#!/usr/bin/env perl # vim:ts=4:sw=4:expandtab # © 2010-2012 Michael Stapelberg and contributors package complete_run; use strict; use warnings; use v5.10; use utf8; # the following are modules which ship with Perl (>= 5.10): use Pod::Usage; use Cwd qw(abs_path); use File::Temp qw(tempfile tempdir); use Getopt::Long; use POSIX (); use TAP::Harness; use TAP::Parser; use TAP::Parser::Aggregator; use Time::HiRes qw(time); use IO::Handle; # these are shipped with the testsuite use lib qw(lib); use StartXServer; use StatusLine; use TestWorker; # the following modules are not shipped with Perl use AnyEvent; use AnyEvent::Util; use AnyEvent::Handle; use AnyEvent::I3 qw(:all); use X11::XCB::Connection; use JSON::XS; # AnyEvent::I3 depends on it, too. binmode STDOUT, ':utf8'; binmode STDERR, ':utf8'; # Close superfluous file descriptors which were passed by running in a VIM # subshell or situations like that. AnyEvent::Util::close_all_fds_except(0, 1, 2); # convinience wrapper to write to the log file my $log; sub Log { say $log "@_" } my %timings; my $help = 0; # Number of tests to run in parallel. Important to know how many Xephyr # instances we need to start (unless @displays are given). Defaults to # num_cores * 2. my $parallel = undef; my @displays = (); my %options = ( valgrind => 0, strace => 0, xtrace => 0, coverage => 0, restart => 0, ); my $keep_xserver_output = 0; my $result = GetOptions( "coverage-testing" => \$options{coverage}, "keep-xserver-output" => \$keep_xserver_output, "valgrind" => \$options{valgrind}, "strace" => \$options{strace}, "xtrace" => \$options{xtrace}, "display=s" => \@displays, "parallel=i" => \$parallel, "help|?" => \$help, ); pod2usage(-verbose => 2, -exitcode => 0) if $help; # Check for missing executables my @binaries = qw( ../i3 ../i3bar/i3bar ../i3-config-wizard/i3-config-wizard ../i3-dump-log/i3-dump-log ../i3-input/i3-input ../i3-msg/i3-msg ../i3-nagbar/i3-nagbar ); foreach my $binary (@binaries) { die "$binary executable not found, did you run “make”?" unless -e $binary; die "$binary is not an executable" unless -x $binary; } qx(Xephyr -help 2>&1); die "Xephyr was not found in your path. Please install Xephyr (xserver-xephyr on Debian)." if $?; @displays = split(/,/, join(',', @displays)); @displays = map { s/ //g; $_ } @displays; # 2: 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; my $numtests = scalar @testfiles; # No displays specified, let’s start some Xephyr instances. if (@displays == 0) { @displays = start_xserver($parallel, $numtests, $keep_xserver_output); } # 1: create an output directory for this test-run my $outdir = "testsuite-"; $outdir .= POSIX::strftime("%Y-%m-%d-%H-%M-%S-", localtime()); $outdir .= `git describe --tags`; chomp($outdir); mkdir($outdir) or die "Could not create $outdir"; unlink("latest") if -l "latest"; symlink("$outdir", "latest") or die "Could not symlink latest to $outdir"; # 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 my @single_worker; for my $display (@displays) { my $screen; my $x = X11::XCB::Connection->new(display => $display); if ($x->has_error) { die "Could not connect to display $display\n"; } else { # start a TestWorker for each display push @single_worker, worker($display, $x, $outdir, \%options); } } # Read previous timing information, if available. We will be able to roughly # predict the test duration and schedule a good order for the tests. my $timingsjson = StartXServer::slurp('.last_run_timings.json'); %timings = %{decode_json($timingsjson)} if length($timingsjson) > 0; # Re-order the files so that those which took the longest time in the previous # run will be started at the beginning to not delay the whole run longer than # necessary. @testfiles = map { $_->[0] } sort { $b->[1] <=> $a->[1] } map { [$_, $timings{$_} // 999] } @testfiles; # Run 000-load-deps.t first to bail out early when dependencies are missing. my $loadtest = "t/000-load-deps.t"; if ((scalar grep { $_ eq $loadtest } @testfiles) > 0) { @testfiles = ($loadtest, grep { $_ ne $loadtest } @testfiles); } printf("\nRough time estimate for this run: %.2f seconds\n\n", $timings{GLOBAL}) if exists($timings{GLOBAL}); # Forget the old timings, we don’t necessarily run the same set of tests as # before. Otherwise we would end up with left-overs. %timings = (GLOBAL => time()); my $logfile = "$outdir/complete-run.log"; open $log, '>', $logfile or die "Could not create '$logfile': $!"; $log->autoflush(1); say "Writing logfile to '$logfile'..."; # 3: run all tests my @done; my $num = @testfiles; my $harness = TAP::Harness->new({ }); my $aggregator = TAP::Parser::Aggregator->new(); $aggregator->start(); status_init(displays => \@displays, tests => $num); my $single_cv = AE::cv; # We start tests concurrently: For each display, one test gets started. Every # test starts another test after completing. for (@single_worker) { $single_cv->begin; take_job($_, $single_cv, \@testfiles); } $single_cv->recv; $aggregator->stop(); # print empty lines to seperate failed tests from statuslines print "\n\n"; for (@done) { my ($test, $output) = @$_; say "no output for $test" unless $output; Log "output for $test:"; Log $output; # print error messages of failed tests say for $output =~ /^not ok.+\n+((?:^#.+\n)+)/mg } # 4: print summary $harness->summary($aggregator); close $log; # 5: Save the timings for better scheduling/prediction next run. $timings{GLOBAL} = time() - $timings{GLOBAL}; open(my $fh, '>', '.last_run_timings.json'); print $fh encode_json(\%timings); close($fh); # 6: Print the slowest test files. my @slowest = map { $_->[0] } sort { $b->[1] <=> $a->[1] } map { [$_, $timings{$_}] } grep { !/^GLOBAL$/ } keys %timings; say ''; say 'The slowest tests are:'; printf("\t%s with %.2f seconds\n", $_, $timings{$_}) for @slowest[0..($#slowest > 4 ? 4 : $#slowest)]; # When we are running precisely one test, print the output. Makes developing # with a single testcase easier. if ($numtests == 1) { say ''; say 'Test output:'; say StartXServer::slurp($logfile); } END { cleanup() } exit ($aggregator->failed > 0); # # 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 $cv condvar gets # triggered to finish testing. # sub take_job { my ($worker, $cv, $tests) = @_; my $test = shift @$tests or return $cv->end; my $display = $worker->{display}; Log status($display, "$test: starting"); $timings{$test} = time(); worker_next($worker, $test); # create a TAP::Parser with an in-memory fh my $output; my $parser = TAP::Parser->new({ source => do { open(my $fh, '<', \$output); $fh }, }); my $ipc = $worker->{ipc}; my $w; $w = AnyEvent->io( fh => $ipc, poll => 'r', cb => sub { state $tests_completed = 0; state $partial = ''; sysread($ipc, my $buf, 4096) or die "sysread: $!"; if ($partial) { $buf = $partial . $buf; $partial = ''; } # make sure we feed TAP::Parser complete lines so it doesn't blow up if (substr($buf, -1, 1) ne "\n") { my $nl = rindex($buf, "\n"); if ($nl == -1) { $partial = $buf; return; } # strip partial from buffer $partial = substr($buf, $nl + 1, ''); } # count lines before stripping eof-marker otherwise we might # end up with for (1 .. 0) { } which would effectivly skip the loop my $lines = $buf =~ tr/\n//; my $t_eof = $buf =~ s/^$TestWorker::EOF$//m; $output .= $buf; for (1 .. $lines) { my $result = $parser->next; next unless defined($result); if ($result->is_test) { $tests_completed++; status($display, "$test: [$tests_completed/??] "); } elsif ($result->is_bailout) { Log status($display, "$test: BAILOUT"); status_completed(scalar @done); say ""; say "test $test bailed out: " . $result->explanation; exit 1; } } return unless $t_eof; Log status($display, "$test: finished"); $timings{$test} = time() - $timings{$test}; status_completed(scalar @done); $aggregator->add($test, $parser); push @done, [ $test, $output ]; undef $w; take_job($worker, $cv, $tests); } ); } sub cleanup { my $exitcode = $?; $_->() for our @CLEANUP; exit $exitcode; } # must be in a begin block because we C above BEGIN { $SIG{$_} = sub { require Carp; Carp::cluck("Caught SIG$_[0]\n"); cleanup(); } for qw(INT TERM QUIT KILL PIPE) } __END__ =head1 NAME complete-run.pl - Run the i3 testsuite =head1 SYNOPSIS complete-run.pl [files...] =head1 EXAMPLE To run the whole testsuite on a reasonable number of Xephyr instances (your running X11 will not be touched), run: ./complete-run.pl To run only a specific test (useful when developing a new feature), run: ./complete-run t/100-fullscreen.t =head1 OPTIONS =over 8 =item B<--display> Specifies which X11 display should be used. Can be specified multiple times and will parallelize the tests: # Run tests on the second X server ./complete-run.pl -d :1 # Run four tests in parallel on some Xephyr servers ./complete-run.pl -d :1,:2,:3,:4 Note that it is not necessary to specify this anymore. If omitted, complete-run.pl will start (num_cores * 2) Xephyr instances. =item B<--valgrind> Runs i3 under valgrind to find memory problems. The output will be available in C. =item B<--strace> Runs i3 under strace to trace system calls. The output will be available in C. =item B<--xtrace> Runs i3 under xtrace to trace X11 requests/replies. The output will be available in C. =item B<--coverage-testing> Exits i3 cleanly (instead of kill -9) to make coverage testing work properly. =item B<--parallel> Number of Xephyr instances to start (if you don’t want to start num_cores * 2 instances for some reason). # Run all tests on a single Xephyr instance ./complete-run.pl -p 1