailbox is checked once in a while to
|
||
see if there are any new mails or other changes. This setting defines
|
||
the minimum time to wait between those checks. Dovecot can also use
|
||
dnotify, inotify and kqueue to find out immediately when changes
|
||
occur.
|
||
Defaults to @samp{"30 secs"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mail-save-crlf?
|
||
Save mails with CR+LF instead of plain LF. This makes sending those
|
||
mails take less CPU, especially with sendfile() syscall with Linux and
|
||
FreeBSD. But it also creates a bit more disk I/O which may just make it
|
||
slower. Also note that if other software reads the mboxes/maildirs,
|
||
they may handle the extra CRs wrong and cause problems.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean maildir-stat-dirs?
|
||
By default LIST command returns all entries in maildir beginning
|
||
with a dot. Enabling this option makes Dovecot return only entries
|
||
which are directories. This is done by stat()ing each entry, so it
|
||
causes more disk I/O.
|
||
(For systems setting struct @samp{dirent->d_type} this check is free
|
||
and it's done always regardless of this setting).
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean maildir-copy-with-hardlinks?
|
||
When copying a message, do it with hard links whenever possible.
|
||
This makes the performance much better, and it's unlikely to have any
|
||
side effects.
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean maildir-very-dirty-syncs?
|
||
Assume Dovecot is the only MUA accessing Maildir: Scan cur/
|
||
directory only when its mtime changes unexpectedly or when we can't find
|
||
the mail otherwise.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list mbox-read-locks
|
||
Which locking methods to use for locking mbox. There are four
|
||
available:
|
||
|
||
@table @code
|
||
@item dotlock
|
||
Create <mailbox>.lock file. This is the oldest and most NFS-safe
|
||
solution. If you want to use /var/mail/ like directory, the users will
|
||
need write access to that directory.
|
||
@item dotlock-try
|
||
Same as dotlock, but if it fails because of permissions or because there
|
||
isn't enough disk space, just skip it.
|
||
@item fcntl
|
||
Use this if possible. Works with NFS too if lockd is used.
|
||
@item flock
|
||
May not exist in all systems. Doesn't work with NFS.
|
||
@item lockf
|
||
May not exist in all systems. Doesn't work with NFS.
|
||
@end table
|
||
|
||
You can use multiple locking methods; if you do the order they're declared
|
||
in is important to avoid deadlocks if other MTAs/MUAs are using multiple
|
||
locking methods as well. Some operating systems don't allow using some of
|
||
them simultaneously.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list mbox-write-locks
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mbox-lock-timeout
|
||
Maximum time to wait for lock (all of them) before aborting.
|
||
Defaults to @samp{"5 mins"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mbox-dotlock-change-timeout
|
||
If dotlock exists but the mailbox isn't modified in any way,
|
||
override the lock file after this much time.
|
||
Defaults to @samp{"2 mins"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mbox-dirty-syncs?
|
||
When mbox changes unexpectedly we have to fully read it to find out
|
||
what changed. If the mbox is large this can take a long time. Since
|
||
the change is usually just a newly appended mail, it'd be faster to
|
||
simply read the new mails. If this setting is enabled, Dovecot does
|
||
this but still safely fallbacks to re-reading the whole mbox file
|
||
whenever something in mbox isn't how it's expected to be. The only real
|
||
downside to this setting is that if some other MUA changes message
|
||
flags, Dovecot doesn't notice it immediately. Note that a full sync is
|
||
done with SELECT, EXAMINE, EXPUNGE and CHECK commands.
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mbox-very-dirty-syncs?
|
||
Like @samp{mbox-dirty-syncs}, but don't do full syncs even with SELECT,
|
||
EXAMINE, EXPUNGE or CHECK commands. If this is set,
|
||
@samp{mbox-dirty-syncs} is ignored.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mbox-lazy-writes?
|
||
Delay writing mbox headers until doing a full write sync (EXPUNGE
|
||
and CHECK commands and when closing the mailbox). This is especially
|
||
useful for POP3 where clients often delete all mails. The downside is
|
||
that our changes aren't immediately visible to other MUAs.
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer mbox-min-index-size
|
||
If mbox size is smaller than this (e.g. 100k), don't write index
|
||
files. If an index file already exists it's still read, just not
|
||
updated.
|
||
Defaults to @samp{0}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer mdbox-rotate-size
|
||
Maximum dbox file size until it's rotated.
|
||
Defaults to @samp{2000000}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mdbox-rotate-interval
|
||
Maximum dbox file age until it's rotated. Typically in days. Day
|
||
begins from midnight, so 1d = today, 2d = yesterday, etc. 0 = check
|
||
disabled.
|
||
Defaults to @samp{"1d"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean mdbox-preallocate-space?
|
||
When creating new mdbox files, immediately preallocate their size to
|
||
@samp{mdbox-rotate-size}. This setting currently works only in Linux
|
||
with some file systems (ext4, xfs).
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-attachment-dir
|
||
sdbox and mdbox support saving mail attachments to external files,
|
||
which also allows single instance storage for them. Other backends
|
||
don't support this for now.
|
||
|
||
WARNING: This feature hasn't been tested much yet. Use at your own risk.
|
||
|
||
Directory root where to store mail attachments. Disabled, if empty.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer mail-attachment-min-size
|
||
Attachments smaller than this aren't saved externally. It's also
|
||
possible to write a plugin to disable saving specific attachments
|
||
externally.
|
||
Defaults to @samp{128000}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-attachment-fs
|
||
File system backend to use for saving attachments:
|
||
@table @code
|
||
@item posix
|
||
No SiS done by Dovecot (but this might help FS's own deduplication)
|
||
@item sis posix
|
||
SiS with immediate byte-by-byte comparison during saving
|
||
@item sis-queue posix
|
||
SiS with delayed comparison and deduplication.
|
||
@end table
|
||
Defaults to @samp{"sis posix"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string mail-attachment-hash
|
||
Hash format to use in attachment filenames. You can add any text and
|
||
variables: @code{%@{md4@}}, @code{%@{md5@}}, @code{%@{sha1@}},
|
||
@code{%@{sha256@}}, @code{%@{sha512@}}, @code{%@{size@}}. Variables can be
|
||
truncated, e.g. @code{%@{sha256:80@}} returns only first 80 bits.
|
||
Defaults to @samp{"%@{sha1@}"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer default-process-limit
|
||
|
||
Defaults to @samp{100}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer default-client-limit
|
||
|
||
Defaults to @samp{1000}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer default-vsz-limit
|
||
Default VSZ (virtual memory size) limit for service processes.
|
||
This is mainly intended to catch and kill processes that leak memory
|
||
before they eat up everything.
|
||
Defaults to @samp{256000000}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string default-login-user
|
||
Login user is internally used by login processes. This is the most
|
||
untrusted user in Dovecot system. It shouldn't have access to anything
|
||
at all.
|
||
Defaults to @samp{"dovenull"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string default-internal-user
|
||
Internal user is used by unprivileged processes. It should be
|
||
separate from login user, so that login processes can't disturb other
|
||
processes.
|
||
Defaults to @samp{"dovecot"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string ssl?
|
||
SSL/TLS support: yes, no, required. <doc/wiki/SSL.txt>.
|
||
Defaults to @samp{"required"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string ssl-cert
|
||
PEM encoded X.509 SSL/TLS certificate (public key).
|
||
Defaults to @samp{"</etc/dovecot/default.pem"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string ssl-key
|
||
PEM encoded SSL/TLS private key. The key is opened before
|
||
dropping root privileges, so keep the key file unreadable by anyone but
|
||
root.
|
||
Defaults to @samp{"</etc/dovecot/private/default.pem"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string ssl-key-password
|
||
If key file is password protected, give the password here.
|
||
Alternatively give it when starting dovecot with -p parameter. Since
|
||
this file is often world-readable, you may want to place this setting
|
||
instead to a different.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string ssl-ca
|
||
PEM encoded trusted certificate authority. Set this only if you
|
||
intend to use @samp{ssl-verify-client-cert? #t}. The file should
|
||
contain the CA certificate(s) followed by the matching
|
||
CRL(s). (e.g. @samp{ssl-ca </etc/ssl/certs/ca.pem}).
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean ssl-require-crl?
|
||
Require that CRL check succeeds for client certificates.
|
||
Defaults to @samp{#t}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean ssl-verify-client-cert?
|
||
Request client to send a certificate. If you also want to require
|
||
it, set @samp{auth-ssl-require-client-cert? #t} in auth section.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string ssl-cert-username-field
|
||
Which field from certificate to use for username. commonName and
|
||
x500UniqueIdentifier are the usual choices. You'll also need to set
|
||
@samp{auth-ssl-username-from-cert? #t}.
|
||
Defaults to @samp{"commonName"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} hours ssl-parameters-regenerate
|
||
How often to regenerate the SSL parameters file. Generation is
|
||
quite CPU intensive operation. The value is in hours, 0 disables
|
||
regeneration entirely.
|
||
Defaults to @samp{168}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string ssl-protocols
|
||
SSL protocols to use.
|
||
Defaults to @samp{"!SSLv2"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string ssl-cipher-list
|
||
SSL ciphers to use.
|
||
Defaults to @samp{"ALL:!LOW:!SSLv2:!EXP:!aNULL"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string ssl-crypto-device
|
||
SSL crypto device to use, for valid values run "openssl engine".
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string postmaster-address
|
||
Address to use when sending rejection mails.
|
||
%d expands to recipient domain.
|
||
Defaults to @samp{"postmaster@@%d"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string hostname
|
||
Hostname to use in various parts of sent mails (e.g. in Message-Id)
|
||
and in LMTP replies. Default is the system's real hostname@@domain.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean quota-full-tempfail?
|
||
If user is over quota, return with temporary failure instead of
|
||
bouncing the mail.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} file-name sendmail-path
|
||
Binary to use for sending mails.
|
||
Defaults to @samp{"/usr/sbin/sendmail"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string submission-host
|
||
If non-empty, send mails via this SMTP host[:port] instead of
|
||
sendmail.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string rejection-subject
|
||
Subject: header to use for rejection mails. You can use the same
|
||
variables as for @samp{rejection-reason} below.
|
||
Defaults to @samp{"Rejected: %s"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string rejection-reason
|
||
Human readable error message for rejection mails. You can use
|
||
variables:
|
||
|
||
@table @code
|
||
@item %n
|
||
CRLF
|
||
@item %r
|
||
reason
|
||
@item %s
|
||
original subject
|
||
@item %t
|
||
recipient
|
||
@end table
|
||
Defaults to @samp{"Your message to <%t> was automatically rejected:%n%r"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string recipient-delimiter
|
||
Delimiter character between local-part and detail in email
|
||
address.
|
||
Defaults to @samp{"+"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string lda-original-recipient-header
|
||
Header where the original recipient address (SMTP's RCPT TO:
|
||
address) is taken from if not available elsewhere. With dovecot-lda -a
|
||
parameter overrides this. A commonly used header for this is
|
||
X-Original-To.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean lda-mailbox-autocreate?
|
||
Should saving a mail to a nonexistent mailbox automatically create
|
||
it?.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} boolean lda-mailbox-autosubscribe?
|
||
Should automatically created mailboxes be also automatically
|
||
subscribed?.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} non-negative-integer imap-max-line-length
|
||
Maximum IMAP command line length. Some clients generate very long
|
||
command lines with huge mailboxes, so you may need to raise this if you
|
||
get "Too long argument" or "IMAP command line too large" errors
|
||
often.
|
||
Defaults to @samp{64000}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string imap-logout-format
|
||
IMAP logout format string:
|
||
@table @code
|
||
@item %i
|
||
total number of bytes read from client
|
||
@item %o
|
||
total number of bytes sent to client.
|
||
@end table
|
||
Defaults to @samp{"in=%i out=%o"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string imap-capability
|
||
Override the IMAP CAPABILITY response. If the value begins with '+',
|
||
add the given capabilities on top of the defaults (e.g. +XFOO XBAR).
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string imap-idle-notify-interval
|
||
How long to wait between "OK Still here" notifications when client
|
||
is IDLEing.
|
||
Defaults to @samp{"2 mins"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string imap-id-send
|
||
ID field names and values to send to clients. Using * as the value
|
||
makes Dovecot use the default value. The following fields have default
|
||
values currently: name, version, os, os-version, support-url,
|
||
support-email.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string imap-id-log
|
||
ID fields sent by client to log. * means everything.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} space-separated-string-list imap-client-workarounds
|
||
Workarounds for various client bugs:
|
||
|
||
@table @code
|
||
@item delay-newmail
|
||
Send EXISTS/RECENT new mail notifications only when replying to NOOP and
|
||
CHECK commands. Some clients ignore them otherwise, for example OSX
|
||
Mail (<v2.1). Outlook Express breaks more badly though, without this it
|
||
may show user "Message no longer in server" errors. Note that OE6
|
||
still breaks even with this workaround if synchronization is set to
|
||
"Headers Only".
|
||
|
||
@item tb-extra-mailbox-sep
|
||
Thunderbird gets somehow confused with LAYOUT=fs (mbox and dbox) and
|
||
adds extra @samp{/} suffixes to mailbox names. This option causes Dovecot to
|
||
ignore the extra @samp{/} instead of treating it as invalid mailbox name.
|
||
|
||
@item tb-lsub-flags
|
||
Show \Noselect flags for LSUB replies with LAYOUT=fs (e.g. mbox).
|
||
This makes Thunderbird realize they aren't selectable and show them
|
||
greyed out, instead of only later giving "not selectable" popup error.
|
||
@end table
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{dovecot-configuration} parameter} string imap-urlauth-host
|
||
Host allowed in URLAUTH URLs sent by client. "*" allows all.
|
||
Defaults to @samp{""}.
|
||
@end deftypevr
|
||
|
||
|
||
Whew! Lots of configuration options. The nice thing about it though is
|
||
that GuixSD has a complete interface to Dovecot's configuration
|
||
language. This allows not only a nice way to declare configurations,
|
||
but also offers reflective capabilities as well: users can write code to
|
||
inspect and transform configurations from within Scheme.
|
||
|
||
However, it could be that you just want to get a @code{dovecot.conf} up
|
||
and running. In that case, you can pass an
|
||
@code{opaque-dovecot-configuration} as the @code{#:config} parameter to
|
||
@code{dovecot-service}. As its name indicates, an opaque configuration
|
||
does not have easy reflective capabilities.
|
||
|
||
Available @code{opaque-dovecot-configuration} fields are:
|
||
|
||
@deftypevr {@code{opaque-dovecot-configuration} parameter} package dovecot
|
||
The dovecot package.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{opaque-dovecot-configuration} parameter} string string
|
||
The contents of the @code{dovecot.conf}, as a string.
|
||
@end deftypevr
|
||
|
||
For example, if your @code{dovecot.conf} is just the empty string, you
|
||
could instantiate a dovecot service like this:
|
||
|
||
@example
|
||
(dovecot-service #:config
|
||
(opaque-dovecot-configuration
|
||
(string "")))
|
||
@end example
|
||
|
||
@subsubheading OpenSMTPD Service
|
||
|
||
@deffn {Scheme Variable} opensmtpd-service-type
|
||
This is the type of the @uref{https://www.opensmtpd.org, OpenSMTPD}
|
||
service, whose value should be an @code{opensmtpd-configuration} object
|
||
as in this example:
|
||
|
||
@example
|
||
(service opensmtpd-service-type
|
||
(opensmtpd-configuration
|
||
(config-file (local-file "./my-smtpd.conf"))))
|
||
@end example
|
||
@end deffn
|
||
|
||
@deftp {Data Type} opensmtpd-configuration
|
||
Data type representing the configuration of opensmtpd.
|
||
|
||
@table @asis
|
||
@item @code{package} (default: @var{opensmtpd})
|
||
Package object of the OpenSMTPD SMTP server.
|
||
|
||
@item @code{config-file} (default: @var{%default-opensmtpd-file})
|
||
File-like object of the OpenSMTPD configuration file to use. By default
|
||
it listens on the loopback network interface, and allows for mail from
|
||
users and daemons on the local machine, as well as permitting email to
|
||
remote servers. Run @command{man smtpd.conf} for more information.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@subsubheading Exim Service
|
||
|
||
@cindex mail transfer agent (MTA)
|
||
@cindex MTA (mail transfer agent)
|
||
@cindex SMTP
|
||
|
||
@deffn {Scheme Variable} exim-service-type
|
||
This is the type of the @uref{https://exim.org, Exim} mail transfer
|
||
agent (MTA), whose value should be an @code{exim-configuration} object
|
||
as in this example:
|
||
|
||
@example
|
||
(service exim-service-type
|
||
(exim-configuration
|
||
(config-file (local-file "./my-exim.conf"))))
|
||
@end example
|
||
@end deffn
|
||
|
||
In order to use an @code{exim-service-type} service you must also have a
|
||
@code{mail-aliases-service-type} service present in your
|
||
@code{operating-system} (even if it has no aliases).
|
||
|
||
@deftp {Data Type} exim-configuration
|
||
Data type representing the configuration of exim.
|
||
|
||
@table @asis
|
||
@item @code{package} (default: @var{exim})
|
||
Package object of the Exim server.
|
||
|
||
@item @code{config-file} (default: @code{#f})
|
||
File-like object of the Exim configuration file to use. If its value is
|
||
@code{#f} then use the default configuration file from the package
|
||
provided in @code{package}. The resulting configuration file is loaded
|
||
after setting the @code{exim_user} and @code{exim_group} configuration
|
||
variables.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@subsubheading Mail Aliases Service
|
||
|
||
@cindex email aliases
|
||
@cindex aliases, for email addresses
|
||
|
||
@deffn {Scheme Variable} mail-aliases-service-type
|
||
This is the type of the service which provides @code{/etc/aliases},
|
||
specifying how to deliver mail to users on this system.
|
||
|
||
@example
|
||
(service mail-aliases-service-type
|
||
'(("postmaster" "bob")
|
||
("bob" "bob@@example.com" "bob@@example2.com")))
|
||
@end example
|
||
@end deffn
|
||
|
||
The configuration for a @code{mail-aliases-service-type} service is an
|
||
association list denoting how to deliver mail that comes to this
|
||
system. Each entry is of the form @code{(alias addresses ...)}, with
|
||
@code{alias} specifying the local alias and @code{addresses} specifying
|
||
where to deliver this user's mail.
|
||
|
||
The aliases aren't required to exist as users on the local system. In
|
||
the above example, there doesn't need to be a @code{postmaster} entry in
|
||
the @code{operating-system}'s @code{user-accounts} in order to deliver
|
||
the @code{postmaster} mail to @code{bob} (which subsequently would
|
||
deliver mail to @code{bob@@example.com} and @code{bob@@example2.com}).
|
||
|
||
@node Messaging Services
|
||
@subsubsection Messaging Services
|
||
|
||
@cindex messaging
|
||
@cindex jabber
|
||
@cindex XMPP
|
||
The @code{(gnu services messaging)} module provides Guix service
|
||
definitions for messaging services: currently only Prosody is supported.
|
||
|
||
@subsubheading Prosody Service
|
||
|
||
@deffn {Scheme Variable} prosody-service-type
|
||
This is the type for the @uref{http://prosody.im, Prosody XMPP
|
||
communication server}. Its value must be a @code{prosody-configuration}
|
||
record as in this example:
|
||
|
||
@example
|
||
(service prosody-service-type
|
||
(prosody-configuration
|
||
(modules-enabled (cons "groups" %default-modules-enabled))
|
||
(int-components
|
||
(list
|
||
(int-component-configuration
|
||
(hostname "conference.example.net")
|
||
(plugin "muc")
|
||
(mod-muc (mod-muc-configuration)))))
|
||
(virtualhosts
|
||
(list
|
||
(virtualhost-configuration
|
||
(domain "example.net"))))))
|
||
@end example
|
||
|
||
See below for details about @code{prosody-configuration}.
|
||
|
||
@end deffn
|
||
|
||
By default, Prosody does not need much configuration. Only one
|
||
@code{virtualhosts} field is needed: it specifies the domain you wish
|
||
Prosody to serve.
|
||
|
||
Prosodyctl will help you generate X.509 certificates and keys:
|
||
|
||
@example
|
||
prosodyctl cert request example.net
|
||
@end example
|
||
|
||
The available configuration parameters follow. Each parameter
|
||
definition is preceded by its type; for example, @samp{string-list foo}
|
||
indicates that the @code{foo} parameter should be specified as a list of
|
||
strings. Types starting with @code{maybe-} denote parameters that won't
|
||
show up in @code{prosody.cfg.lua} when their value is @code{'disabled}.
|
||
|
||
There is also a way to specify the configuration as a string, if you
|
||
have an old @code{prosody.cfg.lua} file that you want to port over from
|
||
some other system; see the end for more details.
|
||
|
||
@c The following documentation was initially generated by
|
||
@c (generate-documentation) in (gnu services messaging). Manually maintained
|
||
@c documentation is better, so we shouldn't hesitate to edit below as
|
||
@c needed. However if the change you want to make to this documentation
|
||
@c can be done in an automated way, it's probably easier to change
|
||
@c (generate-documentation) than to make it below and have to deal with
|
||
@c the churn as Prosody updates.
|
||
|
||
Available @code{prosody-configuration} fields are:
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} package prosody
|
||
The Prosody package.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} file-name data-path
|
||
Location of the Prosody data storage directory. See
|
||
@url{http://prosody.im/doc/configure}.
|
||
Defaults to @samp{"/var/lib/prosody"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} file-name-list plugin-paths
|
||
Additional plugin directories. They are searched in all the specified
|
||
paths in order. See @url{http://prosody.im/doc/plugins_directory}.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} string-list admins
|
||
This is a list of accounts that are admins for the server. Note that you
|
||
must create the accounts separately. See @url{http://prosody.im/doc/admins} and
|
||
@url{http://prosody.im/doc/creating_accounts}.
|
||
Example: @code{(admins '("user1@@example.com" "user2@@example.net"))}
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} boolean use-libevent?
|
||
Enable use of libevent for better performance under high load. See
|
||
@url{http://prosody.im/doc/libevent}.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} module-list modules-enabled
|
||
This is the list of modules Prosody will load on startup. It looks for
|
||
@code{mod_modulename.lua} in the plugins folder, so make sure that exists too.
|
||
Documentation on modules can be found at: @url{http://prosody.im/doc/modules}.
|
||
Defaults to @samp{%default-modules-enabled}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} string-list modules-disabled
|
||
@samp{"offline"}, @samp{"c2s"} and @samp{"s2s"} are auto-loaded, but
|
||
should you want to disable them then add them to this list.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} file-name groups-file
|
||
Path to a text file where the shared groups are defined. If this path is
|
||
empty then @samp{mod_groups} does nothing. See
|
||
@url{http://prosody.im/doc/modules/mod_groups}.
|
||
Defaults to @samp{"/var/lib/prosody/sharedgroups.txt"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} boolean allow-registration?
|
||
Disable account creation by default, for security. See
|
||
@url{http://prosody.im/doc/creating_accounts}.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} maybe-ssl-configuration ssl
|
||
These are the SSL/TLS-related settings. Most of them are disabled so to
|
||
use Prosody's defaults. If you do not completely understand these options, do
|
||
not add them to your config, it is easy to lower the security of your server
|
||
using them. See @url{http://prosody.im/doc/advanced_ssl_config}.
|
||
|
||
Available @code{ssl-configuration} fields are:
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-string protocol
|
||
This determines what handshake to use.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} file-name key
|
||
Path to your private key file, relative to @code{/etc/prosody}.
|
||
Defaults to @samp{"/etc/prosody/certs/key.pem"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} file-name certificate
|
||
Path to your certificate file, relative to @code{/etc/prosody}.
|
||
Defaults to @samp{"/etc/prosody/certs/cert.pem"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} file-name capath
|
||
Path to directory containing root certificates that you wish Prosody to
|
||
trust when verifying the certificates of remote servers.
|
||
Defaults to @samp{"/etc/ssl/certs"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-file-name cafile
|
||
Path to a file containing root certificates that you wish Prosody to trust.
|
||
Similar to @code{capath} but with all certificates concatenated together.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-string-list verify
|
||
A list of verification options (these mostly map to OpenSSL's
|
||
@code{set_verify()} flags).
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-string-list options
|
||
A list of general options relating to SSL/TLS. These map to OpenSSL's
|
||
@code{set_options()}. For a full list of options available in LuaSec, see the
|
||
LuaSec source.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-non-negative-integer depth
|
||
How long a chain of certificate authorities to check when looking for a
|
||
trusted root certificate.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-string ciphers
|
||
An OpenSSL cipher string. This selects what ciphers Prosody will offer to
|
||
clients, and in what order.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-file-name dhparam
|
||
A path to a file containing parameters for Diffie-Hellman key exchange. You
|
||
can create such a file with:
|
||
@code{openssl dhparam -out /etc/prosody/certs/dh-2048.pem 2048}
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-string curve
|
||
Curve for Elliptic curve Diffie-Hellman. Prosody's default is
|
||
@samp{"secp384r1"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-string-list verifyext
|
||
A list of "extra" verification options.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ssl-configuration} parameter} maybe-string password
|
||
Password for encrypted private keys.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} boolean c2s-require-encryption?
|
||
Whether to force all client-to-server connections to be encrypted or not.
|
||
See @url{http://prosody.im/doc/modules/mod_tls}.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} boolean s2s-require-encryption?
|
||
Whether to force all server-to-server connections to be encrypted or not.
|
||
See @url{http://prosody.im/doc/modules/mod_tls}.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} boolean s2s-secure-auth?
|
||
Whether to require encryption and certificate authentication. This
|
||
provides ideal security, but requires servers you communicate with to support
|
||
encryption AND present valid, trusted certificates. See
|
||
@url{http://prosody.im/doc/s2s#security}.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} string-list s2s-insecure-domains
|
||
Many servers don't support encryption or have invalid or self-signed
|
||
certificates. You can list domains here that will not be required to
|
||
authenticate using certificates. They will be authenticated using DNS. See
|
||
@url{http://prosody.im/doc/s2s#security}.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} string-list s2s-secure-domains
|
||
Even if you leave @code{s2s-secure-auth?} disabled, you can still require
|
||
valid certificates for some domains by specifying a list here. See
|
||
@url{http://prosody.im/doc/s2s#security}.
|
||
Defaults to @samp{()}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} string authentication
|
||
Select the authentication backend to use. The default provider stores
|
||
passwords in plaintext and uses Prosody's configured data storage to store the
|
||
authentication data. If you do not trust your server please see
|
||
@url{http://prosody.im/doc/modules/mod_auth_internal_hashed} for information
|
||
about using the hashed backend. See also
|
||
@url{http://prosody.im/doc/authentication}
|
||
Defaults to @samp{"internal_plain"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} maybe-string log
|
||
Set logging options. Advanced logging configuration is not yet supported
|
||
by the GuixSD Prosody Service. See @url{http://prosody.im/doc/logging}.
|
||
Defaults to @samp{"*syslog"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} file-name pidfile
|
||
File to write pid in. See @url{http://prosody.im/doc/modules/mod_posix}.
|
||
Defaults to @samp{"/var/run/prosody/prosody.pid"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} virtualhost-configuration-list virtualhosts
|
||
A host in Prosody is a domain on which user accounts can be created. For
|
||
example if you want your users to have addresses like
|
||
@samp{"john.smith@@example.com"} then you need to add a host
|
||
@samp{"example.com"}. All options in this list will apply only to this host.
|
||
|
||
Note: the name "virtual" host is used in configuration to avoid confusion with
|
||
the actual physical host that Prosody is installed on. A single Prosody
|
||
instance can serve many domains, each one defined as a VirtualHost entry in
|
||
Prosody's configuration. Conversely a server that hosts a single domain would
|
||
have just one VirtualHost entry.
|
||
|
||
See @url{http://prosody.im/doc/configure#virtual_host_settings}.
|
||
|
||
Available @code{virtualhost-configuration} fields are:
|
||
|
||
all these @code{prosody-configuration} fields: @code{admins}, @code{use-libevent?}, @code{modules-enabled}, @code{modules-disabled}, @code{groups-file}, @code{allow-registration?}, @code{ssl}, @code{c2s-require-encryption?}, @code{s2s-require-encryption?}, @code{s2s-secure-auth?}, @code{s2s-insecure-domains}, @code{s2s-secure-domains}, @code{authentication}, @code{log}, plus:
|
||
@deftypevr {@code{virtualhost-configuration} parameter} string domain
|
||
Domain you wish Prosody to serve.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} int-component-configuration-list int-components
|
||
Components are extra services on a server which are available to clients,
|
||
usually on a subdomain of the main server (such as
|
||
@samp{"mycomponent.example.com"}). Example components might be chatroom
|
||
servers, user directories, or gateways to other protocols.
|
||
|
||
Internal components are implemented with Prosody-specific plugins. To add an
|
||
internal component, you simply fill the hostname field, and the plugin you wish
|
||
to use for the component.
|
||
|
||
See @url{http://prosody.im/doc/components}.
|
||
Defaults to @samp{()}.
|
||
|
||
Available @code{int-component-configuration} fields are:
|
||
|
||
all these @code{prosody-configuration} fields: @code{admins}, @code{use-libevent?}, @code{modules-enabled}, @code{modules-disabled}, @code{groups-file}, @code{allow-registration?}, @code{ssl}, @code{c2s-require-encryption?}, @code{s2s-require-encryption?}, @code{s2s-secure-auth?}, @code{s2s-insecure-domains}, @code{s2s-secure-domains}, @code{authentication}, @code{log}, plus:
|
||
@deftypevr {@code{int-component-configuration} parameter} string hostname
|
||
Hostname of the component.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{int-component-configuration} parameter} string plugin
|
||
Plugin you wish to use for the component.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{int-component-configuration} parameter} maybe-mod-muc-configuration mod-muc
|
||
Multi-user chat (MUC) is Prosody's module for allowing you to create
|
||
hosted chatrooms/conferences for XMPP users.
|
||
|
||
General information on setting up and using multi-user chatrooms can be found
|
||
in the "Chatrooms" documentation (@url{http://prosody.im/doc/chatrooms}),
|
||
which you should read if you are new to XMPP chatrooms.
|
||
|
||
See also @url{http://prosody.im/doc/modules/mod_muc}.
|
||
|
||
Available @code{mod-muc-configuration} fields are:
|
||
|
||
@deftypevr {@code{mod-muc-configuration} parameter} string name
|
||
The name to return in service discovery responses.
|
||
Defaults to @samp{"Prosody Chatrooms"}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{mod-muc-configuration} parameter} string-or-boolean restrict-room-creation
|
||
If @samp{#t}, this will only allow admins to create new chatrooms.
|
||
Otherwise anyone can create a room. The value @samp{"local"} restricts room
|
||
creation to users on the service's parent domain. E.g. @samp{user@@example.com}
|
||
can create rooms on @samp{rooms.example.com}. The value @samp{"admin"}
|
||
restricts to service administrators only.
|
||
Defaults to @samp{#f}.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{mod-muc-configuration} parameter} non-negative-integer max-history-messages
|
||
Maximum number of history messages that will be sent to the member that has
|
||
just joined the room.
|
||
Defaults to @samp{20}.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} ext-component-configuration-list ext-components
|
||
External components use XEP-0114, which most standalone components
|
||
support. To add an external component, you simply fill the hostname field. See
|
||
@url{http://prosody.im/doc/components}.
|
||
Defaults to @samp{()}.
|
||
|
||
Available @code{ext-component-configuration} fields are:
|
||
|
||
all these @code{prosody-configuration} fields: @code{admins}, @code{use-libevent?}, @code{modules-enabled}, @code{modules-disabled}, @code{groups-file}, @code{allow-registration?}, @code{ssl}, @code{c2s-require-encryption?}, @code{s2s-require-encryption?}, @code{s2s-secure-auth?}, @code{s2s-insecure-domains}, @code{s2s-secure-domains}, @code{authentication}, @code{log}, plus:
|
||
@deftypevr {@code{ext-component-configuration} parameter} string component-secret
|
||
Password which the component will use to log in.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{ext-component-configuration} parameter} string hostname
|
||
Hostname of the component.
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} non-negative-integer-list component-ports
|
||
Port(s) Prosody listens on for component connections.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{prosody-configuration} parameter} string component-interface
|
||
Interface Prosody listens on for component connections.
|
||
Defaults to @samp{"127.0.0.1"}.
|
||
@end deftypevr
|
||
|
||
It could be that you just want to get a @code{prosody.cfg.lua}
|
||
up and running. In that case, you can pass an
|
||
@code{opaque-prosody-configuration} record as the value of
|
||
@code{prosody-service-type}. As its name indicates, an opaque configuration
|
||
does not have easy reflective capabilities.
|
||
Available @code{opaque-prosody-configuration} fields are:
|
||
|
||
@deftypevr {@code{opaque-prosody-configuration} parameter} package prosody
|
||
The prosody package.
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{opaque-prosody-configuration} parameter} string prosody.cfg.lua
|
||
The contents of the @code{prosody.cfg.lua} to use.
|
||
@end deftypevr
|
||
|
||
For example, if your @code{prosody.cfg.lua} is just the empty
|
||
string, you could instantiate a prosody service like this:
|
||
|
||
@example
|
||
(service prosody-service-type
|
||
(opaque-prosody-configuration
|
||
(prosody.cfg.lua "")))
|
||
@end example
|
||
|
||
|
||
@node Telephony Services
|
||
@subsubsection Telephony Services
|
||
|
||
@cindex Murmur (VoIP server)
|
||
@cindex VoIP server
|
||
This section describes how to set up and run a Murmur server. Murmur is
|
||
the server of the @uref{https://mumble.info, Mumble} voice-over-IP
|
||
(VoIP) suite.
|
||
|
||
@deftp {Data Type} murmur-configuration
|
||
The service type for the Murmur server. An example configuration can
|
||
look like this:
|
||
|
||
@example
|
||
(service murmur-service-type
|
||
(murmur-configuration
|
||
(welcome-text
|
||
"Welcome to this Mumble server running on GuixSD!")
|
||
(cert-required? #t) ;disallow text password logins
|
||
(ssl-cert "/etc/letsencrypt/live/mumble.example.com/fullchain.pem")
|
||
(ssl-key "/etc/letsencrypt/live/mumble.example.com/privkey.pem")))
|
||
@end example
|
||
|
||
After reconfiguring your system, you can manually set the murmur @code{SuperUser}
|
||
password with the command that is printed during the activation phase.
|
||
|
||
It is recommended to register a normal Mumble user account
|
||
and grant it admin or moderator rights.
|
||
You can use the @code{mumble} client to
|
||
login as new normal user, register yourself, and log out.
|
||
For the next step login with the name @code{SuperUser} use
|
||
the @code{SuperUser} password that you set previously,
|
||
and grant your newly registered mumble user administrator or moderator
|
||
rights and create some channels.
|
||
|
||
Available @code{murmur-configuration} fields are:
|
||
|
||
@table @asis
|
||
@item @code{package} (default: @code{mumble})
|
||
Package that contains @code{bin/murmurd}.
|
||
|
||
@item @code{user} (default: @code{"murmur"})
|
||
User who will run the Murmur server.
|
||
|
||
@item @code{group} (default: @code{"murmur"})
|
||
Group of the user who will run the murmur server.
|
||
|
||
@item @code{port} (default: @code{64738})
|
||
Port on which the server will listen.
|
||
|
||
@item @code{welcome-text} (default: @code{""})
|
||
Welcome text sent to clients when they connect.
|
||
|
||
@item @code{server-password} (default: @code{""})
|
||
Password the clients have to enter in order to connect.
|
||
|
||
@item @code{max-users} (default: @code{100})
|
||
Maximum of users that can be connected to the server at once.
|
||
|
||
@item @code{max-user-bandwidth} (default: @code{#f})
|
||
Maximum voice traffic a user can send per second.
|
||
|
||
@item @code{database-file} (default: @code{"/var/lib/murmur/db.sqlite"})
|
||
File name of the sqlite database.
|
||
The service's user will become the owner of the directory.
|
||
|
||
@item @code{log-file} (default: @code{"/var/log/murmur/murmur.log"})
|
||
File name of the log file.
|
||
The service's user will become the owner of the directory.
|
||
|
||
@item @code{autoban-attempts} (default: @code{10})
|
||
Maximum number of logins a user can make in @code{autoban-timeframe}
|
||
without getting auto banned for @code{autoban-time}.
|
||
|
||
@item @code{autoban-timeframe} (default: @code{120})
|
||
Timeframe for autoban in seconds.
|
||
|
||
@item @code{autoban-time} (default: @code{300})
|
||
Amount of time in seconds for which a client gets banned
|
||
when violating the autoban limits.
|
||
|
||
@item @code{opus-threshold} (default: @code{100})
|
||
Percentage of clients that need to support opus
|
||
before switching over to opus audio codec.
|
||
|
||
@item @code{channel-nesting-limit} (default: @code{10})
|
||
How deep channels can be nested at maximum.
|
||
|
||
@item @code{channelname-regex} (default: @code{#f})
|
||
A string in from of a Qt regular expression that channel names must conform to.
|
||
|
||
@item @code{username-regex} (default: @code{#f})
|
||
A string in from of a Qt regular expression that user names must conform to.
|
||
|
||
@item @code{text-message-length} (default: @code{5000})
|
||
Maximum size in bytes that a user can send in one text chat message.
|
||
|
||
@item @code{image-message-length} (default: @code{(* 128 1024)})
|
||
Maximum size in bytes that a user can send in one image message.
|
||
|
||
@item @code{cert-required?} (default: @code{#f})
|
||
If it is set to @code{#t} clients that use weak password authentification
|
||
will not be accepted. Users must have completed the certificate wizard to join.
|
||
|
||
@item @code{remember-channel?} (defualt @code{#f})
|
||
Should murmur remember the last channel each user was in when they disconnected
|
||
and put them into the remembered channel when they rejoin.
|
||
|
||
@item @code{allow-html?} (default: @code{#f})
|
||
Should html be allowed in text messages, user comments, and channel descriptions.
|
||
|
||
@item @code{allow-ping?} (default: @code{#f})
|
||
Setting to true exposes the current user count, the maximum user count, and
|
||
the server's maximum bandwidth per client to unauthenticated users. In the
|
||
Mumble client, this information is shown in the Connect dialog.
|
||
|
||
Disabling this setting will prevent public listing of the server.
|
||
|
||
@item @code{bonjour?} (default: @code{#f})
|
||
Should the server advertise itself in the local network through the bonjour protocol.
|
||
|
||
@item @code{send-version?} (default: @code{#f})
|
||
Should the murmur server version be exposed in ping requests.
|
||
|
||
@item @code{log-days} (default: @code{31})
|
||
Murmur also stores logs in the database, which are accessible via RPC.
|
||
The default is 31 days of months, but you can set this setting to 0 to keep logs forever,
|
||
or -1 to disable logging to the database.
|
||
|
||
@item @code{obfuscate-ips?} (default @code{#t})
|
||
Should logged ips be obfuscated to protect the privacy of users.
|
||
|
||
@item @code{ssl-cert} (default: @code{#f})
|
||
File name of the SSL/TLS certificate used for encrypted connections.
|
||
|
||
@example
|
||
(ssl-cert "/etc/letsencrypt/live/example.com/fullchain.pem")
|
||
@end example
|
||
@item @code{ssl-key} (default: @code{#f})
|
||
Filepath to the ssl private key used for encrypted connections.
|
||
@example
|
||
(ssl-key "/etc/letsencrypt/live/example.com/privkey.pem")
|
||
@end example
|
||
|
||
@item @code{ssl-dh-params} (default: @code{#f})
|
||
File name of a PEM-encoded file with Diffie-Hellman parameters
|
||
for the SSL/TLS encryption. Alternatively you set it to
|
||
@code{"@@ffdhe2048"}, @code{"@@ffdhe3072"}, @code{"@@ffdhe4096"}, @code{"@@ffdhe6144"}
|
||
or @code{"@@ffdhe8192"} to use bundled parameters from RFC 7919.
|
||
|
||
@item @code{ssl-ciphers} (default: @code{#f})
|
||
The @code{ssl-ciphers} option chooses the cipher suites to make available for use
|
||
in SSL/TLS.
|
||
|
||
This option is specified using
|
||
@uref{https://www.openssl.org/docs/apps/ciphers.html#CIPHER-LIST-FORMAT,
|
||
OpenSSL cipher list notation}.
|
||
|
||
It is recommended that you try your cipher string using 'openssl ciphers <string>'
|
||
before setting it here, to get a feel for which cipher suites you will get.
|
||
After setting this option, it is recommend that you inspect your Murmur log
|
||
to ensure that Murmur is using the cipher suites that you expected it to.
|
||
|
||
Note: Changing this option may impact the backwards compatibility of your
|
||
Murmur server, and can remove the ability for older Mumble clients to be able
|
||
to connect to it.
|
||
|
||
@item @code{public-registration} (default: @code{#f})
|
||
Must be a @code{<murmur-public-registration-configuration>} record or @code{#f}.
|
||
|
||
You can optionally register your server in the public server list that the
|
||
@code{mumble} client shows on startup.
|
||
You cannot register your server if you have set a @code{server-password},
|
||
or set @code{allow-ping} to @code{#f}.
|
||
|
||
It might take a few hours until it shows up in the public list.
|
||
|
||
@item @code{file} (default: @code{#f})
|
||
Optional alternative override for this configuration.
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} murmur-public-registration-configuration
|
||
Configuration for public registration of a murmur service.
|
||
|
||
@table @asis
|
||
@item @code{name}
|
||
This is a display name for your server. Not to be confused with the hostname.
|
||
|
||
@item @code{password}
|
||
A password to identify your registration.
|
||
Subsequent updates will need the same password. Don't lose your password.
|
||
|
||
@item @code{url}
|
||
This should be a @code{http://} or @code{https://} link to your web
|
||
site.
|
||
|
||
@item @code{hostname} (default: @code{#f})
|
||
By default your server will be listed by its IP address.
|
||
If it is set your server will be linked by this host name instead.
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
|
||
@node Monitoring Services
|
||
@subsubsection Monitoring Services
|
||
|
||
@subsubheading Tailon Service
|
||
|
||
@uref{https://tailon.readthedocs.io/, Tailon} is a web application for
|
||
viewing and searching log files.
|
||
|
||
The following example will configure the service with default values.
|
||
By default, Tailon can be accessed on port 8080 (@code{http://localhost:8080}).
|
||
|
||
@example
|
||
(service tailon-service-type)
|
||
@end example
|
||
|
||
The following example customises more of the Tailon configuration,
|
||
adding @command{sed} to the list of allowed commands.
|
||
|
||
@example
|
||
(service tailon-service-type
|
||
(tailon-configuration
|
||
(config-file
|
||
(tailon-configuration-file
|
||
(allowed-commands '("tail" "grep" "awk" "sed"))))))
|
||
@end example
|
||
|
||
|
||
@deftp {Data Type} tailon-configuration
|
||
Data type representing the configuration of Tailon.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{config-file} (default: @code{(tailon-configuration-file)})
|
||
The configuration file to use for Tailon. This can be set to a
|
||
@dfn{tailon-configuration-file} record value, or any gexp
|
||
(@pxref{G-Expressions}).
|
||
|
||
For example, to instead use a local file, the @code{local-file} function
|
||
can be used:
|
||
|
||
@example
|
||
(service tailon-service-type
|
||
(tailon-configuration
|
||
(config-file (local-file "./my-tailon.conf"))))
|
||
@end example
|
||
|
||
@item @code{package} (default: @code{tailon})
|
||
The tailon package to use.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} tailon-configuration-file
|
||
Data type representing the configuration options for Tailon.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{files} (default: @code{(list "/var/log")})
|
||
List of files to display. The list can include strings for a single file
|
||
or directory, or a list, where the first item is the name of a
|
||
subsection, and the remaining items are the files or directories in that
|
||
subsection.
|
||
|
||
@item @code{bind} (default: @code{"localhost:8080"})
|
||
Address and port to which Tailon should bind on.
|
||
|
||
@item @code{relative-root} (default: @code{#f})
|
||
URL path to use for Tailon, set to @code{#f} to not use a path.
|
||
|
||
@item @code{allow-transfers?} (default: @code{#t})
|
||
Allow downloading the log files in the web interface.
|
||
|
||
@item @code{follow-names?} (default: @code{#t})
|
||
Allow tailing of not-yet existent files.
|
||
|
||
@item @code{tail-lines} (default: @code{200})
|
||
Number of lines to read initially from each file.
|
||
|
||
@item @code{allowed-commands} (default: @code{(list "tail" "grep" "awk")})
|
||
Commands to allow running. By default, @code{sed} is disabled.
|
||
|
||
@item @code{debug?} (default: @code{#f})
|
||
Set @code{debug?} to @code{#t} to show debug messages.
|
||
|
||
@item @code{wrap-lines} (default: @code{#t})
|
||
Initial line wrapping state in the web interface. Set to @code{#t} to
|
||
initially wrap lines (the default), or to @code{#f} to initially not
|
||
wrap lines.
|
||
|
||
@item @code{http-auth} (default: @code{#f})
|
||
HTTP authentication type to use. Set to @code{#f} to disable
|
||
authentication (the default). Supported values are @code{"digest"} or
|
||
@code{"basic"}.
|
||
|
||
@item @code{users} (default: @code{#f})
|
||
If HTTP authentication is enabled (see @code{http-auth}), access will be
|
||
restricted to the credentials provided here. To configure users, use a
|
||
list of pairs, where the first element of the pair is the username, and
|
||
the 2nd element of the pair is the password.
|
||
|
||
@example
|
||
(tailon-configuration-file
|
||
(http-auth "basic")
|
||
(users '(("user1" . "password1")
|
||
("user2" . "password2"))))
|
||
@end example
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@node Kerberos Services
|
||
@subsubsection Kerberos Services
|
||
@cindex Kerberos
|
||
|
||
The @code{(gnu services kerberos)} module provides services relating to
|
||
the authentication protocol @dfn{Kerberos}.
|
||
|
||
@subsubheading Krb5 Service
|
||
|
||
Programs using a Kerberos client library normally
|
||
expect a configuration file in @file{/etc/krb5.conf}.
|
||
This service generates such a file from a definition provided in the
|
||
operating system declaration.
|
||
It does not cause any daemon to be started.
|
||
|
||
No ``keytab'' files are provided by this service---you must explicitly create them.
|
||
This service is known to work with the MIT client library, @code{mit-krb5}.
|
||
Other implementations have not been tested.
|
||
|
||
@defvr {Scheme Variable} krb5-service-type
|
||
A service type for Kerberos 5 clients.
|
||
@end defvr
|
||
|
||
@noindent
|
||
Here is an example of its use:
|
||
@lisp
|
||
(service krb5-service-type
|
||
(krb5-configuration
|
||
(default-realm "EXAMPLE.COM")
|
||
(allow-weak-crypto? #t)
|
||
(realms (list
|
||
(krb5-realm
|
||
(name "EXAMPLE.COM")
|
||
(admin-server "groucho.example.com")
|
||
(kdc "karl.example.com"))
|
||
(krb5-realm
|
||
(name "ARGRX.EDU")
|
||
(admin-server "kerb-admin.argrx.edu")
|
||
(kdc "keys.argrx.edu"))))))
|
||
@end lisp
|
||
|
||
@noindent
|
||
This example provides a Kerberos@tie{}5 client configuration which:
|
||
@itemize
|
||
@item Recognizes two realms, @i{viz:} ``EXAMPLE.COM'' and ``ARGRX.EDU'', both
|
||
of which have distinct administration servers and key distribution centers;
|
||
@item Will default to the realm ``EXAMPLE.COM'' if the realm is not explicitly
|
||
specified by clients;
|
||
@item Accepts services which only support encryption types known to be weak.
|
||
@end itemize
|
||
|
||
The @code{krb5-realm} and @code{krb5-configuration} types have many fields.
|
||
Only the most commonly used ones are described here.
|
||
For a full list, and more detailed explanation of each, see the MIT
|
||
@uref{http://web.mit.edu/kerberos/krb5-devel/doc/admin/conf_files/krb5_conf.html,,krb5.conf}
|
||
documentation.
|
||
|
||
|
||
@deftp {Data Type} krb5-realm
|
||
@cindex realm, kerberos
|
||
@table @asis
|
||
@item @code{name}
|
||
This field is a string identifying the name of the realm.
|
||
A common convention is to use the fully qualified DNS name of your organization,
|
||
converted to upper case.
|
||
|
||
@item @code{admin-server}
|
||
This field is a string identifying the host where the administration server is
|
||
running.
|
||
|
||
@item @code{kdc}
|
||
This field is a string identifying the key distribution center
|
||
for the realm.
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} krb5-configuration
|
||
|
||
@table @asis
|
||
@item @code{allow-weak-crypto?} (default: @code{#f})
|
||
If this flag is @code{#t} then services which only offer encryption algorithms
|
||
known to be weak will be accepted.
|
||
|
||
@item @code{default-realm} (default: @code{#f})
|
||
This field should be a string identifying the default Kerberos
|
||
realm for the client.
|
||
You should set this field to the name of your Kerberos realm.
|
||
If this value is @code{#f}
|
||
then a realm must be specified with every Kerberos principal when invoking programs
|
||
such as @command{kinit}.
|
||
|
||
@item @code{realms}
|
||
This should be a non-empty list of @code{krb5-realm} objects, which clients may
|
||
access.
|
||
Normally, one of them will have a @code{name} field matching the @code{default-realm}
|
||
field.
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@subsubheading PAM krb5 Service
|
||
@cindex pam-krb5
|
||
|
||
The @code{pam-krb5} service allows for login authentication and password
|
||
management via Kerberos.
|
||
You will need this service if you want PAM enabled applications to authenticate
|
||
users using Kerberos.
|
||
|
||
@defvr {Scheme Variable} pam-krb5-service-type
|
||
A service type for the Kerberos 5 PAM module.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} pam-krb5-configuration
|
||
Data type representing the configuration of the Kerberos 5 PAM module
|
||
This type has the following parameters:
|
||
@table @asis
|
||
@item @code{pam-krb5} (default: @code{pam-krb5})
|
||
The pam-krb5 package to use.
|
||
|
||
@item @code{minimum-uid} (default: @code{1000})
|
||
The smallest user ID for which Kerberos authentications should be attempted.
|
||
Local accounts with lower values will silently fail to authenticate.
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@node Web Services
|
||
@subsubsection Web Services
|
||
|
||
@cindex web
|
||
@cindex www
|
||
@cindex HTTP
|
||
The @code{(gnu services web)} module provides the nginx web server and
|
||
also a fastcgi wrapper daemon.
|
||
|
||
@deffn {Scheme Variable} nginx-service-type
|
||
Service type for the @uref{https://nginx.org/,NGinx} web server. The
|
||
value for this service type is a @code{<nginx-configuration>} record.
|
||
|
||
A simple example configuration is given below.
|
||
|
||
@example
|
||
(service nginx-service-type
|
||
(nginx-configuration
|
||
(server-blocks
|
||
(list (nginx-server-configuration
|
||
(server-name '("www.example.com"))
|
||
(root "/srv/http/www.example.com")
|
||
(https-port #f)
|
||
(ssl-certificate #f)
|
||
(ssl-certificate-key #f))))))
|
||
@end example
|
||
|
||
In addition to adding server blocks to the service configuration
|
||
directly, this service can be extended by other services to add server
|
||
blocks, as in this example:
|
||
|
||
@example
|
||
(simple-service 'my-extra-server nginx-service-type
|
||
(list (nginx-server-configuration
|
||
(https-port #f)
|
||
(ssl-certificate #f)
|
||
(ssl-certificate-key #f)
|
||
(root "/srv/http/extra-website")
|
||
(try-files (list "$uri" "$uri/index.html")))))
|
||
@end example
|
||
@end deffn
|
||
|
||
At startup, @command{nginx} has not yet read its configuration file, so
|
||
it uses a default file to log error messages. If it fails to load its
|
||
configuration file, that is where error messages are logged. After the
|
||
configuration file is loaded, the default error log file changes as per
|
||
configuration. In our case, startup error messages can be found in
|
||
@file{/var/run/nginx/logs/error.log}, and after configuration in
|
||
@file{/var/log/nginx/error.log}. The second location can be changed
|
||
with the @var{log-directory} configuration option.
|
||
|
||
@deffn {Data Type} nginx-configuration
|
||
This data type represents the configuration for NGinx. Some
|
||
configuration can be done through this and the other provided record
|
||
types, or alternatively, a config file can be provided.
|
||
|
||
@table @asis
|
||
@item @code{nginx} (default: @code{nginx})
|
||
The nginx package to use.
|
||
|
||
@item @code{log-directory} (default: @code{"/var/log/nginx"})
|
||
The directory to which NGinx will write log files.
|
||
|
||
@item @code{run-directory} (default: @code{"/var/run/nginx"})
|
||
The directory in which NGinx will create a pid file, and write temporary
|
||
files.
|
||
|
||
@item @code{server-blocks} (default: @code{'()})
|
||
A list of @dfn{server blocks} to create in the generated configuration
|
||
file, the elements should be of type
|
||
@code{<nginx-server-configuration>}.
|
||
|
||
The following example would setup NGinx to serve @code{www.example.com}
|
||
from the @code{/srv/http/www.example.com} directory, without using
|
||
HTTPS.
|
||
@example
|
||
(service nginx-service-type
|
||
(nginx-configuration
|
||
(server-blocks
|
||
(list (nginx-server-configuration
|
||
(server-name '("www.example.com"))
|
||
(root "/srv/http/www.example.com")
|
||
(https-port #f)
|
||
(ssl-certificate #f)
|
||
(ssl-certificate-key #f))))))
|
||
@end example
|
||
|
||
@item @code{upstream-blocks} (default: @code{'()})
|
||
A list of @dfn{upstream blocks} to create in the generated configuration
|
||
file, the elements should be of type
|
||
@code{<nginx-upstream-configuration>}.
|
||
|
||
Configuring upstreams through the @code{upstream-blocks} can be useful
|
||
when combined with @code{locations} in the
|
||
@code{<nginx-server-configuration>} records. The following example
|
||
creates a server configuration with one location configuration, that
|
||
will proxy requests to a upstream configuration, which will handle
|
||
requests with two servers.
|
||
|
||
@example
|
||
(service
|
||
nginx-service-type
|
||
(nginx-configuration
|
||
(server-blocks
|
||
(list (nginx-server-configuration
|
||
(server-name '("www.example.com"))
|
||
(root "/srv/http/www.example.com")
|
||
(https-port #f)
|
||
(ssl-certificate #f)
|
||
(ssl-certificate-key #f)
|
||
(locations
|
||
(list
|
||
(nginx-location-configuration
|
||
(uri "/path1")
|
||
(body '("proxy_pass http://server-proxy;"))))))))
|
||
(upstream-blocks
|
||
(list (nginx-upstream-configuration
|
||
(name "server-proxy")
|
||
(servers (list "server1.example.com"
|
||
"server2.example.com")))))))
|
||
@end example
|
||
|
||
@item @code{file} (default: @code{#f})
|
||
If a configuration @var{file} is provided, this will be used, rather than
|
||
generating a configuration file from the provided @code{log-directory},
|
||
@code{run-directory}, @code{server-blocks} and @code{upstream-blocks}. For
|
||
proper operation, these arguments should match what is in @var{file} to ensure
|
||
that the directories are created when the service is activated.
|
||
|
||
This can be useful if you have an existing configuration file, or it's
|
||
not possible to do what is required through the other parts of the
|
||
nginx-configuration record.
|
||
|
||
@end table
|
||
@end deffn
|
||
|
||
@deftp {Data Type} nginx-server-configuration
|
||
Data type representing the configuration of an nginx server block.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{http-port} (default: @code{80})
|
||
Nginx will listen for HTTP connection on this port. Set it at @code{#f} if
|
||
nginx should not listen for HTTP (non secure) connection for this
|
||
@dfn{server block}.
|
||
|
||
@item @code{https-port} (default: @code{443})
|
||
Nginx will listen for HTTPS connection on this port. Set it at @code{#f} if
|
||
nginx should not listen for HTTPS (secure) connection for this @dfn{server block}.
|
||
|
||
Note that nginx can listen for HTTP and HTTPS connections in the same
|
||
@dfn{server block}.
|
||
|
||
@item @code{server-name} (default: @code{(list 'default)})
|
||
A list of server names this server represents. @code{'default} represents the
|
||
default server for connections matching no other server.
|
||
|
||
@item @code{root} (default: @code{"/srv/http"})
|
||
Root of the website nginx will serve.
|
||
|
||
@item @code{locations} (default: @code{'()})
|
||
A list of @dfn{nginx-location-configuration} or
|
||
@dfn{nginx-named-location-configuration} records to use within this
|
||
server block.
|
||
|
||
@item @code{index} (default: @code{(list "index.html")})
|
||
Index files to look for when clients ask for a directory. If it cannot be found,
|
||
Nginx will send the list of files in the directory.
|
||
|
||
@item @code{try-files} (default: @code{'()})
|
||
A list of files whose existence is checked in the specified order.
|
||
@code{nginx} will use the first file it finds to process the request.
|
||
|
||
@item @code{ssl-certificate} (default: @code{"/etc/nginx/cert.pem"})
|
||
Where to find the certificate for secure connections. Set it to @code{#f} if
|
||
you don't have a certificate or you don't want to use HTTPS.
|
||
|
||
@item @code{ssl-certificate-key} (default: @code{"/etc/nginx/key.pem"})
|
||
Where to find the private key for secure connections. Set it to @code{#f} if
|
||
you don't have a key or you don't want to use HTTPS.
|
||
|
||
@item @code{server-tokens?} (default: @code{#f})
|
||
Whether the server should add its configuration to response.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} nginx-upstream-configuration
|
||
Data type representing the configuration of an nginx @code{upstream}
|
||
block. This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{name}
|
||
Name for this group of servers.
|
||
|
||
@item @code{servers}
|
||
Specify the addresses of the servers in the group. The address can be
|
||
specified as a IP address (e.g. @samp{127.0.0.1}), domain name
|
||
(e.g. @samp{backend1.example.com}) or a path to a UNIX socket using the
|
||
prefix @samp{unix:}. For addresses using an IP address or domain name,
|
||
the default port is 80, and a different port can be specified
|
||
explicitly.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} nginx-location-configuration
|
||
Data type representing the configuration of an nginx @code{location}
|
||
block. This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{uri}
|
||
URI which this location block matches.
|
||
|
||
@anchor{nginx-location-configuration body}
|
||
@item @code{body}
|
||
Body of the location block, specified as a string. This can contain many
|
||
configuration directives. For example, to pass requests to a upstream
|
||
server group defined using an @code{nginx-upstream-configuration} block,
|
||
the following directive would be specified in the body @samp{proxy_pass
|
||
http://upstream-name;}.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} nginx-named-location-configuration
|
||
Data type representing the configuration of an nginx named location
|
||
block. Named location blocks are used for request redirection, and not
|
||
used for regular request processing. This type has the following
|
||
parameters:
|
||
|
||
@table @asis
|
||
@item @code{name}
|
||
Name to identify this location block.
|
||
|
||
@item @code{body}
|
||
@xref{nginx-location-configuration body}, as the body for named location
|
||
blocks can be used in a similar way to the
|
||
@code{nginx-location-configuration body}. One restriction is that the
|
||
body of a named location block cannot contain location blocks.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@cindex fastcgi
|
||
@cindex fcgiwrap
|
||
FastCGI is an interface between the front-end and the back-end of a web
|
||
service. It is a somewhat legacy facility; new web services should
|
||
generally just talk HTTP between the front-end and the back-end.
|
||
However there are a number of back-end services such as PHP or the
|
||
optimized HTTP Git repository access that use FastCGI, so we have
|
||
support for it in Guix.
|
||
|
||
To use FastCGI, you configure the front-end web server (e.g., nginx) to
|
||
dispatch some subset of its requests to the fastcgi backend, which
|
||
listens on a local TCP or UNIX socket. There is an intermediary
|
||
@code{fcgiwrap} program that sits between the actual backend process and
|
||
the web server. The front-end indicates which backend program to run,
|
||
passing that information to the @code{fcgiwrap} process.
|
||
|
||
@defvr {Scheme Variable} fcgiwrap-service-type
|
||
A service type for the @code{fcgiwrap} FastCGI proxy.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} fcgiwrap-configuration
|
||
Data type representing the configuration of the @code{fcgiwrap} serice.
|
||
This type has the following parameters:
|
||
@table @asis
|
||
@item @code{package} (default: @code{fcgiwrap})
|
||
The fcgiwrap package to use.
|
||
|
||
@item @code{socket} (default: @code{tcp:127.0.0.1:9000})
|
||
The socket on which the @code{fcgiwrap} process should listen, as a
|
||
string. Valid @var{socket} values include
|
||
@code{unix:@var{/path/to/unix/socket}},
|
||
@code{tcp:@var{dot.ted.qu.ad}:@var{port}} and
|
||
@code{tcp6:[@var{ipv6_addr}]:port}.
|
||
|
||
@item @code{user} (default: @code{fcgiwrap})
|
||
@itemx @code{group} (default: @code{fcgiwrap})
|
||
The user and group names, as strings, under which to run the
|
||
@code{fcgiwrap} process. The @code{fastcgi} service will ensure that if
|
||
the user asks for the specific user or group names @code{fcgiwrap} that
|
||
the corresponding user and/or group is present on the system.
|
||
|
||
It is possible to configure a FastCGI-backed web service to pass HTTP
|
||
authentication information from the front-end to the back-end, and to
|
||
allow @code{fcgiwrap} to run the back-end process as a corresponding
|
||
local user. To enable this capability on the back-end., run
|
||
@code{fcgiwrap} as the @code{root} user and group. Note that this
|
||
capability also has to be configured on the front-end as well.
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@node DNS Services
|
||
@subsubsection DNS Services
|
||
@cindex DNS (domain name system)
|
||
@cindex domain name system (DNS)
|
||
|
||
The @code{(gnu services dns)} module provides services related to the
|
||
@dfn{domain name system} (DNS). It provides a server service for hosting
|
||
an @emph{authoritative} DNS server for multiple zones, slave or master.
|
||
This service uses @uref{https://www.knot-dns.cz/, Knot DNS}.
|
||
|
||
An example configuration of an authoritative server for two zones, one master
|
||
and one slave, is:
|
||
|
||
@lisp
|
||
(define-zone-entries example.org.zone
|
||
;; Name TTL Class Type Data
|
||
("@@" "" "IN" "A" "127.0.0.1")
|
||
("@@" "" "IN" "NS" "ns")
|
||
("ns" "" "IN" "A" "127.0.0.1"))
|
||
|
||
(define master-zone
|
||
(knot-zone-configuration
|
||
(domain "example.org")
|
||
(zone (zone-file
|
||
(origin "example.org")
|
||
(entries example.org.zone)))))
|
||
|
||
(define slave-zone
|
||
(knot-zone-configuration
|
||
(domain "plop.org")
|
||
(dnssec-policy "default")
|
||
(master (list "plop-master"))))
|
||
|
||
(define plop-master
|
||
(knot-remote-configuration
|
||
(id "plop-master")
|
||
(address (list "208.76.58.171"))))
|
||
|
||
(operating-system
|
||
;; ...
|
||
(services (cons* (service knot-service-type
|
||
(knot-confifguration
|
||
(remotes (list plop-master))
|
||
(zones (list master-zone slave-zone))))
|
||
;; ...
|
||
%base-services)))
|
||
@end lisp
|
||
|
||
@deffn {Scheme Variable} knot-service-type
|
||
This is the type for the Knot DNS server.
|
||
|
||
Knot DNS is an authoritative DNS server, meaning that it can serve multiple
|
||
zones, that is to say domain names you would buy from a registrar. This server
|
||
is not a resolver, meaning that it can only resolve names for which it is
|
||
authoritative. This server can be configured to serve zones as a master server
|
||
or a slave server as a per-zone basis. Slave zones will get their data from
|
||
masters, and will serve it as an authoritative server. From the point of view
|
||
of a resolver, there is no difference between master and slave.
|
||
|
||
The following data types are used to configure the Knot DNS server:
|
||
@end deffn
|
||
|
||
@deftp {Data Type} knot-key-configuration
|
||
Data type representing a key.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{id} (default: @code{""})
|
||
An identifier for other configuration fields to refer to this key. IDs must
|
||
be unique and must not be empty.
|
||
|
||
@item @code{algorithm} (default: @code{#f})
|
||
The algorithm to use. Choose between @code{#f}, @code{'hmac-md5},
|
||
@code{'hmac-sha1}, @code{'hmac-sha224}, @code{'hmac-sha256}, @code{'hmac-sha384}
|
||
and @code{'hmac-sha512}.
|
||
|
||
@item @code{secret} (default: @code{""})
|
||
The secret key itself.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} knot-acl-configuration
|
||
Data type representing an Access Control List (ACL) configuration.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{id} (default: @code{""})
|
||
An identifier for ether configuration fields to refer to this key. IDs must be
|
||
unique and must not be empty.
|
||
|
||
@item @code{address} (default: @code{'()})
|
||
An ordered list of IP addresses, network subnets, or network ranges represented
|
||
with strings. The query must match one of them. Empty value means that
|
||
address match is not required.
|
||
|
||
@item @code{key} (default: @code{'()})
|
||
An ordered list of references to keys represented with strings. The string
|
||
must match a key ID defined in a @code{knot-key-configuration}. No key means
|
||
that a key is not require to match that ACL.
|
||
|
||
@item @code{action} (default: @code{'()})
|
||
An ordered list of actions that are permitted or forbidden by this ACL. Possible
|
||
values are lists of zero or more elements from @code{'transfer}, @code{'notify}
|
||
and @code{'update}.
|
||
|
||
@item @code{deny?} (default: @code{#f})
|
||
When true, the ACL defines restrictions. Listed actions are forbidden. When
|
||
false, listed actions are allowed.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} zone-entry
|
||
Data type represnting a record entry in a zone file.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{name} (default: @code{"@@"})
|
||
The name of the record. @code{"@@"} refers to the origin of the zone. Names
|
||
are relative to the origin of the zone. For example, in the @code{example.org}
|
||
zone, @code{"ns.example.org"} actually refers to @code{ns.example.org.example.org}.
|
||
Names ending with a dot are absolute, which means that @code{"ns.example.org."}
|
||
refers to @code{ns.example.org}.
|
||
|
||
@item @code{ttl} (default: @code{""})
|
||
The Time-To-Live (TTL) of this record. If not set, the default TTL is used.
|
||
|
||
@item @code{class} (default: @code{"IN"})
|
||
The class of the record. Knot currently supports only @code{"IN"} and
|
||
partially @code{"CH"}.
|
||
|
||
@item @code{type} (default: @code{"A"})
|
||
The type of the record. Common types include A (IPv4 address), AAAA (IPv6
|
||
address), NS (Name Server) and MX (Mail eXchange). Many other types are
|
||
defined.
|
||
|
||
@item @code{data} (default: @code{""})
|
||
The data contained in the record. For instance an IP address associated with
|
||
an A record, or a domain name associated with an NS record. Remember that
|
||
domain names are relative to the origin unless they end with a dot.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} zone-file
|
||
Data type representing the content of a zone file.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{entries} (default: @code{'()})
|
||
The list of entries. The SOA record is taken care of, so you don't need to
|
||
put it in the list of entries. This list should probably contain an entry
|
||
for your primary authoritative DNS server. Other than using a list of entries
|
||
directly, you can use @code{define-zone-entries} to define a object containing
|
||
the list of entries more easily, that you can later pass to the @code{entries}
|
||
field of the @code{zone-file}.
|
||
|
||
@item @code{origin} (default: @code{""})
|
||
The name of your zone. This parameter cannot be empty.
|
||
|
||
@item @code{ns} (default: @code{"ns"})
|
||
The domain of your primary authoritative DNS server. The name is relative to
|
||
the origin, unless it ends with a dot. It is mandatory that this primary
|
||
DNS server corresponds to an NS record in the zone and that it is associated
|
||
to an IP address in the list of entries.
|
||
|
||
@item @code{mail} (default: @code{"hostmaster"})
|
||
An email address people can contact you at, as the owner of the zone. This
|
||
is translated as @code{<mail>@@<origin>}.
|
||
|
||
@item @code{serial} (default: @code{1})
|
||
The serial number of the zone. As this is used to keep track of changes by
|
||
both slaves and resolvers, it is mandatory that it @emph{never} decreases.
|
||
Always increment it when you make a change in your zone.
|
||
|
||
@item @code{refresh} (default: @code{(* 2 24 3600)})
|
||
The frequency at which slaves will do a zone transfer. This value is a number
|
||
of seconds. It can be computed by multiplications or with
|
||
@code{(string->duration)}.
|
||
|
||
@item @code{retry} (default: @code{(* 15 60)})
|
||
The period after which a slave will retry to contact its master when it fails
|
||
to do so a first time.
|
||
|
||
@item @code{expiry} (default: @code{(* 14 24 3600)})
|
||
Default TTL of records. Existing records are considered correct for at most
|
||
this amount of time. After this period, resolvers will invalidate their cache
|
||
and check again that it still exists.
|
||
|
||
@item @code{nx} (default: @code{3600})
|
||
Default TTL of inexistant records. This delay is usually short because you want
|
||
your new domains to reach everyone quickly.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} knot-remote-configuration
|
||
Data type representing a remote configuration.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{id} (default: @code{""})
|
||
An identifier for other configuration fields to refer to this remote. IDs must
|
||
be unique and must not be empty.
|
||
|
||
@item @code{address} (default: @code{'()})
|
||
An ordered list of destination IP addresses. Addresses are tried in sequence.
|
||
An optional port can be given with the @@ separator. For instance:
|
||
@code{(list "1.2.3.4" "2.3.4.5@@53")}. Default port is 53.
|
||
|
||
@item @code{via} (default: @code{'()})
|
||
An ordered list of source IP addresses. An empty list will have Knot choose
|
||
an appropriate source IP. An optional port can be given with the @@ separator.
|
||
The default is to choose at random.
|
||
|
||
@item @code{key} (default: @code{#f})
|
||
A reference to a key, that is a string containing the identifier of a key
|
||
defined in a @code{knot-key-configuration} field.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} knot-keystore-configuration
|
||
Data type representing a keystore to hold dnssec keys.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{id} (default: @code{""})
|
||
The id of the keystore. It must not be empty.
|
||
|
||
@item @code{backend} (default: @code{'pem})
|
||
The backend to store the keys in. Can be @code{'pem} or @code{'pkcs11}.
|
||
|
||
@item @code{config} (default: @code{"/var/lib/knot/keys/keys"})
|
||
The configuration string of the backend. An example for the PKCS#11 is:
|
||
@code{"pkcs11:token=knot;pin-value=1234 /gnu/store/.../lib/pkcs11/libsofthsm2.so"}.
|
||
For the pem backend, the string reprensents a path in the filesystem.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} knot-policy-configuration
|
||
Data type representing a dnssec policy. Knot DNS is able to automatically
|
||
sign your zones. It can either generate and manage your keys automatically or
|
||
use keys that you generate.
|
||
|
||
Dnssec is usually implemented using two keys: a Key Signing Key (KSK) that is
|
||
used to sign the second, and a Zone Signing Key (ZSK) that is used to sign the
|
||
zone. In order to be trusted, the KSK needs to be present in the parent zone
|
||
(usually a top-level domain). If your registrar supports dnssec, you will
|
||
have to send them your KSK's hash so they can add a DS record in their zone.
|
||
This is not automated and need to be done each time you change your KSK.
|
||
|
||
The policy also defines the lifetime of keys. Usually, ZSK can be changed
|
||
easily and use weaker cryptographic functions (they use lower parameters) in
|
||
order to sign records quickly, so they are changed often. The KSK however
|
||
requires manual interaction with the registrar, so they are changed less often
|
||
and use stronger parameters because they sign only one record.
|
||
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{id} (default: @code{""})
|
||
The id of the policy. It must not be empty.
|
||
|
||
@item @code{keystore} (default: @code{"default"})
|
||
A reference to a keystore, that is a string containing the identifier of a
|
||
keystore defined in a @code{knot-keystore-configuration} field. The
|
||
@code{"default"} identifier means the default keystore (a kasp database that
|
||
was setup by this service).
|
||
|
||
@item @code{manual?} (default: @code{#f})
|
||
Whether the key management is manual or automatic.
|
||
|
||
@item @code{single-type-signing?} (default: @code{#f})
|
||
When @code{#t}, use the Single-Type Signing Scheme.
|
||
|
||
@item @code{algorithm} (default: @code{"ecdsap256sha256"})
|
||
An algorithm of signing keys and issued signatures.
|
||
|
||
@item @code{ksk-size} (default: @code{256})
|
||
The length of the KSK. Note that this value is correct for the default
|
||
algorithm, but would be unsecure for other algorithms.
|
||
|
||
@item @code{zsk-size} (default: @code{256})
|
||
The length of the ZSK. Note that this value is correct for the default
|
||
algorithm, but would be unsecure for other algorithms.
|
||
|
||
@item @code{dnskey-ttl} (default: @code{'default})
|
||
The TTL value for DNSKEY records added into zone apex. The special
|
||
@code{'default} value means same as the zone SOA TTL.
|
||
|
||
@item @code{zsk-lifetime} (default: @code{(* 30 24 3600)})
|
||
The period between ZSK publication and the next rollover initiation.
|
||
|
||
@item @code{propagation-delay} (default: @code{(* 24 3600)})
|
||
An extra delay added for each key rollover step. This value should be high
|
||
enough to cover propagation of data from the master server to all slaves.
|
||
|
||
@item @code{rrsig-lifetime} (default: @code{(* 14 24 3600)})
|
||
A validity period of newly issued signatures.
|
||
|
||
@item @code{rrsig-refresh} (default: @code{(* 7 24 3600)})
|
||
A period how long before a signature expiration the signature will be refreshed.
|
||
|
||
@item @code{nsec3?} (default: @code{#f})
|
||
When @code{#t}, NSEC3 will be used instead of NSEC.
|
||
|
||
@item @code{nsec3-iterations} (default: @code{5})
|
||
The number of additional times the hashing is performed.
|
||
|
||
@item @code{nsec3-salt-length} (default: @code{8})
|
||
The length of a salt field in octets, which is appended to the original owner
|
||
name before hashing.
|
||
|
||
@item @code{nsec3-salt-lifetime} (default: @code{(* 30 24 3600)})
|
||
The validity period of newly issued salt field.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} knot-zone-configuration
|
||
Data type representing a zone served by Knot.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{domain} (default: @code{""})
|
||
The domain served by this configuration. It must not be empty.
|
||
|
||
@item @code{file} (default: @code{""})
|
||
The file where this zone is saved. This parameter is ignored by master zones.
|
||
Empty means default location that depends on the domain name.
|
||
|
||
@item @code{zone} (default: @code{(zone-file)})
|
||
The content of the zone file. This parameter is ignored by slave zones. It
|
||
must contain a zone-file record.
|
||
|
||
@item @code{master} (default: @code{'()})
|
||
A list of master remotes. When empty, this zone is a master. When set, this
|
||
zone is a slave. This is a list of remotes identifiers.
|
||
|
||
@item @code{ddns-master} (default: @code{#f})
|
||
The main master. When empty, it defaults to the first master in the list of
|
||
masters.
|
||
|
||
@item @code{notify} (default: @code{'()})
|
||
A list of slave remote identifiers.
|
||
|
||
@item @code{acl} (default: @code{'()})
|
||
A list of acl identifiers.
|
||
|
||
@item @code{semantic-checks?} (default: @code{#f})
|
||
When set, this adds more semantic checks to the zone.
|
||
|
||
@item @code{disable-any?} (default: @code{#f})
|
||
When set, this forbids queries of the ANY type.
|
||
|
||
@item @code{zonefile-sync} (default: @code{0})
|
||
The delay between a modification in memory and on disk. 0 means immediate
|
||
synchronization.
|
||
|
||
@item @code{serial-policy} (default: @code{'increment})
|
||
A policy between @code{'increment} and @code{'unixtime}.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} knot-configuration
|
||
Data type representing the Knot configuration.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{knot} (default: @code{knot})
|
||
The Knot package.
|
||
|
||
@item @code{run-directory} (default: @code{"/var/run/knot"})
|
||
The run directory. This directory will be used for pid file and sockets.
|
||
|
||
@item @code{listen-v4} (default: @code{"0.0.0.0"})
|
||
An ip address on which to listen.
|
||
|
||
@item @code{listen-v6} (default: @code{"::"})
|
||
An ip address on which to listen.
|
||
|
||
@item @code{listen-port} (default: @code{53})
|
||
A port on which to listen.
|
||
|
||
@item @code{keys} (default: @code{'()})
|
||
The list of knot-key-configuration used by this configuration.
|
||
|
||
@item @code{acls} (default: @code{'()})
|
||
The list of knot-acl-configuration used by this configuration.
|
||
|
||
@item @code{remotes} (default: @code{'()})
|
||
The list of knot-remote-configuration used by this configuration.
|
||
|
||
@item @code{zones} (default: @code{'()})
|
||
The list of knot-zone-configuration used by this configuration.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@node VPN Services
|
||
@subsubsection VPN Services
|
||
@cindex VPN (virtual private network)
|
||
@cindex virtual private network (VPN)
|
||
|
||
The @code{(gnu services vpn)} module provides services related to
|
||
@dfn{virtual private networks} (VPNs). It provides a @emph{client} service for
|
||
your machine to connect to a VPN, and a @emph{servire} service for your machine
|
||
to host a VPN. Both services use @uref{https://openvpn.net/, OpenVPN}.
|
||
|
||
@deffn {Scheme Procedure} openvpn-client-service @
|
||
[#:config (openvpn-client-configuration)]
|
||
|
||
Return a service that runs @command{openvpn}, a VPN daemon, as a client.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} openvpn-server-service @
|
||
[#:config (openvpn-server-configuration)]
|
||
|
||
Return a service that runs @command{openvpn}, a VPN daemon, as a server.
|
||
|
||
Both can be run simultaneously.
|
||
@end deffn
|
||
|
||
@c %automatically generated documentation
|
||
|
||
Available @code{openvpn-client-configuration} fields are:
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} package openvpn
|
||
The OpenVPN package.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} string pid-file
|
||
The OpenVPN pid file.
|
||
|
||
Defaults to @samp{"/var/run/openvpn/openvpn.pid"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} proto proto
|
||
The protocol (UDP or TCP) used to open a channel between clients and
|
||
servers.
|
||
|
||
Defaults to @samp{udp}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} dev dev
|
||
The device type used to represent the VPN connection.
|
||
|
||
Defaults to @samp{tun}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} string ca
|
||
The certificate authority to check connections against.
|
||
|
||
Defaults to @samp{"/etc/openvpn/ca.crt"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} string cert
|
||
The certificate of the machine the daemon is running on. It should be
|
||
signed by the authority given in @code{ca}.
|
||
|
||
Defaults to @samp{"/etc/openvpn/client.crt"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} string key
|
||
The key of the machine the daemon is running on. It must be the key whose
|
||
certificate is @code{cert}.
|
||
|
||
Defaults to @samp{"/etc/openvpn/client.key"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} boolean comp-lzo?
|
||
Whether to use the lzo compression algorithm.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} boolean persist-key?
|
||
Don't re-read key files across SIGUSR1 or --ping-restart.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} boolean persist-tun?
|
||
Don't close and reopen TUN/TAP device or run up/down scripts across
|
||
SIGUSR1 or --ping-restart restarts.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} number verbosity
|
||
Verbosity level.
|
||
|
||
Defaults to @samp{3}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} tls-auth-client tls-auth
|
||
Add an additional layer of HMAC authentication on top of the TLS control
|
||
channel to protect against DoS attacks.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} key-usage verify-key-usage?
|
||
Whether to check the server certificate has server usage extension.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} bind bind?
|
||
Bind to a specific local port number.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} resolv-retry resolv-retry?
|
||
Retry resolving server address.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-client-configuration} parameter} openvpn-remote-list remote
|
||
A list of remote servers to connect to.
|
||
|
||
Defaults to @samp{()}.
|
||
|
||
Available @code{openvpn-remote-configuration} fields are:
|
||
|
||
@deftypevr {@code{openvpn-remote-configuration} parameter} string name
|
||
Server name.
|
||
|
||
Defaults to @samp{"my-server"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-remote-configuration} parameter} number port
|
||
Port number the server listens to.
|
||
|
||
Defaults to @samp{1194}.
|
||
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
@c %end of automatic openvpn-client documentation
|
||
|
||
@c %automatically generated documentation
|
||
|
||
Available @code{openvpn-server-configuration} fields are:
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} package openvpn
|
||
The OpenVPN package.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} string pid-file
|
||
The OpenVPN pid file.
|
||
|
||
Defaults to @samp{"/var/run/openvpn/openvpn.pid"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} proto proto
|
||
The protocol (UDP or TCP) used to open a channel between clients and
|
||
servers.
|
||
|
||
Defaults to @samp{udp}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} dev dev
|
||
The device type used to represent the VPN connection.
|
||
|
||
Defaults to @samp{tun}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} string ca
|
||
The certificate authority to check connections against.
|
||
|
||
Defaults to @samp{"/etc/openvpn/ca.crt"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} string cert
|
||
The certificate of the machine the daemon is running on. It should be
|
||
signed by the authority given in @code{ca}.
|
||
|
||
Defaults to @samp{"/etc/openvpn/client.crt"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} string key
|
||
The key of the machine the daemon is running on. It must be the key whose
|
||
certificate is @code{cert}.
|
||
|
||
Defaults to @samp{"/etc/openvpn/client.key"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} boolean comp-lzo?
|
||
Whether to use the lzo compression algorithm.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} boolean persist-key?
|
||
Don't re-read key files across SIGUSR1 or --ping-restart.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} boolean persist-tun?
|
||
Don't close and reopen TUN/TAP device or run up/down scripts across
|
||
SIGUSR1 or --ping-restart restarts.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} number verbosity
|
||
Verbosity level.
|
||
|
||
Defaults to @samp{3}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} tls-auth-server tls-auth
|
||
Add an additional layer of HMAC authentication on top of the TLS control
|
||
channel to protect against DoS attacks.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} number port
|
||
Specifies the port number on which the server listens.
|
||
|
||
Defaults to @samp{1194}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} ip-mask server
|
||
An ip and mask specifying the subnet inside the virtual network.
|
||
|
||
Defaults to @samp{"10.8.0.0 255.255.255.0"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} cidr6 server-ipv6
|
||
A CIDR notation specifying the IPv6 subnet inside the virtual network.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} string dh
|
||
The Diffie-Hellman parameters file.
|
||
|
||
Defaults to @samp{"/etc/openvpn/dh2048.pem"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} string ifconfig-pool-persist
|
||
The file that records client IPs.
|
||
|
||
Defaults to @samp{"/etc/openvpn/ipp.txt"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} gateway redirect-gateway?
|
||
When true, the server will act as a gateway for its clients.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} boolean client-to-client?
|
||
When true, clients are allowed to talk to each other inside the VPN.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} keepalive keepalive
|
||
Causes ping-like messages to be sent back and forth over the link so
|
||
that each side knows when the other side has gone down. @code{keepalive}
|
||
requires a pair. The first element is the period of the ping sending,
|
||
and the second element is the timeout before considering the other side
|
||
down.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} number max-clients
|
||
The maximum number of clients.
|
||
|
||
Defaults to @samp{100}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} string status
|
||
The status file. This file shows a small report on current connection.
|
||
It is truncated and rewritten every minute.
|
||
|
||
Defaults to @samp{"/var/run/openvpn/status"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-server-configuration} parameter} openvpn-ccd-list client-config-dir
|
||
The list of configuration for some clients.
|
||
|
||
Defaults to @samp{()}.
|
||
|
||
Available @code{openvpn-ccd-configuration} fields are:
|
||
|
||
@deftypevr {@code{openvpn-ccd-configuration} parameter} string name
|
||
Client name.
|
||
|
||
Defaults to @samp{"client"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-ccd-configuration} parameter} ip-mask iroute
|
||
Client own network
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{openvpn-ccd-configuration} parameter} ip-mask ifconfig-push
|
||
Client VPN IP.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@end deftypevr
|
||
|
||
|
||
@c %end of automatic openvpn-server documentation
|
||
|
||
|
||
@node Network File System
|
||
@subsubsection Network File System
|
||
@cindex NFS
|
||
|
||
The @code{(gnu services nfs)} module provides the following services,
|
||
which are most commonly used in relation to mounting or exporting
|
||
directory trees as @dfn{network file systems} (NFS).
|
||
|
||
@subsubheading RPC Bind Service
|
||
@cindex rpcbind
|
||
|
||
The RPC Bind service provides a facility to map program numbers into
|
||
universal addresses.
|
||
Many NFS related services use this facility. Hence it is automatically
|
||
started when a dependent service starts.
|
||
|
||
@defvr {Scheme Variable} rpcbind-service-type
|
||
A service type for the RPC portmapper daemon.
|
||
@end defvr
|
||
|
||
|
||
@deftp {Data Type} rpcbind-configuration
|
||
Data type representing the configuration of the RPC Bind Service.
|
||
This type has the following parameters:
|
||
@table @asis
|
||
@item @code{rpcbind} (default: @code{rpcbind})
|
||
The rpcbind package to use.
|
||
|
||
@item @code{warm-start?} (default: @code{#t})
|
||
If this parameter is @code{#t}, then the daemon will read a
|
||
state file on startup thus reloading state information saved by a previous
|
||
instance.
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@subsubheading Pipefs Pseudo File System
|
||
@cindex pipefs
|
||
@cindex rpc_pipefs
|
||
|
||
The pipefs file system is used to transfer NFS related data
|
||
between the kernel and user space programs.
|
||
|
||
@defvr {Scheme Variable} pipefs-service-type
|
||
A service type for the pipefs pseudo file system.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} pipefs-configuration
|
||
Data type representing the configuration of the pipefs pseudo file system service.
|
||
This type has the following parameters:
|
||
@table @asis
|
||
@item @code{mount-point} (default: @code{"/var/lib/nfs/rpc_pipefs"})
|
||
The directory to which the file system is to be attached.
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@subsubheading GSS Daemon Service
|
||
@cindex GSSD
|
||
@cindex GSS
|
||
@cindex global security system
|
||
|
||
The @dfn{global security system} (GSS) daemon provides strong security for RPC
|
||
based protocols.
|
||
Before exchanging RPC requests an RPC client must establish a security
|
||
context. Typically this is done using the Kerberos command @command{kinit}
|
||
or automatically at login time using PAM services (@pxref{Kerberos Services}).
|
||
|
||
@defvr {Scheme Variable} gss-service-type
|
||
A service type for the Global Security System (GSS) daemon.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} gss-configuration
|
||
Data type representing the configuration of the GSS daemon service.
|
||
This type has the following parameters:
|
||
@table @asis
|
||
@item @code{nfs-utils} (default: @code{nfs-utils})
|
||
The package in which the @command{rpc.gssd} command is to be found.
|
||
|
||
@item @code{pipefs-directory} (default: @code{"/var/lib/nfs/rpc_pipefs"})
|
||
The directory where the pipefs file system is mounted.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
|
||
@subsubheading IDMAP Daemon Service
|
||
@cindex idmapd
|
||
@cindex name mapper
|
||
|
||
The idmap daemon service provides mapping between user IDs and user names.
|
||
Typically it is required in order to access file systems mounted via NFSv4.
|
||
|
||
@defvr {Scheme Variable} idmap-service-type
|
||
A service type for the Identity Mapper (IDMAP) daemon.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} idmap-configuration
|
||
Data type representing the configuration of the IDMAP daemon service.
|
||
This type has the following parameters:
|
||
@table @asis
|
||
@item @code{nfs-utils} (default: @code{nfs-utils})
|
||
The package in which the @command{rpc.idmapd} command is to be found.
|
||
|
||
@item @code{pipefs-directory} (default: @code{"/var/lib/nfs/rpc_pipefs"})
|
||
The directory where the pipefs file system is mounted.
|
||
|
||
@item @code{domain} (default: @code{#f})
|
||
The local NFSv4 domain name.
|
||
This must be a string or @code{#f}.
|
||
If it is @code{#f} then the daemon will use the host's fully qualified domain name.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@node Continuous Integration
|
||
@subsubsection Continuous Integration
|
||
|
||
@cindex continuous integration
|
||
@uref{https://notabug.org/mthl/cuirass, Cuirass} is a continuous
|
||
integration tool for Guix. It can be used both for development and for
|
||
providing substitutes to others (@pxref{Substitutes}).
|
||
|
||
The @code{(gnu services cuirass)} module provides the following service.
|
||
|
||
@defvr {Scheme Procedure} cuirass-service-type
|
||
The type of the Cuirass service. Its value must be a
|
||
@code{cuirass-configuration} object, as described below.
|
||
@end defvr
|
||
|
||
To add build jobs, you have to set the @code{specifications} field of
|
||
the configuration. Here is an example of a service defining a build job
|
||
based on a specification that can be found in Cuirass source tree. This
|
||
service polls the Guix repository and builds a subset of the Guix
|
||
packages, as prescribed in the @file{gnu-system.scm} example spec:
|
||
|
||
@example
|
||
(let ((spec #~((#:name . "guix")
|
||
(#:url . "git://git.savannah.gnu.org/guix.git")
|
||
(#:load-path . ".")
|
||
(#:file . "build-aux/cuirass/gnu-system.scm")
|
||
(#:proc . cuirass-jobs)
|
||
(#:arguments (subset . "hello"))
|
||
(#:branch . "master"))))
|
||
(service cuirass-service-type
|
||
(cuirass-configuration
|
||
(specifications #~(list '#$spec)))))
|
||
@end example
|
||
|
||
While information related to build jobs is located directly in the
|
||
specifications, global settings for the @command{cuirass} process are
|
||
accessible in other @code{cuirass-configuration} fields.
|
||
|
||
@deftp {Data Type} cuirass-configuration
|
||
Data type representing the configuration of Cuirass.
|
||
|
||
@table @asis
|
||
@item @code{log-file} (default: @code{"/var/log/cuirass.log"})
|
||
Location of the log file.
|
||
|
||
@item @code{cache-directory} (default: @code{"/var/cache/cuirass"})
|
||
Location of the repository cache.
|
||
|
||
@item @code{user} (default: @code{"cuirass"})
|
||
Owner of the @code{cuirass} process.
|
||
|
||
@item @code{group} (default: @code{"cuirass"})
|
||
Owner's group of the @code{cuirass} process.
|
||
|
||
@item @code{interval} (default: @code{60})
|
||
Number of seconds between the poll of the repositories followed by the
|
||
Cuirass jobs.
|
||
|
||
@item @code{database} (default: @code{"/var/run/cuirass/cuirass.db"})
|
||
Location of sqlite database which contains the build results and previously
|
||
added specifications.
|
||
|
||
@item @code{port} (default: @code{8081})
|
||
Port number used by the HTTP server.
|
||
|
||
@item --listen=@var{host}
|
||
Listen on the network interface for @var{host}. The default is to
|
||
accept connections from localhost.
|
||
|
||
@item @code{specifications} (default: @code{#~'()})
|
||
A gexp (@pxref{G-Expressions}) that evaluates to a list of specifications,
|
||
where a specification is an association list
|
||
(@pxref{Associations Lists,,, guile, GNU Guile Reference Manual}) whose
|
||
keys are keywords (@code{#:keyword-example}) as shown in the example
|
||
above.
|
||
|
||
@item @code{use-substitutes?} (default: @code{#f})
|
||
This allows using substitutes to avoid building every dependencies of a job
|
||
from source.
|
||
|
||
@item @code{one-shot?} (default: @code{#f})
|
||
Only evaluate specifications and build derivations once.
|
||
|
||
@item @code{fallback?} (default: @code{#f})
|
||
When substituting a pre-built binary fails, fall back to building
|
||
packages locally.
|
||
|
||
@item @code{load-path} (default: @code{'()})
|
||
This allows users to define their own packages and make them visible to
|
||
cuirass as in @command{guix build} command.
|
||
|
||
@item @code{cuirass} (default: @code{cuirass})
|
||
The Cuirass package to use.
|
||
@end table
|
||
@end deftp
|
||
|
||
@node Power management Services
|
||
@subsubsection Power management Services
|
||
|
||
@cindex power management with TLP
|
||
The @code{(gnu services pm)} module provides a Guix service definition
|
||
for the Linux power management tool TLP.
|
||
|
||
TLP enables various powersaving modes in userspace and kernel.
|
||
Contrary to @code{upower-service}, it is not a passive,
|
||
monitoring tool, as it will apply custom settings each time a new power
|
||
source is detected. More information can be found at
|
||
@uref{http://linrunner.de/en/tlp/tlp.html, TLP home page}.
|
||
|
||
@deffn {Scheme Variable} tlp-service-type
|
||
The service type for the TLP tool. Its value should be a valid
|
||
TLP configuration (see below). To use the default settings, simply
|
||
write:
|
||
@example
|
||
(service tlp-service-type)
|
||
@end example
|
||
@end deffn
|
||
|
||
By default TLP does not need much configuration but most TLP parameters
|
||
can be tweaked using @code{tlp-configuration}.
|
||
|
||
Each parameter definition is preceded by its type; for example,
|
||
@samp{boolean foo} indicates that the @code{foo} parameter
|
||
should be specified as a boolean. Types starting with
|
||
@code{maybe-} denote parameters that won't show up in TLP config file
|
||
when their value is @code{'disabled}.
|
||
|
||
@c The following documentation was initially generated by
|
||
@c (generate-tlp-documentation) in (gnu services pm). Manually maintained
|
||
@c documentation is better, so we shouldn't hesitate to edit below as
|
||
@c needed. However if the change you want to make to this documentation
|
||
@c can be done in an automated way, it's probably easier to change
|
||
@c (generate-documentation) than to make it below and have to deal with
|
||
@c the churn as TLP updates.
|
||
|
||
Available @code{tlp-configuration} fields are:
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} package tlp
|
||
The TLP package.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} boolean tlp-enable?
|
||
Set to true if you wish to enable TLP.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string tlp-default-mode
|
||
Default mode when no power supply can be detected. Alternatives are AC
|
||
and BAT.
|
||
|
||
Defaults to @samp{"AC"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} non-negative-integer disk-idle-secs-on-ac
|
||
Number of seconds Linux kernel has to wait after the disk goes idle,
|
||
before syncing on AC.
|
||
|
||
Defaults to @samp{0}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} non-negative-integer disk-idle-secs-on-bat
|
||
Same as @code{disk-idle-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{2}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} non-negative-integer max-lost-work-secs-on-ac
|
||
Dirty pages flushing periodicity, expressed in seconds.
|
||
|
||
Defaults to @samp{15}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} non-negative-integer max-lost-work-secs-on-bat
|
||
Same as @code{max-lost-work-secs-on-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{60}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-space-separated-string-list cpu-scaling-governor-on-ac
|
||
CPU frequency scaling governor on AC mode. With intel_pstate driver,
|
||
alternatives are powersave and performance. With acpi-cpufreq driver,
|
||
alternatives are ondemand, powersave, performance and conservative.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-space-separated-string-list cpu-scaling-governor-on-bat
|
||
Same as @code{cpu-scaling-governor-on-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-non-negative-integer cpu-scaling-min-freq-on-ac
|
||
Set the min available frequency for the scaling governor on AC.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-non-negative-integer cpu-scaling-max-freq-on-ac
|
||
Set the max available frequency for the scaling governor on AC.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-non-negative-integer cpu-scaling-min-freq-on-bat
|
||
Set the min available frequency for the scaling governor on BAT.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-non-negative-integer cpu-scaling-max-freq-on-bat
|
||
Set the max available frequency for the scaling governor on BAT.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-non-negative-integer cpu-min-perf-on-ac
|
||
Limit the min P-state to control the power dissipation of the CPU, in AC
|
||
mode. Values are stated as a percentage of the available performance.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-non-negative-integer cpu-max-perf-on-ac
|
||
Limit the max P-state to control the power dissipation of the CPU, in AC
|
||
mode. Values are stated as a percentage of the available performance.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-non-negative-integer cpu-min-perf-on-bat
|
||
Same as @code{cpu-min-perf-on-ac} on BAT mode.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-non-negative-integer cpu-max-perf-on-bat
|
||
Same as @code{cpu-max-perf-on-ac} on BAT mode.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-boolean cpu-boost-on-ac?
|
||
Enable CPU turbo boost feature on AC mode.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-boolean cpu-boost-on-bat?
|
||
Same as @code{cpu-boost-on-ac?} on BAT mode.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} boolean sched-powersave-on-ac?
|
||
Allow Linux kernel to minimize the number of CPU cores/hyper-threads
|
||
used under light load conditions.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} boolean sched-powersave-on-bat?
|
||
Same as @code{sched-powersave-on-ac?} but on BAT mode.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} boolean nmi-watchdog?
|
||
Enable Linux kernel NMI watchdog.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-string phc-controls
|
||
For Linux kernels with PHC patch applied, change CPU voltages. An
|
||
example value would be @samp{"F:V F:V F:V F:V"}.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string energy-perf-policy-on-ac
|
||
Set CPU performance versus energy saving policy on AC. Alternatives are
|
||
performance, normal, powersave.
|
||
|
||
Defaults to @samp{"performance"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string energy-perf-policy-on-bat
|
||
Same as @code{energy-perf-policy-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{"powersave"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} space-separated-string-list disks-devices
|
||
Hard disk devices.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} space-separated-string-list disk-apm-level-on-ac
|
||
Hard disk advanced power management level.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} space-separated-string-list disk-apm-level-on-bat
|
||
Same as @code{disk-apm-bat} but on BAT mode.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-space-separated-string-list disk-spindown-timeout-on-ac
|
||
Hard disk spin down timeout. One value has to be specified for each
|
||
declared hard disk.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-space-separated-string-list disk-spindown-timeout-on-bat
|
||
Same as @code{disk-spindown-timeout-on-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-space-separated-string-list disk-iosched
|
||
Select IO scheduler for disk devices. One value has to be specified for
|
||
each declared hard disk. Example alternatives are cfq, deadline and
|
||
noop.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string sata-linkpwr-on-ac
|
||
SATA aggressive link power management (ALPM) level. Alternatives are
|
||
min_power, medium_power, max_performance.
|
||
|
||
Defaults to @samp{"max_performance"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string sata-linkpwr-on-bat
|
||
Same as @code{sata-linkpwr-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{"min_power"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-string sata-linkpwr-blacklist
|
||
Exclude specified SATA host devices for link power management.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-on-off-boolean ahci-runtime-pm-on-ac?
|
||
Enable Runtime Power Management for AHCI controller and disks on AC
|
||
mode.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-on-off-boolean ahci-runtime-pm-on-bat?
|
||
Same as @code{ahci-runtime-pm-on-ac} on BAT mode.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} non-negative-integer ahci-runtime-pm-timeout
|
||
Seconds of inactivity before disk is suspended.
|
||
|
||
Defaults to @samp{15}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string pcie-aspm-on-ac
|
||
PCI Express Active State Power Management level. Alternatives are
|
||
default, performance, powersave.
|
||
|
||
Defaults to @samp{"performance"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string pcie-aspm-on-bat
|
||
Same as @code{pcie-aspm-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{"powersave"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string radeon-power-profile-on-ac
|
||
Radeon graphics clock speed level. Alternatives are low, mid, high,
|
||
auto, default.
|
||
|
||
Defaults to @samp{"high"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string radeon-power-profile-on-bat
|
||
Same as @code{radeon-power-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{"low"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string radeon-dpm-state-on-ac
|
||
Radeon dynamic power management method (DPM). Alternatives are battery,
|
||
performance.
|
||
|
||
Defaults to @samp{"performance"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string radeon-dpm-state-on-bat
|
||
Same as @code{radeon-dpm-state-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{"battery"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string radeon-dpm-perf-level-on-ac
|
||
Radeon DPM performance level. Alternatives are auto, low, high.
|
||
|
||
Defaults to @samp{"auto"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string radeon-dpm-perf-level-on-bat
|
||
Same as @code{radeon-dpm-perf-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{"auto"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} on-off-boolean wifi-pwr-on-ac?
|
||
Wifi power saving mode.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} on-off-boolean wifi-pwr-on-bat?
|
||
Same as @code{wifi-power-ac?} but on BAT mode.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} y-n-boolean wol-disable?
|
||
Disable wake on LAN.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} non-negative-integer sound-power-save-on-ac
|
||
Timeout duration in seconds before activating audio power saving on
|
||
Intel HDA and AC97 devices. A value of 0 disables power saving.
|
||
|
||
Defaults to @samp{0}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} non-negative-integer sound-power-save-on-bat
|
||
Same as @code{sound-powersave-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{1}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} y-n-boolean sound-power-save-controller?
|
||
Disable controller in powersaving mode on Intel HDA devices.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} boolean bay-poweroff-on-bat?
|
||
Enable optical drive in UltraBay/MediaBay on BAT mode. Drive can be
|
||
powered on again by releasing (and reinserting) the eject lever or by
|
||
pressing the disc eject button on newer models.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string bay-device
|
||
Name of the optical drive device to power off.
|
||
|
||
Defaults to @samp{"sr0"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string runtime-pm-on-ac
|
||
Runtime Power Management for PCI(e) bus devices. Alternatives are on
|
||
and auto.
|
||
|
||
Defaults to @samp{"on"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} string runtime-pm-on-bat
|
||
Same as @code{runtime-pm-ac} but on BAT mode.
|
||
|
||
Defaults to @samp{"auto"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} boolean runtime-pm-all?
|
||
Runtime Power Management for all PCI(e) bus devices, except blacklisted
|
||
ones.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-space-separated-string-list runtime-pm-blacklist
|
||
Exclude specified PCI(e) device addresses from Runtime Power Management.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} space-separated-string-list runtime-pm-driver-blacklist
|
||
Exclude PCI(e) devices assigned to the specified drivers from Runtime
|
||
Power Management.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} boolean usb-autosuspend?
|
||
Enable USB autosuspend feature.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-string usb-blacklist
|
||
Exclude specified devices from USB autosuspend.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} boolean usb-blacklist-wwan?
|
||
Exclude WWAN devices from USB autosuspend.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-string usb-whitelist
|
||
Include specified devices into USB autosuspend, even if they are already
|
||
excluded by the driver or via @code{usb-blacklist-wwan?}.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} maybe-boolean usb-autosuspend-disable-on-shutdown?
|
||
Enable USB autosuspend before shutdown.
|
||
|
||
Defaults to @samp{disabled}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{tlp-configuration} parameter} boolean restore-device-state-on-startup?
|
||
Restore radio device state (bluetooth, wifi, wwan) from previous
|
||
shutdown on system startup.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
|
||
The @code{(gnu services pm)} module provides an interface to
|
||
thermald, a CPU frequency scaling service which helps prevent overheating.
|
||
|
||
@defvr {Scheme Variable} thermald-service-type
|
||
This is the service type for
|
||
@uref{https://01.org/linux-thermal-daemon/, thermald}, the Linux
|
||
Thermal Daemon, which is responsible for controlling the thermal state
|
||
of processors and preventing overheating.
|
||
@end defvr
|
||
|
||
@deftp {Data Type} thermald-configuration
|
||
Data type representing the configuration of @code{thermald-service-type}.
|
||
|
||
@table @asis
|
||
@item @code{ignore-cpuid-check?} (default: @code{#f})
|
||
Ignore cpuid check for supported CPU models.
|
||
|
||
@item @code{thermald} (default: @var{thermald})
|
||
Package object of thermald.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@node Audio Services
|
||
@subsubsection Audio Services
|
||
|
||
The @code{(gnu services audio)} module provides a service to start MPD
|
||
(the Music Player Daemon).
|
||
|
||
@cindex mpd
|
||
@subsubheading Music Player Daemon
|
||
|
||
The Music Player Daemon (MPD) is a service that can play music while
|
||
being controlled from the local machine or over the network by a variety
|
||
of clients.
|
||
|
||
The following example shows how one might run @code{mpd} as user
|
||
@code{"bob"} on port @code{6666}. It uses pulseaudio for output.
|
||
|
||
@example
|
||
(service mpd-service-type
|
||
(mpd-configuration
|
||
(user "bob")
|
||
(port "6666")))
|
||
@end example
|
||
|
||
@defvr {Scheme Variable} mpd-service-type
|
||
The service type for @command{mpd}
|
||
@end defvr
|
||
|
||
@deftp {Data Type} mpd-configuration
|
||
Data type representing the configuration of @command{mpd}.
|
||
|
||
@table @asis
|
||
@item @code{user} (default: @code{"mpd"})
|
||
The user to run mpd as.
|
||
|
||
@item @code{music-dir} (default: @code{"~/Music"})
|
||
The directory to scan for music files.
|
||
|
||
@item @code{playlist-dir} (default: @code{"~/.mpd/playlists"})
|
||
The directory to store playlists.
|
||
|
||
@item @code{port} (default: @code{"6600"})
|
||
The port to run mpd on.
|
||
|
||
@item @code{address} (default: @code{"any"})
|
||
The address that mpd will bind to. To use a Unix domain socket,
|
||
an absolute path can be specified here.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@node Virtualization Services
|
||
@subsubsection Virtualization services
|
||
The @code{(gnu services virtualization)} module provides services for
|
||
the libvirt and virtlog daemons.
|
||
|
||
@subsubheading Libvirt daemon
|
||
@code{libvirtd} is the server side daemon component of the libvirt
|
||
virtualization management system. This daemon runs on host servers
|
||
and performs required management tasks for virtualized guests.
|
||
|
||
@deffn {Scheme Variable} libvirt-service-type
|
||
This is the type of the @uref{https://libvirt.org, libvirt daemon}.
|
||
Its value must be a @code{libvirt-configuration}.
|
||
|
||
@example
|
||
(service libvirt-service-type
|
||
(libvirt-configuration
|
||
(unix-sock-group "libvirt")
|
||
(tls-port "16555")))
|
||
@end example
|
||
@end deffn
|
||
|
||
@c Auto-generated with (generate-libvirt-documentation)
|
||
Available @code{libvirt-configuration} fields are:
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} package libvirt
|
||
Libvirt package.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} boolean listen-tls?
|
||
Flag listening for secure TLS connections on the public TCP/IP port.
|
||
must set @code{listen} for this to have any effect.
|
||
|
||
It is necessary to setup a CA and issue server certificates before using
|
||
this capability.
|
||
|
||
Defaults to @samp{#t}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} boolean listen-tcp?
|
||
Listen for unencrypted TCP connections on the public TCP/IP port. must
|
||
set @code{listen} for this to have any effect.
|
||
|
||
Using the TCP socket requires SASL authentication by default. Only SASL
|
||
mechanisms which support data encryption are allowed. This is
|
||
DIGEST_MD5 and GSSAPI (Kerberos5)
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string tls-port
|
||
Port for accepting secure TLS connections This can be a port number, or
|
||
service name
|
||
|
||
Defaults to @samp{"16514"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string tcp-port
|
||
Port for accepting insecure TCP connections This can be a port number,
|
||
or service name
|
||
|
||
Defaults to @samp{"16509"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string listen-addr
|
||
IP address or hostname used for client connections.
|
||
|
||
Defaults to @samp{"0.0.0.0"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} boolean mdns-adv?
|
||
Flag toggling mDNS advertisement of the libvirt service.
|
||
|
||
Alternatively can disable for all services on a host by stopping the
|
||
Avahi daemon.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string mdns-name
|
||
Default mDNS advertisement name. This must be unique on the immediate
|
||
broadcast network.
|
||
|
||
Defaults to @samp{"Virtualization Host <hostname>"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string unix-sock-group
|
||
UNIX domain socket group ownership. This can be used to allow a
|
||
'trusted' set of users access to management capabilities without
|
||
becoming root.
|
||
|
||
Defaults to @samp{"root"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string unix-sock-ro-perms
|
||
UNIX socket permissions for the R/O socket. This is used for monitoring
|
||
VM status only.
|
||
|
||
Defaults to @samp{"0777"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string unix-sock-rw-perms
|
||
UNIX socket permissions for the R/W socket. Default allows only root.
|
||
If PolicyKit is enabled on the socket, the default will change to allow
|
||
everyone (eg, 0777)
|
||
|
||
Defaults to @samp{"0770"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string unix-sock-admin-perms
|
||
UNIX socket permissions for the admin socket. Default allows only owner
|
||
(root), do not change it unless you are sure to whom you are exposing
|
||
the access to.
|
||
|
||
Defaults to @samp{"0777"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string unix-sock-dir
|
||
The directory in which sockets will be found/created.
|
||
|
||
Defaults to @samp{"/var/run/libvirt"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string auth-unix-ro
|
||
Authentication scheme for UNIX read-only sockets. By default socket
|
||
permissions allow anyone to connect
|
||
|
||
Defaults to @samp{"polkit"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string auth-unix-rw
|
||
Authentication scheme for UNIX read-write sockets. By default socket
|
||
permissions only allow root. If PolicyKit support was compiled into
|
||
libvirt, the default will be to use 'polkit' auth.
|
||
|
||
Defaults to @samp{"polkit"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string auth-tcp
|
||
Authentication scheme for TCP sockets. If you don't enable SASL, then
|
||
all TCP traffic is cleartext. Don't do this outside of a dev/test
|
||
scenario.
|
||
|
||
Defaults to @samp{"sasl"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string auth-tls
|
||
Authentication scheme for TLS sockets. TLS sockets already have
|
||
encryption provided by the TLS layer, and limited authentication is done
|
||
by certificates.
|
||
|
||
It is possible to make use of any SASL authentication mechanism as well,
|
||
by using 'sasl' for this option
|
||
|
||
Defaults to @samp{"none"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} optional-list access-drivers
|
||
API access control scheme.
|
||
|
||
By default an authenticated user is allowed access to all APIs. Access
|
||
drivers can place restrictions on this.
|
||
|
||
Defaults to @samp{()}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string key-file
|
||
Server key file path. If set to an empty string, then no private key is
|
||
loaded.
|
||
|
||
Defaults to @samp{""}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string cert-file
|
||
Server key file path. If set to an empty string, then no certificate is
|
||
loaded.
|
||
|
||
Defaults to @samp{""}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string ca-file
|
||
Server key file path. If set to an empty string, then no CA certificate
|
||
is loaded.
|
||
|
||
Defaults to @samp{""}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string crl-file
|
||
Certificate revocation list path. If set to an empty string, then no
|
||
CRL is loaded.
|
||
|
||
Defaults to @samp{""}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} boolean tls-no-sanity-cert
|
||
Disable verification of our own server certificates.
|
||
|
||
When libvirtd starts it performs some sanity checks against its own
|
||
certificates.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} boolean tls-no-verify-cert
|
||
Disable verification of client certificates.
|
||
|
||
Client certificate verification is the primary authentication mechanism.
|
||
Any client which does not present a certificate signed by the CA will be
|
||
rejected.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} optional-list tls-allowed-dn-list
|
||
Whitelist of allowed x509 Distinguished Name.
|
||
|
||
Defaults to @samp{()}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} optional-list sasl-allowed-usernames
|
||
Whitelist of allowed SASL usernames. The format for username depends on
|
||
the SASL authentication mechanism.
|
||
|
||
Defaults to @samp{()}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string tls-priority
|
||
Override the compile time default TLS priority string. The default is
|
||
usually "NORMAL" unless overridden at build time. Only set this is it
|
||
is desired for libvirt to deviate from the global default settings.
|
||
|
||
Defaults to @samp{"NORMAL"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer max-clients
|
||
Maximum number of concurrent client connections to allow over all
|
||
sockets combined.
|
||
|
||
Defaults to @samp{5000}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer max-queued-clients
|
||
Maximum length of queue of connections waiting to be accepted by the
|
||
daemon. Note, that some protocols supporting retransmission may obey
|
||
this so that a later reattempt at connection succeeds.
|
||
|
||
Defaults to @samp{1000}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer max-anonymous-clients
|
||
Maximum length of queue of accepted but not yet authenticated clients.
|
||
Set this to zero to turn this feature off
|
||
|
||
Defaults to @samp{20}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer min-workers
|
||
Number of workers to start up initially.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer max-workers
|
||
Maximum number of worker threads.
|
||
|
||
If the number of active clients exceeds @code{min-workers}, then more
|
||
threads are spawned, up to max_workers limit. Typically you'd want
|
||
max_workers to equal maximum number of clients allowed.
|
||
|
||
Defaults to @samp{20}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer prio-workers
|
||
Number of priority workers. If all workers from above pool are stuck,
|
||
some calls marked as high priority (notably domainDestroy) can be
|
||
executed in this pool.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer max-requests
|
||
Total global limit on concurrent RPC calls.
|
||
|
||
Defaults to @samp{20}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer max-client-requests
|
||
Limit on concurrent requests from a single client connection. To avoid
|
||
one client monopolizing the server this should be a small fraction of
|
||
the global max_requests and max_workers parameter.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer admin-min-workers
|
||
Same as @code{min-workers} but for the admin interface.
|
||
|
||
Defaults to @samp{1}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer admin-max-workers
|
||
Same as @code{max-workers} but for the admin interface.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer admin-max-clients
|
||
Same as @code{max-clients} but for the admin interface.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer admin-max-queued-clients
|
||
Same as @code{max-queued-clients} but for the admin interface.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer admin-max-client-requests
|
||
Same as @code{max-client-requests} but for the admin interface.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer log-level
|
||
Logging level. 4 errors, 3 warnings, 2 information, 1 debug.
|
||
|
||
Defaults to @samp{3}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string log-filters
|
||
Logging filters.
|
||
|
||
A filter allows to select a different logging level for a given category
|
||
of logs The format for a filter is one of:
|
||
|
||
@itemize @bullet
|
||
@item
|
||
x:name
|
||
|
||
@item
|
||
x:+name
|
||
|
||
@end itemize
|
||
|
||
where @code{name} is a string which is matched against the category
|
||
given in the @code{VIR_LOG_INIT()} at the top of each libvirt source
|
||
file, e.g., "remote", "qemu", or "util.json" (the name in the filter can
|
||
be a substring of the full category name, in order to match multiple
|
||
similar categories), the optional "+" prefix tells libvirt to log stack
|
||
trace for each message matching name, and @code{x} is the minimal level
|
||
where matching messages should be logged:
|
||
|
||
@itemize @bullet
|
||
@item
|
||
1: DEBUG
|
||
|
||
@item
|
||
2: INFO
|
||
|
||
@item
|
||
3: WARNING
|
||
|
||
@item
|
||
4: ERROR
|
||
|
||
@end itemize
|
||
|
||
Multiple filters can be defined in a single filters statement, they just
|
||
need to be separated by spaces.
|
||
|
||
Defaults to @samp{"3:remote 4:event"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string log-outputs
|
||
Logging outputs.
|
||
|
||
An output is one of the places to save logging information The format
|
||
for an output can be:
|
||
|
||
@table @code
|
||
@item x:stderr
|
||
output goes to stderr
|
||
|
||
@item x:syslog:name
|
||
use syslog for the output and use the given name as the ident
|
||
|
||
@item x:file:file_path
|
||
output to a file, with the given filepath
|
||
|
||
@item x:journald
|
||
output to journald logging system
|
||
|
||
@end table
|
||
|
||
In all case the x prefix is the minimal level, acting as a filter
|
||
|
||
@itemize @bullet
|
||
@item
|
||
1: DEBUG
|
||
|
||
@item
|
||
2: INFO
|
||
|
||
@item
|
||
3: WARNING
|
||
|
||
@item
|
||
4: ERROR
|
||
|
||
@end itemize
|
||
|
||
Multiple outputs can be defined, they just need to be separated by
|
||
spaces.
|
||
|
||
Defaults to @samp{"3:stderr"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer audit-level
|
||
Allows usage of the auditing subsystem to be altered
|
||
|
||
@itemize @bullet
|
||
@item
|
||
0: disable all auditing
|
||
|
||
@item
|
||
1: enable auditing, only if enabled on host
|
||
|
||
@item
|
||
2: enable auditing, and exit if disabled on host.
|
||
|
||
@end itemize
|
||
|
||
Defaults to @samp{1}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} boolean audit-logging
|
||
Send audit messages via libvirt logging infrastructure.
|
||
|
||
Defaults to @samp{#f}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} optional-string host-uuid
|
||
Host UUID. UUID must not have all digits be the same.
|
||
|
||
Defaults to @samp{""}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} string host-uuid-source
|
||
Source to read host UUID.
|
||
|
||
@itemize @bullet
|
||
@item
|
||
@code{smbios}: fetch the UUID from @code{dmidecode -s system-uuid}
|
||
|
||
@item
|
||
@code{machine-id}: fetch the UUID from @code{/etc/machine-id}
|
||
|
||
@end itemize
|
||
|
||
If @code{dmidecode} does not provide a valid UUID a temporary UUID will
|
||
be generated.
|
||
|
||
Defaults to @samp{"smbios"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer keepalive-interval
|
||
A keepalive message is sent to a client after @code{keepalive_interval}
|
||
seconds of inactivity to check if the client is still responding. If
|
||
set to -1, libvirtd will never send keepalive requests; however clients
|
||
can still send them and the daemon will send responses.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer keepalive-count
|
||
Maximum number of keepalive messages that are allowed to be sent to the
|
||
client without getting any response before the connection is considered
|
||
broken.
|
||
|
||
In other words, the connection is automatically closed approximately
|
||
after @code{keepalive_interval * (keepalive_count + 1)} seconds since
|
||
the last message received from the client. When @code{keepalive-count}
|
||
is set to 0, connections will be automatically closed after
|
||
@code{keepalive-interval} seconds of inactivity without sending any
|
||
keepalive messages.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer admin-keepalive-interval
|
||
Same as above but for admin interface.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer admin-keepalive-count
|
||
Same as above but for admin interface.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{libvirt-configuration} parameter} integer ovs-timeout
|
||
Timeout for Open vSwitch calls.
|
||
|
||
The @code{ovs-vsctl} utility is used for the configuration and its
|
||
timeout option is set by default to 5 seconds to avoid potential
|
||
infinite waits blocking libvirt.
|
||
|
||
Defaults to @samp{5}.
|
||
|
||
@end deftypevr
|
||
|
||
@c %end of autogenerated docs
|
||
|
||
@subsubheading Virtlog daemon
|
||
The virtlogd service is a server side daemon component of libvirt that is
|
||
used to manage logs from virtual machine consoles.
|
||
|
||
This daemon is not used directly by libvirt client applications, rather it
|
||
is called on their behalf by @code{libvirtd}. By maintaining the logs in a
|
||
standalone daemon, the main @code{libvirtd} daemon can be restarted without
|
||
risk of losing logs. The @code{virtlogd} daemon has the ability to re-exec()
|
||
itself upon receiving @code{SIGUSR1}, to allow live upgrades without downtime.
|
||
|
||
@deffn {Scheme Variable} virtlog-service-type
|
||
This is the type of the virtlog daemon.
|
||
Its value must be a @code{virtlog-configuration}.
|
||
|
||
@example
|
||
(service virtlog-service-type
|
||
(virtlog-configuration
|
||
(max-clients 1000)))
|
||
@end example
|
||
@end deffn
|
||
|
||
@deftypevr {@code{virtlog-configuration} parameter} integer log-level
|
||
Logging level. 4 errors, 3 warnings, 2 information, 1 debug.
|
||
|
||
Defaults to @samp{3}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{virtlog-configuration} parameter} string log-filters
|
||
Logging filters.
|
||
|
||
A filter allows to select a different logging level for a given category
|
||
of logs The format for a filter is one of:
|
||
|
||
@itemize @bullet
|
||
@item
|
||
x:name
|
||
|
||
@item
|
||
x:+name
|
||
|
||
@end itemize
|
||
|
||
where @code{name} is a string which is matched against the category
|
||
given in the @code{VIR_LOG_INIT()} at the top of each libvirt source
|
||
file, e.g., "remote", "qemu", or "util.json" (the name in the filter can
|
||
be a substring of the full category name, in order to match multiple
|
||
similar categories), the optional "+" prefix tells libvirt to log stack
|
||
trace for each message matching name, and @code{x} is the minimal level
|
||
where matching messages should be logged:
|
||
|
||
@itemize @bullet
|
||
@item
|
||
1: DEBUG
|
||
|
||
@item
|
||
2: INFO
|
||
|
||
@item
|
||
3: WARNING
|
||
|
||
@item
|
||
4: ERROR
|
||
|
||
@end itemize
|
||
|
||
Multiple filters can be defined in a single filters statement, they just
|
||
need to be separated by spaces.
|
||
|
||
Defaults to @samp{"3:remote 4:event"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{virtlog-configuration} parameter} string log-outputs
|
||
Logging outputs.
|
||
|
||
An output is one of the places to save logging information The format
|
||
for an output can be:
|
||
|
||
@table @code
|
||
@item x:stderr
|
||
output goes to stderr
|
||
|
||
@item x:syslog:name
|
||
use syslog for the output and use the given name as the ident
|
||
|
||
@item x:file:file_path
|
||
output to a file, with the given filepath
|
||
|
||
@item x:journald
|
||
output to journald logging system
|
||
|
||
@end table
|
||
|
||
In all case the x prefix is the minimal level, acting as a filter
|
||
|
||
@itemize @bullet
|
||
@item
|
||
1: DEBUG
|
||
|
||
@item
|
||
2: INFO
|
||
|
||
@item
|
||
3: WARNING
|
||
|
||
@item
|
||
4: ERROR
|
||
|
||
@end itemize
|
||
|
||
Multiple outputs can be defined, they just need to be separated by
|
||
spaces.
|
||
|
||
Defaults to @samp{"3:stderr"}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{virtlog-configuration} parameter} integer max-clients
|
||
Maximum number of concurrent client connections to allow over all
|
||
sockets combined.
|
||
|
||
Defaults to @samp{1024}.
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{virtlog-configuration} parameter} integer max-size
|
||
Maximum file size before rolling over.
|
||
|
||
Defaults to @samp{2MB}
|
||
|
||
@end deftypevr
|
||
|
||
@deftypevr {@code{virtlog-configuration} parameter} integer max-backups
|
||
Maximum number of backup files to keep.
|
||
|
||
Defaults to @samp{3}
|
||
|
||
@end deftypevr
|
||
|
||
|
||
@node Miscellaneous Services
|
||
@subsubsection Miscellaneous Services
|
||
|
||
@cindex sysctl
|
||
@subsubheading System Control Service
|
||
|
||
The @code{(gnu services sysctl)} provides a service to configure kernel
|
||
parameters at boot.
|
||
|
||
@defvr {Scheme Variable} sysctl-service-type
|
||
The service type for @command{sysctl}, which modifies kernel parameters
|
||
under @file{/proc/sys/}. To enable IPv4 forwarding, it can be
|
||
instantiated as:
|
||
|
||
@example
|
||
(service sysctl-service-type
|
||
(sysctl-configuration
|
||
(settings '(("net.ipv4.ip_forward" . "1")))))
|
||
@end example
|
||
@end defvr
|
||
|
||
@deftp {Data Type} sysctl-configuration
|
||
The data type representing the configuration of @command{sysctl}.
|
||
|
||
@table @asis
|
||
@item @code{sysctl} (default: @code{(file-append procps "/sbin/sysctl"})
|
||
The @command{sysctl} executable to use.
|
||
|
||
@item @code{settings} (default: @code{'()})
|
||
An association list specifies kernel parameters and their values.
|
||
@end table
|
||
@end deftp
|
||
|
||
@cindex lirc
|
||
@subsubheading Lirc Service
|
||
|
||
The @code{(gnu services lirc)} module provides the following service.
|
||
|
||
@deffn {Scheme Procedure} lirc-service [#:lirc lirc] @
|
||
[#:device #f] [#:driver #f] [#:config-file #f] @
|
||
[#:extra-options '()]
|
||
Return a service that runs @url{http://www.lirc.org,LIRC}, a daemon that
|
||
decodes infrared signals from remote controls.
|
||
|
||
Optionally, @var{device}, @var{driver} and @var{config-file}
|
||
(configuration file name) may be specified. See @command{lircd} manual
|
||
for details.
|
||
|
||
Finally, @var{extra-options} is a list of additional command-line options
|
||
passed to @command{lircd}.
|
||
@end deffn
|
||
|
||
@cindex spice
|
||
@subsubheading Spice Service
|
||
|
||
The @code{(gnu services spice)} module provides the following service.
|
||
|
||
@deffn {Scheme Procedure} spice-vdagent-service [#:spice-vdagent]
|
||
Returns a service that runs @url{http://www.spice-space.org,VDAGENT}, a daemon
|
||
that enables sharing the clipboard with a vm and setting the guest display
|
||
resolution when the graphical console window resizes.
|
||
@end deffn
|
||
|
||
@subsubsection Dictionary Services
|
||
@cindex dictionary
|
||
The @code{(gnu services dict)} module provides the following service:
|
||
|
||
@deffn {Scheme Procedure} dicod-service [#:config (dicod-configuration)]
|
||
Return a service that runs the @command{dicod} daemon, an implementation
|
||
of DICT server (@pxref{Dicod,,, dico, GNU Dico Manual}).
|
||
|
||
The optional @var{config} argument specifies the configuration for
|
||
@command{dicod}, which should be a @code{<dicod-configuration>} object, by
|
||
default it serves the GNU Collaborative International Dictonary of English.
|
||
|
||
You can add @command{open localhost} to your @file{~/.dico} file to make
|
||
@code{localhost} the default server for @command{dico} client
|
||
(@pxref{Initialization File,,, dico, GNU Dico Manual}).
|
||
@end deffn
|
||
|
||
@deftp {Data Type} dicod-configuration
|
||
Data type representing the configuration of dicod.
|
||
|
||
@table @asis
|
||
@item @code{dico} (default: @var{dico})
|
||
Package object of the GNU Dico dictionary server.
|
||
|
||
@item @code{interfaces} (default: @var{'("localhost")})
|
||
This is the list of IP addresses and ports and possibly socket file
|
||
names to listen to (@pxref{Server Settings, @code{listen} directive,,
|
||
dico, GNU Dico Manual}).
|
||
|
||
@item @code{handlers} (default: @var{'()})
|
||
List of @code{<dicod-handler>} objects denoting handlers (module instances).
|
||
|
||
@item @code{databases} (default: @var{(list %dicod-database:gcide)})
|
||
List of @code{<dicod-database>} objects denoting dictionaries to be served.
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} dicod-handler
|
||
Data type representing a dictionary handler (module instance).
|
||
|
||
@table @asis
|
||
@item @code{name}
|
||
Name of the handler (module instance).
|
||
|
||
@item @code{module} (default: @var{#f})
|
||
Name of the dicod module of the handler (instance). If it is @code{#f},
|
||
the module has the same name as the handler.
|
||
(@pxref{Modules,,, dico, GNU Dico Manual}).
|
||
|
||
@item @code{options}
|
||
List of strings or gexps representing the arguments for the module handler
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} dicod-database
|
||
Data type representing a dictionary database.
|
||
|
||
@table @asis
|
||
@item @code{name}
|
||
Name of the database, will be used in DICT commands.
|
||
|
||
@item @code{handler}
|
||
Name of the dicod handler (module instance) used by this database
|
||
(@pxref{Handlers,,, dico, GNU Dico Manual}).
|
||
|
||
@item @code{complex?} (default: @var{#f})
|
||
Whether the database configuration complex. The complex configuration
|
||
will need a corresponding @code{<dicod-handler>} object, otherwise not.
|
||
|
||
@item @code{options}
|
||
List of strings or gexps representing the arguments for the database
|
||
(@pxref{Databases,,, dico, GNU Dico Manual}).
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} %dicod-database:gcide
|
||
A @code{<dicod-database>} object serving the GNU Collaborative International
|
||
Dictionary of English using the @code{gcide} package.
|
||
@end defvr
|
||
|
||
The following is an example @code{dicod-service} configuration.
|
||
|
||
@example
|
||
(dicod-service #:config
|
||
(dicod-configuration
|
||
(handlers (list (dicod-handler
|
||
(name "wordnet")
|
||
(module "dictorg")
|
||
(options
|
||
(list #~(string-append "dbdir=" #$wordnet))))))
|
||
(databases (list (dicod-database
|
||
(name "wordnet")
|
||
(complex? #t)
|
||
(handler "wordnet")
|
||
(options '("database=wn")))
|
||
%dicod-database:gcide))))
|
||
@end example
|
||
|
||
@subsubsection Version Control
|
||
|
||
The @code{(gnu services version-control)} module provides the following services:
|
||
|
||
@subsubheading Git daemon service
|
||
|
||
@deffn {Scheme Procedure} git-daemon-service [#:config (git-daemon-configuration)]
|
||
|
||
Return a service that runs @command{git daemon}, a simple TCP server to
|
||
expose repositories over the Git protocol for anonymous access.
|
||
|
||
The optional @var{config} argument should be a
|
||
@code{<git-daemon-configuration>} object, by default it allows read-only
|
||
access to exported@footnote{By creating the magic file
|
||
"git-daemon-export-ok" in the repository directory.} repositories under
|
||
@file{/srv/git}.
|
||
|
||
@end deffn
|
||
|
||
@deftp {Data Type} git-daemon-configuration
|
||
Data type representing the configuration for @code{git-daemon-service}.
|
||
|
||
@table @asis
|
||
@item @code{package} (default: @var{git})
|
||
Package object of the Git distributed version control system.
|
||
|
||
@item @code{export-all?} (default: @var{#f})
|
||
Whether to allow access for all Git repositories, even if they do not
|
||
have the @file{git-daemon-export-ok} file.
|
||
|
||
@item @code{base-path} (default: @file{/srv/git})
|
||
Whether to remap all the path requests as relative to the given path.
|
||
If you run git daemon with @var{(base-path "/srv/git")} on example.com,
|
||
then if you later try to pull @code{git://example.com/hello.git}, git
|
||
daemon will interpret the path as @code{/srv/git/hello.git}.
|
||
|
||
@item @code{user-path} (default: @var{#f})
|
||
Whether to allow @code{~user} notation to be used in requests. When
|
||
specified with empty string, requests to @code{git://host/~alice/foo} is
|
||
taken as a request to access @code{foo} repository in the home directory
|
||
of user @code{alice}. If @var{(user-path "path")} is specified, the
|
||
same request is taken as a request to access @code{path/foo} repository
|
||
in the home directory of user @code{alice}.
|
||
|
||
@item @code{listen} (default: @var{'()})
|
||
Whether to listen on specific IP addresses or hostnames, defaults to
|
||
all.
|
||
|
||
@item @code{port} (default: @var{#f})
|
||
Whether to listen on an alternative port, which defaults to 9418.
|
||
|
||
@item @code{whitelist} (default: @var{'()})
|
||
If not empty, only allow access to this list of directories.
|
||
|
||
@item @code{extra-options} (default: @var{'()})
|
||
Extra options will be passed to @code{git daemon}, please run
|
||
@command{man git-daemon} for more information.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@subsubheading Cgit Service
|
||
|
||
@cindex Cgit service
|
||
@cindex Git, web interface
|
||
@uref{https://git.zx2c4.com/cgit/, Cgit} is a web frontend for Git
|
||
repositories written in C.
|
||
|
||
The following example will configure the service with default values.
|
||
By default, Cgit can be accessed on port 80 (@code{http://localhost:80}).
|
||
|
||
@example
|
||
(service nginx-service-type)
|
||
(service fcgiwrap-service-type)
|
||
(service cgit-service-type)
|
||
@end example
|
||
|
||
@deftp {Data Type} cgit-configuration
|
||
Data type representing the configuration of Cgit.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{config-file} (default: @code{(cgit-configuration-file)})
|
||
The configuration file to use for Cgit. This can be set to a
|
||
@dfn{cgit-configuration-file} record value, or any gexp
|
||
(@pxref{G-Expressions}).
|
||
|
||
For example, to instead use a local file, the @code{local-file} function
|
||
can be used:
|
||
|
||
@example
|
||
(service cgit-service-type
|
||
(cgit-configuration
|
||
(config-file (local-file "./my-cgitrc.conf"))))
|
||
@end example
|
||
|
||
@item @code{package} (default: @code{cgit})
|
||
The Cgit package to use.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} cgit-configuration-file
|
||
Data type representing the configuration options for Cgit.
|
||
This type has the following parameters:
|
||
|
||
@table @asis
|
||
@item @code{css} (default: @code{"/share/cgit/cgit.css"})
|
||
URL which specifies the css document to include in all Cgit pages.
|
||
|
||
@item @code{logo} (default: @code{"/share/cgit/cgit.png"})
|
||
URL which specifies the source of an image which will be used as a logo
|
||
on all Cgit pages.
|
||
|
||
@item @code{virtual-root} (default: @code{"/"})
|
||
URL which, if specified, will be used as root for all Cgit links.
|
||
|
||
@item @code{repository-directory} (default: @code{"/srv/git"})
|
||
Name of the directory to scan for repositories.
|
||
|
||
@item @code{robots} (default: @code{(list "noindex" "nofollow")})
|
||
Text used as content for the ``robots'' meta-tag.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@node Setuid Programs
|
||
@subsection Setuid Programs
|
||
|
||
@cindex setuid programs
|
||
Some programs need to run with ``root'' privileges, even when they are
|
||
launched by unprivileged users. A notorious example is the
|
||
@command{passwd} program, which users can run to change their
|
||
password, and which needs to access the @file{/etc/passwd} and
|
||
@file{/etc/shadow} files---something normally restricted to root, for
|
||
obvious security reasons. To address that, these executables are
|
||
@dfn{setuid-root}, meaning that they always run with root privileges
|
||
(@pxref{How Change Persona,,, libc, The GNU C Library Reference Manual},
|
||
for more info about the setuid mechanism.)
|
||
|
||
The store itself @emph{cannot} contain setuid programs: that would be a
|
||
security issue since any user on the system can write derivations that
|
||
populate the store (@pxref{The Store}). Thus, a different mechanism is
|
||
used: instead of changing the setuid bit directly on files that are in
|
||
the store, we let the system administrator @emph{declare} which programs
|
||
should be setuid root.
|
||
|
||
The @code{setuid-programs} field of an @code{operating-system}
|
||
declaration contains a list of G-expressions denoting the names of
|
||
programs to be setuid-root (@pxref{Using the Configuration System}).
|
||
For instance, the @command{passwd} program, which is part of the Shadow
|
||
package, can be designated by this G-expression (@pxref{G-Expressions}):
|
||
|
||
@example
|
||
#~(string-append #$shadow "/bin/passwd")
|
||
@end example
|
||
|
||
A default set of setuid programs is defined by the
|
||
@code{%setuid-programs} variable of the @code{(gnu system)} module.
|
||
|
||
@defvr {Scheme Variable} %setuid-programs
|
||
A list of G-expressions denoting common programs that are setuid-root.
|
||
|
||
The list includes commands such as @command{passwd}, @command{ping},
|
||
@command{su}, and @command{sudo}.
|
||
@end defvr
|
||
|
||
Under the hood, the actual setuid programs are created in the
|
||
@file{/run/setuid-programs} directory at system activation time. The
|
||
files in this directory refer to the ``real'' binaries, which are in the
|
||
store.
|
||
|
||
@node X.509 Certificates
|
||
@subsection X.509 Certificates
|
||
|
||
@cindex HTTPS, certificates
|
||
@cindex X.509 certificates
|
||
@cindex TLS
|
||
Web servers available over HTTPS (that is, HTTP over the transport-layer
|
||
security mechanism, TLS) send client programs an @dfn{X.509 certificate}
|
||
that the client can then use to @emph{authenticate} the server. To do
|
||
that, clients verify that the server's certificate is signed by a
|
||
so-called @dfn{certificate authority} (CA). But to verify the CA's
|
||
signature, clients must have first acquired the CA's certificate.
|
||
|
||
Web browsers such as GNU@tie{}IceCat include their own set of CA
|
||
certificates, such that they are able to verify CA signatures
|
||
out-of-the-box.
|
||
|
||
However, most other programs that can talk HTTPS---@command{wget},
|
||
@command{git}, @command{w3m}, etc.---need to be told where CA
|
||
certificates can be found.
|
||
|
||
@cindex @code{nss-certs}
|
||
In GuixSD, this is done by adding a package that provides certificates
|
||
to the @code{packages} field of the @code{operating-system} declaration
|
||
(@pxref{operating-system Reference}). GuixSD includes one such package,
|
||
@code{nss-certs}, which is a set of CA certificates provided as part of
|
||
Mozilla's Network Security Services.
|
||
|
||
Note that it is @emph{not} part of @var{%base-packages}, so you need to
|
||
explicitly add it. The @file{/etc/ssl/certs} directory, which is where
|
||
most applications and libraries look for certificates by default, points
|
||
to the certificates installed globally.
|
||
|
||
Unprivileged users, including users of Guix on a foreign distro,
|
||
can also install their own certificate package in
|
||
their profile. A number of environment variables need to be defined so
|
||
that applications and libraries know where to find them. Namely, the
|
||
OpenSSL library honors the @code{SSL_CERT_DIR} and @code{SSL_CERT_FILE}
|
||
variables. Some applications add their own environment variables; for
|
||
instance, the Git version control system honors the certificate bundle
|
||
pointed to by the @code{GIT_SSL_CAINFO} environment variable. Thus, you
|
||
would typically run something like:
|
||
|
||
@example
|
||
$ guix package -i nss-certs
|
||
$ export SSL_CERT_DIR="$HOME/.guix-profile/etc/ssl/certs"
|
||
$ export SSL_CERT_FILE="$HOME/.guix-profile/etc/ssl/certs/ca-certificates.crt"
|
||
$ export GIT_SSL_CAINFO="$SSL_CERT_FILE"
|
||
@end example
|
||
|
||
As another example, R requires the @code{CURL_CA_BUNDLE} environment
|
||
variable to point to a certificate bundle, so you would have to run
|
||
something like this:
|
||
|
||
@example
|
||
$ guix package -i nss-certs
|
||
$ export CURL_CA_BUNDLE="$HOME/.guix-profile/etc/ssl/certs/ca-certificates.crt"
|
||
@end example
|
||
|
||
For other applications you may want to look up the required environment
|
||
variable in the relevant documentation.
|
||
|
||
|
||
@node Name Service Switch
|
||
@subsection Name Service Switch
|
||
|
||
@cindex name service switch
|
||
@cindex NSS
|
||
The @code{(gnu system nss)} module provides bindings to the
|
||
configuration file of the libc @dfn{name service switch} or @dfn{NSS}
|
||
(@pxref{NSS Configuration File,,, libc, The GNU C Library Reference
|
||
Manual}). In a nutshell, the NSS is a mechanism that allows libc to be
|
||
extended with new ``name'' lookup methods for system databases, which
|
||
includes host names, service names, user accounts, and more (@pxref{Name
|
||
Service Switch, System Databases and Name Service Switch,, libc, The GNU
|
||
C Library Reference Manual}).
|
||
|
||
The NSS configuration specifies, for each system database, which lookup
|
||
method is to be used, and how the various methods are chained
|
||
together---for instance, under which circumstances NSS should try the
|
||
next method in the list. The NSS configuration is given in the
|
||
@code{name-service-switch} field of @code{operating-system} declarations
|
||
(@pxref{operating-system Reference, @code{name-service-switch}}).
|
||
|
||
@cindex nss-mdns
|
||
@cindex .local, host name lookup
|
||
As an example, the declaration below configures the NSS to use the
|
||
@uref{http://0pointer.de/lennart/projects/nss-mdns/, @code{nss-mdns}
|
||
back-end}, which supports host name lookups over multicast DNS (mDNS)
|
||
for host names ending in @code{.local}:
|
||
|
||
@example
|
||
(name-service-switch
|
||
(hosts (list %files ;first, check /etc/hosts
|
||
|
||
;; If the above did not succeed, try
|
||
;; with 'mdns_minimal'.
|
||
(name-service
|
||
(name "mdns_minimal")
|
||
|
||
;; 'mdns_minimal' is authoritative for
|
||
;; '.local'. When it returns "not found",
|
||
;; no need to try the next methods.
|
||
(reaction (lookup-specification
|
||
(not-found => return))))
|
||
|
||
;; Then fall back to DNS.
|
||
(name-service
|
||
(name "dns"))
|
||
|
||
;; Finally, try with the "full" 'mdns'.
|
||
(name-service
|
||
(name "mdns")))))
|
||
@end example
|
||
|
||
Do not worry: the @code{%mdns-host-lookup-nss} variable (see below)
|
||
contains this configuration, so you will not have to type it if all you
|
||
want is to have @code{.local} host lookup working.
|
||
|
||
Note that, in this case, in addition to setting the
|
||
@code{name-service-switch} of the @code{operating-system} declaration,
|
||
you also need to use @code{avahi-service} (@pxref{Networking Services,
|
||
@code{avahi-service}}), or @var{%desktop-services}, which includes it
|
||
(@pxref{Desktop Services}). Doing this makes @code{nss-mdns} accessible
|
||
to the name service cache daemon (@pxref{Base Services,
|
||
@code{nscd-service}}).
|
||
|
||
For convenience, the following variables provide typical NSS
|
||
configurations.
|
||
|
||
@defvr {Scheme Variable} %default-nss
|
||
This is the default name service switch configuration, a
|
||
@code{name-service-switch} object.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} %mdns-host-lookup-nss
|
||
This is the name service switch configuration with support for host name
|
||
lookup over multicast DNS (mDNS) for host names ending in @code{.local}.
|
||
@end defvr
|
||
|
||
The reference for name service switch configuration is given below. It
|
||
is a direct mapping of the configuration file format of the C library , so
|
||
please refer to the C library manual for more information (@pxref{NSS
|
||
Configuration File,,, libc, The GNU C Library Reference Manual}).
|
||
Compared to the configuration file format of libc NSS, it has the advantage
|
||
not only of adding this warm parenthetic feel that we like, but also
|
||
static checks: you will know about syntax errors and typos as soon as you
|
||
run @command{guix system}.
|
||
|
||
@deftp {Data Type} name-service-switch
|
||
|
||
This is the data type representation the configuration of libc's name
|
||
service switch (NSS). Each field below represents one of the supported
|
||
system databases.
|
||
|
||
@table @code
|
||
@item aliases
|
||
@itemx ethers
|
||
@itemx group
|
||
@itemx gshadow
|
||
@itemx hosts
|
||
@itemx initgroups
|
||
@itemx netgroup
|
||
@itemx networks
|
||
@itemx password
|
||
@itemx public-key
|
||
@itemx rpc
|
||
@itemx services
|
||
@itemx shadow
|
||
The system databases handled by the NSS. Each of these fields must be a
|
||
list of @code{<name-service>} objects (see below).
|
||
@end table
|
||
@end deftp
|
||
|
||
@deftp {Data Type} name-service
|
||
|
||
This is the data type representing an actual name service and the
|
||
associated lookup action.
|
||
|
||
@table @code
|
||
@item name
|
||
A string denoting the name service (@pxref{Services in the NSS
|
||
configuration,,, libc, The GNU C Library Reference Manual}).
|
||
|
||
Note that name services listed here must be visible to nscd. This is
|
||
achieved by passing the @code{#:name-services} argument to
|
||
@code{nscd-service} the list of packages providing the needed name
|
||
services (@pxref{Base Services, @code{nscd-service}}).
|
||
|
||
@item reaction
|
||
An action specified using the @code{lookup-specification} macro
|
||
(@pxref{Actions in the NSS configuration,,, libc, The GNU C Library
|
||
Reference Manual}). For example:
|
||
|
||
@example
|
||
(lookup-specification (unavailable => continue)
|
||
(success => return))
|
||
@end example
|
||
@end table
|
||
@end deftp
|
||
|
||
@node Initial RAM Disk
|
||
@subsection Initial RAM Disk
|
||
|
||
@cindex initrd
|
||
@cindex initial RAM disk
|
||
For bootstrapping purposes, the Linux-Libre kernel is passed an
|
||
@dfn{initial RAM disk}, or @dfn{initrd}. An initrd contains a temporary
|
||
root file system as well as an initialization script. The latter is
|
||
responsible for mounting the real root file system, and for loading any
|
||
kernel modules that may be needed to achieve that.
|
||
|
||
The @code{initrd} field of an @code{operating-system} declaration allows
|
||
you to specify which initrd you would like to use. The @code{(gnu
|
||
system linux-initrd)} module provides three ways to build an initrd: the
|
||
high-level @code{base-initrd} procedure and the low-level
|
||
@code{raw-initrd} and @code{expression->initrd} procedures.
|
||
|
||
The @code{base-initrd} procedure is intended to cover most common uses.
|
||
For example, if you want to add a bunch of kernel modules to be loaded
|
||
at boot time, you can define the @code{initrd} field of the operating
|
||
system declaration like this:
|
||
|
||
@example
|
||
(initrd (lambda (file-systems . rest)
|
||
;; Create a standard initrd that has modules "foo.ko"
|
||
;; and "bar.ko", as well as their dependencies, in
|
||
;; addition to the modules available by default.
|
||
(apply base-initrd file-systems
|
||
#:extra-modules '("foo" "bar")
|
||
rest)))
|
||
@end example
|
||
|
||
The @code{base-initrd} procedure also handles common use cases that
|
||
involves using the system as a QEMU guest, or as a ``live'' system with
|
||
volatile root file system.
|
||
|
||
The @code{base-initrd} procedure is built from @code{raw-initrd} procedure.
|
||
Unlike @code{base-initrd}, @code{raw-initrd} doesn't do anything high-level,
|
||
such as trying to guess which kernel modules and packages should be included
|
||
to the initrd. An example use of @code{raw-initrd} is when a user has
|
||
a custom Linux kernel configuration and default kernel modules included by
|
||
@code{base-initrd} are not available.
|
||
|
||
The initial RAM disk produced by @code{base-initrd} or @code{raw-initrd}
|
||
honors several options passed on the Linux kernel command line
|
||
(that is, arguments passed @i{via} the @code{linux} command of GRUB, or the
|
||
@code{-append} option of QEMU), notably:
|
||
|
||
@table @code
|
||
@item --load=@var{boot}
|
||
Tell the initial RAM disk to load @var{boot}, a file containing a Scheme
|
||
program, once it has mounted the root file system.
|
||
|
||
GuixSD uses this option to yield control to a boot program that runs the
|
||
service activation programs and then spawns the GNU@tie{}Shepherd, the
|
||
initialization system.
|
||
|
||
@item --root=@var{root}
|
||
Mount @var{root} as the root file system. @var{root} can be a
|
||
device name like @code{/dev/sda1}, a partition label, or a partition
|
||
UUID.
|
||
|
||
@item --system=@var{system}
|
||
Have @file{/run/booted-system} and @file{/run/current-system} point to
|
||
@var{system}.
|
||
|
||
@item modprobe.blacklist=@var{modules}@dots{}
|
||
@cindex module, black-listing
|
||
@cindex black list, of kernel modules
|
||
Instruct the initial RAM disk as well as the @command{modprobe} command
|
||
(from the kmod package) to refuse to load @var{modules}. @var{modules}
|
||
must be a comma-separated list of module names---e.g.,
|
||
@code{usbkbd,9pnet}.
|
||
|
||
@item --repl
|
||
Start a read-eval-print loop (REPL) from the initial RAM disk before it
|
||
tries to load kernel modules and to mount the root file system. Our
|
||
marketing team calls it @dfn{boot-to-Guile}. The Schemer in you will
|
||
love it. @xref{Using Guile Interactively,,, guile, GNU Guile Reference
|
||
Manual}, for more information on Guile's REPL.
|
||
|
||
@end table
|
||
|
||
Now that you know all the features that initial RAM disks produced by
|
||
@code{base-initrd} and @code{raw-initrd} provide,
|
||
here is how to use it and customize it further.
|
||
|
||
@cindex initrd
|
||
@cindex initial RAM disk
|
||
@deffn {Monadic Procedure} raw-initrd @var{file-systems} @
|
||
[#:linux-modules '()] [#:mapped-devices '()] @
|
||
[#:helper-packages '()] [#:qemu-networking? #f] [#:volatile-root? #f]
|
||
Return a monadic derivation that builds a raw initrd. @var{file-systems} is
|
||
a list of file systems to be mounted by the initrd, possibly in addition to
|
||
the root file system specified on the kernel command line via @code{--root}.
|
||
@var{linux-modules} is a list of kernel modules to be loaded at boot time.
|
||
@var{mapped-devices} is a list of device mappings to realize before
|
||
@var{file-systems} are mounted (@pxref{Mapped Devices}).
|
||
@var{helper-packages} is a list of packages to be copied in the initrd. It may
|
||
include @code{e2fsck/static} or other packages needed by the initrd to check
|
||
root partition.
|
||
|
||
When @var{qemu-networking?} is true, set up networking with the standard QEMU
|
||
parameters. When @var{virtio?} is true, load additional modules so that the
|
||
initrd can be used as a QEMU guest with para-virtualized I/O drivers.
|
||
|
||
When @var{volatile-root?} is true, the root file system is writable but any changes
|
||
to it are lost.
|
||
@end deffn
|
||
|
||
@deffn {Monadic Procedure} base-initrd @var{file-systems} @
|
||
[#:mapped-devices '()] [#:qemu-networking? #f] [#:volatile-root? #f]@
|
||
[#:virtio? #t] [#:extra-modules '()]
|
||
Return a monadic derivation that builds a generic initrd. @var{file-systems} is
|
||
a list of file systems to be mounted by the initrd like for @code{raw-initrd}.
|
||
@var{mapped-devices}, @var{qemu-networking?} and @var{volatile-root?}
|
||
also behaves as in @code{raw-initrd}.
|
||
|
||
When @var{virtio?} is true, load additional modules so that the
|
||
initrd can be used as a QEMU guest with para-virtualized I/O drivers.
|
||
|
||
The initrd is automatically populated with all the kernel modules necessary
|
||
for @var{file-systems} and for the given options. However, additional kernel
|
||
modules can be listed in @var{extra-modules}. They will be added to the initrd, and
|
||
loaded at boot time in the order in which they appear.
|
||
@end deffn
|
||
|
||
Needless to say, the initrds we produce and use embed a
|
||
statically-linked Guile, and the initialization program is a Guile
|
||
program. That gives a lot of flexibility. The
|
||
@code{expression->initrd} procedure builds such an initrd, given the
|
||
program to run in that initrd.
|
||
|
||
@deffn {Monadic Procedure} expression->initrd @var{exp} @
|
||
[#:guile %guile-static-stripped] [#:name "guile-initrd"]
|
||
Return a derivation that builds a Linux initrd (a gzipped cpio archive)
|
||
containing @var{guile} and that evaluates @var{exp}, a G-expression,
|
||
upon booting. All the derivations referenced by @var{exp} are
|
||
automatically copied to the initrd.
|
||
@end deffn
|
||
|
||
@node Bootloader Configuration
|
||
@subsection Bootloader Configuration
|
||
|
||
@cindex bootloader
|
||
@cindex boot loader
|
||
|
||
The operating system supports multiple bootloaders. The bootloader is
|
||
configured using @code{bootloader-configuration} declaration. All the
|
||
fields of this structure are bootloader agnostic except for one field,
|
||
@code{bootloader} that indicates the bootloader to be configured and
|
||
installed.
|
||
|
||
Some of the bootloaders do not honor every field of
|
||
@code{bootloader-configuration}. For instance, the extlinux
|
||
bootloader does not support themes and thus ignores the @code{theme}
|
||
field.
|
||
|
||
@deftp {Data Type} bootloader-configuration
|
||
The type of a bootloader configuration declaration.
|
||
|
||
@table @asis
|
||
|
||
@item @code{bootloader}
|
||
@cindex EFI, bootloader
|
||
@cindex UEFI, bootloader
|
||
@cindex BIOS, bootloader
|
||
The bootloader to use, as a @code{bootloader} object. For now
|
||
@code{grub-bootloader}, @code{grub-efi-bootloader},
|
||
@code{extlinux-bootloader} and @code{u-boot-bootloader} are supported.
|
||
@code{grub-efi-bootloader} allows to boot on modern systems using the
|
||
@dfn{Unified Extensible Firmware Interface} (UEFI).
|
||
|
||
Available bootloaders are described in @code{(gnu bootloader @dots{})}
|
||
modules.
|
||
|
||
@item @code{target}
|
||
This is a string denoting the target onto which to install the
|
||
bootloader. The exact interpretation depends on the bootloader in
|
||
question; for @code{grub-bootloader}, for example, it should be a device
|
||
name understood by the bootloader @command{installer} command, such as
|
||
@code{/dev/sda} or @code{(hd0)} (for GRUB, @pxref{Invoking
|
||
grub-install,,, grub, GNU GRUB Manual}). For
|
||
@code{grub-efi-bootloader}, it should be the path to a mounted EFI file
|
||
system.
|
||
|
||
@item @code{menu-entries} (default: @code{()})
|
||
A possibly empty list of @code{menu-entry} objects (see below), denoting
|
||
entries to appear in the bootloader menu, in addition to the current
|
||
system entry and the entry pointing to previous system generations.
|
||
generations.
|
||
|
||
@item @code{default-entry} (default: @code{0})
|
||
The index of the default boot menu entry. Index 0 is for the entry of the
|
||
current system.
|
||
|
||
@item @code{timeout} (default: @code{5})
|
||
The number of seconds to wait for keyboard input before booting. Set to
|
||
0 to boot immediately, and to -1 to wait indefinitely.
|
||
|
||
@item @code{theme} (default: @var{#f})
|
||
The bootloader theme object describing the theme to use. If no theme
|
||
is provided, some bootloaders might use a default theme, that's true
|
||
for GRUB.
|
||
|
||
@item @code{terminal-outputs} (default: @code{'gfxterm})
|
||
The output terminals used for the bootloader boot menu, as a list of
|
||
symbols. GRUB accepts the values: @code{console}, @code{serial},
|
||
@code{serial_@{0-3@}}, @code{gfxterm}, @code{vga_text},
|
||
@code{mda_text}, @code{morse}, and @code{pkmodem}. This field
|
||
corresponds to the GRUB variable GRUB_TERMINAL_OUTPUT (@pxref{Simple
|
||
configuration,,, grub,GNU GRUB manual}).
|
||
|
||
@item @code{terminal-inputs} (default: @code{'()})
|
||
The input terminals used for the bootloader boot menu, as a list of
|
||
symbols. For GRUB, the default is the native platform terminal as
|
||
determined at run-time. GRUB accepts the values: @code{console},
|
||
@code{serial}, @code{serial_@{0-3@}}, @code{at_keyboard}, and
|
||
@code{usb_keyboard}. This field corresponds to the GRUB variable
|
||
GRUB_TERMINAL_INPUT (@pxref{Simple configuration,,, grub,GNU GRUB
|
||
manual}).
|
||
|
||
@item @code{serial-unit} (default: @code{#f})
|
||
The serial unit used by the bootloader, as an integer from 0 to 3.
|
||
For GRUB it is choosen at run-time; currently GRUB chooses 0, which
|
||
corresponds to COM1 (@pxref{Serial terminal,,, grub,GNU GRUB manual}).
|
||
|
||
@item @code{serial-speed} (default: @code{#f})
|
||
The speed of the serial interface, as an integer. For GRUB, the
|
||
default value is chosen at run-time; currently GRUB chooses
|
||
9600@tie{}bps (@pxref{Serial terminal,,, grub,GNU GRUB manual}).
|
||
@end table
|
||
|
||
@end deftp
|
||
|
||
@cindex dual boot
|
||
@cindex boot menu
|
||
Should you want to list additional boot menu entries @i{via} the
|
||
@code{menu-entries} field above, you will need to create them with the
|
||
@code{menu-entry} form. For example, imagine you want to be able to
|
||
boot another distro (hard to imagine!), you can define a menu entry
|
||
along these lines:
|
||
|
||
@example
|
||
(menu-entry
|
||
(label "The Other Distro")
|
||
(linux "/boot/old/vmlinux-2.6.32")
|
||
(linux-arguments '("root=/dev/sda2"))
|
||
(initrd "/boot/old/initrd"))
|
||
@end example
|
||
|
||
Details below.
|
||
|
||
@deftp {Data Type} menu-entry
|
||
The type of an entry in the bootloader menu.
|
||
|
||
@table @asis
|
||
|
||
@item @code{label}
|
||
The label to show in the menu---e.g., @code{"GNU"}.
|
||
|
||
@item @code{linux}
|
||
The Linux kernel image to boot, for example:
|
||
|
||
@example
|
||
(file-append linux-libre "/bzImage")
|
||
@end example
|
||
|
||
For GRUB, it is also possible to specify a device explicitly in the
|
||
file path using GRUB's device naming convention (@pxref{Naming
|
||
convention,,, grub, GNU GRUB manual}), for example:
|
||
|
||
@example
|
||
"(hd0,msdos1)/boot/vmlinuz"
|
||
@end example
|
||
|
||
If the device is specified explicitly as above, then the @code{device}
|
||
field is ignored entirely.
|
||
|
||
@item @code{linux-arguments} (default: @code{()})
|
||
The list of extra Linux kernel command-line arguments---e.g.,
|
||
@code{("console=ttyS0")}.
|
||
|
||
@item @code{initrd}
|
||
A G-Expression or string denoting the file name of the initial RAM disk
|
||
to use (@pxref{G-Expressions}).
|
||
@item @code{device} (default: @code{#f})
|
||
The device where the kernel and initrd are to be found---i.e., for GRUB,
|
||
@dfn{root} for this menu entry (@pxref{root,,, grub, GNU GRUB manual}).
|
||
|
||
This may be a file system label (a string), a file system UUID (a
|
||
bytevector, @pxref{File Systems}), or @code{#f}, in which case
|
||
the bootloader will search the device containing the file specified by
|
||
the @code{linux} field (@pxref{search,,, grub, GNU GRUB manual}). It
|
||
must @emph{not} be an OS device name such as @file{/dev/sda1}.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@c FIXME: Write documentation once it's stable.
|
||
Fow now only GRUB has theme support. GRUB themes are created using
|
||
the @code{grub-theme} form, which is not documented yet.
|
||
|
||
@defvr {Scheme Variable} %default-theme
|
||
This is the default GRUB theme used by the operating system if no
|
||
@code{theme} field is specified in @code{bootloader-configuration}
|
||
record.
|
||
|
||
It comes with a fancy background image displaying the GNU and Guix
|
||
logos.
|
||
@end defvr
|
||
|
||
|
||
@node Invoking guix system
|
||
@subsection Invoking @code{guix system}
|
||
|
||
Once you have written an operating system declaration as seen in the
|
||
previous section, it can be @dfn{instantiated} using the @command{guix
|
||
system} command. The synopsis is:
|
||
|
||
@example
|
||
guix system @var{options}@dots{} @var{action} @var{file}
|
||
@end example
|
||
|
||
@var{file} must be the name of a file containing an
|
||
@code{operating-system} declaration. @var{action} specifies how the
|
||
operating system is instantiated. Currently the following values are
|
||
supported:
|
||
|
||
@table @code
|
||
@item search
|
||
Display available service type definitions that match the given regular
|
||
expressions, sorted by relevance:
|
||
|
||
@example
|
||
$ guix system search console font
|
||
name: console-fonts
|
||
location: gnu/services/base.scm:729:2
|
||
extends: shepherd-root
|
||
description: Install the given fonts on the specified ttys (fonts are
|
||
+ per virtual console on GNU/Linux). The value of this service is a list
|
||
+ of tty/font pairs like:
|
||
+
|
||
+ '(("tty1" . "LatGrkCyr-8x16"))
|
||
relevance: 20
|
||
|
||
name: mingetty
|
||
location: gnu/services/base.scm:1048:2
|
||
extends: shepherd-root
|
||
description: Provide console login using the `mingetty' program.
|
||
relevance: 2
|
||
|
||
name: login
|
||
location: gnu/services/base.scm:775:2
|
||
extends: pam
|
||
description: Provide a console log-in service as specified by its
|
||
+ configuration value, a `login-configuration' object.
|
||
relevance: 2
|
||
|
||
@dots{}
|
||
@end example
|
||
|
||
As for @command{guix package --search}, the result is written in
|
||
@code{recutils} format, which makes it easy to filter the output
|
||
(@pxref{Top, GNU recutils databases,, recutils, GNU recutils manual}).
|
||
|
||
@item reconfigure
|
||
Build the operating system described in @var{file}, activate it, and
|
||
switch to it@footnote{This action (and the related actions
|
||
@code{switch-generation} and @code{roll-back}) are usable only on
|
||
systems already running GuixSD.}.
|
||
|
||
This effects all the configuration specified in @var{file}: user
|
||
accounts, system services, global package list, setuid programs, etc.
|
||
The command starts system services specified in @var{file} that are not
|
||
currently running; if a service is currently running, it does not
|
||
attempt to upgrade it since this would not be possible without stopping it
|
||
first.
|
||
|
||
This command creates a new generation whose number is one greater than
|
||
the current generation (as reported by @command{guix system
|
||
list-generations}). If that generation already exists, it will be
|
||
overwritten. This behavior mirrors that of @command{guix package}
|
||
(@pxref{Invoking guix package}).
|
||
|
||
It also adds a bootloader menu entry for the new OS configuration,
|
||
---unless @option{--no-bootloader} is passed. For GRUB, it moves
|
||
entries for older configurations to a submenu, allowing you to choose
|
||
an older system generation at boot time should you need it.
|
||
|
||
@quotation Note
|
||
@c The paragraph below refers to the problem discussed at
|
||
@c <http://lists.gnu.org/archive/html/guix-devel/2014-08/msg00057.html>.
|
||
It is highly recommended to run @command{guix pull} once before you run
|
||
@command{guix system reconfigure} for the first time (@pxref{Invoking
|
||
guix pull}). Failing to do that you would see an older version of Guix
|
||
once @command{reconfigure} has completed.
|
||
@end quotation
|
||
|
||
@item switch-generation
|
||
@cindex generations
|
||
Switch to an existing system generation. This action atomically
|
||
switches the system profile to the specified system generation. It
|
||
also rearranges the system's existing bootloader menu entries. It
|
||
makes the menu entry for the specified system generation the default,
|
||
and it moves the entries for the other generatiors to a submenu, if
|
||
supported by the bootloader being used. The next time the system
|
||
boots, it will use the specified system generation.
|
||
|
||
The bootloader itself is not being reinstalled when using this
|
||
command. Thus, the installed bootloader is used with an updated
|
||
configuration file.
|
||
|
||
The target generation can be specified explicitly by its generation
|
||
number. For example, the following invocation would switch to system
|
||
generation 7:
|
||
|
||
@example
|
||
guix system switch-generation 7
|
||
@end example
|
||
|
||
The target generation can also be specified relative to the current
|
||
generation with the form @code{+N} or @code{-N}, where @code{+3} means
|
||
``3 generations ahead of the current generation,'' and @code{-1} means
|
||
``1 generation prior to the current generation.'' When specifying a
|
||
negative value such as @code{-1}, you must precede it with @code{--} to
|
||
prevent it from being parsed as an option. For example:
|
||
|
||
@example
|
||
guix system switch-generation -- -1
|
||
@end example
|
||
|
||
Currently, the effect of invoking this action is @emph{only} to switch
|
||
the system profile to an existing generation and rearrange the
|
||
bootloader menu entries. To actually start using the target system
|
||
generation, you must reboot after running this action. In the future,
|
||
it will be updated to do the same things as @command{reconfigure},
|
||
like activating and deactivating services.
|
||
|
||
This action will fail if the specified generation does not exist.
|
||
|
||
@item roll-back
|
||
@cindex rolling back
|
||
Switch to the preceding system generation. The next time the system
|
||
boots, it will use the preceding system generation. This is the inverse
|
||
of @command{reconfigure}, and it is exactly the same as invoking
|
||
@command{switch-generation} with an argument of @code{-1}.
|
||
|
||
Currently, as with @command{switch-generation}, you must reboot after
|
||
running this action to actually start using the preceding system
|
||
generation.
|
||
|
||
@item build
|
||
Build the derivation of the operating system, which includes all the
|
||
configuration files and programs needed to boot and run the system.
|
||
This action does not actually install anything.
|
||
|
||
@item init
|
||
Populate the given directory with all the files necessary to run the
|
||
operating system specified in @var{file}. This is useful for first-time
|
||
installations of GuixSD. For instance:
|
||
|
||
@example
|
||
guix system init my-os-config.scm /mnt
|
||
@end example
|
||
|
||
copies to @file{/mnt} all the store items required by the configuration
|
||
specified in @file{my-os-config.scm}. This includes configuration
|
||
files, packages, and so on. It also creates other essential files
|
||
needed for the system to operate correctly---e.g., the @file{/etc},
|
||
@file{/var}, and @file{/run} directories, and the @file{/bin/sh} file.
|
||
|
||
This command also installs bootloader on the target specified in
|
||
@file{my-os-config}, unless the @option{--no-bootloader} option was
|
||
passed.
|
||
|
||
@item vm
|
||
@cindex virtual machine
|
||
@cindex VM
|
||
@anchor{guix system vm}
|
||
Build a virtual machine that contains the operating system declared in
|
||
@var{file}, and return a script to run that virtual machine (VM).
|
||
Arguments given to the script are passed to QEMU as in the example
|
||
below, which enables networking and requests 1@tie{}GiB of RAM for the
|
||
emulated machine:
|
||
|
||
@example
|
||
$ /gnu/store/@dots{}-run-vm.sh -m 1024 -net user
|
||
@end example
|
||
|
||
The VM shares its store with the host system.
|
||
|
||
Additional file systems can be shared between the host and the VM using
|
||
the @code{--share} and @code{--expose} command-line options: the former
|
||
specifies a directory to be shared with write access, while the latter
|
||
provides read-only access to the shared directory.
|
||
|
||
The example below creates a VM in which the user's home directory is
|
||
accessible read-only, and where the @file{/exchange} directory is a
|
||
read-write mapping of @file{$HOME/tmp} on the host:
|
||
|
||
@example
|
||
guix system vm my-config.scm \
|
||
--expose=$HOME --share=$HOME/tmp=/exchange
|
||
@end example
|
||
|
||
On GNU/Linux, the default is to boot directly to the kernel; this has
|
||
the advantage of requiring only a very tiny root disk image since the
|
||
store of the host can then be mounted.
|
||
|
||
The @code{--full-boot} option forces a complete boot sequence, starting
|
||
with the bootloader. This requires more disk space since a root image
|
||
containing at least the kernel, initrd, and bootloader data files must
|
||
be created. The @code{--image-size} option can be used to specify the
|
||
size of the image.
|
||
|
||
@item vm-image
|
||
@itemx disk-image
|
||
Return a virtual machine or disk image of the operating system declared
|
||
in @var{file} that stands alone. By default, @command{guix system}
|
||
estimates the size of the image needed to store the system, but you can
|
||
use the @option{--image-size} option to specify a value.
|
||
|
||
You can specify the root file system type by using the
|
||
@option{--file-system-type} option. It defaults to @code{ext4}.
|
||
|
||
When using @code{vm-image}, the returned image is in qcow2 format, which
|
||
the QEMU emulator can efficiently use. @xref{Running GuixSD in a VM},
|
||
for more information on how to run the image in a virtual machine.
|
||
|
||
When using @code{disk-image}, a raw disk image is produced; it can be
|
||
copied as is to a USB stick, for instance. Assuming @code{/dev/sdc} is
|
||
the device corresponding to a USB stick, one can copy the image to it
|
||
using the following command:
|
||
|
||
@example
|
||
# dd if=$(guix system disk-image my-os.scm) of=/dev/sdc
|
||
@end example
|
||
|
||
@item container
|
||
Return a script to run the operating system declared in @var{file}
|
||
within a container. Containers are a set of lightweight isolation
|
||
mechanisms provided by the kernel Linux-libre. Containers are
|
||
substantially less resource-demanding than full virtual machines since
|
||
the kernel, shared objects, and other resources can be shared with the
|
||
host system; this also means they provide thinner isolation.
|
||
|
||
Currently, the script must be run as root in order to support more than
|
||
a single user and group. The container shares its store with the host
|
||
system.
|
||
|
||
As with the @code{vm} action (@pxref{guix system vm}), additional file
|
||
systems to be shared between the host and container can be specified
|
||
using the @option{--share} and @option{--expose} options:
|
||
|
||
@example
|
||
guix system container my-config.scm \
|
||
--expose=$HOME --share=$HOME/tmp=/exchange
|
||
@end example
|
||
|
||
@quotation Note
|
||
This option requires Linux-libre 3.19 or newer.
|
||
@end quotation
|
||
|
||
@end table
|
||
|
||
@var{options} can contain any of the common build options (@pxref{Common
|
||
Build Options}). In addition, @var{options} can contain one of the
|
||
following:
|
||
|
||
@table @option
|
||
@item --system=@var{system}
|
||
@itemx -s @var{system}
|
||
Attempt to build for @var{system} instead of the host system type.
|
||
This works as per @command{guix build} (@pxref{Invoking guix build}).
|
||
|
||
@item --derivation
|
||
@itemx -d
|
||
Return the derivation file name of the given operating system without
|
||
building anything.
|
||
|
||
@item --file-system-type=@var{type}
|
||
@itemx -t @var{type}
|
||
For the @code{disk-image} action, create a file system of the given
|
||
@var{type} on the image.
|
||
|
||
When this option is omitted, @command{guix system} uses @code{ext4}.
|
||
|
||
@cindex ISO-9660 format
|
||
@cindex CD image format
|
||
@cindex DVD image format
|
||
@code{--file-system-type=iso9660} produces an ISO-9660 image, suitable
|
||
for burning on CDs and DVDs.
|
||
|
||
@item --image-size=@var{size}
|
||
For the @code{vm-image} and @code{disk-image} actions, create an image
|
||
of the given @var{size}. @var{size} may be a number of bytes, or it may
|
||
include a unit as a suffix (@pxref{Block size, size specifications,,
|
||
coreutils, GNU Coreutils}).
|
||
|
||
When this option is omitted, @command{guix system} computes an estimate
|
||
of the image size as a function of the size of the system declared in
|
||
@var{file}.
|
||
|
||
@item --root=@var{file}
|
||
@itemx -r @var{file}
|
||
Make @var{file} a symlink to the result, and register it as a garbage
|
||
collector root.
|
||
|
||
@item --on-error=@var{strategy}
|
||
Apply @var{strategy} when an error occurs when reading @var{file}.
|
||
@var{strategy} may be one of the following:
|
||
|
||
@table @code
|
||
@item nothing-special
|
||
Report the error concisely and exit. This is the default strategy.
|
||
|
||
@item backtrace
|
||
Likewise, but also display a backtrace.
|
||
|
||
@item debug
|
||
Report the error and enter Guile's debugger. From there, you can run
|
||
commands such as @code{,bt} to get a backtrace, @code{,locals} to
|
||
display local variable values, and more generally inspect the state of the
|
||
program. @xref{Debug Commands,,, guile, GNU Guile Reference Manual}, for
|
||
a list of available debugging commands.
|
||
@end table
|
||
@end table
|
||
|
||
@quotation Note
|
||
All the actions above, except @code{build} and @code{init},
|
||
can use KVM support in the Linux-libre kernel. Specifically, if the
|
||
machine has hardware virtualization support, the corresponding
|
||
KVM kernel module should be loaded, and the @file{/dev/kvm} device node
|
||
must exist and be readable and writable by the user and by the
|
||
build users of the daemon (@pxref{Build Environment Setup}).
|
||
@end quotation
|
||
|
||
Once you have built, configured, re-configured, and re-re-configured
|
||
your GuixSD installation, you may find it useful to list the operating
|
||
system generations available on disk---and that you can choose from the
|
||
bootloader boot menu:
|
||
|
||
@table @code
|
||
|
||
@item list-generations
|
||
List a summary of each generation of the operating system available on
|
||
disk, in a human-readable way. This is similar to the
|
||
@option{--list-generations} option of @command{guix package}
|
||
(@pxref{Invoking guix package}).
|
||
|
||
Optionally, one can specify a pattern, with the same syntax that is used
|
||
in @command{guix package --list-generations}, to restrict the list of
|
||
generations displayed. For instance, the following command displays
|
||
generations that are up to 10 days old:
|
||
|
||
@example
|
||
$ guix system list-generations 10d
|
||
@end example
|
||
|
||
@end table
|
||
|
||
The @command{guix system} command has even more to offer! The following
|
||
sub-commands allow you to visualize how your system services relate to
|
||
each other:
|
||
|
||
@anchor{system-extension-graph}
|
||
@table @code
|
||
|
||
@item extension-graph
|
||
Emit in Dot/Graphviz format to standard output the @dfn{service
|
||
extension graph} of the operating system defined in @var{file}
|
||
(@pxref{Service Composition}, for more information on service
|
||
extensions.)
|
||
|
||
The command:
|
||
|
||
@example
|
||
$ guix system extension-graph @var{file} | dot -Tpdf > services.pdf
|
||
@end example
|
||
|
||
produces a PDF file showing the extension relations among services.
|
||
|
||
@anchor{system-shepherd-graph}
|
||
@item shepherd-graph
|
||
Emit in Dot/Graphviz format to standard output the @dfn{dependency
|
||
graph} of shepherd services of the operating system defined in
|
||
@var{file}. @xref{Shepherd Services}, for more information and for an
|
||
example graph.
|
||
|
||
@end table
|
||
|
||
@node Running GuixSD in a VM
|
||
@subsection Running GuixSD in a Virtual Machine
|
||
|
||
@cindex virtual machine
|
||
To run GuixSD in a virtual machine (VM), one can either use the
|
||
pre-built GuixSD VM image distributed at
|
||
@indicateurl{ftp://alpha.gnu.org/guix/guixsd-vm-image-@value{VERSION}.@var{system}.tar.xz}
|
||
, or build their own virtual machine image using @command{guix system
|
||
vm-image} (@pxref{Invoking guix system}). The returned image is in
|
||
qcow2 format, which the @uref{http://qemu.org/, QEMU emulator} can
|
||
efficiently use.
|
||
|
||
@cindex QEMU
|
||
If you built your own image, you must copy it out of the store
|
||
(@pxref{The Store}) and give yourself permission to write to the copy
|
||
before you can use it. When invoking QEMU, you must choose a system
|
||
emulator that is suitable for your hardware platform. Here is a minimal
|
||
QEMU invocation that will boot the result of @command{guix system
|
||
vm-image} on x86_64 hardware:
|
||
|
||
@example
|
||
$ qemu-system-x86_64 \
|
||
-net user -net nic,model=virtio \
|
||
-enable-kvm -m 256 /tmp/qemu-image
|
||
@end example
|
||
|
||
Here is what each of these options means:
|
||
|
||
@table @code
|
||
@item qemu-system-x86_64
|
||
This specifies the hardware platform to emulate. This should match the
|
||
host.
|
||
|
||
@item -net user
|
||
Enable the unprivileged user-mode network stack. The guest OS can
|
||
access the host but not vice versa. This is the simplest way to get the
|
||
guest OS online.
|
||
|
||
@item -net nic,model=virtio
|
||
You must create a network interface of a given model. If you do not
|
||
create a NIC, the boot will fail. Assuming your hardware platform is
|
||
x86_64, you can get a list of available NIC models by running
|
||
@command{qemu-system-x86_64 -net nic,model=help}.
|
||
|
||
@item -enable-kvm
|
||
If your system has hardware virtualization extensions, enabling the
|
||
virtual machine support (KVM) of the Linux kernel will make things run
|
||
faster.
|
||
|
||
@item -m 256
|
||
RAM available to the guest OS, in mebibytes. Defaults to 128@tie{}MiB,
|
||
which may be insufficient for some operations.
|
||
|
||
@item /tmp/qemu-image
|
||
The file name of the qcow2 image.
|
||
@end table
|
||
|
||
The default @command{run-vm.sh} script that is returned by an invocation of
|
||
@command{guix system vm} does not add a @command{-net user} flag by default.
|
||
To get network access from within the vm add the @code{(dhcp-client-service)}
|
||
to your system definition and start the VM using
|
||
@command{`guix system vm config.scm` -net user}. An important caveat of using
|
||
@command{-net user} for networking is that @command{ping} will not work, because
|
||
it uses the ICMP protocol. You'll have to use a different command to check for
|
||
network connectivity, for example @command{guix download}.
|
||
|
||
@subsubsection Connecting Through SSH
|
||
|
||
@cindex SSH
|
||
@cindex SSH server
|
||
To enable SSH inside a VM you need to add a SSH server like @code{(dropbear-service)}
|
||
or @code{(lsh-service)} to your VM. The @code{(lsh-service}) doesn't currently
|
||
boot unsupervised. It requires you to type some characters to initialize the
|
||
randomness generator. In addition you need to forward the SSH port, 22 by
|
||
default, to the host. You can do this with
|
||
|
||
@example
|
||
`guix system vm config.scm` -net user,hostfwd=tcp::10022-:22
|
||
@end example
|
||
|
||
To connect to the VM you can run
|
||
|
||
@example
|
||
ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 10022
|
||
@end example
|
||
|
||
The @command{-p} tells @command{ssh} the port you want to connect to.
|
||
@command{-o UserKnownHostsFile=/dev/null} prevents @command{ssh} from complaining
|
||
every time you modify your @command{config.scm} file and the
|
||
@command{-o StrictHostKeyChecking=no} prevents you from having to allow a
|
||
connection to an unknown host every time you connect.
|
||
|
||
@subsubsection Using @command{virt-viewer} with Spice
|
||
|
||
As an alternative to the default @command{qemu} graphical client you can
|
||
use the @command{remote-viewer} from the @command{virt-viewer} package. To
|
||
connect pass the @command{-spice port=5930,disable-ticketing} flag to
|
||
@command{qemu}. See previous section for further information on how to do this.
|
||
|
||
Spice also allows you to do some nice stuff like share your clipboard with your
|
||
VM. To enable that you'll also have to pass the following flags to @command{qemu}:
|
||
|
||
@example
|
||
-device virtio-serial-pci,id=virtio-serial0,max_ports=16,bus=pci.0,addr=0x5
|
||
-chardev spicevmc,name=vdagent,id=vdagent
|
||
-device virtserialport,nr=1,bus=virtio-serial0.0,chardev=vdagent,
|
||
name=com.redhat.spice.0
|
||
@end example
|
||
|
||
You'll also need to add the @pxref{Miscellaneous Services, Spice service}.
|
||
|
||
@node Defining Services
|
||
@subsection Defining Services
|
||
|
||
The previous sections show the available services and how one can combine
|
||
them in an @code{operating-system} declaration. But how do we define
|
||
them in the first place? And what is a service anyway?
|
||
|
||
@menu
|
||
* Service Composition:: The model for composing services.
|
||
* Service Types and Services:: Types and services.
|
||
* Service Reference:: API reference.
|
||
* Shepherd Services:: A particular type of service.
|
||
@end menu
|
||
|
||
@node Service Composition
|
||
@subsubsection Service Composition
|
||
|
||
@cindex services
|
||
@cindex daemons
|
||
Here we define a @dfn{service} as, broadly, something that extends the
|
||
functionality of the operating system. Often a service is a process---a
|
||
@dfn{daemon}---started when the system boots: a secure shell server, a
|
||
Web server, the Guix build daemon, etc. Sometimes a service is a daemon
|
||
whose execution can be triggered by another daemon---e.g., an FTP server
|
||
started by @command{inetd} or a D-Bus service activated by
|
||
@command{dbus-daemon}. Occasionally, a service does not map to a
|
||
daemon. For instance, the ``account'' service collects user accounts
|
||
and makes sure they exist when the system runs; the ``udev'' service
|
||
collects device management rules and makes them available to the eudev
|
||
daemon; the @file{/etc} service populates the @file{/etc} directory
|
||
of the system.
|
||
|
||
@cindex service extensions
|
||
GuixSD services are connected by @dfn{extensions}. For instance, the
|
||
secure shell service @emph{extends} the Shepherd---the GuixSD
|
||
initialization system, running as PID@tie{}1---by giving it the command
|
||
lines to start and stop the secure shell daemon (@pxref{Networking
|
||
Services, @code{lsh-service}}); the UPower service extends the D-Bus
|
||
service by passing it its @file{.service} specification, and extends the
|
||
udev service by passing it device management rules (@pxref{Desktop
|
||
Services, @code{upower-service}}); the Guix daemon service extends the
|
||
Shepherd by passing it the command lines to start and stop the daemon,
|
||
and extends the account service by passing it a list of required build
|
||
user accounts (@pxref{Base Services}).
|
||
|
||
All in all, services and their ``extends'' relations form a directed
|
||
acyclic graph (DAG). If we represent services as boxes and extensions
|
||
as arrows, a typical system might provide something like this:
|
||
|
||
@image{images/service-graph,,5in,Typical service extension graph.}
|
||
|
||
@cindex system service
|
||
At the bottom, we see the @dfn{system service}, which produces the
|
||
directory containing everything to run and boot the system, as returned
|
||
by the @command{guix system build} command. @xref{Service Reference},
|
||
to learn about the other service types shown here.
|
||
@xref{system-extension-graph, the @command{guix system extension-graph}
|
||
command}, for information on how to generate this representation for a
|
||
particular operating system definition.
|
||
|
||
@cindex service types
|
||
Technically, developers can define @dfn{service types} to express these
|
||
relations. There can be any number of services of a given type on the
|
||
system---for instance, a system running two instances of the GNU secure
|
||
shell server (lsh) has two instances of @var{lsh-service-type}, with
|
||
different parameters.
|
||
|
||
The following section describes the programming interface for service
|
||
types and services.
|
||
|
||
@node Service Types and Services
|
||
@subsubsection Service Types and Services
|
||
|
||
A @dfn{service type} is a node in the DAG described above. Let us start
|
||
with a simple example, the service type for the Guix build daemon
|
||
(@pxref{Invoking guix-daemon}):
|
||
|
||
@example
|
||
(define guix-service-type
|
||
(service-type
|
||
(name 'guix)
|
||
(extensions
|
||
(list (service-extension shepherd-root-service-type guix-shepherd-service)
|
||
(service-extension account-service-type guix-accounts)
|
||
(service-extension activation-service-type guix-activation)))
|
||
(default-value (guix-configuration))))
|
||
@end example
|
||
|
||
@noindent
|
||
It defines three things:
|
||
|
||
@enumerate
|
||
@item
|
||
A name, whose sole purpose is to make inspection and debugging easier.
|
||
|
||
@item
|
||
A list of @dfn{service extensions}, where each extension designates the
|
||
target service type and a procedure that, given the parameters of the
|
||
service, returns a list of objects to extend the service of that type.
|
||
|
||
Every service type has at least one service extension. The only
|
||
exception is the @dfn{boot service type}, which is the ultimate service.
|
||
|
||
@item
|
||
Optionally, a default value for instances of this type.
|
||
@end enumerate
|
||
|
||
In this example, @var{guix-service-type} extends three services:
|
||
|
||
@table @var
|
||
@item shepherd-root-service-type
|
||
The @var{guix-shepherd-service} procedure defines how the Shepherd
|
||
service is extended. Namely, it returns a @code{<shepherd-service>}
|
||
object that defines how @command{guix-daemon} is started and stopped
|
||
(@pxref{Shepherd Services}).
|
||
|
||
@item account-service-type
|
||
This extension for this service is computed by @var{guix-accounts},
|
||
which returns a list of @code{user-group} and @code{user-account}
|
||
objects representing the build user accounts (@pxref{Invoking
|
||
guix-daemon}).
|
||
|
||
@item activation-service-type
|
||
Here @var{guix-activation} is a procedure that returns a gexp, which is
|
||
a code snippet to run at ``activation time''---e.g., when the service is
|
||
booted.
|
||
@end table
|
||
|
||
A service of this type is instantiated like this:
|
||
|
||
@example
|
||
(service guix-service-type
|
||
(guix-configuration
|
||
(build-accounts 5)
|
||
(use-substitutes? #f)))
|
||
@end example
|
||
|
||
The second argument to the @code{service} form is a value representing
|
||
the parameters of this specific service instance.
|
||
@xref{guix-configuration-type, @code{guix-configuration}}, for
|
||
information about the @code{guix-configuration} data type. When the
|
||
value is omitted, the default value specified by
|
||
@code{guix-service-type} is used:
|
||
|
||
@example
|
||
(service guix-service-type)
|
||
@end example
|
||
|
||
@var{guix-service-type} is quite simple because it extends other
|
||
services but is not extensible itself.
|
||
|
||
@c @subsubsubsection Extensible Service Types
|
||
|
||
The service type for an @emph{extensible} service looks like this:
|
||
|
||
@example
|
||
(define udev-service-type
|
||
(service-type (name 'udev)
|
||
(extensions
|
||
(list (service-extension shepherd-root-service-type
|
||
udev-shepherd-service)))
|
||
|
||
(compose concatenate) ;concatenate the list of rules
|
||
(extend (lambda (config rules)
|
||
(match config
|
||
(($ <udev-configuration> udev initial-rules)
|
||
(udev-configuration
|
||
(udev udev) ;the udev package to use
|
||
(rules (append initial-rules rules)))))))))
|
||
@end example
|
||
|
||
This is the service type for the
|
||
@uref{https://wiki.gentoo.org/wiki/Project:Eudev, eudev device
|
||
management daemon}. Compared to the previous example, in addition to an
|
||
extension of @var{shepherd-root-service-type}, we see two new fields:
|
||
|
||
@table @code
|
||
@item compose
|
||
This is the procedure to @dfn{compose} the list of extensions to
|
||
services of this type.
|
||
|
||
Services can extend the udev service by passing it lists of rules; we
|
||
compose those extensions simply by concatenating them.
|
||
|
||
@item extend
|
||
This procedure defines how the value of the service is @dfn{extended} with
|
||
the composition of the extensions.
|
||
|
||
Udev extensions are composed into a list of rules, but the udev service
|
||
value is itself a @code{<udev-configuration>} record. So here, we
|
||
extend that record by appending the list of rules it contains to the
|
||
list of contributed rules.
|
||
|
||
@item description
|
||
This is a string giving an overview of the service type. The string can
|
||
contain Texinfo markup (@pxref{Overview,,, texinfo, GNU Texinfo}). The
|
||
@command{guix system search} command searches these strings and displays
|
||
them (@pxref{Invoking guix system}).
|
||
@end table
|
||
|
||
There can be only one instance of an extensible service type such as
|
||
@var{udev-service-type}. If there were more, the
|
||
@code{service-extension} specifications would be ambiguous.
|
||
|
||
Still here? The next section provides a reference of the programming
|
||
interface for services.
|
||
|
||
@node Service Reference
|
||
@subsubsection Service Reference
|
||
|
||
We have seen an overview of service types (@pxref{Service Types and
|
||
Services}). This section provides a reference on how to manipulate
|
||
services and service types. This interface is provided by the
|
||
@code{(gnu services)} module.
|
||
|
||
@deffn {Scheme Procedure} service @var{type} [@var{value}]
|
||
Return a new service of @var{type}, a @code{<service-type>} object (see
|
||
below.) @var{value} can be any object; it represents the parameters of
|
||
this particular service instance.
|
||
|
||
When @var{value} is omitted, the default value specified by @var{type}
|
||
is used; if @var{type} does not specify a default value, an error is
|
||
raised.
|
||
|
||
For instance, this:
|
||
|
||
@example
|
||
(service openssh-service-type)
|
||
@end example
|
||
|
||
@noindent
|
||
is equivalent to this:
|
||
|
||
@example
|
||
(service openssh-service-type
|
||
(openssh-configuration))
|
||
@end example
|
||
|
||
In both cases the result is an instance of @code{openssh-service-type}
|
||
with the default configuration.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} service? @var{obj}
|
||
Return true if @var{obj} is a service.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} service-kind @var{service}
|
||
Return the type of @var{service}---i.e., a @code{<service-type>} object.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} service-value @var{service}
|
||
Return the value associated with @var{service}. It represents its
|
||
parameters.
|
||
@end deffn
|
||
|
||
Here is an example of how a service is created and manipulated:
|
||
|
||
@example
|
||
(define s
|
||
(service nginx-service-type
|
||
(nginx-configuration
|
||
(nginx nginx)
|
||
(log-directory log-directory)
|
||
(run-directory run-directory)
|
||
(file config-file))))
|
||
|
||
(service? s)
|
||
@result{} #t
|
||
|
||
(eq? (service-kind s) nginx-service-type)
|
||
@result{} #t
|
||
@end example
|
||
|
||
The @code{modify-services} form provides a handy way to change the
|
||
parameters of some of the services of a list such as
|
||
@var{%base-services} (@pxref{Base Services, @code{%base-services}}). It
|
||
evaluates to a list of services. Of course, you could always use
|
||
standard list combinators such as @code{map} and @code{fold} to do that
|
||
(@pxref{SRFI-1, List Library,, guile, GNU Guile Reference Manual});
|
||
@code{modify-services} simply provides a more concise form for this
|
||
common pattern.
|
||
|
||
@deffn {Scheme Syntax} modify-services @var{services} @
|
||
(@var{type} @var{variable} => @var{body}) @dots{}
|
||
|
||
Modify the services listed in @var{services} according to the given
|
||
clauses. Each clause has the form:
|
||
|
||
@example
|
||
(@var{type} @var{variable} => @var{body})
|
||
@end example
|
||
|
||
where @var{type} is a service type---e.g.,
|
||
@code{guix-service-type}---and @var{variable} is an identifier that is
|
||
bound within the @var{body} to the service parameters---e.g., a
|
||
@code{guix-configuration} instance---of the original service of that
|
||
@var{type}.
|
||
|
||
The @var{body} should evaluate to the new service parameters, which will
|
||
be used to configure the new service. This new service will replace the
|
||
original in the resulting list. Because a service's service parameters
|
||
are created using @code{define-record-type*}, you can write a succinct
|
||
@var{body} that evaluates to the new service parameters by using the
|
||
@code{inherit} feature that @code{define-record-type*} provides.
|
||
|
||
@xref{Using the Configuration System}, for example usage.
|
||
|
||
@end deffn
|
||
|
||
Next comes the programming interface for service types. This is
|
||
something you want to know when writing new service definitions, but not
|
||
necessarily when simply looking for ways to customize your
|
||
@code{operating-system} declaration.
|
||
|
||
@deftp {Data Type} service-type
|
||
@cindex service type
|
||
This is the representation of a @dfn{service type} (@pxref{Service Types
|
||
and Services}).
|
||
|
||
@table @asis
|
||
@item @code{name}
|
||
This is a symbol, used only to simplify inspection and debugging.
|
||
|
||
@item @code{extensions}
|
||
A non-empty list of @code{<service-extension>} objects (see below).
|
||
|
||
@item @code{compose} (default: @code{#f})
|
||
If this is @code{#f}, then the service type denotes services that cannot
|
||
be extended---i.e., services that do not receive ``values'' from other
|
||
services.
|
||
|
||
Otherwise, it must be a one-argument procedure. The procedure is called
|
||
by @code{fold-services} and is passed a list of values collected from
|
||
extensions. It must return a value that is a valid parameter value for
|
||
the service instance.
|
||
|
||
@item @code{extend} (default: @code{#f})
|
||
If this is @code{#f}, services of this type cannot be extended.
|
||
|
||
Otherwise, it must be a two-argument procedure: @code{fold-services}
|
||
calls it, passing it the initial value of the service as the first argument
|
||
and the result of applying @code{compose} to the extension values as the
|
||
second argument.
|
||
@end table
|
||
|
||
@xref{Service Types and Services}, for examples.
|
||
@end deftp
|
||
|
||
@deffn {Scheme Procedure} service-extension @var{target-type} @
|
||
@var{compute}
|
||
Return a new extension for services of type @var{target-type}.
|
||
@var{compute} must be a one-argument procedure: @code{fold-services}
|
||
calls it, passing it the value associated with the service that provides
|
||
the extension; it must return a valid value for the target service.
|
||
@end deffn
|
||
|
||
@deffn {Scheme Procedure} service-extension? @var{obj}
|
||
Return true if @var{obj} is a service extension.
|
||
@end deffn
|
||
|
||
Occasionally, you might want to simply extend an existing service. This
|
||
involves creating a new service type and specifying the extension of
|
||
interest, which can be verbose; the @code{simple-service} procedure
|
||
provides a shorthand for this.
|
||
|
||
@deffn {Scheme Procedure} simple-service @var{name} @var{target} @var{value}
|
||
Return a service that extends @var{target} with @var{value}. This works
|
||
by creating a singleton service type @var{name}, of which the returned
|
||
service is an instance.
|
||
|
||
For example, this extends mcron (@pxref{Scheduled Job Execution}) with
|
||
an additional job:
|
||
|
||
@example
|
||
(simple-service 'my-mcron-job mcron-service-type
|
||
#~(job '(next-hour (3)) "guix gc -F 2G"))
|
||
@end example
|
||
@end deffn
|
||
|
||
At the core of the service abstraction lies the @code{fold-services}
|
||
procedure, which is responsible for ``compiling'' a list of services
|
||
down to a single directory that contains everything needed to boot and
|
||
run the system---the directory shown by the @command{guix system build}
|
||
command (@pxref{Invoking guix system}). In essence, it propagates
|
||
service extensions down the service graph, updating each node parameters
|
||
on the way, until it reaches the root node.
|
||
|
||
@deffn {Scheme Procedure} fold-services @var{services} @
|
||
[#:target-type @var{system-service-type}]
|
||
Fold @var{services} by propagating their extensions down to the root of
|
||
type @var{target-type}; return the root service adjusted accordingly.
|
||
@end deffn
|
||
|
||
Lastly, the @code{(gnu services)} module also defines several essential
|
||
service types, some of which are listed below.
|
||
|
||
@defvr {Scheme Variable} system-service-type
|
||
This is the root of the service graph. It produces the system directory
|
||
as returned by the @command{guix system build} command.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} boot-service-type
|
||
The type of the ``boot service'', which produces the @dfn{boot script}.
|
||
The boot script is what the initial RAM disk runs when booting.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} etc-service-type
|
||
The type of the @file{/etc} service. This service is used to create
|
||
files under @file{/etc} and can be extended by
|
||
passing it name/file tuples such as:
|
||
|
||
@example
|
||
(list `("issue" ,(plain-file "issue" "Welcome!\n")))
|
||
@end example
|
||
|
||
In this example, the effect would be to add an @file{/etc/issue} file
|
||
pointing to the given file.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} setuid-program-service-type
|
||
Type for the ``setuid-program service''. This service collects lists of
|
||
executable file names, passed as gexps, and adds them to the set of
|
||
setuid-root programs on the system (@pxref{Setuid Programs}).
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} profile-service-type
|
||
Type of the service that populates the @dfn{system profile}---i.e., the
|
||
programs under @file{/run/current-system/profile}. Other services can
|
||
extend it by passing it lists of packages to add to the system profile.
|
||
@end defvr
|
||
|
||
|
||
@node Shepherd Services
|
||
@subsubsection Shepherd Services
|
||
|
||
@cindex shepherd services
|
||
@cindex PID 1
|
||
@cindex init system
|
||
The @code{(gnu services shepherd)} module provides a way to define
|
||
services managed by the GNU@tie{}Shepherd, which is the GuixSD
|
||
initialization system---the first process that is started when the
|
||
system boots, also known as PID@tie{}1
|
||
(@pxref{Introduction,,, shepherd, The GNU Shepherd Manual}).
|
||
|
||
Services in the Shepherd can depend on each other. For instance, the
|
||
SSH daemon may need to be started after the syslog daemon has been
|
||
started, which in turn can only happen once all the file systems have
|
||
been mounted. The simple operating system defined earlier (@pxref{Using
|
||
the Configuration System}) results in a service graph like this:
|
||
|
||
@image{images/shepherd-graph,,5in,Typical shepherd service graph.}
|
||
|
||
You can actually generate such a graph for any operating system
|
||
definition using the @command{guix system shepherd-graph} command
|
||
(@pxref{system-shepherd-graph, @command{guix system shepherd-graph}}).
|
||
|
||
The @var{%shepherd-root-service} is a service object representing
|
||
PID@tie{}1, of type @var{shepherd-root-service-type}; it can be extended
|
||
by passing it lists of @code{<shepherd-service>} objects.
|
||
|
||
@deftp {Data Type} shepherd-service
|
||
The data type representing a service managed by the Shepherd.
|
||
|
||
@table @asis
|
||
@item @code{provision}
|
||
This is a list of symbols denoting what the service provides.
|
||
|
||
These are the names that may be passed to @command{herd start},
|
||
@command{herd status}, and similar commands (@pxref{Invoking herd,,,
|
||
shepherd, The GNU Shepherd Manual}). @xref{Slots of services, the
|
||
@code{provides} slot,, shepherd, The GNU Shepherd Manual}, for details.
|
||
|
||
@item @code{requirements} (default: @code{'()})
|
||
List of symbols denoting the Shepherd services this one depends on.
|
||
|
||
@item @code{respawn?} (default: @code{#t})
|
||
Whether to restart the service when it stops, for instance when the
|
||
underlying process dies.
|
||
|
||
@item @code{start}
|
||
@itemx @code{stop} (default: @code{#~(const #f)})
|
||
The @code{start} and @code{stop} fields refer to the Shepherd's
|
||
facilities to start and stop processes (@pxref{Service De- and
|
||
Constructors,,, shepherd, The GNU Shepherd Manual}). They are given as
|
||
G-expressions that get expanded in the Shepherd configuration file
|
||
(@pxref{G-Expressions}).
|
||
|
||
@item @code{documentation}
|
||
A documentation string, as shown when running:
|
||
|
||
@example
|
||
herd doc @var{service-name}
|
||
@end example
|
||
|
||
where @var{service-name} is one of the symbols in @var{provision}
|
||
(@pxref{Invoking herd,,, shepherd, The GNU Shepherd Manual}).
|
||
|
||
@item @code{modules} (default: @var{%default-modules})
|
||
This is the list of modules that must be in scope when @code{start} and
|
||
@code{stop} are evaluated.
|
||
|
||
@end table
|
||
@end deftp
|
||
|
||
@defvr {Scheme Variable} shepherd-root-service-type
|
||
The service type for the Shepherd ``root service''---i.e., PID@tie{}1.
|
||
|
||
This is the service type that extensions target when they want to create
|
||
shepherd services (@pxref{Service Types and Services}, for an example).
|
||
Each extension must pass a list of @code{<shepherd-service>}.
|
||
@end defvr
|
||
|
||
@defvr {Scheme Variable} %shepherd-root-service
|
||
This service represents PID@tie{}1.
|
||
@end defvr
|
||
|
||
|
||
@node Documentation
|
||
@section Documentation
|
||
|
||
@cindex documentation, searching for
|
||
@cindex searching for documentation
|
||
@cindex Info, documentation format
|
||
@cindex man pages
|
||
@cindex manual pages
|
||
In most cases packages installed with Guix come with documentation.
|
||
There are two main documentation formats: ``Info'', a browseable
|
||
hypertext format used for GNU software, and ``manual pages'' (or ``man
|
||
pages''), the linear documentation format traditionally found on Unix.
|
||
Info manuals are accessed with the @command{info} command or with Emacs,
|
||
and man pages are accessed using @command{man}.
|
||
|
||
You can look for documentation of software installed on your system by
|
||
keyword. For example, the following command searches for information
|
||
about ``TLS'' in Info manuals:
|
||
|
||
@example
|
||
$ info -k TLS
|
||
"(emacs)Network Security" -- STARTTLS
|
||
"(emacs)Network Security" -- TLS
|
||
"(gnutls)Core TLS API" -- gnutls_certificate_set_verify_flags
|
||
"(gnutls)Core TLS API" -- gnutls_certificate_set_verify_function
|
||
@dots{}
|
||
@end example
|
||
|
||
@noindent
|
||
The command below searches for the same keyword in man pages:
|
||
|
||
@example
|
||
$ man -k TLS
|
||
SSL (7) - OpenSSL SSL/TLS library
|
||
certtool (1) - GnuTLS certificate tool
|
||
@dots {}
|
||
@end example
|
||
|
||
These searches are purely local to your computer so you have the
|
||
guarantee that documentation you find corresponds to what you have
|
||
actually installed, you can access it off-line, and your privacy is
|
||
respected.
|
||
|
||
Once you have these results, you can view the relevant documentation by
|
||
running, say:
|
||
|
||
@example
|
||
$ info "(gnutls)Core TLS API"
|
||
@end example
|
||
|
||
@noindent
|
||
or:
|
||
|
||
@example
|
||
$ man certtool
|
||
@end example
|
||
|
||
Info manuals contain sections and indices as well as hyperlinks like
|
||
those found in Web pages. The @command{info} reader (@pxref{Top, Info
|
||
reader,, info-stnd, Stand-alone GNU Info}) and its Emacs counterpart
|
||
(@pxref{Misc Help,,, emacs, The GNU Emacs Manual}) provide intuitive key
|
||
bindings to navigate manuals. @xref{Getting Started,,, info, Info: An
|
||
Introduction}, for an introduction to Info navigation.
|
||
|
||
@node Installing Debugging Files
|
||
@section Installing Debugging Files
|
||
|
||
@cindex debugging files
|
||
Program binaries, as produced by the GCC compilers for instance, are
|
||
typically written in the ELF format, with a section containing
|
||
@dfn{debugging information}. Debugging information is what allows the
|
||
debugger, GDB, to map binary code to source code; it is required to
|
||
debug a compiled program in good conditions.
|
||
|
||
The problem with debugging information is that is takes up a fair amount
|
||
of disk space. For example, debugging information for the GNU C Library
|
||
weighs in at more than 60 MiB. Thus, as a user, keeping all the
|
||
debugging info of all the installed programs is usually not an option.
|
||
Yet, space savings should not come at the cost of an impediment to
|
||
debugging---especially in the GNU system, which should make it easier
|
||
for users to exert their computing freedom (@pxref{GNU Distribution}).
|
||
|
||
Thankfully, the GNU Binary Utilities (Binutils) and GDB provide a
|
||
mechanism that allows users to get the best of both worlds: debugging
|
||
information can be stripped from the binaries and stored in separate
|
||
files. GDB is then able to load debugging information from those files,
|
||
when they are available (@pxref{Separate Debug Files,,, gdb, Debugging
|
||
with GDB}).
|
||
|
||
The GNU distribution takes advantage of this by storing debugging
|
||
information in the @code{lib/debug} sub-directory of a separate package
|
||
output unimaginatively called @code{debug} (@pxref{Packages with
|
||
Multiple Outputs}). Users can choose to install the @code{debug} output
|
||
of a package when they need it. For instance, the following command
|
||
installs the debugging information for the GNU C Library and for GNU
|
||
Guile:
|
||
|
||
@example
|
||
guix package -i glibc:debug guile:debug
|
||
@end example
|
||
|
||
GDB must then be told to look for debug files in the user's profile, by
|
||
setting the @code{debug-file-directory} variable (consider setting it
|
||
from the @file{~/.gdbinit} file, @pxref{Startup,,, gdb, Debugging with
|
||
GDB}):
|
||
|
||
@example
|
||
(gdb) set debug-file-directory ~/.guix-profile/lib/debug
|
||
@end example
|
||
|
||
From there on, GDB will pick up debugging information from the
|
||
@code{.debug} files under @file{~/.guix-profile/lib/debug}.
|
||
|
||
In addition, you will most likely want GDB to be able to show the source
|
||
code being debugged. To do that, you will have to unpack the source
|
||
code of the package of interest (obtained with @code{guix build
|
||
--source}, @pxref{Invoking guix build}), and to point GDB to that source
|
||
directory using the @code{directory} command (@pxref{Source Path,
|
||
@code{directory},, gdb, Debugging with GDB}).
|
||
|
||
@c XXX: keep me up-to-date
|
||
The @code{debug} output mechanism in Guix is implemented by the
|
||
@code{gnu-build-system} (@pxref{Build Systems}). Currently, it is
|
||
opt-in---debugging information is available only for the packages
|
||
with definitions explicitly declaring a @code{debug} output. This may be
|
||
changed to opt-out in the future if our build farm servers can handle
|
||
the load. To check whether a package has a @code{debug} output, use
|
||
@command{guix package --list-available} (@pxref{Invoking guix package}).
|
||
|
||
|
||
@node Security Updates
|
||
@section Security Updates
|
||
|
||
@cindex security updates
|
||
@cindex security vulnerabilities
|
||
Occasionally, important security vulnerabilities are discovered in software
|
||
packages and must be patched. Guix developers try hard to keep track of
|
||
known vulnerabilities and to apply fixes as soon as possible in the
|
||
@code{master} branch of Guix (we do not yet provide a ``stable'' branch
|
||
containing only security updates.) The @command{guix lint} tool helps
|
||
developers find out about vulnerable versions of software packages in the
|
||
distribution:
|
||
|
||
@smallexample
|
||
$ guix lint -c cve
|
||
gnu/packages/base.scm:652:2: glibc@@2.21: probably vulnerable to CVE-2015-1781, CVE-2015-7547
|
||
gnu/packages/gcc.scm:334:2: gcc@@4.9.3: probably vulnerable to CVE-2015-5276
|
||
gnu/packages/image.scm:312:2: openjpeg@@2.1.0: probably vulnerable to CVE-2016-1923, CVE-2016-1924
|
||
@dots{}
|
||
@end smallexample
|
||
|
||
@xref{Invoking guix lint}, for more information.
|
||
|
||
@quotation Note
|
||
As of version @value{VERSION}, the feature described below is considered
|
||
``beta''.
|
||
@end quotation
|
||
|
||
Guix follows a functional
|
||
package management discipline (@pxref{Introduction}), which implies
|
||
that, when a package is changed, @emph{every package that depends on it}
|
||
must be rebuilt. This can significantly slow down the deployment of
|
||
fixes in core packages such as libc or Bash, since basically the whole
|
||
distribution would need to be rebuilt. Using pre-built binaries helps
|
||
(@pxref{Substitutes}), but deployment may still take more time than
|
||
desired.
|
||
|
||
@cindex grafts
|
||
To address this, Guix implements @dfn{grafts}, a mechanism that allows
|
||
for fast deployment of critical updates without the costs associated
|
||
with a whole-distribution rebuild. The idea is to rebuild only the
|
||
package that needs to be patched, and then to ``graft'' it onto packages
|
||
explicitly installed by the user and that were previously referring to
|
||
the original package. The cost of grafting is typically very low, and
|
||
order of magnitudes lower than a full rebuild of the dependency chain.
|
||
|
||
@cindex replacements of packages, for grafts
|
||
For instance, suppose a security update needs to be applied to Bash.
|
||
Guix developers will provide a package definition for the ``fixed''
|
||
Bash, say @var{bash-fixed}, in the usual way (@pxref{Defining
|
||
Packages}). Then, the original package definition is augmented with a
|
||
@code{replacement} field pointing to the package containing the bug fix:
|
||
|
||
@example
|
||
(define bash
|
||
(package
|
||
(name "bash")
|
||
;; @dots{}
|
||
(replacement bash-fixed)))
|
||
@end example
|
||
|
||
From there on, any package depending directly or indirectly on Bash---as
|
||
reported by @command{guix gc --requisites} (@pxref{Invoking guix
|
||
gc})---that is installed is automatically ``rewritten'' to refer to
|
||
@var{bash-fixed} instead of @var{bash}. This grafting process takes
|
||
time proportional to the size of the package, usually less than a
|
||
minute for an ``average'' package on a recent machine. Grafting is
|
||
recursive: when an indirect dependency requires grafting, then grafting
|
||
``propagates'' up to the package that the user is installing.
|
||
|
||
Currently, the length of the name and version of the graft and that of
|
||
the package it replaces (@var{bash-fixed} and @var{bash} in the example
|
||
above) must be equal. This restriction mostly comes from the fact that
|
||
grafting works by patching files, including binary files, directly.
|
||
Other restrictions may apply: for instance, when adding a graft to a
|
||
package providing a shared library, the original shared library and its
|
||
replacement must have the same @code{SONAME} and be binary-compatible.
|
||
|
||
The @option{--no-grafts} command-line option allows you to forcefully
|
||
avoid grafting (@pxref{Common Build Options, @option{--no-grafts}}).
|
||
Thus, the command:
|
||
|
||
@example
|
||
guix build bash --no-grafts
|
||
@end example
|
||
|
||
@noindent
|
||
returns the store file name of the original Bash, whereas:
|
||
|
||
@example
|
||
guix build bash
|
||
@end example
|
||
|
||
@noindent
|
||
returns the store file name of the ``fixed'', replacement Bash. This
|
||
allows you to distinguish between the two variants of Bash.
|
||
|
||
To verify which Bash your whole profile refers to, you can run
|
||
(@pxref{Invoking guix gc}):
|
||
|
||
@example
|
||
guix gc -R `readlink -f ~/.guix-profile` | grep bash
|
||
@end example
|
||
|
||
@noindent
|
||
@dots{} and compare the store file names that you get with those above.
|
||
Likewise for a complete GuixSD system generation:
|
||
|
||
@example
|
||
guix gc -R `guix system build my-config.scm` | grep bash
|
||
@end example
|
||
|
||
Lastly, to check which Bash running processes are using, you can use the
|
||
@command{lsof} command:
|
||
|
||
@example
|
||
lsof | grep /gnu/store/.*bash
|
||
@end example
|
||
|
||
|
||
@node Package Modules
|
||
@section Package Modules
|
||
|
||
From a programming viewpoint, the package definitions of the
|
||
GNU distribution are provided by Guile modules in the @code{(gnu packages
|
||
@dots{})} name space@footnote{Note that packages under the @code{(gnu
|
||
packages @dots{})} module name space are not necessarily ``GNU
|
||
packages''. This module naming scheme follows the usual Guile module
|
||
naming convention: @code{gnu} means that these modules are distributed
|
||
as part of the GNU system, and @code{packages} identifies modules that
|
||
define packages.} (@pxref{Modules, Guile modules,, guile, GNU Guile
|
||
Reference Manual}). For instance, the @code{(gnu packages emacs)}
|
||
module exports a variable named @code{emacs}, which is bound to a
|
||
@code{<package>} object (@pxref{Defining Packages}).
|
||
|
||
The @code{(gnu packages @dots{})} module name space is
|
||
automatically scanned for packages by the command-line tools. For
|
||
instance, when running @code{guix package -i emacs}, all the @code{(gnu
|
||
packages @dots{})} modules are scanned until one that exports a package
|
||
object whose name is @code{emacs} is found. This package search
|
||
facility is implemented in the @code{(gnu packages)} module.
|
||
|
||
@cindex customization, of packages
|
||
@cindex package module search path
|
||
Users can store package definitions in modules with different
|
||
names---e.g., @code{(my-packages emacs)}@footnote{Note that the file
|
||
name and module name must match. For instance, the @code{(my-packages
|
||
emacs)} module must be stored in a @file{my-packages/emacs.scm} file
|
||
relative to the load path specified with @option{--load-path} or
|
||
@code{GUIX_PACKAGE_PATH}. @xref{Modules and the File System,,,
|
||
guile, GNU Guile Reference Manual}, for details.}. These package definitions
|
||
will not be visible by default. Users can invoke commands such as
|
||
@command{guix package} and @command{guix build} with the
|
||
@code{-e} option so that they know where to find the package. Better
|
||
yet, they can use the
|
||
@code{-L} option of these commands to make those modules visible
|
||
(@pxref{Invoking guix build, @code{--load-path}}), or define the
|
||
@code{GUIX_PACKAGE_PATH} environment variable. This environment
|
||
variable makes it easy to extend or customize the distribution and is
|
||
honored by all the user interfaces.
|
||
|
||
@defvr {Environment Variable} GUIX_PACKAGE_PATH
|
||
This is a colon-separated list of directories to search for additional
|
||
package modules. Directories listed in this variable take precedence
|
||
over the own modules of the distribution.
|
||
@end defvr
|
||
|
||
The distribution is fully @dfn{bootstrapped} and @dfn{self-contained}:
|
||
each package is built based solely on other packages in the
|
||
distribution. The root of this dependency graph is a small set of
|
||
@dfn{bootstrap binaries}, provided by the @code{(gnu packages
|
||
bootstrap)} module. For more information on bootstrapping,
|
||
@pxref{Bootstrapping}.
|
||
|
||
@node Packaging Guidelines
|
||
@section Packaging Guidelines
|
||
|
||
@cindex packages, creating
|
||
The GNU distribution is nascent and may well lack some of your favorite
|
||
packages. This section describes how you can help make the distribution
|
||
grow. @xref{Contributing}, for additional information on how you can
|
||
help.
|
||
|
||
Free software packages are usually distributed in the form of
|
||
@dfn{source code tarballs}---typically @file{tar.gz} files that contain
|
||
all the source files. Adding a package to the distribution means
|
||
essentially two things: adding a @dfn{recipe} that describes how to
|
||
build the package, including a list of other packages required to build
|
||
it, and adding @dfn{package metadata} along with that recipe, such as a
|
||
description and licensing information.
|
||
|
||
In Guix all this information is embodied in @dfn{package definitions}.
|
||
Package definitions provide a high-level view of the package. They are
|
||
written using the syntax of the Scheme programming language; in fact,
|
||
for each package we define a variable bound to the package definition,
|
||
and export that variable from a module (@pxref{Package Modules}).
|
||
However, in-depth Scheme knowledge is @emph{not} a prerequisite for
|
||
creating packages. For more information on package definitions,
|
||
@pxref{Defining Packages}.
|
||
|
||
Once a package definition is in place, stored in a file in the Guix
|
||
source tree, it can be tested using the @command{guix build} command
|
||
(@pxref{Invoking guix build}). For example, assuming the new package is
|
||
called @code{gnew}, you may run this command from the Guix build tree
|
||
(@pxref{Running Guix Before It Is Installed}):
|
||
|
||
@example
|
||
./pre-inst-env guix build gnew --keep-failed
|
||
@end example
|
||
|
||
Using @code{--keep-failed} makes it easier to debug build failures since
|
||
it provides access to the failed build tree. Another useful
|
||
command-line option when debugging is @code{--log-file}, to access the
|
||
build log.
|
||
|
||
If the package is unknown to the @command{guix} command, it may be that
|
||
the source file contains a syntax error, or lacks a @code{define-public}
|
||
clause to export the package variable. To figure it out, you may load
|
||
the module from Guile to get more information about the actual error:
|
||
|
||
@example
|
||
./pre-inst-env guile -c '(use-modules (gnu packages gnew))'
|
||
@end example
|
||
|
||
Once your package builds correctly, please send us a patch
|
||
(@pxref{Contributing}). Well, if you need help, we will be happy to
|
||
help you too. Once the patch is committed in the Guix repository, the
|
||
new package automatically gets built on the supported platforms by
|
||
@url{http://hydra.gnu.org/jobset/gnu/master, our continuous integration
|
||
system}.
|
||
|
||
@cindex substituter
|
||
Users can obtain the new package definition simply by running
|
||
@command{guix pull} (@pxref{Invoking guix pull}). When
|
||
@code{hydra.gnu.org} is done building the package, installing the
|
||
package automatically downloads binaries from there
|
||
(@pxref{Substitutes}). The only place where human intervention is
|
||
needed is to review and apply the patch.
|
||
|
||
|
||
@menu
|
||
* Software Freedom:: What may go into the distribution.
|
||
* Package Naming:: What's in a name?
|
||
* Version Numbers:: When the name is not enough.
|
||
* Synopses and Descriptions:: Helping users find the right package.
|
||
* Python Modules:: A touch of British comedy.
|
||
* Perl Modules:: Little pearls.
|
||
* Java Packages:: Coffee break.
|
||
* Fonts:: Fond of fonts.
|
||
@end menu
|
||
|
||
@node Software Freedom
|
||
@subsection Software Freedom
|
||
|
||
@c Adapted from http://www.gnu.org/philosophy/philosophy.html.
|
||
@cindex free software
|
||
The GNU operating system has been developed so that users can have
|
||
freedom in their computing. GNU is @dfn{free software}, meaning that
|
||
users have the @url{http://www.gnu.org/philosophy/free-sw.html,four
|
||
essential freedoms}: to run the program, to study and change the program
|
||
in source code form, to redistribute exact copies, and to distribute
|
||
modified versions. Packages found in the GNU distribution provide only
|
||
software that conveys these four freedoms.
|
||
|
||
In addition, the GNU distribution follow the
|
||
@url{http://www.gnu.org/distros/free-system-distribution-guidelines.html,free
|
||
software distribution guidelines}. Among other things, these guidelines
|
||
reject non-free firmware, recommendations of non-free software, and
|
||
discuss ways to deal with trademarks and patents.
|
||
|
||
Some otherwise free upstream package sources contain a small and optional
|
||
subset that violates the above guidelines, for instance because this subset
|
||
is itself non-free code. When that happens, the offending items are removed
|
||
with appropriate patches or code snippets in the @code{origin} form of the
|
||
package (@pxref{Defining Packages}). This way, @code{guix
|
||
build --source} returns the ``freed'' source rather than the unmodified
|
||
upstream source.
|
||
|
||
|
||
@node Package Naming
|
||
@subsection Package Naming
|
||
|
||
@cindex package name
|
||
A package has actually two names associated with it:
|
||
First, there is the name of the @emph{Scheme variable}, the one following
|
||
@code{define-public}. By this name, the package can be made known in the
|
||
Scheme code, for instance as input to another package. Second, there is
|
||
the string in the @code{name} field of a package definition. This name
|
||
is used by package management commands such as
|
||
@command{guix package} and @command{guix build}.
|
||
|
||
Both are usually the same and correspond to the lowercase conversion of
|
||
the project name chosen upstream, with underscores replaced with
|
||
hyphens. For instance, GNUnet is available as @code{gnunet}, and
|
||
SDL_net as @code{sdl-net}.
|
||
|
||
We do not add @code{lib} prefixes for library packages, unless these are
|
||
already part of the official project name. But @pxref{Python
|
||
Modules} and @ref{Perl Modules} for special rules concerning modules for
|
||
the Python and Perl languages.
|
||
|
||
Font package names are handled differently, @pxref{Fonts}.
|
||
|
||
|
||
@node Version Numbers
|
||
@subsection Version Numbers
|
||
|
||
@cindex package version
|
||
We usually package only the latest version of a given free software
|
||
project. But sometimes, for instance for incompatible library versions,
|
||
two (or more) versions of the same package are needed. These require
|
||
different Scheme variable names. We use the name as defined
|
||
in @ref{Package Naming}
|
||
for the most recent version; previous versions use the same name, suffixed
|
||
by @code{-} and the smallest prefix of the version number that may
|
||
distinguish the two versions.
|
||
|
||
The name inside the package definition is the same for all versions of a
|
||
package and does not contain any version number.
|
||
|
||
For instance, the versions 2.24.20 and 3.9.12 of GTK+ may be packaged as follows:
|
||
|
||
@example
|
||
(define-public gtk+
|
||
(package
|
||
(name "gtk+")
|
||
(version "3.9.12")
|
||
...))
|
||
(define-public gtk+-2
|
||
(package
|
||
(name "gtk+")
|
||
(version "2.24.20")
|
||
...))
|
||
@end example
|
||
If we also wanted GTK+ 3.8.2, this would be packaged as
|
||
@example
|
||
(define-public gtk+-3.8
|
||
(package
|
||
(name "gtk+")
|
||
(version "3.8.2")
|
||
...))
|
||
@end example
|
||
|
||
@c See <https://lists.gnu.org/archive/html/guix-devel/2016-01/msg00425.html>,
|
||
@c for a discussion of what follows.
|
||
@cindex version number, for VCS snapshots
|
||
Occasionally, we package snapshots of upstream's version control system
|
||
(VCS) instead of formal releases. This should remain exceptional,
|
||
because it is up to upstream developers to clarify what the stable
|
||
release is. Yet, it is sometimes necessary. So, what should we put in
|
||
the @code{version} field?
|
||
|
||
Clearly, we need to make the commit identifier of the VCS snapshot
|
||
visible in the version string, but we also need to make sure that the
|
||
version string is monotonically increasing so that @command{guix package
|
||
--upgrade} can determine which version is newer. Since commit
|
||
identifiers, notably with Git, are not monotonically increasing, we add
|
||
a revision number that we increase each time we upgrade to a newer
|
||
snapshot. The resulting version string looks like this:
|
||
|
||
@example
|
||
2.0.11-3.cabba9e
|
||
^ ^ ^
|
||
| | `-- upstream commit ID
|
||
| |
|
||
| `--- Guix package revision
|
||
|
|
||
latest upstream version
|
||
@end example
|
||
|
||
It is a good idea to strip commit identifiers in the @code{version}
|
||
field to, say, 7 digits. It avoids an aesthetic annoyance (assuming
|
||
aesthetics have a role to play here) as well as problems related to OS
|
||
limits such as the maximum shebang length (127 bytes for the Linux
|
||
kernel.) It is best to use the full commit identifiers in
|
||
@code{origin}s, though, to avoid ambiguities. A typical package
|
||
definition may look like this:
|
||
|
||
@example
|
||
(define my-package
|
||
(let ((commit "c3f29bc928d5900971f65965feaae59e1272a3f7")
|
||
(revision "1")) ;Guix package revision
|
||
(package
|
||
(version (string-append "0.9-" revision "."
|
||
(string-take commit 7)))
|
||
(source (origin
|
||
(method git-fetch)
|
||
(uri (git-reference
|
||
(url "git://example.org/my-package.git")
|
||
(commit commit)))
|
||
(sha256 (base32 "1mbikn@dots{}"))
|
||
(file-name (string-append "my-package-" version
|
||
"-checkout"))))
|
||
;; @dots{}
|
||
)))
|
||
@end example
|
||
|
||
@node Synopses and Descriptions
|
||
@subsection Synopses and Descriptions
|
||
|
||
@cindex package description
|
||
@cindex package synopsis
|
||
As we have seen before, each package in GNU@tie{}Guix includes a
|
||
synopsis and a description (@pxref{Defining Packages}). Synopses and
|
||
descriptions are important: They are what @command{guix package
|
||
--search} searches, and a crucial piece of information to help users
|
||
determine whether a given package suits their needs. Consequently,
|
||
packagers should pay attention to what goes into them.
|
||
|
||
Synopses must start with a capital letter and must not end with a
|
||
period. They must not start with ``a'' or ``the'', which usually does
|
||
not bring anything; for instance, prefer ``File-frobbing tool'' over ``A
|
||
tool that frobs files''. The synopsis should say what the package
|
||
is---e.g., ``Core GNU utilities (file, text, shell)''---or what it is
|
||
used for---e.g., the synopsis for GNU@tie{}grep is ``Print lines
|
||
matching a pattern''.
|
||
|
||
Keep in mind that the synopsis must be meaningful for a very wide
|
||
audience. For example, ``Manipulate alignments in the SAM format''
|
||
might make sense for a seasoned bioinformatics researcher, but might be
|
||
fairly unhelpful or even misleading to a non-specialized audience. It
|
||
is a good idea to come up with a synopsis that gives an idea of the
|
||
application domain of the package. In this example, this might give
|
||
something like ``Manipulate nucleotide sequence alignments'', which
|
||
hopefully gives the user a better idea of whether this is what they are
|
||
looking for.
|
||
|
||
Descriptions should take between five and ten lines. Use full
|
||
sentences, and avoid using acronyms without first introducing them.
|
||
Please avoid marketing phrases such as ``world-leading'',
|
||
``industrial-strength'', and ``next-generation'', and avoid superlatives
|
||
like ``the most advanced''---they are not helpful to users looking for a
|
||
package and may even sound suspicious. Instead, try to be factual,
|
||
mentioning use cases and features.
|
||
|
||
@cindex Texinfo markup, in package descriptions
|
||
Descriptions can include Texinfo markup, which is useful to introduce
|
||
ornaments such as @code{@@code} or @code{@@dfn}, bullet lists, or
|
||
hyperlinks (@pxref{Overview,,, texinfo, GNU Texinfo}). However you
|
||
should be careful when using some characters for example @samp{@@} and
|
||
curly braces which are the basic special characters in Texinfo
|
||
(@pxref{Special Characters,,, texinfo, GNU Texinfo}). User interfaces
|
||
such as @command{guix package --show} take care of rendering it
|
||
appropriately.
|
||
|
||
Synopses and descriptions are translated by volunteers
|
||
@uref{http://translationproject.org/domain/guix-packages.html, at the
|
||
Translation Project} so that as many users as possible can read them in
|
||
their native language. User interfaces search them and display them in
|
||
the language specified by the current locale.
|
||
|
||
To allow @command{xgettext} to extract them as translatable strings,
|
||
synopses and descriptions @emph{must be literal strings}. This means
|
||
that you cannot use @code{string-append} or @code{format} to construct
|
||
these strings:
|
||
|
||
@lisp
|
||
(package
|
||
;; @dots{}
|
||
(synopsis "This is translatable")
|
||
(description (string-append "This is " "*not*" " translatable.")))
|
||
@end lisp
|
||
|
||
Translation is a lot of work so, as a packager, please pay even more
|
||
attention to your synopses and descriptions as every change may entail
|
||
additional work for translators. In order to help them, it is possible
|
||
to make recommendations or instructions visible to them by inserting
|
||
special comments like this (@pxref{xgettext Invocation,,, gettext, GNU
|
||
Gettext}):
|
||
|
||
@example
|
||
;; TRANSLATORS: "X11 resize-and-rotate" should not be translated.
|
||
(description "ARandR is designed to provide a simple visual front end
|
||
for the X11 resize-and-rotate (RandR) extension. @dots{}")
|
||
@end example
|
||
|
||
|
||
@node Python Modules
|
||
@subsection Python Modules
|
||
|
||
@cindex python
|
||
We currently package Python 2 and Python 3, under the Scheme variable names
|
||
@code{python-2} and @code{python} as explained in @ref{Version Numbers}.
|
||
To avoid confusion and naming clashes with other programming languages, it
|
||
seems desirable that the name of a package for a Python module contains
|
||
the word @code{python}.
|
||
|
||
Some modules are compatible with only one version of Python, others with both.
|
||
If the package Foo compiles only with Python 3, we name it
|
||
@code{python-foo}; if it compiles only with Python 2, we name it
|
||
@code{python2-foo}. If it is compatible with both versions, we create two
|
||
packages with the corresponding names.
|
||
|
||
If a project already contains the word @code{python}, we drop this;
|
||
for instance, the module python-dateutil is packaged under the names
|
||
@code{python-dateutil} and @code{python2-dateutil}. If the project name
|
||
starts with @code{py} (e.g. @code{pytz}), we keep it and prefix it as
|
||
described above.
|
||
|
||
@subsubsection Specifying Dependencies
|
||
@cindex inputs, for Python packages
|
||
|
||
Dependency information for Python packages is usually available in the
|
||
package source tree, with varying degrees of accuracy: in the
|
||
@file{setup.py} file, in @file{requirements.txt}, or in @file{tox.ini}.
|
||
|
||
Your mission, when writing a recipe for a Python package, is to map
|
||
these dependencies to the appropriate type of ``input'' (@pxref{package
|
||
Reference, inputs}). Although the @code{pypi} importer normally does a
|
||
good job (@pxref{Invoking guix import}), you may want to check the
|
||
following check list to determine which dependency goes where.
|
||
|
||
@itemize
|
||
|
||
@item
|
||
We currently package Python 2 with @code{setuptools} and @code{pip}
|
||
installed like Python 3.4 has per default. Thus you don't need to
|
||
specify either of these as an input. @command{guix lint} will warn you
|
||
if you do.
|
||
|
||
@item
|
||
Python dependencies required at run time go into
|
||
@code{propagated-inputs}. They are typically defined with the
|
||
@code{install_requires} keyword in @file{setup.py}, or in the
|
||
@file{requirements.txt} file.
|
||
|
||
@item
|
||
Python packages required only at build time---e.g., those listed with
|
||
the @code{setup_requires} keyword in @file{setup.py}---or only for
|
||
testing---e.g., those in @code{tests_require}---go into
|
||
@code{native-inputs}. The rationale is that (1) they do not need to be
|
||
propagated because they are not needed at run time, and (2) in a
|
||
cross-compilation context, it's the ``native'' input that we'd want.
|
||
|
||
Examples are the @code{pytest}, @code{mock}, and @code{nose} test
|
||
frameworks. Of course if any of these packages is also required at
|
||
run-time, it needs to go to @code{propagated-inputs}.
|
||
|
||
@item
|
||
Anything that does not fall in the previous categories goes to
|
||
@code{inputs}, for example programs or C libraries required for building
|
||
Python packages containing C extensions.
|
||
|
||
@item
|
||
If a Python package has optional dependencies (@code{extras_require}),
|
||
it is up to you to decide whether to add them or not, based on their
|
||
usefulness/overhead ratio (@pxref{Submitting Patches, @command{guix
|
||
size}}).
|
||
|
||
@end itemize
|
||
|
||
|
||
@node Perl Modules
|
||
@subsection Perl Modules
|
||
|
||
@cindex perl
|
||
Perl programs standing for themselves are named as any other package,
|
||
using the lowercase upstream name.
|
||
For Perl packages containing a single class, we use the lowercase class name,
|
||
replace all occurrences of @code{::} by dashes and prepend the prefix
|
||
@code{perl-}.
|
||
So the class @code{XML::Parser} becomes @code{perl-xml-parser}.
|
||
Modules containing several classes keep their lowercase upstream name and
|
||
are also prepended by @code{perl-}. Such modules tend to have the word
|
||
@code{perl} somewhere in their name, which gets dropped in favor of the
|
||
prefix. For instance, @code{libwww-perl} becomes @code{perl-libwww}.
|
||
|
||
|
||
@node Java Packages
|
||
@subsection Java Packages
|
||
|
||
@cindex java
|
||
Java programs standing for themselves are named as any other package,
|
||
using the lowercase upstream name.
|
||
|
||
To avoid confusion and naming clashes with other programming languages,
|
||
it is desirable that the name of a package for a Java package is
|
||
prefixed with @code{java-}. If a project already contains the word
|
||
@code{java}, we drop this; for instance, the package @code{ngsjava} is
|
||
packaged under the name @code{java-ngs}.
|
||
|
||
For Java packages containing a single class or a small class hierarchy,
|
||
we use the lowercase class name, replace all occurrences of @code{.} by
|
||
dashes and prepend the prefix @code{java-}. So the class
|
||
@code{apache.commons.cli} becomes package
|
||
@code{java-apache-commons-cli}.
|
||
|
||
|
||
@node Fonts
|
||
@subsection Fonts
|
||
|
||
@cindex fonts
|
||
For fonts that are in general not installed by a user for typesetting
|
||
purposes, or that are distributed as part of a larger software package,
|
||
we rely on the general packaging rules for software; for instance, this
|
||
applies to the fonts delivered as part of the X.Org system or fonts that
|
||
are part of TeX Live.
|
||
|
||
To make it easier for a user to search for fonts, names for other packages
|
||
containing only fonts are constructed as follows, independently of the
|
||
upstream package name.
|
||
|
||
The name of a package containing only one font family starts with
|
||
@code{font-}; it is followed by the foundry name and a dash @code{-}
|
||
if the foundry is known, and the font family name, in which spaces are
|
||
replaced by dashes (and as usual, all upper case letters are transformed
|
||
to lower case).
|
||
For example, the Gentium font family by SIL is packaged under the name
|
||
@code{font-sil-gentium}.
|
||
|
||
For a package containing several font families, the name of the collection
|
||
is used in the place of the font family name.
|
||
For instance, the Liberation fonts consist of three families,
|
||
Liberation Sans, Liberation Serif and Liberation Mono.
|
||
These could be packaged separately under the names
|
||
@code{font-liberation-sans} and so on; but as they are distributed together
|
||
under a common name, we prefer to package them together as
|
||
@code{font-liberation}.
|
||
|
||
In the case where several formats of the same font family or font collection
|
||
are packaged separately, a short form of the format, prepended by a dash,
|
||
is added to the package name. We use @code{-ttf} for TrueType fonts,
|
||
@code{-otf} for OpenType fonts and @code{-type1} for PostScript Type 1
|
||
fonts.
|
||
|
||
|
||
|
||
@node Bootstrapping
|
||
@section Bootstrapping
|
||
|
||
@c Adapted from the ELS 2013 paper.
|
||
|
||
@cindex bootstrapping
|
||
|
||
Bootstrapping in our context refers to how the distribution gets built
|
||
``from nothing''. Remember that the build environment of a derivation
|
||
contains nothing but its declared inputs (@pxref{Introduction}). So
|
||
there's an obvious chicken-and-egg problem: how does the first package
|
||
get built? How does the first compiler get compiled? Note that this is
|
||
a question of interest only to the curious hacker, not to the regular
|
||
user, so you can shamelessly skip this section if you consider yourself
|
||
a ``regular user''.
|
||
|
||
@cindex bootstrap binaries
|
||
The GNU system is primarily made of C code, with libc at its core. The
|
||
GNU build system itself assumes the availability of a Bourne shell and
|
||
command-line tools provided by GNU Coreutils, Awk, Findutils, `sed', and
|
||
`grep'. Furthermore, build programs---programs that run
|
||
@code{./configure}, @code{make}, etc.---are written in Guile Scheme
|
||
(@pxref{Derivations}). Consequently, to be able to build anything at
|
||
all, from scratch, Guix relies on pre-built binaries of Guile, GCC,
|
||
Binutils, libc, and the other packages mentioned above---the
|
||
@dfn{bootstrap binaries}.
|
||
|
||
These bootstrap binaries are ``taken for granted'', though we can also
|
||
re-create them if needed (more on that later).
|
||
|
||
@unnumberedsubsec Preparing to Use the Bootstrap Binaries
|
||
|
||
@c As of Emacs 24.3, Info-mode displays the image, but since it's a
|
||
@c large image, it's hard to scroll. Oh well.
|
||
@image{images/bootstrap-graph,6in,,Dependency graph of the early bootstrap derivations}
|
||
|
||
The figure above shows the very beginning of the dependency graph of the
|
||
distribution, corresponding to the package definitions of the @code{(gnu
|
||
packages bootstrap)} module. A similar figure can be generated with
|
||
@command{guix graph} (@pxref{Invoking guix graph}), along the lines of:
|
||
|
||
@example
|
||
guix graph -t derivation \
|
||
-e '(@@@@ (gnu packages bootstrap) %bootstrap-gcc)' \
|
||
| dot -Tps > t.ps
|
||
@end example
|
||
|
||
At this level of detail, things are
|
||
slightly complex. First, Guile itself consists of an ELF executable,
|
||
along with many source and compiled Scheme files that are dynamically
|
||
loaded when it runs. This gets stored in the @file{guile-2.0.7.tar.xz}
|
||
tarball shown in this graph. This tarball is part of Guix's ``source''
|
||
distribution, and gets inserted into the store with @code{add-to-store}
|
||
(@pxref{The Store}).
|
||
|
||
But how do we write a derivation that unpacks this tarball and adds it
|
||
to the store? To solve this problem, the @code{guile-bootstrap-2.0.drv}
|
||
derivation---the first one that gets built---uses @code{bash} as its
|
||
builder, which runs @code{build-bootstrap-guile.sh}, which in turn calls
|
||
@code{tar} to unpack the tarball. Thus, @file{bash}, @file{tar},
|
||
@file{xz}, and @file{mkdir} are statically-linked binaries, also part of
|
||
the Guix source distribution, whose sole purpose is to allow the Guile
|
||
tarball to be unpacked.
|
||
|
||
Once @code{guile-bootstrap-2.0.drv} is built, we have a functioning
|
||
Guile that can be used to run subsequent build programs. Its first task
|
||
is to download tarballs containing the other pre-built binaries---this
|
||
is what the @code{.tar.xz.drv} derivations do. Guix modules such as
|
||
@code{ftp-client.scm} are used for this purpose. The
|
||
@code{module-import.drv} derivations import those modules in a directory
|
||
in the store, using the original layout. The
|
||
@code{module-import-compiled.drv} derivations compile those modules, and
|
||
write them in an output directory with the right layout. This
|
||
corresponds to the @code{#:modules} argument of
|
||
@code{build-expression->derivation} (@pxref{Derivations}).
|
||
|
||
Finally, the various tarballs are unpacked by the
|
||
derivations @code{gcc-bootstrap-0.drv}, @code{glibc-bootstrap-0.drv},
|
||
etc., at which point we have a working C tool chain.
|
||
|
||
|
||
@unnumberedsubsec Building the Build Tools
|
||
|
||
Bootstrapping is complete when we have a full tool chain that does not
|
||
depend on the pre-built bootstrap tools discussed above. This
|
||
no-dependency requirement is verified by checking whether the files of
|
||
the final tool chain contain references to the @file{/gnu/store}
|
||
directories of the bootstrap inputs. The process that leads to this
|
||
``final'' tool chain is described by the package definitions found in
|
||
the @code{(gnu packages commencement)} module.
|
||
|
||
The @command{guix graph} command allows us to ``zoom out'' compared to
|
||
the graph above, by looking at the level of package objects instead of
|
||
individual derivations---remember that a package may translate to
|
||
several derivations, typically one derivation to download its source,
|
||
one to build the Guile modules it needs, and one to actually build the
|
||
package from source. The command:
|
||
|
||
@example
|
||
guix graph -t bag \
|
||
-e '(@@@@ (gnu packages commencement)
|
||
glibc-final-with-bootstrap-bash)' | dot -Tps > t.ps
|
||
@end example
|
||
|
||
@noindent
|
||
produces the dependency graph leading to the ``final'' C
|
||
library@footnote{You may notice the @code{glibc-intermediate} label,
|
||
suggesting that it is not @emph{quite} final, but as a good
|
||
approximation, we will consider it final.}, depicted below.
|
||
|
||
@image{images/bootstrap-packages,6in,,Dependency graph of the early packages}
|
||
|
||
@c See <http://lists.gnu.org/archive/html/gnu-system-discuss/2012-10/msg00000.html>.
|
||
The first tool that gets built with the bootstrap binaries is
|
||
GNU@tie{}Make---noted @code{make-boot0} above---which is a prerequisite
|
||
for all the following packages. From there Findutils and Diffutils get
|
||
built.
|
||
|
||
Then come the first-stage Binutils and GCC, built as pseudo cross
|
||
tools---i.e., with @code{--target} equal to @code{--host}. They are
|
||
used to build libc. Thanks to this cross-build trick, this libc is
|
||
guaranteed not to hold any reference to the initial tool chain.
|
||
|
||
From there the final Binutils and GCC (not shown above) are built.
|
||
GCC uses @code{ld}
|
||
from the final Binutils, and links programs against the just-built libc.
|
||
This tool chain is used to build the other packages used by Guix and by
|
||
the GNU Build System: Guile, Bash, Coreutils, etc.
|
||
|
||
And voilà! At this point we have the complete set of build tools that
|
||
the GNU Build System expects. These are in the @code{%final-inputs}
|
||
variable of the @code{(gnu packages commencement)} module, and are
|
||
implicitly used by any package that uses @code{gnu-build-system}
|
||
(@pxref{Build Systems, @code{gnu-build-system}}).
|
||
|
||
|
||
@unnumberedsubsec Building the Bootstrap Binaries
|
||
|
||
@cindex bootstrap binaries
|
||
Because the final tool chain does not depend on the bootstrap binaries,
|
||
those rarely need to be updated. Nevertheless, it is useful to have an
|
||
automated way to produce them, should an update occur, and this is what
|
||
the @code{(gnu packages make-bootstrap)} module provides.
|
||
|
||
The following command builds the tarballs containing the bootstrap
|
||
binaries (Guile, Binutils, GCC, libc, and a tarball containing a mixture
|
||
of Coreutils and other basic command-line tools):
|
||
|
||
@example
|
||
guix build bootstrap-tarballs
|
||
@end example
|
||
|
||
The generated tarballs are those that should be referred to in the
|
||
@code{(gnu packages bootstrap)} module mentioned at the beginning of
|
||
this section.
|
||
|
||
Still here? Then perhaps by now you've started to wonder: when do we
|
||
reach a fixed point? That is an interesting question! The answer is
|
||
unknown, but if you would like to investigate further (and have
|
||
significant computational and storage resources to do so), then let us
|
||
know.
|
||
|
||
@node Porting
|
||
@section Porting to a New Platform
|
||
|
||
As discussed above, the GNU distribution is self-contained, and
|
||
self-containment is achieved by relying on pre-built ``bootstrap
|
||
binaries'' (@pxref{Bootstrapping}). These binaries are specific to an
|
||
operating system kernel, CPU architecture, and application binary
|
||
interface (ABI). Thus, to port the distribution to a platform that is
|
||
not yet supported, one must build those bootstrap binaries, and update
|
||
the @code{(gnu packages bootstrap)} module to use them on that platform.
|
||
|
||
Fortunately, Guix can @emph{cross compile} those bootstrap binaries.
|
||
When everything goes well, and assuming the GNU tool chain supports the
|
||
target platform, this can be as simple as running a command like this
|
||
one:
|
||
|
||
@example
|
||
guix build --target=armv5tel-linux-gnueabi bootstrap-tarballs
|
||
@end example
|
||
|
||
For this to work, the @code{glibc-dynamic-linker} procedure in
|
||
@code{(gnu packages bootstrap)} must be augmented to return the right
|
||
file name for libc's dynamic linker on that platform; likewise,
|
||
@code{system->linux-architecture} in @code{(gnu packages linux)} must be
|
||
taught about the new platform.
|
||
|
||
Once these are built, the @code{(gnu packages bootstrap)} module needs
|
||
to be updated to refer to these binaries on the target platform. That
|
||
is, the hashes and URLs of the bootstrap tarballs for the new platform
|
||
must be added alongside those of the currently supported platforms. The
|
||
bootstrap Guile tarball is treated specially: it is expected to be
|
||
available locally, and @file{gnu/local.mk} has rules do download it for
|
||
the supported architectures; a rule for the new platform must be added
|
||
as well.
|
||
|
||
In practice, there may be some complications. First, it may be that the
|
||
extended GNU triplet that specifies an ABI (like the @code{eabi} suffix
|
||
above) is not recognized by all the GNU tools. Typically, glibc
|
||
recognizes some of these, whereas GCC uses an extra @code{--with-abi}
|
||
configure flag (see @code{gcc.scm} for examples of how to handle this).
|
||
Second, some of the required packages could fail to build for that
|
||
platform. Lastly, the generated binaries could be broken for some
|
||
reason.
|
||
|
||
@c *********************************************************************
|
||
@include contributing.texi
|
||
|
||
@c *********************************************************************
|
||
@node Acknowledgments
|
||
@chapter Acknowledgments
|
||
|
||
Guix is based on the @uref{http://nixos.org/nix/, Nix package manager},
|
||
which was designed and
|
||
implemented by Eelco Dolstra, with contributions from other people (see
|
||
the @file{nix/AUTHORS} file in Guix.) Nix pioneered functional package
|
||
management, and promoted unprecedented features, such as transactional
|
||
package upgrades and rollbacks, per-user profiles, and referentially
|
||
transparent build processes. Without this work, Guix would not exist.
|
||
|
||
The Nix-based software distributions, Nixpkgs and NixOS, have also been
|
||
an inspiration for Guix.
|
||
|
||
GNU@tie{}Guix itself is a collective work with contributions from a
|
||
number of people. See the @file{AUTHORS} file in Guix for more
|
||
information on these fine people. The @file{THANKS} file lists people
|
||
who have helped by reporting bugs, taking care of the infrastructure,
|
||
providing artwork and themes, making suggestions, and more---thank you!
|
||
|
||
|
||
@c *********************************************************************
|
||
@node GNU Free Documentation License
|
||
@appendix GNU Free Documentation License
|
||
@cindex license, GNU Free Documentation License
|
||
@include fdl-1.3.texi
|
||
|
||
@c *********************************************************************
|
||
@node Concept Index
|
||
@unnumbered Concept Index
|
||
@printindex cp
|
||
|
||
@node Programming Index
|
||
@unnumbered Programming Index
|
||
@syncodeindex tp fn
|
||
@syncodeindex vr fn
|
||
@printindex fn
|
||
|
||
@bye
|
||
|
||
@c Local Variables:
|
||
@c ispell-local-dictionary: "american";
|
||
@c End:
|