blob: 6a04ac2f5440b5d2b946bc9bd103e4d624dbd07f [file] [log] [blame]
#!/usr/bin/perl
# This script processes strace -f output. It displays a graph of invoked
# subprocesses, and is useful for finding out what complex commands do.
# You will probably want to invoke strace with -q as well, and with
# -s 100 to get complete filenames.
# The script can also handle the output with strace -t, -tt, or -ttt.
# It will add elapsed time for each process in that case.
# This script is Copyright (C) 1998 by Richard Braakman <dark@xs4all.nl>.
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# 3. The name of the author may not be used to endorse or promote products
# derived from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# $Id$
my %unfinished;
# Scales for strace slowdown. Make configurable!
my $scale_factor = 3.5;
while (<>) {
my ($pid, $call, $args, $result, $time);
chop;
s/^(\d+)\s+//;
$pid = $1;
if (s/^(\d\d):(\d\d):(\d\d)(?:\.(\d\d\d\d\d\d))? //) {
$time = $1 * 3600 + $2 * 60 + $3;
if (defined $4) {
$time = $time + $4 / 1000000;
$floatform = 1;
}
} elsif (s/^(\d+)\.(\d\d\d\d\d\d) //) {
$time = $1 + ($2 / 1000000);
$floatform = 1;
}
if (s/ <unfinished ...>$//) {
$unfinished{$pid} = $_;
next;
}
if (s/^<... \S+ resumed> //) {
unless (exists $unfinished{$pid}) {
print STDERR "$0: $ARGV: cannot find start of resumed call on line $.";
next;
}
$_ = $unfinished{$pid} . $_;
delete $unfinished{$pid};
}
if (/^--- SIG(\S+) \(.*\) ---$/) {
# $pid received signal $1
# currently we don't do anything with this
next;
}
if (/^\+\+\+ killed by SIG(\S+) \+\+\+$/) {
# $pid received signal $1
handle_killed($pid, $time);
next;
}
($call, $args, $result) = /(\S+)\((.*)\)\s+= (.*)$/;
unless (defined $result) {
print STDERR "$0: $ARGV: $.: cannot parse line.\n";
next;
}
handle_trace($pid, $call, $args, $result, $time);
}
display_trace();
exit 0;
sub parse_str {
my ($in) = @_;
my $result = "";
while (1) {
if ($in =~ s/^\\(.)//) {
$result .= $1;
} elsif ($in =~ s/^\"//) {
if ($in =~ s/^\.\.\.//) {
return ("$result...", $in);
}
return ($result, $in);
} elsif ($in =~ s/([^\\\"]*)//) {
$result .= $1;
} else {
return (undef, $in);
}
}
}
sub parse_one {
my ($in) = @_;
if ($in =~ s/^\"//) {
($tmp, $in) = parse_str($in);
if (not defined $tmp) {
print STDERR "$0: $ARGV: $.: cannot parse string.\n";
return (undef, $in);
}
return ($tmp, $in);
} elsif ($in =~ s/^0x(\x+)//) {
return (hex $1, $in);
} elsif ($in =~ s/^(\d+)//) {
return (int $1, $in);
} else {
print STDERR "$0: $ARGV: $.: unrecognized element.\n";
return (undef, $in);
}
}
sub parseargs {
my ($in) = @_;
my @args = ();
my $tmp;
while (length $in) {
if ($in =~ s/^\[//) {
my @subarr = ();
if ($in =~ s,^/\* (\d+) vars \*/\],,) {
push @args, $1;
} else {
while ($in !~ s/^\]//) {
($tmp, $in) = parse_one($in);
defined $tmp or return undef;
push @subarr, $tmp;
unless ($in =~ /^\]/ or $in =~ s/^, //) {
print STDERR "$0: $ARGV: $.: missing comma in array.\n";
return undef;
}
if ($in =~ s/^\.\.\.//) {
push @subarr, "...";
}
}
push @args, \@subarr;
}
} elsif ($in =~ s/^\{//) {
my %subhash = ();
while ($in !~ s/^\}//) {
my $key;
unless ($in =~ s/^(\w+)=//) {
print STDERR "$0: $ARGV: $.: struct field expected.\n";
return undef;
}
$key = $1;
($tmp, $in) = parse_one($in);
defined $tmp or return undef;
$subhash{$key} = $tmp;
unless ($in =~ s/, //) {
print STDERR "$0: $ARGV: $.: missing comma in struct.\n";
return undef;
}
}
push @args, \%subhash;
} else {
($tmp, $in) = parse_one($in);
defined $tmp or return undef;
push @args, $tmp;
}
unless (length($in) == 0 or $in =~ s/^, //) {
print STDERR "$0: $ARGV: $.: missing comma.\n";
return undef;
}
}
return @args;
}
my $depth = "";
# process info, indexed by pid.
# fields:
# parent pid number
# seq forks and execs for this pid, in sequence (array)
# filename and argv (from latest exec)
# basename (derived from filename)
# argv[0] is modified to add the basename if it differs from the 0th argument.
my %pr;
sub handle_trace {
my ($pid, $call, $args, $result, $time) = @_;
my $p;
if (defined $time and not defined $pr{$pid}{start}) {
$pr{$pid}{start} = $time;
}
if ($call eq 'execve') {
return if $result != 0;
my ($filename, $argv) = parseargs($args);
($basename) = $filename =~ m/([^\/]*)$/;
if ($basename ne $$argv[0]) {
$$argv[0] = "$basename($$argv[0])";
}
my $seq = $pr{$pid}{seq};
$seq = [] if not defined $seq;
push @$seq, ['EXEC', $filename, $argv];
$pr{$pid}{seq} = $seq;
} elsif ($call eq 'fork' || $call eq 'clone' || $call eq 'vfork') {
return if $result == 0;
my $seq = $pr{$pid}{seq};
$seq = [] if not defined $seq;
push @$seq, ['FORK', $result];
$pr{$pid}{seq} = $seq;
$pr{$result}{parent} = $pid;
} elsif ($call eq '_exit') {
$pr{$pid}{end} = $time if defined $time;
}
}
sub handle_killed {
my ($pid, $time) = @_;
$pr{$pid}{end} = $time if defined $time;
}
sub straight_seq {
my ($pid) = @_;
my $seq = $pr{$pid}{seq};
for $elem (@$seq) {
if ($$elem[0] eq 'EXEC') {
my $argv = $$elem[2];
print "$$elem[0] $$elem[1] @$argv\n";
} elsif ($$elem[0] eq 'FORK') {
print "$$elem[0] $$elem[1]\n";
} else {
print "$$elem[0]\n";
}
}
}
sub first_exec {
my ($pid) = @_;
my $seq = $pr{$pid}{seq};
for $elem (@$seq) {
if ($$elem[0] eq 'EXEC') {
return $elem;
}
}
return undef;
}
sub display_pid_trace {
my ($pid, $lead) = @_;
my $i = 0;
my @seq = @{$pr{$pid}{seq}};
my $elapsed;
if (not defined first_exec($pid)) {
unshift @seq, ['EXEC', '', ['(anon)'] ];
}
if (defined $pr{$pid}{start} and defined $pr{$pid}{end}) {
$elapsed = $pr{$pid}{end} - $pr{$pid}{start};
$elapsed /= $scale_factor;
if ($floatform) {
$elapsed = sprintf("%0.02f", $elapsed);
} else {
$elapsed = int $elapsed;
}
}
for $elem (@seq) {
$i++;
if ($$elem[0] eq 'EXEC') {
my $argv = $$elem[2];
if (defined $elapsed) {
print "$lead [$elapsed] @$argv\n";
undef $elapsed;
} else {
print "$lead @$argv\n";
}
} elsif ($$elem[0] eq 'FORK') {
if ($i == 1) {
if ($lead =~ /-$/) {
display_pid_trace($$elem[1], "$lead--+--");
} else {
display_pid_trace($$elem[1], "$lead +--");
}
} elsif ($i == @seq) {
display_pid_trace($$elem[1], "$lead `--");
} else {
display_pid_trace($$elem[1], "$lead +--");
}
}
if ($i == 1) {
$lead =~ s/\`--/ /g;
$lead =~ s/-/ /g;
$lead =~ s/\+/|/g;
}
}
}
sub display_trace {
my ($startpid) = @_;
$startpid = (keys %pr)[0];
while ($pr{$startpid}{parent}) {
$startpid = $pr{$startpid}{parent};
}
display_pid_trace($startpid, "");
}