#!/usr/bin/env perl # vim:ts=4:sw=4:expandtab # # © 2010-2011 Michael Stapelberg and contributors # # syntax: ./complete-run.pl --display :1 --display :2 # to run the test suite on the X11 displays :1 and :2 # use 'Xdummy :1' and 'Xdummy :2' before to start two # headless X11 servers # use strict; use warnings; use EV; use AnyEvent; use IO::Scalar; # not in core :\ use File::Temp qw(tempfile tempdir); use v5.10; use DateTime; use Data::Dumper; use Cwd qw(abs_path); use Proc::Background; use TAP::Harness; use TAP::Parser; use TAP::Parser::Aggregator; use File::Basename qw(basename); use AnyEvent::I3 qw(:all); use Try::Tiny; use Getopt::Long; use Time::HiRes qw(sleep); use X11::XCB::Connection; use IO::Socket::UNIX; # core use POSIX; # core use AnyEvent::Handle; # open a file so that we get file descriptor 3. we will later close it in the # child and dup() the listening socket file descriptor to 3 to pass it to i3 open(my $reserved, '<', '/dev/null'); if (fileno($reserved) != 3) { warn "Socket file descriptor is not 3."; warn "Please don't start this script within a subshell of vim or something."; exit 1; } # install a dummy CHLD handler to overwrite the CHLD handler of AnyEvent / EV # XXX: we could maybe also use a different loop than the default loop in EV? $SIG{CHLD} = sub { }; # reads in a whole file sub slurp { open my $fh, '<', shift; local $/; <$fh>; } my $coverage_testing = 0; my @displays = (); my $result = GetOptions( "coverage-testing" => \$coverage_testing, "display=s" => \@displays, ); @displays = split(/,/, join(',', @displays)); @displays = map { s/ //g; $_ } @displays; @displays = qw(:1) if @displays == 0; # connect to all displays for two reasons: # 1: check if the display actually works # 2: keep the connection open so that i3 is not the only client. this prevents # the X server from exiting (Xdummy will restart it, but not quick enough # sometimes) my @conns; my @wdisplays; for my $display (@displays) { try { my $x = X11::XCB::Connection->new(display => $display); push @conns, $x; push @wdisplays, $display; } catch { say STDERR "WARNING: Not using X11 display $display, could not connect"; }; } my $config = slurp('i3-test.config'); # 1: get a list of all testcases my @testfiles = @ARGV; # if no files were passed on command line, run all tests from t/ @testfiles = if @testfiles == 0; # 2: create an output directory for this test-run my $outdir = "testsuite-"; $outdir .= DateTime->now->strftime("%Y-%m-%d-%H-%M-%S-"); $outdir .= `git describe --tags`; chomp($outdir); mkdir($outdir) or die "Could not create $outdir"; unlink("latest") if -e "latest"; symlink("$outdir", "latest") or die "Could not symlink latest to $outdir"; # 3: run all tests my @done; my $num = @testfiles; my $harness = TAP::Harness->new({ }); my $aggregator = TAP::Parser::Aggregator->new(); $aggregator->start(); my $cv = AnyEvent->condvar; # We start tests concurrently: For each display, one test gets started. Every # test starts another test after completing. take_job($_) for @wdisplays; # # Takes a test from the beginning of @testfiles and runs it. # # The TAP::Parser (which reads the test output) will get called as soon as # there is some activity on the stdout file descriptor of the test process # (using an AnyEvent->io watcher). # # When a test completes and @done contains $num entries, the $cv condvar gets # triggered to finish testing. # sub take_job { my ($display) = @_; my $test = shift @testfiles; return unless $test; my $dont_start = (slurp($test) =~ /# !NO_I3_INSTANCE!/); my $logpath = "$outdir/i3-log-for-" . basename($test); my ($fh, $tmpfile) = tempfile(); say $fh $config; say $fh "ipc-socket /tmp/nested-$display"; close($fh); my $activate_cv = AnyEvent->condvar; my $start_i3 = sub { # remove the old unix socket unlink("/tmp/nested-$display-activation"); # pass all file descriptors up to three to the children. # we need to set this flag before opening the socket. open(my $fdtest, '<', '/dev/null'); $^F = fileno($fdtest); close($fdtest); my $socket = IO::Socket::UNIX->new( Listen => 1, Local => "/tmp/nested-$display-activation", ); my $pid = fork; if (!defined($pid)) { die "could not fork()"; } say "pid = $pid"; if ($pid == 0) { say "child!"; $ENV{LISTEN_PID} = $$; $ENV{LISTEN_FDS} = 1; $ENV{DISPLAY} = $display; $^F = 3; say "fileno is " . fileno($socket); close($reserved); POSIX::dup2(fileno($socket), 3); # now execute i3 my $i3cmd = abs_path("../i3") . " -V -d all --disable-signalhandler"; my $cmd = "exec $i3cmd -c $tmpfile >$logpath 2>&1"; exec "/bin/sh", '-c', $cmd; # if we are still here, i3 could not be found or exec failed. bail out. exit 1; } my $child_watcher; $child_watcher = AnyEvent->child(pid => $pid, cb => sub { say "child died. pid = $pid"; undef $child_watcher; }); # close the socket, the child process should be the only one which keeps a file # descriptor on the listening socket. $socket->close; # We now connect (will succeed immediately) and send a request afterwards. # As soon as the reply is there, i3 is considered ready. my $cl = IO::Socket::UNIX->new(Peer => "/tmp/nested-$display-activation"); my $hdl; $hdl = AnyEvent::Handle->new(fh => $cl, on_error => sub { $activate_cv->send(0) }); # send a get_tree message without payload $hdl->push_write('i3-ipc' . pack("LL", 0, 4)); # wait for the reply $hdl->push_read(chunk => 1, => sub { my ($h, $line) = @_; say "read something from i3"; $activate_cv->send(1); undef $hdl; }); return $pid; }; my $pid; $pid = $start_i3->() unless $dont_start; my $kill_i3 = sub { # Don’t bother killing i3 when we haven’t started it return if $dont_start; # When measuring code coverage, try to exit i3 cleanly (otherwise, .gcda # files are not written) and fallback to killing it if ($coverage_testing) { my $exited = 0; try { say "Exiting i3 cleanly..."; i3("/tmp/nested-$display")->command('exit')->recv; $exited = 1; }; return if $exited; } say "[$display] killing i3"; kill(9, $pid) or die "could not kill i3"; }; # This will be called as soon as i3 is running and answered to our # IPC request $activate_cv->cb(sub { say "cb"; my ($status) = $activate_cv->recv; say "complete-run: status = $status"; say "[$display] Running $test with logfile $logpath"; my $output; my $parser = TAP::Parser->new({ exec => [ 'sh', '-c', qq|DISPLAY=$display LOGPATH="$logpath" /usr/bin/perl -It/lib $test| ], spool => IO::Scalar->new(\$output), merge => 1, }); my @watchers; my ($stdout, $stderr) = $parser->get_select_handles; for my $handle ($parser->get_select_handles) { my $w; $w = AnyEvent->io( fh => $handle, poll => 'r', cb => sub { # Ignore activity on stderr (unnecessary with merge => 1, # but let’s keep it in here if we want to use merge => 0 # for some reason in the future). return if defined($stderr) and $handle == $stderr; my $result = $parser->next; if (defined($result)) { # TODO: check if we should bail out return; } # $result is not defined, we are done parsing say "[$display] $test finished"; close($parser->delete_spool); $aggregator->add($test, $parser); push @done, [ $test, $output ]; $kill_i3->(); undef $_ for @watchers; if (@done == $num) { $cv->send; } else { take_job($display); } } ); push @watchers, $w; } }); $activate_cv->send(1) if $dont_start; } $cv->recv; $aggregator->stop(); for (@done) { my ($test, $output) = @$_; say "output for $test:"; say $output; } # 4: print summary $harness->summary($aggregator);