pcsx2/tests/run_test.pl
Gregory Hainaut 8ab46827de tests: be more user friendly
Default inis dir
Use 8 CPU by default
Print a nice gdb command to replay the test
2016-02-12 19:10:36 +01:00

538 lines
14 KiB
Perl
Executable File

#!/usr/bin/perl
use strict;
use warnings;
use threads;
use threads::shared;
use Cwd;
use Getopt::Long;
use File::Basename;
use File::Find;
use File::Spec;
use File::Copy::Recursive qw(fcopy rcopy dircopy);
use Tie::File;
use Cwd;
use Cwd 'abs_path';
use Term::ANSIColor;
use Data::Dumper;
sub help {
my $msg = << 'EOS';
The script run_test.pl is a test runner that work in conjunction with ps2autotests (https://github.com/unknownbrackets/ps2autotests)
Mandatory Option
--exe <STRING> : the PCSX2 binary that you want to test
--cfg <STRING> : a path to the a default ini configuration of PCSX2
--suite <STRING> : a path to ps2autotests test (root directory)
Optional Option
--cpu=1 : the number of parallel tests launched. Might create additional issue
--timeout=20 : a global timeout for hang tests
--show_diff : show debug information
--test=<REGEXP> : filter test based on their names
--bad : only run blacklisted tests
--regression : blacklist test that are known to be broken
--option <KEY>=<VAL> : overload PCSX2 configuration option
--debug_me : print script info
--dry_run : don't launch PCSX2
PCSX2 option
EnableEE=disabled : Use EE interpreter
EnableIOP=disabled : Use IOP interpreter
EnableVU0=disabled : Use VU0 interpreter
EnableVU1=disabled : Use VU1 interpreter
FPU.Roundmode=3 : EE FPU round mode
VU.Roundmode=3 : VU round mode
fpuExtraOverflow=enabled : Full EE FPU
fpuFullMode=enabled : Full EE FPU
EOS
print $msg;
exit
}
my $mt_timeout :shared;
my ($o_suite, $o_help, $o_exe, $o_cfg, $o_max_cpu, $o_timeout, $o_show_diff, $o_debug_me, $o_test_name, $o_regression, $o_dry_run, %o_pcsx2_opt, $o_cygwin, $o_bad);
# default value
$o_bad = 0;
$o_regression = 0;
$o_cygwin = 0;
$o_max_cpu = 8;
$o_timeout = 30;
$o_help = 0;
$o_debug_me = 0;
$o_dry_run = 0;
$o_test_name = ".*";
$o_exe = File::Spec->catfile("bin", "PCSX2");
if (exists $ENV{"PS2_AUTOTESTS_ROOT"}) {
$o_suite = $ENV{"PS2_AUTOTESTS_ROOT"};
}
if (exists $ENV{"PS2_AUTOTESTS_CFG"}) {
$o_cfg = $ENV{"PS2_AUTOTESTS_CFG"};
}
my $status = Getopt::Long::GetOptions(
'bad' => \$o_bad,
'cfg=s' => \$o_cfg,
'cpu=i' => \$o_max_cpu,
'cygwin' => \$o_cygwin,
'debug_me' => \$o_debug_me,
'dry_run' => \$o_dry_run,
'exe=s' => \$o_exe,
'help' => \$o_help,
'option=s' => \%o_pcsx2_opt,
'regression' => \$o_regression,
'testname=s' => \$o_test_name,
'timeout=i' => \$o_timeout,
'show_diff' => \$o_show_diff,
'suite=s' => \$o_suite,
);
# Auto detect cygwin mess
if (-e "/cygdrive") {
print "INFO: CYGWIN OS detected. Update path accordingly\n";
$o_cygwin = 1;
}
#####################################################
# Check option
#####################################################
if (not $status or $o_help) {
help();
}
unless (defined $o_suite) {
print "Error: require a test suite directory\n";
print "Note: you could use either use --suite or the env variable \$PS2_AUTOTESTS_ROOT\n";
help();
}
# Default value if the dir exists
$o_cfg = "bin/inis" if (not defined $o_cfg and -d "bin/inis");
unless (defined $o_cfg) {
print "Error: require a default cfg directory\n";
print "Note: you could use either use --cfg or the env variable \$PS2_AUTOTESTS_CFG\n";
help();
}
$o_exe = abs_path($o_exe);
$o_cfg = abs_path($o_cfg);
$o_suite = abs_path($o_suite);
$mt_timeout = $o_timeout;
unless (-d $o_suite) {
print "Error: --suite option requires a directory\n";
help();
}
unless (-x $o_exe) {
print "Error: --exe option requires an executable\n";
help();
}
unless (-d $o_cfg) {
print "Error: --cfg option requires a directory\n";
help();
}
my %blacklist;
if ($o_regression or $o_bad) {
# Blacklist bad test
# FULL FPU rounding to avoid EE FPU test issu
#$o_pcsx2_opt{"fpuExtraOverflow"} = "enabled";
#$o_pcsx2_opt{"fpuFullMode"} = "enabled";
# EE
$blacklist{"branchdelay"} = 1;
# EE fpu
$blacklist{"arithmetic"} = 1;
$blacklist{"branchdelay"} = 1;
$blacklist{"compare"} = 1;
$blacklist{"fcr"} = 1;
$blacklist{"muldiv"} = 1;
$blacklist{"sqrt"} = 1;
# IOP
$blacklist{"lsudelay"} = 1;
# Kernel IOP
$blacklist{"register"} = 1;
$blacklist{"receive"} = 1;
$blacklist{"stat"} = 1;
$blacklist{"send"} = 1;
# VU
$blacklist{"triace"} = 1;
}
#####################################################
# Run
#####################################################
# Round 1: Collect the tests
my $cwd = getcwd();
my $g_test_db;
print "INFO: search tests in $o_suite and run them in $o_max_cpu CPU)\n";
find({ wanted => \&add_test_cmd_for_elf, no_chdir => 1 }, $o_suite);
print "\n";
chdir($cwd); # Just to be sure
# Round 2: Run the tests (later in thread)
foreach my $test (keys(%$g_test_db)) {
# wait free CPU slot
while( scalar(threads->list() >= $o_max_cpu) ) {
if (close_joinnable_threads() == 0) {
sleep(1); # test are often fast so 1s is more than enough
$mt_timeout--;
}
kill_thread_if_timeout()
}
create_thread($test);
}
wait_all_threads();
# Round 3: Collect the results (not thread safe)
collect_result();
# Pretty print
print "\n\n Status | =========================== Test ================================\n";
foreach my $test (sort(keys(%$g_test_db))) {
my $info = $g_test_db->{$test};
my $cfg = $info->{"CFG_DIR"};
my $out = $info->{"OUT"};
my $exp = $info->{"EXPECTED"};
if ($info->{"STATUS"} eq "OK") {
print color('bold green');
print " OK | $test\n";
} else {
if ($info->{"STATUS"} eq "T") {
print color('bold blue');
print " Tout | $test\n";
} else {
print color('bold red');
print " KO | $test\n";
}
if ($o_show_diff) {
print color('bold magenta'); print "-----------------------------------------------------------------------\n"; print color('reset');
# Easy copy/past to rerun the test in gdb. Yes lazy guy detected :p
print "gdb -ex=r --args " . test_cmd($test, $cfg) . "\n";
print "vi -d $exp $out\n";
print "\n";
diff($exp, $out, 0);
print color('bold magenta'); print "-----------------------------------------------------------------------\n"; print color('reset');
}
}
}
print color('reset');
print "\n";
#####################################################
# Sub helper
#####################################################
sub cyg_abs_path {
my $p = shift;
if ($o_cygwin) {
$p =~ s/\/cygdrive\/(\w)/$1:/;
}
return $p;
}
sub collect_result {
foreach my $test (keys(%$g_test_db)) {
my $info = $g_test_db->{$test};
my $cfg = $info->{"CFG_DIR"};
my $out = $info->{"OUT"};
my $exp = $info->{"EXPECTED"};
extract_test_log(File::Spec->catfile($cfg, "emuLog.txt"), $out);
$info->{"STATUS"} = diff($exp, $out, 1); # potentially not thread safe
}
}
sub extract_test_log {
my $in = shift;
my $out = shift;
return unless (-e $in);
open(my $emulog, "<$in");
my @all_data = <$emulog>;
open(my $short_log, ">$out") or die "Impossible to open $!";
my $dump = 0;
foreach my $line (@all_data) {
# Remove color
$line =~ s/\e\[\d+(?>(;\d+)*)m//g;
if ($line =~ /-- TEST BEGIN/) {
$dump = 1;
}
if ($dump == 1) {
chomp($line);
$line =~ s/\r$//g;
print $short_log "$line\n";
}
if ($line =~ /-- TEST END/) {
$dump = 0;
last;
}
}
}
sub add_test_cmd_for_elf {
my $file = $_;
my $ext = "\\.(elf|irx)";
return 0 unless ($file =~ /$ext/);
return 0 unless ($file =~ /$o_test_name/i);
my($test, $dir_, $suffix) = fileparse($file, qw/.elf .irx/);
return 0 if ($o_regression and exists $blacklist{$test});
return 0 if ($o_bad and not exists $blacklist{$test});
# Fast test
#return 0 unless ($file =~ /branchdelay/);
my $dir = $File::Find::dir;
print "INFO: found test $test in $dir\n" if $o_debug_me or $o_dry_run;
$g_test_db->{$file}->{"CFG_DIR"} = $file =~ s/$ext/_cfg/r;
$g_test_db->{$file}->{"EXPECTED"} = $file =~ s/$ext/.expected/r;
$g_test_db->{$file}->{"OUT"} = $file =~ s/$ext/.PCSX2.out/r;
$g_test_db->{$file}->{"STATUS"} = "T";
return 1;
}
sub run_thread {
my $test = shift;
my $info = $g_test_db->{$test};
generate_cfg($info->{"CFG_DIR"});
run_elf($test, $info->{"CFG_DIR"}, $info->{"OUT"});
}
sub generate_cfg {
my $out_dir = shift;
print "INFO: Copy dir $o_cfg to $out_dir\n" if $o_debug_me;
local $File::Copy::Recursive::RMTrgDir = 2;
dircopy($o_cfg, $out_dir) or die "Failed to copy directory: $!\n";
my %sed;
# Enable logging for test
$sed{".EEout"} = "enabled";
$sed{".IOPout"} = "enabled";
# Redirect log file in the unique cfg dir
#$sed{"ConsoleToStdio"} = "enabled"; # was to redirect stdio (but windows...) # Still requires to force the flush
$sed{"Logs"} = cyg_abs_path($out_dir);
$sed{"UseDefaultLogs"} = "disabled";
# FIXME add interpreter vs recompiler
# FIXME add clamping / rounding option
# FIXME need separate cfg dir !
foreach my $k (keys(%o_pcsx2_opt)) {
my $v = $o_pcsx2_opt{$k};
$sed{$k} = $v;
}
tie my @ui, 'Tie::File', File::Spec->catfile($out_dir, "PCSX2_ui.ini") or die "Fail to tie $!\n";
for (@ui) {
foreach my $option (keys(%sed)) {
my $v = $sed{$option};
s/$option=.*/$option=$v/;
}
}
untie @ui;
tie my @vm, 'Tie::File', File::Spec->catfile($out_dir, "PCSX2_vm.ini") or die "Fail to tie $!\n";
for (@vm) {
foreach my $option (keys(%sed)) {
my $v = $sed{$option};
s/$option=.*/$option=$v/;
}
}
untie @vm;
# Disable sound emulation (avoid spurious "ALSA lib pcm.c:7843:(snd_pcm_recover) underrun occurred")
tie my @spu, 'Tie::File', File::Spec->catfile($out_dir, "spu2-x.ini") or die "Fail to tie $!\n";
for (@spu) {
s/Output_Module=.*/Output_Module=nullout/;
}
untie @spu;
}
sub run_elf {
my $elf = shift;
my $cfg = shift;
my $out = shift;
######################################################################
# FORK test
######################################################################
my $command = test_cmd($elf, $cfg);
print "FORK $command\n" if $o_debug_me;
return unless ($command ne "");
my $pid = 0;
my $log_file = File::Spec->catfile($cfg, "emuLog.txt");
if ($o_dry_run) {
print "INFO-DRY: fork process $pid\n";
# Delete old log
unlink($out) or die "Impossible to open $!";
return;
}
$pid = open(my $fork, "|$command ") or die "Impossible to fork $!";
print "INFO: fork process $pid\n";
# Kill me
$SIG{'KILL'} = sub {
print "ERROR: timeout detected on pid $pid.\n";
unless ($o_dry_run) {
kill 'KILL', $pid;
}
threads->exit();
};
######################################################################
# Parse test log
######################################################################
my $try = ($o_timeout > 3) ? $o_timeout - 3 : 1;
while ($try > 0) {
sleep(1);
$try--;
open(my $emulog, "<$log_file") or next;
my @all_data = <$emulog>;
close($emulog);
foreach my $line (@all_data) {
if ($line =~ /-- TEST END/) {
$try = 0;
}
}
}
######################################################################
# Test done
######################################################################
# Kill the process
print "INFO: kill process $pid\n" if $o_debug_me;
kill 'TERM', $pid;
threads->exit();
}
sub test_cmd {
my $elf = shift;
my $cfg = shift;
$elf = cyg_abs_path($elf);
$cfg = cyg_abs_path($cfg);
if ($elf =~ /\.elf/) {
return "$o_exe --elf $elf --cfgpath=$cfg"
} elsif ($elf =~ /\.irx/) {
return "$o_exe --irx $elf --cfgpath=$cfg"
} else {
print "ERROR: bad command parameters $elf $cfg\n";
return "";
}
}
sub diff {
my $ref_ = shift;
my $out_ = shift;
my $quiet = shift;
open (my $ref_h, "<$ref_");
my @ref = <$ref_h>;
chomp(@ref);
open (my $out_h, "<$out_") or return "T";
my @out = <$out_h>;
chomp(@out);
return "T" if (scalar(@out) < 2);
return "T" if ($out[-1] !~ /-- TEST END/);
return "KO" if ((scalar(@out) != scalar(@ref)) and $quiet);
my $status = "OK";
my $show = 10;
for (my $l = 0; $l < scalar(@ref); $l++) {
$ref[$l] =~ s/\r//g;
$out[$l] =~ s/\r//g;
if ($ref[$l] ne $out[$l]) {
$status = "KO";
if ($o_show_diff and not $quiet and $show > 0) {
print "EXPECTED: \"$ref[$l]\"\n";
print "BUT GOT : \"$out[$l]\"\n";
$show--;
}
}
}
return $status;
}
#####################################################
# Thread management
#####################################################
my $g_counter = 0;
sub create_thread {
my $cmd = shift;
my $thr = threads->create(\&run_thread, $cmd );
$g_counter++;
}
sub close_joinnable_threads {
my $closed = 0;
foreach my $thr (threads->list(threads::joinable)) {
$thr->join();
$closed = 1;
$g_counter--;
}
return $closed;
}
sub wait_all_threads {
# wait free CPU slot
while( scalar(threads->list() > 0) and $mt_timeout > 0) {
if (close_joinnable_threads() == 0) {
sleep(1); # test are often fast so 1s is more than enough
$mt_timeout--;
}
}
kill_thread_if_timeout()
}
sub kill_thread_if_timeout {
if ($mt_timeout <= 0) {
foreach my $thr (threads->list()) {
# Farewell my friend
print "ERROR: send kill on timeout process\n";
$thr->kill('KILL')->join();
}
$mt_timeout = 100;
}
}