# Command-line options.
our ($start_time) = time ();
-our ($sim) = $ENV{PINTOSSIM}; # Simulator: bochs, qemu, or gsx.
+our ($sim); # Simulator: bochs, qemu, or gsx.
our ($debug) = "none"; # Debugger: none, monitor, or gdb.
our ($mem) = 4; # Physical RAM in MB.
-our ($serial_out) = 1; # Send output to serial port?
+our ($serial) = 1; # Use serial port for input and output?
our ($vga); # VGA output: window, terminal, or none.
our ($jitter); # Seed for random timer interrupts, if set.
our ($realtime); # Synchronize timer interrupts with real time?
our ($timeout); # Maximum runtime in seconds, if set.
+our ($kill_on_failure); # Abort quickly on test failure?
our (@puts); # Files to copy into the VM.
our (@gets); # Files to copy out of the VM.
our ($as_ref); # Reference to last addition to @gets or @puts.
"m|memory=i" => \$mem,
"j|jitter=i" => sub { set_jitter (@_) },
"r|realtime" => sub { set_realtime () },
+
"T|timeout=i" => \$timeout,
+ "k|kill-on-failure" => \$kill_on_failure,
"v|no-vga" => sub { set_vga ('none'); },
- "s|no-serial" => sub { $serial_out = 0; },
+ "s|no-serial" => sub { $serial = 0; },
"t|terminal" => sub { set_vga ('terminal'); },
"p|put-file=s" => sub { add_file (\@puts, $_[1]); },
$debug = "none" if !defined $debug;
$vga = "window" if !defined $vga;
- print "warning: -T or --timeout should not be used with --$debug\n"
+ undef $timeout, print "warning: disabling timeout with --$debug\n"
if defined ($timeout) && $debug ne 'none';
+
+ print "warning: enabling serial port for -k or --kill-on-failure\n"
+ if $kill_on_failure && !$serial;
}
# usage($exitcode).
--monitor Debug with simulator's monitor
--gdb Debug with gdb
Display options: (default is both VGA and serial)
- -v, --no-vga No VGA display
- -s, --no-serial No serial output
+ -v, --no-vga No VGA display or keyboard
+ -s, --no-serial No serial input or output
-t, --terminal Display VGA in terminal (Bochs only)
Timing options: (Bochs only)
-j SEED Randomize timer interrupts
-r, --realtime Use realistic, not reproducible, timings
+Testing options:
-T, --timeout=N Kill Pintos after N seconds CPU time or N*load_avg
seconds wall-clock time (whichever comes first)
+ -k, --kill-on-failure Kill Pintos a few seconds after a kernel or user
+ panic, test failure, or triple fault
Configuration options:
-m, --mem=N Give Pintos N MB physical RAM (default: 4)
File system commands (for `run' command):
--swap-disk=FILE|SIZE Set swap disk file (default: swap.dsk)
Other options:
-h, --help Display this help message.
-Environment variables:
- PINTOSSIM Select default simulator.
EOF
exit $exitcode;
}
# Select Bochs binary based on the chosen debugger.
my ($bin) = $debug eq 'monitor' ? 'bochs-dbg' : 'bochs';
+ my ($squish_pty);
+ if ($serial) {
+ for my $dir (split (':', $ENV{PATH})) {
+ $squish_pty = "$dir/squish-pty", last if -x "$dir/squish-pty";
+ }
+ print "warning: can't find squish-pty, so terminal input will fail\n"
+ if !defined $squish_pty;
+ }
+
# Write bochsrc.txt configuration file.
open (BOCHSRC, ">", "bochsrc.txt") or die "bochsrc.txt: create: $!\n";
print BOCHSRC <<EOF;
print_bochs_disk_line ("ata1-slave", 3);
}
if ($vga ne 'terminal') {
- print BOCHSRC "com1: enabled=1, mode=file, dev=/dev/stdout\n"
- if $serial_out;
+ if ($serial) {
+ my $mode = defined ($squish_pty) ? "term" : "file";
+ print BOCHSRC "com1: enabled=1, mode=$mode, dev=/dev/stdout\n";
+ }
print BOCHSRC "display_library: nogui\n" if $vga eq 'none';
} else {
print BOCHSRC "display_library: term\n";
# Compose Bochs command line.
my (@cmd) = ($bin, '-q');
+ unshift (@cmd, $squish_pty) if defined $squish_pty;
push (@cmd, '-j', $jitter) if defined $jitter;
# Run Bochs.
if defined $disks_by_iface[$iface]{FILE_NAME};
}
push (@cmd, '-m', $mem);
+ push (@cmd, '-net', 'none');
push (@cmd, '-nographic') if $vga eq 'none';
- push (@cmd, '-serial', 'stdio') if $serial_out && $vga ne 'none';
+ push (@cmd, '-serial', 'stdio') if $serial && $vga ne 'none';
push (@cmd, '-S') if $debug eq 'monitor';
push (@cmd, '-s', '-S') if $debug eq 'gdb';
push (@cmd, '-monitor', 'null') if $vga eq 'none' && $debug eq 'none';
gsx_unsup ("--no-vga") if $vga eq 'none';
gsx_unsup ("--terminal") if $vga eq 'terminal';
gsx_unsup ("--jitter") if defined $jitter;
+ gsx_unsup ("--kill-on-failure") if defined $kill_on_failure;
unlink ("pintos.out");
guestOS = "linux"
floppy0.present = FALSE
memsize = $mem
+EOF
+ print VMX <<EOF if $serial;
serial0.present = TRUE
serial0.fileType = "file"
serial0.fileName = "pintos.out"
# Relays common signals to the subprocess.
# If $timeout is set then the subprocess will be killed after that long.
sub xsystem {
+ # qemu turns off local echo and does not restore it if killed by a signal.
+ # We compensate by restoring it ourselves.
+ my $cleanup = sub {};
+ if (isatty (0)) {
+ my $termios = POSIX::Termios->new;
+ $termios->getattr (0);
+ $cleanup = sub { $termios->setattr (0, &POSIX::TCSANOW); }
+ }
+
+ # Create pipe for filtering output.
+ pipe (my $in, my $out) or die "pipe: $!\n" if $kill_on_failure;
+
my ($pid) = fork;
if (!defined ($pid)) {
# Fork failed.
die "fork: $!\n";
} elsif (!$pid) {
# Running in child process.
+ dup2 (fileno ($out), STDOUT_FILENO) or die "dup2: $!\n"
+ if $kill_on_failure;
exec_setitimer (@_);
} else {
# Running in parent process.
- local $SIG{ALRM} = sub { timeout ($pid); };
- local $SIG{INT} = sub { relay_signal ($pid, "INT"); };
- local $SIG{TERM} = sub { relay_signal ($pid, "TERM"); };
+ close $out if $kill_on_failure;
+
+ my ($cause);
+ local $SIG{ALRM} = sub { timeout ($pid, $cause, $cleanup); };
+ local $SIG{INT} = sub { relay_signal ($pid, "INT", $cleanup); };
+ local $SIG{TERM} = sub { relay_signal ($pid, "TERM", $cleanup); };
alarm ($timeout * get_load_average () + 1) if defined ($timeout);
- waitpid ($pid, 0);
+
+ if ($kill_on_failure) {
+ # Filter output.
+ my ($buf) = "";
+ my ($boots) = 0;
+ local ($|) = 1;
+ for (;;) {
+ if (waitpid ($pid, WNOHANG) != 0) {
+ # Subprocess died. Pass through any remaining data.
+ print $buf while sysread ($in, $buf, 4096) > 0;
+ last;
+ }
+
+ # Read and print out pipe data.
+ my ($len) = length ($buf);
+ waitpid ($pid, 0), last
+ if sysread ($in, $buf, 4096, $len) <= 0;
+ print substr ($buf, $len);
+
+ # Remove full lines from $buf and scan them for keywords.
+ while ((my $idx = index ($buf, "\n")) >= 0) {
+ local $_ = substr ($buf, 0, $idx + 1, '');
+ next if defined ($cause);
+ if (/(Kernel PANIC|User process ABORT)/ ) {
+ $cause = "\L$1\E";
+ alarm (5);
+ } elsif (/Pintos booting/ && ++$boots > 1) {
+ $cause = "triple fault";
+ alarm (5);
+ } elsif (/FAILED/) {
+ $cause = "test failure";
+ alarm (5);
+ }
+ }
+ }
+ } else {
+ waitpid ($pid, 0);
+ }
alarm (0);
+ &$cleanup ();
if (WIFSIGNALED ($?) && WTERMSIG ($?) == SIGVTALRM ()) {
seek (STDOUT, 0, 2);
}
}
-# relay_signal($pid, $signal)
+# relay_signal($pid, $signal, &$cleanup)
#
# Relays $signal to $pid and then reinvokes it for us with the default
-# handler. Also cleans up temporary files.
+# handler. Also cleans up temporary files and invokes $cleanup.
sub relay_signal {
- my ($pid, $signal) = @_;
+ my ($pid, $signal, $cleanup) = @_;
kill $signal, $pid;
- File::Temp::cleanup();
+ eval { File::Temp::cleanup() }; # Not defined in old File::Temp.
+ &$cleanup ();
$SIG{$signal} = 'DEFAULT';
kill $signal, getpid ();
}
-# timeout($pid)
+# timeout($pid, $cause, &$cleanup)
#
-# Interrupts $pid and dies with a timeout error message.
+# Interrupts $pid and dies with a timeout error message,
+# after invoking $cleanup.
sub timeout {
- my ($pid) = @_;
+ my ($pid, $cause, $cleanup) = @_;
kill "INT", $pid;
waitpid ($pid, 0);
+ &$cleanup ();
seek (STDOUT, 0, 2);
- my ($load_avg) = `uptime` =~ /(load average:.*)$/i;
- print "\nTIMEOUT after ", time () - $start_time,
- " seconds of wall-clock time";
- print " - $load_avg" if defined $load_avg;
- print "\n";
+ if (!defined ($cause)) {
+ my ($load_avg) = `uptime` =~ /(load average:.*)$/i;
+ print "\nTIMEOUT after ", time () - $start_time,
+ " seconds of wall-clock time";
+ print " - $load_avg" if defined $load_avg;
+ print "\n";
+ } else {
+ print "Simulation terminated due to $cause.\n";
+ }
exit 0;
}