package i3test; # vim:ts=4:sw=4:expandtab use strict; use warnings; use File::Temp qw(tmpnam tempfile tempdir); use Test::Builder; use X11::XCB::Rect; use X11::XCB::Window; use X11::XCB qw(:all); use AnyEvent::I3; use List::Util qw(first); use Time::HiRes qw(sleep); use Cwd qw(abs_path); use Scalar::Util qw(blessed); use SocketActivation; use v5.10; # preload use Test::More (); use Data::Dumper (); use Exporter (); our @EXPORT = qw( get_workspace_names get_unused_workspace fresh_workspace get_ws_content get_ws get_focused open_empty_con open_window open_floating_window get_dock_clients cmd sync_with_i3 does_i3_live exit_gracefully workspace_exists focused_ws get_socket_path launch_with_config wait_for_event wait_for_map wait_for_unmap $x ); my $tester = Test::Builder->new(); my $_cached_socket_path = undef; my $_sync_window = undef; my $tmp_socket_path = undef; our $x; BEGIN { my $window_count = 0; sub counter_window { return $window_count++; } } my $i3_pid; my $i3_autostart; END { # testcases which start i3 manually should always call exit_gracefully # on their own. Let’s see, whether they really did. if (! $i3_autostart) { return unless $i3_pid; $tester->ok(undef, 'testcase called exit_gracefully()'); } # don't trigger SIGCHLD handler local $SIG{CHLD}; # From perldoc -v '$?': # Inside an "END" subroutine $? contains the value # that is going to be given to "exit()". # # Since waitpid sets $?, we need to localize it, # otherwise TAP would be misinterpreted our return status local $?; # When measuring code coverage, try to exit i3 cleanly (otherwise, .gcda # files are not written) if ($ENV{COVERAGE} || $ENV{VALGRIND}) { exit_gracefully($i3_pid, "/tmp/nested-$ENV{DISPLAY}"); } else { kill(9, $i3_pid) or $tester->BAIL_OUT("could not kill i3"); waitpid $i3_pid, 0; } } sub import { my ($class, %args) = @_; my $pkg = caller; $i3_autostart = delete($args{i3_autostart}) // 1; my $cv = launch_with_config('-default', dont_block => 1) if $i3_autostart; my $test_more_args = ''; $test_more_args = join(' ', 'qw(', %args, ')') if keys %args; local $@; eval << "__"; package $pkg; use Test::More $test_more_args; use Data::Dumper; use AnyEvent::I3; use Time::HiRes qw(sleep); __ $tester->BAIL_OUT("$@") if $@; feature->import(":5.10"); strict->import; warnings->import; $x ||= i3test::X11->new; $cv->recv if $i3_autostart; @_ = ($class); goto \&Exporter::import; } # # Waits for the next event and calls the given callback for every event to # determine if this is the event we are waiting for. # # Can be used to wait until a window is mapped, until a ClientMessage is # received, etc. # # wait_for_event $x, 0.25, sub { $_[0]->{response_type} == MAP_NOTIFY }; # sub wait_for_event { my ($timeout, $cb) = @_; my $cv = AE::cv; $x->flush; # unfortunately, there is no constant for this my $ae_read = 0; my $guard = AE::io $x->get_file_descriptor, $ae_read, sub { while (defined(my $event = $x->poll_for_event)) { if ($cb->($event)) { $cv->send(1); last; } } }; # Trigger timeout after $timeout seconds (can be fractional) my $t = AE::timer $timeout, 0, sub { warn "timeout ($timeout secs)"; $cv->send(0) }; my $result = $cv->recv; undef $t; undef $guard; return $result; } # thin wrapper around wait_for_event which waits for MAP_NOTIFY # make sure to include 'structure_notify' in the window’s event_mask attribute sub wait_for_map { my ($win) = @_; my $id = (blessed($win) && $win->isa('X11::XCB::Window')) ? $win->id : $win; wait_for_event 2, sub { $_[0]->{response_type} == MAP_NOTIFY and $_[0]->{window} == $id }; } # Wrapper around wait_for_event which waits for UNMAP_NOTIFY. Also calls # sync_with_i3 to make sure i3 also picked up and processed the UnmapNotify # event. sub wait_for_unmap { my ($win) = @_; # my $id = (blessed($win) && $win->isa('X11::XCB::Window')) ? $win->id : $win; wait_for_event 2, sub { $_[0]->{response_type} == UNMAP_NOTIFY # and $_[0]->{window} == $id }; sync_with_i3(); } # # Opens a new window (see X11::XCB::Window), maps it, waits until it got mapped # and synchronizes with i3. # # set dont_map to a true value to avoid mapping # # if you want to change aspects of your window before it would be mapped, # set before_map to a coderef. $window gets passed as $_ and as first argument. # # if you set both dont_map and before_map, the coderef will be called nevertheless # # # default values: # class => WINDOW_CLASS_INPUT_OUTPUT # rect => [ 0, 0, 30, 30 ] # background_color => '#c0c0c0' # event_mask => [ 'structure_notify' ] # name => 'Window ' # sub open_window { my %args = @_ == 1 ? %{$_[0]} : @_; my $dont_map = delete $args{dont_map}; my $before_map = delete $args{before_map}; $args{class} //= WINDOW_CLASS_INPUT_OUTPUT; $args{rect} //= [ 0, 0, 30, 30 ]; $args{background_color} //= '#c0c0c0'; $args{event_mask} //= [ 'structure_notify' ]; $args{name} //= 'Window ' . counter_window(); my $window = $x->root->create_child(%args); if ($before_map) { # TODO: investigate why _create is not needed $window->_create; $before_map->($window) for $window; } return $window if $dont_map; $window->map; wait_for_map($window); return $window; } # Thin wrapper around open_window which sets window_type to # _NET_WM_WINDOW_TYPE_UTILITY to make the window floating. sub open_floating_window { my %args = @_ == 1 ? %{$_[0]} : @_; $args{window_type} = $x->atom(name => '_NET_WM_WINDOW_TYPE_UTILITY'); return open_window(\%args); } sub open_empty_con { my ($i3) = @_; my $reply = $i3->command('open')->recv; return $reply->{id}; } sub get_workspace_names { my $i3 = i3(get_socket_path()); my $tree = $i3->get_tree->recv; my @outputs = @{$tree->{nodes}}; my @cons; for my $output (@outputs) { next if $output->{name} eq '__i3'; # get the first CT_CON of each output my $content = first { $_->{type} == 2 } @{$output->{nodes}}; @cons = (@cons, @{$content->{nodes}}); } [ map { $_->{name} } @cons ] } sub get_unused_workspace { my @names = get_workspace_names(); my $tmp; do { $tmp = tmpnam() } while ($tmp ~~ @names); $tmp } sub fresh_workspace { my $unused = get_unused_workspace; cmd("workspace $unused"); $unused } sub get_ws { my ($name) = @_; my $i3 = i3(get_socket_path()); my $tree = $i3->get_tree->recv; my @outputs = @{$tree->{nodes}}; my @workspaces; for my $output (@outputs) { # get the first CT_CON of each output my $content = first { $_->{type} == 2 } @{$output->{nodes}}; @workspaces = (@workspaces, @{$content->{nodes}}); } # as there can only be one workspace with this name, we can safely # return the first entry return first { $_->{name} eq $name } @workspaces; } # # returns the content (== tree, starting from the node of a workspace) # of a workspace. If called in array context, also includes the focus # stack of the workspace # sub get_ws_content { my ($name) = @_; my $con = get_ws($name); return wantarray ? ($con->{nodes}, $con->{focus}) : $con->{nodes}; } sub get_focused { my ($ws) = @_; my $con = get_ws($ws); my @focused = @{$con->{focus}}; my $lf; while (@focused > 0) { $lf = $focused[0]; last unless defined($con->{focus}); @focused = @{$con->{focus}}; my @cons = grep { $_->{id} == $lf } (@{$con->{nodes}}, @{$con->{'floating_nodes'}}); $con = $cons[0]; } return $lf; } sub get_dock_clients { my $which = shift; my $tree = i3(get_socket_path())->get_tree->recv; my @outputs = @{$tree->{nodes}}; # Children of all dockareas my @docked; for my $output (@outputs) { if (!defined($which)) { @docked = (@docked, map { @{$_->{nodes}} } grep { $_->{type} == 5 } @{$output->{nodes}}); } elsif ($which eq 'top') { my $first = first { $_->{type} == 5 } @{$output->{nodes}}; @docked = (@docked, @{$first->{nodes}}) if defined($first); } elsif ($which eq 'bottom') { my @matching = grep { $_->{type} == 5 } @{$output->{nodes}}; my $last = $matching[-1]; @docked = (@docked, @{$last->{nodes}}) if defined($last); } } return @docked; } sub cmd { i3(get_socket_path())->command(@_)->recv } sub workspace_exists { my ($name) = @_; ($name ~~ @{get_workspace_names()}) } sub focused_ws { my $i3 = i3(get_socket_path()); my $tree = $i3->get_tree->recv; my @outputs = @{$tree->{nodes}}; my @cons; for my $output (@outputs) { next if $output->{name} eq '__i3'; # get the first CT_CON of each output my $content = first { $_->{type} == 2 } @{$output->{nodes}}; my $first = first { $_->{fullscreen_mode} == 1 } @{$content->{nodes}}; return $first->{name} } } # # Sends an I3_SYNC ClientMessage with a random value to the root window. # i3 will reply with the same value, but, due to the order of events it # processes, only after all other events are done. # # This can be used to ensure the results of a cmd 'focus left' are pushed to # X11 and that $x->input_focus returns the correct value afterwards. # # See also docs/testsuite for a long explanation # sub sync_with_i3 { # Since we need a (mapped) window for receiving a ClientMessage, we create # one on the first call of sync_with_i3. It will be re-used in all # subsequent calls. if (!defined($_sync_window)) { $_sync_window = open_window( rect => [ -15, -15, 10, 10 ], override_redirect => 1, ); } my $root = $x->get_root_window(); # Generate a random number to identify this particular ClientMessage. my $myrnd = int(rand(255)) + 1; # Generate a ClientMessage, see xcb_client_message_t my $msg = pack "CCSLLLLLLL", CLIENT_MESSAGE, # response_type 32, # format 0, # sequence $root, # destination window $x->atom(name => 'I3_SYNC')->id, $_sync_window->id, # data[0]: our own window id $myrnd, # data[1]: a random value to identify the request 0, 0, 0; # Send it to the root window -- since i3 uses the SubstructureRedirect # event mask, it will get the ClientMessage. $x->send_event(0, $root, EVENT_MASK_SUBSTRUCTURE_REDIRECT, $msg); # now wait until the reply is here return wait_for_event 2, sub { my ($event) = @_; # TODO: const return 0 unless $event->{response_type} == 161; my ($win, $rnd) = unpack "LL", $event->{data}; return ($rnd == $myrnd); }; } sub does_i3_live { my $tree = i3(get_socket_path())->get_tree->recv; my @nodes = @{$tree->{nodes}}; my $ok = (@nodes > 0); $tester->ok($ok, 'i3 still lives'); return $ok; } # Tries to exit i3 gracefully (with the 'exit' cmd) or kills the PID if that fails sub exit_gracefully { my ($pid, $socketpath) = @_; $socketpath ||= get_socket_path(); my $exited = 0; eval { say "Exiting i3 cleanly..."; i3($socketpath)->command('exit')->recv; $exited = 1; }; if (!$exited) { kill(9, $pid) or $tester->BAIL_OUT("could not kill i3"); } if ($socketpath =~ m,^/tmp/i3-test-socket-,) { unlink($socketpath); } waitpid $pid, 0; undef $i3_pid; } # Gets the socket path from the I3_SOCKET_PATH atom stored on the X11 root window sub get_socket_path { my ($cache) = @_; $cache ||= 1; if ($cache && defined($_cached_socket_path)) { return $_cached_socket_path; } my $atom = $x->atom(name => 'I3_SOCKET_PATH'); my $cookie = $x->get_property(0, $x->get_root_window(), $atom->id, GET_PROPERTY_TYPE_ANY, 0, 256); my $reply = $x->get_property_reply($cookie->{sequence}); my $socketpath = $reply->{value}; $_cached_socket_path = $socketpath; return $socketpath; } # # launches a new i3 process with the given string as configuration file. # useful for tests which test specific config file directives. sub launch_with_config { my ($config, %args) = @_; $tmp_socket_path = "/tmp/nested-$ENV{DISPLAY}"; my ($fh, $tmpfile) = tempfile("i3-cfg-for-$ENV{TESTNAME}-XXXXX", UNLINK => 1); if ($config ne '-default') { say $fh $config; } else { open(my $conf_fh, '<', './i3-test.config') or $tester->BAIL_OUT("could not open default config: $!"); local $/; say $fh scalar <$conf_fh>; } say $fh "ipc-socket $tmp_socket_path" unless $args{dont_add_socket_path}; close($fh); my $cv = AnyEvent->condvar; $i3_pid = activate_i3( unix_socket_path => "$tmp_socket_path-activation", display => $ENV{DISPLAY}, configfile => $tmpfile, outdir => $ENV{OUTDIR}, testname => $ENV{TESTNAME}, valgrind => $ENV{VALGRIND}, strace => $ENV{STRACE}, restart => $ENV{RESTART}, cv => $cv, ); # force update of the cached socket path in lib/i3test # as soon as i3 has started $cv->cb(sub { get_socket_path(0) }); return $cv if $args{dont_block}; # blockingly wait until i3 is ready $cv->recv; return $i3_pid; } package i3test::X11; use parent 'X11::XCB::Connection'; sub input_focus { my $self = shift; i3test::sync_with_i3(); return $self->SUPER::input_focus(@_); } 1