package sigtrap; =head1 NAME sigtrap - Perl pragma to enable simple signal handling =cut use Carp; $VERSION = '1.10'; $Verbose ||= 0; sub import { my $pkg = shift; my $handler = \&handler_traceback; my $saw_sig = 0; my $untrapped = 0; local $_; Arg_loop: while (@_) { $_ = shift; if (/^[A-Z][A-Z0-9]*$/) { $saw_sig++; unless ($untrapped and $SIG{$_} and $SIG{$_} ne 'DEFAULT') { print "Installing handler $handler for $_\n" if $Verbose; $SIG{$_} = $handler; } } elsif ($_ eq 'normal-signals') { unshift @_, grep(exists $SIG{$_}, qw(HUP INT PIPE TERM)); } elsif ($_ eq 'error-signals') { unshift @_, grep(exists $SIG{$_}, qw(ABRT BUS EMT FPE ILL QUIT SEGV SYS TRAP)); } elsif ($_ eq 'old-interface-signals') { unshift @_, grep(exists $SIG{$_}, qw(ABRT BUS EMT FPE ILL PIPE QUIT SEGV SYS TERM TRAP)); } elsif ($_ eq 'stack-trace') { $handler = \&handler_traceback; } elsif ($_ eq 'die') { $handler = \&handler_die; } elsif ($_ eq 'handler') { @_ or croak "No argument specified after 'handler'"; $handler = shift; unless (ref $handler or $handler eq 'IGNORE' or $handler eq 'DEFAULT') { require Symbol; $handler = Symbol::qualify($handler, (caller)[0]); } } elsif ($_ eq 'untrapped') { $untrapped = 1; } elsif ($_ eq 'any') { $untrapped = 0; } elsif ($_ =~ /^\d/) { $VERSION >= $_ or croak "sigtrap.pm version $_ required," . " but this is only version $VERSION"; } else { croak "Unrecognized argument $_"; } } unless ($saw_sig) { @_ = qw(old-interface-signals); goto Arg_loop; } } sub handler_die { croak "Caught a SIG$_[0]"; } sub handler_traceback { package DB; # To get subroutine args. my $use_print; $SIG{'ABRT'} = DEFAULT; kill 'ABRT', $$ if $panic++; # This function might be called as an unsafe signal handler, so it # tries to delay any memory allocations as long as possible. # # Unfortunately with PerlIO layers, using syswrite() here has always # been broken. # # Calling PerlIO::get_layers() here is tempting, but that does # allocations, which we're trying to avoid for this early code. if (eval { syswrite(STDERR, 'Caught a SIG', 12); 1 }) { syswrite(STDERR, $_[0], length($_[0])); syswrite(STDERR, ' at ', 4); } else { print STDERR 'Caught a SIG', $_[0], ' at '; ++$use_print; } ($pack,$file,$line) = caller; unless ($use_print) { syswrite(STDERR, $file, length($file)); syswrite(STDERR, ' line ', 6); syswrite(STDERR, $line, length($line)); syswrite(STDERR, "\n", 1); } else { print STDERR $file, ' line ', $line, "\n"; } # we've got our basic output done, from now on we can be freer with allocations # find out whether we have any layers we need to worry about unless ($use_print) { my @layers = PerlIO::get_layers(*STDERR); for my $name (@layers) { unless ($name =~ /^(unix|perlio)$/) { ++$use_print; last; } } } # Now go for broke. for ($i = 1; ($p,$f,$l,$s,$h,$w,$e,$r) = caller($i); $i++) { @a = (); for (@{[@args]}) { s/([\'\\])/\\$1/g; s/([^\0]*)/'$1'/ unless /^(?: -?[\d.]+ | \*[\w:]* )$/x; require 'meta_notation.pm'; $_ = _meta_notation($_) if /[[:^print:]]/a; push(@a, $_); } $w = $w ? '@ = ' : '$ = '; $a = $h ? '(' . join(', ', @a) . ')' : ''; $e =~ s/\n\s*\;\s*\Z// if $e; $e =~ s/[\\\']/\\$1/g if $e; if ($r) { $s = "require '$e'"; } elsif (defined $r) { $s = "eval '$e'"; } elsif ($s eq '(eval)') { $s = "eval {...}"; } $f = "file '$f'" unless $f eq '-e'; $mess = "$w$s$a called from $f line $l\n"; if ($use_print) { print STDERR $mess; } else { syswrite(STDERR, $mess, length($mess)); } } kill 'ABRT', $$; } 1; __END__ =head1 SYNOPSIS use sigtrap; use sigtrap qw(stack-trace old-interface-signals); # equivalent use sigtrap qw(BUS SEGV PIPE ABRT); use sigtrap qw(die INT QUIT); use sigtrap qw(die normal-signals); use sigtrap qw(die untrapped normal-signals); use sigtrap qw(die untrapped normal-signals stack-trace any error-signals); use sigtrap 'handler' => \&my_handler, 'normal-signals'; use sigtrap qw(handler my_handler normal-signals stack-trace error-signals); =head1 DESCRIPTION The B pragma is a simple interface to installing signal handlers. You can have it install one of two handlers supplied by B itself (one which provides a Perl stack trace and one which simply Cs), or alternately you can supply your own handler for it to install. It can be told only to install a handler for signals which are either untrapped or ignored. It has three lists of signals to trap, plus you can supply your own list of signals. The arguments passed to the C statement which invokes B are processed in order. When a signal name or the name of one of B's signal lists is encountered a handler is immediately installed, when an option is encountered it affects subsequently installed handlers. =head1 OPTIONS =head2 SIGNAL HANDLERS These options affect which handler will be used for subsequently installed signals. =over 4 =item B The handler used for subsequently installed signals outputs a Perl stack trace to STDERR and then tries to dump core. This is the default signal handler. =item B The handler used for subsequently installed signals calls C (actually C) with a message indicating which signal was caught. =item B I I will be used as the handler for subsequently installed signals. I can be any value which is valid as an assignment to an element of C<%SIG>. See L for examples of handler functions. =back =head2 SIGNAL LISTS B has a few built-in lists of signals to trap. They are: =over 4 =item B These are the signals which a program might normally expect to encounter and which by default cause it to terminate. They are HUP, INT, PIPE and TERM. =item B These signals usually indicate a serious problem with the Perl interpreter or with your script. They are ABRT, BUS, EMT, FPE, ILL, QUIT, SEGV, SYS and TRAP. =item B These are the signals which were trapped by default by the old B interface, they are ABRT, BUS, EMT, FPE, ILL, PIPE, QUIT, SEGV, SYS, TERM, and TRAP. If no signals or signals lists are passed to B, this list is used. =back For each of these three lists, the collection of signals set to be trapped is checked before trapping; if your architecture does not implement a particular signal, it will not be trapped but rather silently ignored. =head2 OTHER =over 4 =item B This token tells B to install handlers only for subsequently listed signals which aren't already trapped or ignored. =item B This token tells B to install handlers for all subsequently listed signals. This is the default behavior. =item I Any argument which looks like a signal name (that is, C) indicates that B should install a handler for that name. =item I Require that at least version I of B is being used. =back =head1 EXAMPLES Provide a stack trace for the old-interface-signals: use sigtrap; Ditto: use sigtrap qw(stack-trace old-interface-signals); Provide a stack trace on the 4 listed signals only: use sigtrap qw(BUS SEGV PIPE ABRT); Die on INT or QUIT: use sigtrap qw(die INT QUIT); Die on HUP, INT, PIPE or TERM: use sigtrap qw(die normal-signals); Die on HUP, INT, PIPE or TERM, except don't change the behavior for signals which are already trapped or ignored: use sigtrap qw(die untrapped normal-signals); Die on receipt one of any of the B which is currently B, provide a stack trace on receipt of B of the B: use sigtrap qw(die untrapped normal-signals stack-trace any error-signals); Install my_handler() as the handler for the B: use sigtrap 'handler', \&my_handler, 'normal-signals'; Install my_handler() as the handler for the normal-signals, provide a Perl stack trace on receipt of one of the error-signals: use sigtrap qw(handler my_handler normal-signals stack-trace error-signals); =cut