tests: Implement multi-monitor tests using Xdmx
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@ -69,8 +69,17 @@ my @testfiles = @ARGV;
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my $numtests = scalar @testfiles;
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# When the user specifies displays, we don’t run multi-monitor tests at all
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# (because we don’t know which displaynumber is the X-Server with multiple
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# monitors).
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my $multidpy = undef;
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# No displays specified, let’s start some Xdummy instances.
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@displays = start_xdummy($parallel, $numtests) if @displays == 0;
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if (@displays == 0) {
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my $dpyref;
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($dpyref, $multidpy) = start_xdummy($parallel, $numtests);
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@displays = @$dpyref;
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}
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# 1: create an output directory for this test-run
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my $outdir = "testsuite-";
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@ -87,7 +96,7 @@ symlink("$outdir", "latest") or die "Could not symlink latest to $outdir";
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# 2: keep the connection open so that i3 is not the only client. this prevents
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# the X server from exiting (Xdummy will restart it, but not quick enough
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# sometimes)
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my @worker;
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my @single_worker;
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for my $display (@displays) {
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my $screen;
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my $x = X11::XCB::Connection->new(display => $display);
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@ -95,7 +104,17 @@ for my $display (@displays) {
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die "Could not connect to display $display\n";
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} else {
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# start a TestWorker for each display
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push @worker, worker($display, $x, $outdir);
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push @single_worker, worker($display, $x, $outdir);
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}
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}
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my @multi_worker;
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if (defined($multidpy)) {
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my $x = X11::XCB::Connection->new(display => $multidpy);
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if ($x->has_error) {
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die "Could not connect to multi-monitor display $multidpy\n";
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} else {
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push @multi_worker, worker($multidpy, $x, $outdir);
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}
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}
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@ -127,18 +146,30 @@ my @done;
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my $num = @testfiles;
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my $harness = TAP::Harness->new({ });
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my @single_monitor_tests = grep { m,^t/([0-9]+)-, && $1 < 500 } @testfiles;
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my @multi_monitor_tests = grep { m,^t/([0-9]+)-, && $1 >= 500 } @testfiles;
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my $aggregator = TAP::Parser::Aggregator->new();
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$aggregator->start();
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status_init(displays => \@displays, tests => $num);
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status_init(displays => [ @displays, $multidpy ], tests => $num);
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my $cv = AE::cv;
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my $single_cv = AE::cv;
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my $multi_cv = AE::cv;
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# We start tests concurrently: For each display, one test gets started. Every
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# test starts another test after completing.
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for (@worker) { $cv->begin; take_job($_) }
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for (@single_worker) {
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$single_cv->begin;
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take_job($_, $single_cv, \@single_monitor_tests);
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}
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for (@multi_worker) {
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$multi_cv->begin;
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take_job($_, $multi_cv, \@multi_monitor_tests);
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}
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$cv->recv;
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$single_cv->recv;
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$multi_cv->recv;
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$aggregator->stop();
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@ -198,9 +229,9 @@ exit 0;
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# triggered to finish testing.
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#
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sub take_job {
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my ($worker) = @_;
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my ($worker, $cv, $tests) = @_;
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my $test = shift @testfiles
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my $test = shift @$tests
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or return $cv->end;
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my $display = $worker->{display};
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@ -269,7 +300,7 @@ sub take_job {
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push @done, [ $test, $output ];
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undef $w;
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take_job($worker);
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take_job($worker, $cv, $tests);
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}
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);
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}
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@ -85,8 +85,10 @@ sub activate_i3 {
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# Construct the command to launch i3. Use maximum debug level, disable
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# the interactive signalhandler to make it crash immediately instead.
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# Also disable logging to SHM since we want to redirect the logs anyways.
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my $i3cmd = abs_path("../i3") . " -V -d all --disable-signalhandler --shmlog-size=0";
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# Also disable logging to SHM since we redirect the logs anyways.
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# Force Xinerama because we use Xdmx for multi-monitor tests.
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my $i3cmd = abs_path("../i3") . q| -V -d all --disable-signalhandler| .
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q| --shmlog-size=0 --force-xinerama|;
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# For convenience:
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my $outdir = $args{outdir};
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@ -9,6 +9,8 @@ use v5.10;
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our @EXPORT = qw(start_xdummy);
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my $x_socketpath = '/tmp/.X11-unix/X';
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# reads in a whole file
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sub slurp {
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open(my $fh, '<', shift) or return '';
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@ -16,6 +18,42 @@ sub slurp {
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<$fh>;
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}
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# forks an Xdummy or Xdmx process
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sub fork_xserver {
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my $displaynum = shift;
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my $pid = fork();
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die "Could not fork: $!" unless defined($pid);
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if ($pid == 0) {
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# Child, close stdout/stderr, then start Xdummy.
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close STDOUT;
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close STDERR;
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exec @_;
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exit 1;
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}
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push(@complete_run::CLEANUP, sub {
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kill(15, $pid);
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# Unlink the X11 socket, Xdmx seems to leave it there.
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unlink($x_socketpath . $displaynum);
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});
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return $x_socketpath . $displaynum;
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}
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# Blocks until the socket paths specified in the given array reference actually
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# exist.
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sub wait_for_x {
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my ($sockets_waiting) = @_;
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# Wait until Xdmx actually runs. Pretty ugly solution, but as long as we
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# can’t socket-activate X11…
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while (1) {
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@$sockets_waiting = grep { ! -S $_ } @$sockets_waiting;
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last unless @$sockets_waiting;
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sleep 0.1;
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}
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}
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=head2 start_xdummy($parallel)
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Starts C<$parallel> (or number of cores * 2 if undef) Xdummy processes (see
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@ -24,8 +62,6 @@ the Xdummy processes and a list of PIDs of the processes.
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=cut
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my $x_socketpath = '/tmp/.X11-unix/X';
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sub start_xdummy {
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my ($parallel, $numtests) = @_;
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@ -39,11 +75,17 @@ sub start_xdummy {
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# If /proc/cpuinfo does not exist, we fall back to 2 cores.
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$num_cores ||= 2;
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$parallel ||= $num_cores * 2;
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# If unset, we use num_cores * 2, plus two extra xdummys to combine to a
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# multi-monitor setup using Xdmx.
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$parallel ||= ($num_cores * 2) + 2;
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# If we are running a small number of tests, don’t over-parallelize.
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$parallel = $numtests if $numtests < $parallel;
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# Ensure we have at least 1 X-Server plus two X-Servers for multi-monitor
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# tests.
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$parallel = 3 if $parallel < 3;
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# First get the last used display number, then increment it by one.
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# Effectively falls back to 1 if no X server is running.
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my ($displaynum) = map { /(\d+)$/ } reverse sort glob($x_socketpath . '*');
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@ -52,37 +94,33 @@ sub start_xdummy {
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say "Starting $parallel Xdummy instances, starting at :$displaynum...";
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my @sockets_waiting;
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for my $idx (0 .. ($parallel-1)) {
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my $pid = fork();
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die "Could not fork: $!" unless defined($pid);
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if ($pid == 0) {
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# Child, close stdout/stderr, then start Xdummy.
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close STDOUT;
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close STDERR;
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# make sure this display isn’t in use yet
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$displaynum++ while -e ($x_socketpath . $displaynum);
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for (1 .. $parallel) {
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# We use -config /dev/null to prevent Xdummy from using the system
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# Xorg configuration. The tests should be independant from the
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# actual system X configuration.
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exec './Xdummy', ":$displaynum", '-config', '/dev/null';
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exit 1;
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}
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push(@complete_run::CLEANUP, sub { kill(15, $pid) });
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my $socket = fork_xserver($displaynum, './Xdummy', ":$displaynum",
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'-config', '/dev/null');
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push(@displays, ":$displaynum");
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push(@sockets_waiting, $x_socketpath . $displaynum);
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push(@sockets_waiting, $socket);
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$displaynum++;
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}
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# Wait until the X11 sockets actually appear. Pretty ugly solution, but as
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# long as we can’t socket-activate X11…
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while (1) {
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@sockets_waiting = grep { ! -S $_ } @sockets_waiting;
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last unless @sockets_waiting;
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sleep 0.1;
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}
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wait_for_x(\@sockets_waiting);
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return @displays;
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# Now combine the last two displays to a multi-monitor display using Xdmx
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my $first = pop @displays;
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my $second = pop @displays;
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# make sure this display isn’t in use yet
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$displaynum++ while -e ($x_socketpath . $displaynum);
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say 'starting xdmx on display :' . $displaynum;
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my $multidpy = ":$displaynum";
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my $socket = fork_xserver($displaynum, 'Xdmx', '+xinerama', '-xinput',
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'local', '-display', $first, '-display', $second, '-ac', $multidpy);
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wait_for_x([ $socket ]);
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return \@displays, $multidpy;
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}
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1
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@ -0,0 +1,21 @@
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#!perl
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# vim:ts=4:sw=4:expandtab
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#
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# Tests that the provided X-Server to the t/5??-*.t tests is actually providing
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# multiple monitors.
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#
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use i3test;
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my $i3 = i3(get_socket_path());
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####################
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# Request tree
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####################
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my $tree = $i3->get_tree->recv;
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my @outputs = map { $_->{name} } @{$tree->{nodes}};
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is_deeply(\@outputs, [ '__i3', 'xinerama-0', 'xinerama-1' ],
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'multi-monitor outputs ok');
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done_testing;
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