608 lines
24 KiB
Scheme
608 lines
24 KiB
Scheme
;;; Guix --- Nix package management from Guile. -*- coding: utf-8 -*-
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;;; Copyright (C) 2012 Ludovic Courtès <ludo@gnu.org>
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;;;
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;;; This file is part of Guix.
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;;;
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;;; Guix is free software; you can redistribute it and/or modify it
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;;; under the terms of the GNU General Public License as published by
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;;; the Free Software Foundation; either version 3 of the License, or (at
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;;; your option) any later version.
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;;;
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;;; Guix is distributed in the hope that it will be useful, but
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;;; WITHOUT ANY WARRANTY; without even the implied warranty of
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;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;;; GNU General Public License for more details.
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;;;
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;;; You should have received a copy of the GNU General Public License
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;;; along with Guix. If not, see <http://www.gnu.org/licenses/>.
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(define-module (guix utils)
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#:use-module (srfi srfi-1)
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#:use-module (srfi srfi-9)
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#:use-module (srfi srfi-26)
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#:use-module (srfi srfi-39)
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#:use-module (srfi srfi-60)
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#:use-module (rnrs bytevectors)
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#:use-module ((rnrs io ports) #:select (put-bytevector))
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#:use-module (ice-9 vlist)
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#:use-module (ice-9 format)
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#:autoload (ice-9 popen) (open-pipe*)
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#:autoload (ice-9 rdelim) (read-line)
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#:use-module (ice-9 regex)
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#:use-module (ice-9 match)
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#:use-module (ice-9 format)
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#:autoload (system foreign) (pointer->procedure)
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#:export (bytevector-quintet-length
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bytevector->base32-string
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bytevector->nix-base32-string
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bytevector->base16-string
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base32-string->bytevector
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nix-base32-string->bytevector
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base16-string->bytevector
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sha256
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%nixpkgs-directory
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nixpkgs-derivation
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nixpkgs-derivation*
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define-record-type*
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compile-time-value
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memoize
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gnu-triplet->nix-system
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%current-system))
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;;;
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;;; Compile-time computations.
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;;;
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(define-syntax compile-time-value
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(syntax-rules ()
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"Evaluate the given expression at compile time. The expression must
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evaluate to a simple datum."
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((_ exp)
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(let-syntax ((v (lambda (s)
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(let ((val exp))
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(syntax-case s ()
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(_ #`'#,(datum->syntax s val)))))))
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v))))
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;;;
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;;; Base 32.
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;;;
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(define bytevector-quintet-ref
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(let* ((ref bytevector-u8-ref)
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(ref+ (lambda (bv offset)
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(let ((o (+ 1 offset)))
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(if (>= o (bytevector-length bv))
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0
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(bytevector-u8-ref bv o)))))
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(ref0 (lambda (bv offset)
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(bit-field (ref bv offset) 3 8)))
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(ref1 (lambda (bv offset)
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(logior (ash (bit-field (ref bv offset) 0 3) 2)
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(bit-field (ref+ bv offset) 6 8))))
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(ref2 (lambda (bv offset)
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(bit-field (ref bv offset) 1 6)))
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(ref3 (lambda (bv offset)
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(logior (ash (bit-field (ref bv offset) 0 1) 4)
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(bit-field (ref+ bv offset) 4 8))))
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(ref4 (lambda (bv offset)
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(logior (ash (bit-field (ref bv offset) 0 4) 1)
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(bit-field (ref+ bv offset) 7 8))))
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(ref5 (lambda (bv offset)
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(bit-field (ref bv offset) 2 7)))
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(ref6 (lambda (bv offset)
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(logior (ash (bit-field (ref bv offset) 0 2) 3)
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(bit-field (ref+ bv offset) 5 8))))
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(ref7 (lambda (bv offset)
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(bit-field (ref bv offset) 0 5)))
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(refs (vector ref0 ref1 ref2 ref3 ref4 ref5 ref6 ref7)))
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(lambda (bv index)
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"Return the INDEXth quintet of BV."
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(let ((p (vector-ref refs (modulo index 8))))
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(p bv (quotient (* index 5) 8))))))
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(define bytevector-quintet-ref-right
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(let* ((ref bytevector-u8-ref)
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(ref+ (lambda (bv offset)
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(let ((o (+ 1 offset)))
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(if (>= o (bytevector-length bv))
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0
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(bytevector-u8-ref bv o)))))
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(ref0 (lambda (bv offset)
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(bit-field (ref bv offset) 0 5)))
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(ref1 (lambda (bv offset)
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(logior (bit-field (ref bv offset) 5 8)
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(ash (bit-field (ref+ bv offset) 0 2) 3))))
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(ref2 (lambda (bv offset)
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(bit-field (ref bv offset) 2 7)))
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(ref3 (lambda (bv offset)
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(logior (bit-field (ref bv offset) 7 8)
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(ash (bit-field (ref+ bv offset) 0 4) 1))))
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(ref4 (lambda (bv offset)
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(logior (bit-field (ref bv offset) 4 8)
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(ash (bit-field (ref+ bv offset) 0 1) 4))))
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(ref5 (lambda (bv offset)
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(bit-field (ref bv offset) 1 6)))
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(ref6 (lambda (bv offset)
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(logior (bit-field (ref bv offset) 6 8)
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(ash (bit-field (ref+ bv offset) 0 3) 2))))
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(ref7 (lambda (bv offset)
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(bit-field (ref bv offset) 3 8)))
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(refs (vector ref0 ref1 ref2 ref3 ref4 ref5 ref6 ref7)))
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(lambda (bv index)
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"Return the INDEXth quintet of BV, assuming quintets start from the
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least-significant bits, contrary to what RFC 4648 describes."
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(let ((p (vector-ref refs (modulo index 8))))
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(p bv (quotient (* index 5) 8))))))
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(define (bytevector-quintet-length bv)
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"Return the number of quintets (including truncated ones) available in BV."
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(ceiling (/ (* (bytevector-length bv) 8) 5)))
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(define (bytevector-quintet-fold proc init bv)
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"Return the result of applying PROC to each quintet of BV and the result of
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the previous application or INIT."
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(define len
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(bytevector-quintet-length bv))
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(let loop ((i 0)
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(r init))
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(if (= i len)
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r
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(loop (1+ i) (proc (bytevector-quintet-ref bv i) r)))))
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(define (bytevector-quintet-fold-right proc init bv)
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"Return the result of applying PROC to each quintet of BV and the result of
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the previous application or INIT."
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(define len
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(bytevector-quintet-length bv))
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(let loop ((i len)
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(r init))
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(if (zero? i)
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r
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(let ((j (- i 1)))
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(loop j (proc (bytevector-quintet-ref-right bv j) r))))))
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(define (make-bytevector->base32-string quintet-fold base32-chars)
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(lambda (bv)
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"Return a base32 encoding of BV using BASE32-CHARS as the alphabet."
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(let ((chars (quintet-fold (lambda (q r)
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(cons (vector-ref base32-chars q)
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r))
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'()
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bv)))
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(list->string (reverse chars)))))
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(define %nix-base32-chars
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;; See `libutil/hash.cc'.
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#(#\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9
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#\a #\b #\c #\d #\f #\g #\h #\i #\j #\k #\l #\m #\n
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#\p #\q #\r #\s #\v #\w #\x #\y #\z))
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(define %rfc4648-base32-chars
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#(#\a #\b #\c #\d #\e #\f #\g #\h #\i #\j #\k #\l #\m
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#\n #\o #\p #\q #\r #\s #\t #\u #\v #\w #\x #\y #\z
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#\2 #\3 #\4 #\5 #\6 #\7))
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(define bytevector->base32-string
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(make-bytevector->base32-string bytevector-quintet-fold
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%rfc4648-base32-chars))
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(define bytevector->nix-base32-string
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(make-bytevector->base32-string bytevector-quintet-fold-right
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%nix-base32-chars))
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(define bytevector-quintet-set!
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(let* ((setq! (lambda (bv offset start stop value)
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(let ((v (bytevector-u8-ref bv offset))
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(w (arithmetic-shift value start))
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(m (bitwise-xor (1- (expt 2 stop))
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(1- (expt 2 start)))))
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(bytevector-u8-set! bv offset
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(bitwise-merge m w v)))))
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(set0! (lambda (bv offset value)
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(setq! bv offset 3 8 value)))
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(set1! (lambda (bv offset value)
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(setq! bv offset 0 3 (bit-field value 2 5))
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(or (= (+ 1 offset) (bytevector-length bv))
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(setq! bv (+ 1 offset) 6 8 (bit-field value 0 2)))))
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(set2! (lambda (bv offset value)
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(setq! bv offset 1 6 value)))
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(set3! (lambda (bv offset value)
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(setq! bv offset 0 1 (bit-field value 4 5))
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(or (= (+ 1 offset) (bytevector-length bv))
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(setq! bv (+ 1 offset) 4 8 (bit-field value 0 4)))))
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(set4! (lambda (bv offset value)
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(setq! bv offset 0 4 (bit-field value 1 5))
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(or (= (+ 1 offset) (bytevector-length bv))
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(setq! bv (+ 1 offset) 7 8 (bit-field value 0 1)))))
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(set5! (lambda (bv offset value)
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(setq! bv offset 2 7 value)))
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(set6! (lambda (bv offset value)
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(setq! bv offset 0 2 (bit-field value 3 5))
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(or (= (+ 1 offset) (bytevector-length bv))
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(setq! bv (+ 1 offset) 5 8 (bit-field value 0 3)))))
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(set7! (lambda (bv offset value)
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(setq! bv offset 0 5 value)))
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(sets (vector set0! set1! set2! set3! set4! set5! set6! set7!)))
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(lambda (bv index value)
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"Set the INDEXth quintet of BV to VALUE."
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(let ((p (vector-ref sets (modulo index 8))))
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(p bv (quotient (* index 5) 8) (logand value #x1f))))))
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(define bytevector-quintet-set-right!
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(let* ((setq! (lambda (bv offset start stop value)
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(let ((v (bytevector-u8-ref bv offset))
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(w (arithmetic-shift value start))
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(m (bitwise-xor (1- (expt 2 stop))
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(1- (expt 2 start)))))
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(bytevector-u8-set! bv offset
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(bitwise-merge m w v)))))
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(set0! (lambda (bv offset value)
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(setq! bv offset 0 5 value)))
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(set1! (lambda (bv offset value)
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(setq! bv offset 5 8 (bit-field value 0 3))
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(or (= (+ 1 offset) (bytevector-length bv))
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(setq! bv (+ 1 offset) 0 2 (bit-field value 3 5)))))
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(set2! (lambda (bv offset value)
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(setq! bv offset 2 7 value)))
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(set3! (lambda (bv offset value)
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(setq! bv offset 7 8 (bit-field value 0 1))
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(or (= (+ 1 offset) (bytevector-length bv))
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(setq! bv (+ 1 offset) 0 4 (bit-field value 1 5)))))
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(set4! (lambda (bv offset value)
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(setq! bv offset 4 8 (bit-field value 0 4))
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(or (= (+ 1 offset) (bytevector-length bv))
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(setq! bv (+ 1 offset) 0 1 (bit-field value 4 5)))))
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(set5! (lambda (bv offset value)
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(setq! bv offset 1 6 value)))
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(set6! (lambda (bv offset value)
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(setq! bv offset 6 8 (bit-field value 0 2))
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(or (= (+ 1 offset) (bytevector-length bv))
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(setq! bv (+ 1 offset) 0 3 (bit-field value 2 5)))))
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(set7! (lambda (bv offset value)
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(setq! bv offset 3 8 value)))
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(sets (vector set0! set1! set2! set3! set4! set5! set6! set7!)))
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(lambda (bv index value)
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"Set the INDEXth quintet of BV to VALUE, assuming quintets start from
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the least-significant bits."
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(let ((p (vector-ref sets (modulo index 8))))
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(p bv (quotient (* index 5) 8) (logand value #x1f))))))
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(define (base32-string-unfold f s)
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"Given procedure F which, when applied to a character, returns the
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corresponding quintet, return the bytevector corresponding to string S."
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(define len (string-length s))
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(let ((bv (make-bytevector (quotient (* len 5) 8))))
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(string-fold (lambda (chr index)
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(bytevector-quintet-set! bv index (f chr))
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(+ 1 index))
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0
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s)
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bv))
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(define (base32-string-unfold-right f s)
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"Given procedure F which, when applied to a character, returns the
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corresponding quintet, return the bytevector corresponding to string S,
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starting from the right of S."
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(define len (string-length s))
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(let ((bv (make-bytevector (quotient (* len 5) 8))))
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(string-fold-right (lambda (chr index)
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(bytevector-quintet-set-right! bv index (f chr))
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(+ 1 index))
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0
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s)
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bv))
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(define (make-base32-string->bytevector base32-string-unfold base32-chars)
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(let ((char->value (let loop ((i 0)
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(v vlist-null))
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(if (= i (vector-length base32-chars))
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v
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(loop (+ 1 i)
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(vhash-consv (vector-ref base32-chars i)
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i v))))))
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(lambda (s)
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"Return the binary representation of base32 string S as a bytevector."
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(base32-string-unfold (lambda (chr)
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(or (and=> (vhash-assv chr char->value) cdr)
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(error "invalid base32 character" chr)))
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s))))
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(define base32-string->bytevector
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(make-base32-string->bytevector base32-string-unfold %rfc4648-base32-chars))
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(define nix-base32-string->bytevector
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(make-base32-string->bytevector base32-string-unfold-right %nix-base32-chars))
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;;;
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;;; Base 16.
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;;;
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(define (bytevector->base16-string bv)
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"Return the hexadecimal representation of BV's contents."
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(define len
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(bytevector-length bv))
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(let-syntax ((base16-chars (lambda (s)
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(syntax-case s ()
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(_
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(let ((v (list->vector
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(unfold (cut > <> 255)
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(lambda (n)
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(format #f "~2,'0x" n))
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1+
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0))))
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v))))))
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(define chars base16-chars)
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(let loop ((i 0)
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(r '()))
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(if (= i len)
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(string-concatenate-reverse r)
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(loop (+ 1 i)
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(cons (vector-ref chars (bytevector-u8-ref bv i)) r))))))
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(define base16-string->bytevector
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(let ((chars->value (fold (lambda (i r)
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(vhash-consv (string-ref (number->string i 16)
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0)
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i r))
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vlist-null
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(iota 16))))
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(lambda (s)
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"Return the bytevector whose hexadecimal representation is string S."
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(define bv
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(make-bytevector (quotient (string-length s) 2) 0))
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(string-fold (lambda (chr i)
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(let ((j (quotient i 2))
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(v (and=> (vhash-assv chr chars->value) cdr)))
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(if v
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(if (zero? (logand i 1))
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(bytevector-u8-set! bv j
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(arithmetic-shift v 4))
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(let ((w (bytevector-u8-ref bv j)))
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(bytevector-u8-set! bv j (logior v w))))
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(error "invalid hexadecimal character" chr)))
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(+ i 1))
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0
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s)
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bv)))
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;;;
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;;; Hash.
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;;;
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(define %libgcrypt
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;; Name of the libgcrypt shared library.
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(compile-time-value (or (getenv "LIBGCRYPT") "libgcrypt")))
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(define sha256
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(cond
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((compile-time-value
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(false-if-exception (dynamic-link %libgcrypt)))
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;; Using libgcrypt.
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(let ((hash (pointer->procedure void
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(dynamic-func "gcry_md_hash_buffer"
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(dynamic-link %libgcrypt))
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`(,int * * ,size_t)))
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(sha256 8)) ; GCRY_MD_SHA256, as of 1.5.0
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(lambda (bv)
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"Return the SHA256 of BV as a bytevector."
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(let ((digest (make-bytevector (/ 256 8))))
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(hash sha256 (bytevector->pointer digest)
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(bytevector->pointer bv) (bytevector-length bv))
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digest))))
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((compile-time-value
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(false-if-exception (resolve-interface '(chop hash))))
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;; Using libchop.
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(let ((bytevector-hash (@ (chop hash) bytevector-hash))
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(hash-method/sha256 (@ (chop hash) hash-method/sha256)))
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(lambda (bv)
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"Return the SHA256 of BV as a bytevector."
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(bytevector-hash hash-method/sha256 bv))))
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(else
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;; Slow, poor programmer's implementation that uses Coreutils.
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(lambda (bv)
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"Return the SHA256 of BV as a bytevector."
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(let ((in (pipe))
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(out (pipe))
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(pid (primitive-fork)))
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(if (= 0 pid)
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(begin ; child
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(close (cdr in))
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(close (car out))
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(close 0)
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(close 1)
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(dup2 (fileno (car in)) 0)
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(dup2 (fileno (cdr out)) 1)
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(execlp "sha256sum" "sha256sum"))
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(begin ; parent
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(close (car in))
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(close (cdr out))
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(put-bytevector (cdr in) bv)
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(close (cdr in)) ; EOF
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(let ((line (car (string-tokenize (read-line (car out))))))
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(close (car out))
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(and (and=> (status:exit-val (cdr (waitpid pid)))
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zero?)
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(base16-string->bytevector line))))))))))
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;;;
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;;; Nixpkgs.
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;;;
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(define %nixpkgs-directory
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(make-parameter
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;; Capture the build-time value of $NIXPKGS.
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(compile-time-value (getenv "NIXPKGS"))))
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(define (nixpkgs-derivation attribute)
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"Return the derivation path of ATTRIBUTE in Nixpkgs."
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(let* ((p (open-pipe* OPEN_READ (or (getenv "NIX_INSTANTIATE")
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||
"nix-instantiate")
|
||
"-A" attribute (%nixpkgs-directory)))
|
||
(l (read-line p))
|
||
(s (close-pipe p)))
|
||
(and (zero? (status:exit-val s))
|
||
(not (eof-object? l))
|
||
l)))
|
||
|
||
(define-syntax-rule (nixpkgs-derivation* attribute)
|
||
"Evaluate the given Nixpkgs derivation at compile-time."
|
||
(compile-time-value (nixpkgs-derivation attribute)))
|
||
|
||
|
||
;;;
|
||
;;; Miscellaneous.
|
||
;;;
|
||
|
||
(define-syntax define-record-type*
|
||
(lambda (s)
|
||
"Define the given record type such that an additional \"syntactic
|
||
constructor\" is defined, which allows instances to be constructed with named
|
||
field initializers, à la SRFI-35, as well as default values."
|
||
(define (make-syntactic-constructor type name ctor fields defaults)
|
||
"Make the syntactic constructor NAME for TYPE, that calls CTOR, and
|
||
expects all of FIELDS to be initialized. DEFAULTS is the list of
|
||
FIELD/DEFAULT-VALUE tuples."
|
||
(with-syntax ((type type)
|
||
(name name)
|
||
(ctor ctor)
|
||
(expected fields)
|
||
(defaults defaults))
|
||
#`(define-syntax name
|
||
(lambda (s)
|
||
(define (record-inheritance orig-record field+value)
|
||
;; Produce code that returns a record identical to
|
||
;; ORIG-RECORD, except that values for the FIELD+VALUE alist
|
||
;; prevail.
|
||
(define (field-inherited-value f)
|
||
(and=> (find (lambda (x)
|
||
(eq? f (car (syntax->datum x))))
|
||
field+value)
|
||
car))
|
||
|
||
#`(make-struct type 0
|
||
#,@(map (lambda (field index)
|
||
(or (field-inherited-value field)
|
||
#`(struct-ref #,orig-record
|
||
#,index)))
|
||
'expected
|
||
(iota (length 'expected)))))
|
||
|
||
|
||
(syntax-case s (inherit #,@fields)
|
||
((_ (inherit orig-record) (field value) (... ...))
|
||
#`(letrec* ((field value) (... ...))
|
||
#,(record-inheritance #'orig-record
|
||
#'((field value) (... ...)))))
|
||
((_ (field value) (... ...))
|
||
(let ((fields (map syntax->datum #'(field (... ...))))
|
||
(dflt (map (match-lambda
|
||
((f v)
|
||
(list (syntax->datum f) v)))
|
||
#'defaults)))
|
||
|
||
(define (field-value f)
|
||
(or (and=> (find (lambda (x)
|
||
(eq? f (car (syntax->datum x))))
|
||
#'((field value) (... ...)))
|
||
car)
|
||
(car (assoc-ref dflt (syntax->datum f)))))
|
||
|
||
(let-syntax ((error*
|
||
(syntax-rules ()
|
||
((_ fmt args (... ...))
|
||
(syntax-violation 'name
|
||
(format #f fmt args
|
||
(... ...))
|
||
s)))))
|
||
(let ((fields (append fields (map car dflt))))
|
||
(cond ((lset= eq? fields 'expected)
|
||
#`(letrec* ((field value) (... ...))
|
||
(ctor #,@(map field-value 'expected))))
|
||
((pair? (lset-difference eq? fields 'expected))
|
||
(error* "extraneous field initializers ~a"
|
||
(lset-difference eq? fields 'expected)))
|
||
(else
|
||
(error* "missing field initializers ~a"
|
||
(lset-difference eq? 'expected
|
||
fields)))))))))))))
|
||
|
||
(define (field-default-value s)
|
||
(syntax-case s (default)
|
||
((field (default val) _ ...)
|
||
(list #'field #'val))
|
||
((field _ options ...)
|
||
(field-default-value #'(field options ...)))
|
||
(_ #f)))
|
||
|
||
(syntax-case s ()
|
||
((_ type syntactic-ctor ctor pred
|
||
(field get options ...) ...)
|
||
#`(begin
|
||
(define-record-type type
|
||
(ctor field ...)
|
||
pred
|
||
(field get) ...)
|
||
#,(make-syntactic-constructor #'type #'syntactic-ctor #'ctor
|
||
#'(field ...)
|
||
(filter-map field-default-value
|
||
#'((field options ...)
|
||
...))))))))
|
||
|
||
(define (memoize proc)
|
||
"Return a memoizing version of PROC."
|
||
(let ((cache (make-hash-table)))
|
||
(lambda args
|
||
(let ((results (hash-ref cache args)))
|
||
(if results
|
||
(apply values results)
|
||
(let ((results (call-with-values (lambda ()
|
||
(apply proc args))
|
||
list)))
|
||
(hash-set! cache args results)
|
||
(apply values results)))))))
|
||
|
||
(define (gnu-triplet->nix-system triplet)
|
||
"Return the Nix system type corresponding to TRIPLET, a GNU triplet as
|
||
returned by `config.guess'."
|
||
(let ((triplet (cond ((string-match "^i[345]86-(.*)$" triplet)
|
||
=>
|
||
(lambda (m)
|
||
(string-append "i686-" (match:substring m 1))))
|
||
(else triplet))))
|
||
(cond ((string-match "^([^-]+)-([^-]+-)?linux-gnu.*" triplet)
|
||
=>
|
||
(lambda (m)
|
||
;; Nix omits `-gnu' for GNU/Linux.
|
||
(string-append (match:substring m 1) "-linux")))
|
||
((string-match "^([^-]+)-([^-]+-)?([[:alpha:]]+)([0-9]+\\.?)*$" triplet)
|
||
=>
|
||
(lambda (m)
|
||
;; Nix strip the version number from names such as `gnu0.3',
|
||
;; `darwin10.2.0', etc., and always strips the vendor part.
|
||
(string-append (match:substring m 1) "-"
|
||
(match:substring m 3))))
|
||
(else triplet))))
|
||
|
||
(define %current-system
|
||
;; System type as expected by Nix, usually ARCHITECTURE-KERNEL.
|
||
(make-parameter (gnu-triplet->nix-system %host-type)))
|