use Getopt::Long qw(:config bundling);
# Command-line options.
+our ($start_time) = time ();
our ($sim); # Simulator: bochs, qemu, or gsx.
our ($debug) = "none"; # Debugger: none, monitor, or gdb.
our ($mem) = 4; # Physical RAM in MB.
"h|help" => sub { usage (0); },
- "os-disk=s" => \$disks{OS}{FILENAME},
- "fs-disk=s" => \$disks{FS}{FILENAME},
- "scratch-disk=s" => \$disks{SCRATCH}{FILENAME},
- "swap-disk=s" => \$disks{SWAP}{FILENAME},
+ "os-disk=s" => \$disks{OS}{FILE_NAME},
+ "fs-disk=s" => \$disks{FS}{FILE_NAME},
+ "scratch-disk=s" => \$disks{SCRATCH}{FILE_NAME},
+ "swap-disk=s" => \$disks{SWAP}{FILE_NAME},
- "0|disk-0|hda=s" => \$disks_by_iface[0]{FILENAME},
- "1|disk-1|hdb=s" => \$disks_by_iface[1]{FILENAME},
- "2|disk-2|hdc=s" => \$disks_by_iface[2]{FILENAME},
- "3|disk-3|hdd=s" => \$disks_by_iface[3]{FILENAME})
+ "0|disk-0|hda=s" => \$disks_by_iface[0]{FILE_NAME},
+ "1|disk-1|hdb=s" => \$disks_by_iface[1]{FILE_NAME},
+ "2|disk-2|hdc=s" => \$disks_by_iface[2]{FILE_NAME},
+ "3|disk-3|hdd=s" => \$disks_by_iface[3]{FILE_NAME})
or exit 1;
}
$sim = "bochs" if !defined $sim;
$debug = "none" if !defined $debug;
$vga = "window" if !defined $vga;
+
+ print "warning: -T or --timeout should not be used with --$debug\n"
+ if defined ($timeout) && $debug ne 'none';
}
# usage($exitcode).
Timing options: (Bochs only)
-j SEED Randomize timer interrupts
-r, --realtime Use realistic, not reproducible, timings
- -T, --timeout=N Time out and kill Pintos after N seconds
+ -T, --timeout=N Kill Pintos after N seconds CPU time or N*load_avg
+ seconds wall-clock time (whichever comes first)
Configuration options:
-m, --mem=N Give Pintos N MB physical RAM (default: 4)
File system commands (for `run' command):
for my $disk (values %disks) {
# If there's no assigned file name but the default file exists,
# try to assign a default file name.
- if (!defined ($disk->{FILENAME})) {
+ if (!defined ($disk->{FILE_NAME})) {
for my $try_fn ($disk->{DEF_FN}, "build/" . $disk->{DEF_FN}) {
- $disk->{FILENAME} = $try_fn, last
+ $disk->{FILE_NAME} = $try_fn, last
if -e $try_fn;
}
}
# If there's no file name, we're done.
- next if !defined ($disk->{FILENAME});
+ next if !defined ($disk->{FILE_NAME});
- if ($disk->{FILENAME} =~ /^\d+(\.\d+)?|\.\d+$/) {
+ if ($disk->{FILE_NAME} =~ /^\d+(\.\d+)?|\.\d+$/) {
# Create a temporary disk of approximately the specified
# size in megabytes.
die "OS disk can't be temporary\n" if $disk == $disks{OS};
- my ($mb) = $disk->{FILENAME};
- undef $disk->{FILENAME};
+ my ($mb) = $disk->{FILE_NAME};
+ undef $disk->{FILE_NAME};
- my ($cylinder) = 1024 * 504;
- my ($bytes) = $mb * ($cylinder * 2);
- $bytes = int (($bytes + $cylinder - 1) / $cylinder) * $cylinder;
- extend_disk ($disk, $bytes);
+ my ($cyl_size) = 512 * 16 * 63;
+ extend_disk ($disk, ceil ($mb * 2) * $cyl_size);
} else {
# The file must exist and have nonzero size.
- -e $disk->{FILENAME} or die "$disk->{FILENAME}: stat: $!\n";
- -s _ or die "$disk->{FILENAME}: disk has zero size\n";
+ -e $disk->{FILE_NAME} or die "$disk->{FILE_NAME}: stat: $!\n";
+ -s _ or die "$disk->{FILE_NAME}: disk has zero size\n";
}
}
# Warn about (potentially) missing disks.
- die "Cannot find OS disk\n" if !defined $disks{OS}{FILENAME};
+ die "Cannot find OS disk\n" if !defined $disks{OS}{FILE_NAME};
if (my ($project) = `pwd` =~ /\b(threads|userprog|vm|filesys)\b/) {
if ((grep ($project eq $_, qw (userprog vm filesys)))
- && !defined ($disks{FS}{FILENAME})) {
+ && !defined ($disks{FS}{FILE_NAME})) {
print STDERR "warning: it looks like you're running the $project ";
print STDERR "project, but no file system disk is present\n";
}
- if ($project eq 'vm' && !defined $disks{SWAP}{FILENAME}) {
+ if ($project eq 'vm' && !defined $disks{SWAP}{FILE_NAME}) {
print STDERR "warning: it looks like you're running the $project ";
print STDERR "project, but no swap disk is present\n";
}
#
# Copies $file into the scratch disk.
sub put_scratch_file {
- my ($put_filename) = @_;
- my ($disk_handle, $disk_filename) = open_disk ($disks{SCRATCH});
+ my ($put_file_name) = @_;
+ my ($disk_handle, $disk_file_name) = open_disk ($disks{SCRATCH});
- print "Copying $put_filename into $disk_filename...\n";
+ print "Copying $put_file_name into $disk_file_name...\n";
# Write metadata sector, which consists of a 4-byte signature
# followed by the file size.
- stat $put_filename or die "$put_filename: stat: $!\n";
+ stat $put_file_name or die "$put_file_name: stat: $!\n";
my ($size) = -s _;
my ($metadata) = pack ("a4 V x504", "PUT\0", $size);
- write_fully ($disk_handle, $disk_filename, $metadata);
+ write_fully ($disk_handle, $disk_file_name, $metadata);
# Copy file data.
my ($put_handle);
- sysopen ($put_handle, $put_filename, O_RDONLY)
- or die "$put_filename: open: $!\n";
- copy_file ($put_handle, $put_filename, $disk_handle, $disk_filename,
+ sysopen ($put_handle, $put_file_name, O_RDONLY)
+ or die "$put_file_name: open: $!\n";
+ copy_file ($put_handle, $put_file_name, $disk_handle, $disk_file_name,
$size);
close ($put_handle);
# Round up disk data to beginning of next sector.
- write_fully ($disk_handle, $disk_filename, "\0" x (512 - $size % 512))
+ write_fully ($disk_handle, $disk_file_name, "\0" x (512 - $size % 512))
if $size % 512;
}
#
# Copies from the scratch disk to $file.
sub get_scratch_file {
- my ($get_filename) = @_;
- my ($disk_handle, $disk_filename) = open_disk ($disks{SCRATCH});
+ my ($get_file_name) = @_;
+ my ($disk_handle, $disk_file_name) = open_disk ($disks{SCRATCH});
- print "Copying $get_filename out of $disk_filename...\n";
+ print "Copying $get_file_name out of $disk_file_name...\n";
# Read metadata sector, which has a 4-byte signature followed by
# the file size.
- my ($metadata) = read_fully ($disk_handle, $disk_filename, 512);
+ my ($metadata) = read_fully ($disk_handle, $disk_file_name, 512);
my ($signature, $size) = unpack ("a4 V", $metadata);
die "bad signature reading scratch disk--did Pintos run correctly?\n"
if $signature ne "GET\0";
# Copy file data.
my ($get_handle);
- sysopen ($get_handle, $get_filename, O_WRONLY | O_CREAT | O_EXCL, 0666)
- or die "$get_filename: create: $!\n";
- copy_file ($disk_handle, $disk_filename, $get_handle, $get_filename,
+ sysopen ($get_handle, $get_file_name, O_WRONLY | O_CREAT | O_EXCL, 0666)
+ or die "$get_file_name: create: $!\n";
+ copy_file ($disk_handle, $disk_file_name, $get_handle, $get_file_name,
$size);
close ($get_handle);
# Skip forward in disk up to beginning of next sector.
- read_fully ($disk_handle, $disk_filename, 512 - $size % 512)
+ read_fully ($disk_handle, $disk_file_name, 512 - $size % 512)
if $size % 512;
}
\f
$args .= "\0" x (128 - length ($args));
# Write command line.
- my ($handle, $filename) = open_disk_copy ($disk);
- print "Writing command line to $filename...\n";
- sysseek ($handle, 0x17a, 0) == 0x17a or die "$filename: seek: $!\n";
- syswrite ($handle, "$arg_cnt$args") or die "$filename: write: $!\n";
+ my ($handle, $file_name) = open_disk_copy ($disk);
+ print "Writing command line to $file_name...\n";
+ sysseek ($handle, 0x17a, 0) == 0x17a or die "$file_name: seek: $!\n";
+ syswrite ($handle, "$arg_cnt$args") or die "$file_name: write: $!\n";
}
\f
# Running simulators.
# Runs Bochs.
sub run_bochs {
# Select Bochs binary based on the chosen debugger.
- my ($bin);
- if ($debug eq 'none') {
- $bin = 'bochs';
- } elsif ($debug eq 'monitor') {
- $bin = 'bochs-dbg';
- } elsif ($debug eq 'gdb') {
- $bin = 'bochs-gdb';
- }
+ my ($bin) = $debug eq 'monitor' ? 'bochs-dbg' : 'bochs';
# Write bochsrc.txt configuration file.
open (BOCHSRC, ">", "bochsrc.txt") or die "bochsrc.txt: create: $!\n";
print BOCHSRC <<EOF;
romimage: file=\$BXSHARE/BIOS-bochs-latest, address=0xf0000
-vgaromimage: \$BXSHARE/VGABIOS-lgpl-latest
-boot: c
-ips: 1000000
+vgaromimage: file=\$BXSHARE/VGABIOS-lgpl-latest
+boot: disk
+cpu: ips=1000000
megs: $mem
log: bochsout.txt
+panic: action=fatal
EOF
- print BOCHSRC "clock: sync=", $realtime ? 'realtime' : 'none', "time0=0\n";
+ print BOCHSRC "gdbstub: enabled=1\n" if $debug eq 'gdb';
+ print BOCHSRC "clock: sync=", $realtime ? 'realtime' : 'none',
+ " time0=0\n";
print_bochs_disk_line ("ata0-master", 0);
print_bochs_disk_line ("ata0-slave", 1);
- if (defined ($disks_by_iface[2]{FILENAME})
- || defined ($disks_by_iface[3]{FILENAME})) {
+ if (defined ($disks_by_iface[2]{FILE_NAME})
+ || defined ($disks_by_iface[3]{FILE_NAME})) {
print BOCHSRC "ata1: enabled=1, ioaddr1=0x170, ",
"ioaddr2=0x370, irq=15\n";
print_bochs_disk_line ("ata1-master", 2);
print_bochs_disk_line ("ata1-slave", 3);
}
if ($vga ne 'terminal') {
- print BOCHSRC "com1: enabled=1, dev=/dev/stdout\n" if $serial_out;
+ print BOCHSRC "com1: enabled=1, mode=file, dev=/dev/stdout\n"
+ if $serial_out;
print BOCHSRC "display_library: nogui\n" if $vga eq 'none';
} else {
print BOCHSRC "display_library: term\n";
# line for attaching it to $device.
sub print_bochs_disk_line {
my ($device, $iface) = @_;
- my ($file) = $disks_by_iface[$iface]{FILENAME};
+ my ($disk) = $disks_by_iface[$iface];
+ my ($file) = $disk->{FILE_NAME};
if (defined $file) {
- my (%geom) = disk_geometry ($file);
+ my (%geom) = disk_geometry ($disk);
print BOCHSRC "$device: type=disk, path=$file, mode=flat, ";
print BOCHSRC "cylinders=$geom{C}, heads=$geom{H}, spt=$geom{S}, ";
print BOCHSRC "translation=none\n";
my (@cmd) = ('qemu');
for my $iface (0...3) {
my ($option) = ('-hda', '-hdb', '-hdc', '-hdd')[$iface];
- push (@cmd, $option, $disks_by_iface[$iface]{FILENAME})
- if defined $disks_by_iface[$iface]{FILENAME};
+ push (@cmd, $option, $disks_by_iface[$iface]{FILE_NAME})
+ if defined $disks_by_iface[$iface]{FILE_NAME};
}
push (@cmd, '-m', $mem);
push (@cmd, '-nographic') if $vga eq 'none';
EOF
for (my ($i) = 0; $i < 4; $i++) {
- my ($dsk) = $disks_by_iface[$i]{FILENAME};
+ my ($disk) = $disks_by_iface[$i];
+ my ($dsk) = $disk->{FILE_NAME};
next if !defined $dsk;
my ($pln) = $dsk;
$device.fileName = "$pln"
EOF
- my (%geom) = disk_geometry ($dsk);
+ my (%geom) = disk_geometry ($disk);
open (PLN, ">", $pln) or die "$pln: create: $!\n";
print PLN <<EOF;
DRIVETYPE ide
sub open_disk {
my ($disk) = @_;
if (!defined ($disk->{HANDLE})) {
- if ($disk->{FILENAME}) {
- sysopen ($disk->{HANDLE}, $disk->{FILENAME}, O_RDWR)
- or die "$disk->{FILENAME}: open: $!\n";
+ if ($disk->{FILE_NAME}) {
+ sysopen ($disk->{HANDLE}, $disk->{FILE_NAME}, O_RDWR)
+ or die "$disk->{FILE_NAME}: open: $!\n";
} else {
- ($disk->{HANDLE}, $disk->{FILENAME}) = tempfile (UNLINK => 1,
+ ($disk->{HANDLE}, $disk->{FILE_NAME}) = tempfile (UNLINK => 1,
SUFFIX => '.dsk');
}
}
- return ($disk->{HANDLE}, $disk->{FILENAME});
+ return ($disk->{HANDLE}, $disk->{FILE_NAME});
}
# open_disk_copy($disk)
# Makes a temporary copy of $disk and returns its file handle and file name.
sub open_disk_copy {
my ($disk) = @_;
- die if !$disk->{FILENAME};
+ die if !$disk->{FILE_NAME};
- my ($orig_handle, $orig_filename) = open_disk ($disk);
- my ($cp_handle, $cp_filename) = tempfile (UNLINK => 1, SUFFIX => '.dsk');
- copy_file ($orig_handle, $orig_filename, $cp_handle, $cp_filename,
+ my ($orig_handle, $orig_file_name) = open_disk ($disk);
+ my ($cp_handle, $cp_file_name) = tempfile (UNLINK => 1, SUFFIX => '.dsk');
+ copy_file ($orig_handle, $orig_file_name, $cp_handle, $cp_file_name,
-s $orig_handle);
- return ($disk->{HANDLE}, $disk->{FILENAME}) = ($cp_handle, $cp_filename);
+ return ($disk->{HANDLE}, $disk->{FILE_NAME}) = ($cp_handle, $cp_file_name);
}
# extend_disk($disk, $size)
# long.
sub extend_disk {
my ($disk, $size) = @_;
- my ($handle, $filename) = open_disk ($disk);
+ my ($handle, $file_name) = open_disk ($disk);
if (-s ($handle) < $size) {
sysseek ($handle, $size - 1, 0) == $size - 1
- or die "$filename: seek: $!\n";
+ or die "$file_name: seek: $!\n";
syswrite ($handle, "\0") == 1
- or die "$filename: write: $!\n";
+ or die "$file_name: write: $!\n";
}
}
# Examines $file and returns a valid IDE disk geometry for it, as a
# hash.
sub disk_geometry {
- my ($file) = @_;
+ my ($disk) = @_;
+ my ($file) = $disk->{FILE_NAME};
my ($size) = -s $file;
die "$file: stat: $!\n" if !defined $size;
die "$file: size not a multiple of 512 bytes\n" if $size % 512;
- my ($cylinders) = int ($size / (512 * 16 * 63));
- $cylinders++ if $size % (512 * 16 * 63);
+ my ($cyl_size) = 512 * 16 * 63;
+ my ($cylinders) = ceil ($size / $cyl_size);
+ extend_disk ($disk, $cylinders * $cyl_size) if $size % $cyl_size;
return (CAPACITY => $size / 512,
C => $cylinders,
S => 63);
}
-# copy_file($from_handle, $from_filename, $to_handle, $to_filename, $size)
+# copy_file($from_handle, $from_file_name, $to_handle, $to_file_name, $size)
#
# Copies $size bytes from $from_handle to $to_handle.
-# $from_filename and $to_filename are used in error messages.
+# $from_file_name and $to_file_name are used in error messages.
sub copy_file {
- my ($from_handle, $from_filename, $to_handle, $to_filename, $size) = @_;
+ my ($from_handle, $from_file_name, $to_handle, $to_file_name, $size) = @_;
while ($size > 0) {
my ($chunk_size) = 4096;
$chunk_size = $size if $chunk_size > $size;
$size -= $chunk_size;
- my ($data) = read_fully ($from_handle, $from_filename, $chunk_size);
- write_fully ($to_handle, $to_filename, $data);
+ my ($data) = read_fully ($from_handle, $from_file_name, $chunk_size);
+ write_fully ($to_handle, $to_file_name, $data);
}
}
-# read_fully($handle, $filename, $bytes)
+# read_fully($handle, $file_name, $bytes)
#
# Reads exactly $bytes bytes from $handle and returns the data read.
-# $filename is used in error messages.
+# $file_name is used in error messages.
sub read_fully {
- my ($handle, $filename, $bytes) = @_;
+ my ($handle, $file_name, $bytes) = @_;
my ($data);
my ($read_bytes) = sysread ($handle, $data, $bytes);
- die "$filename: read: $!\n" if !defined $read_bytes;
- die "$filename: unexpected end of file\n" if $read_bytes != $bytes;
+ die "$file_name: read: $!\n" if !defined $read_bytes;
+ die "$file_name: unexpected end of file\n" if $read_bytes != $bytes;
return $data;
}
-# write_fully($handle, $filename, $data)
+# write_fully($handle, $file_name, $data)
#
# Write $data to $handle.
-# $filename is used in error messages.
+# $file_name is used in error messages.
sub write_fully {
- my ($handle, $filename, $data) = @_;
+ my ($handle, $file_name, $data) = @_;
my ($written_bytes) = syswrite ($handle, $data);
- die "$filename: write: $!\n" if !defined $written_bytes;
- die "$filename: short write\n" if $written_bytes != length $data;
+ die "$file_name: write: $!\n" if !defined $written_bytes;
+ die "$file_name: short write\n" if $written_bytes != length $data;
}
\f
# Subprocess utilities.
die "fork: $!\n";
} elsif (!$pid) {
# Running in child process.
- exec (@_);
- exit (1);
+ 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"); };
- alarm ($timeout) if defined ($timeout);
+ alarm ($timeout * get_load_average () + 1) if defined ($timeout);
waitpid ($pid, 0);
alarm (0);
+
+ if (WIFSIGNALED ($?) && WTERMSIG ($?) == SIGVTALRM ()) {
+ seek (STDOUT, 0, 2);
+ print "\nTIMEOUT after $timeout seconds of host CPU time\n";
+ exit 0;
+ }
+
return $?;
}
}
# relay_signal($pid, $signal)
#
# Relays $signal to $pid and then reinvokes it for us with the default
-# handler.
+# handler. Also cleans up temporary files.
sub relay_signal {
my ($pid, $signal) = @_;
kill $signal, $pid;
+ File::Temp::cleanup();
$SIG{$signal} = 'DEFAULT';
kill $signal, getpid ();
}
waitpid ($pid, 0);
seek (STDOUT, 0, 2);
my ($load_avg) = `uptime` =~ /(load average:.*)$/i;
- print "\nTIMEOUT after $timeout seconds";
+ print "\nTIMEOUT after ", time () - $start_time,
+ " seconds of wall-clock time";
print " - $load_avg" if defined $load_avg;
print "\n";
exit 0;
}
+
+# Returns the system load average over the last minute.
+# If the load average is less than 1.0 or cannot be determined, returns 1.0.
+sub get_load_average {
+ my ($avg) = `uptime` =~ /load average:\s*([^,]+),/;
+ return $avg >= 1.0 ? $avg : 1.0;
+}
+
+# Calls setitimer to set a timeout, then execs what was passed to us.
+sub exec_setitimer {
+ if (defined $timeout) {
+ if ($\16 ge 5.8.0) {
+ eval "
+ use Time::HiRes qw(setitimer ITIMER_VIRTUAL);
+ setitimer (ITIMER_VIRTUAL, $timeout, 0);
+ ";
+ } else {
+ { exec ("setitimer-helper", $timeout, @_); };
+ exit 1 if !$!{ENOENT};
+ print STDERR "warning: setitimer-helper is not installed, so ",
+ "CPU time limit will not be enforced\n";
+ }
+ }
+ exec (@_);
+ exit (1);
+}
+
+sub SIGVTALRM {
+ use Config;
+ my $i = 0;
+ foreach my $name (split(' ', $Config{sig_name})) {
+ return $i if $name eq 'VTALRM';
+ $i++;
+ }
+ return 0;
+}