/usr/share/perl5/POE/Resource/Signals.pm is in libpoe-perl 2:1.3650-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# that data in a sane fashion.
package POE::Resource::Signals;
use vars qw($VERSION);
$VERSION = '1.365'; # NOTE - Should be #.### (three decimal places)
# These methods are folded into POE::Kernel;
package POE::Kernel;
use strict;
use POE::Pipe::OneWay;
use POE::Resource::FileHandles;
use POSIX qw(:sys_wait_h sigprocmask SIG_SETMASK);
### Map watched signal names to the sessions that are watching them
### and the events that must be delivered when they occur.
sub SEV_EVENT () { 0 }
sub SEV_ARGS () { 1 }
sub SEV_SESSION () { 2 }
my %kr_signals;
# ( $signal_name =>
# { $session_id =>
# [ $event_name, SEV_EVENT
# $event_args, SEV_ARGS
# $session_ref, SEV_SESSION
# ],
# ...,
# },
# ...,
# );
my %kr_sessions_to_signals;
# ( $session_id =>
# { $signal_name =>
# [ $event_name, SEV_EVENT
# $event_args, SEV_ARGS
# $session_ref, SEV_SESSION
# ],
# ...,
# },
# ...,
# );
my %kr_pids_to_events;
# { $pid =>
# { $session_id =>
# [ $blessed_session, # PID_SESSION
# $event_name, # PID_EVENT
# $args, # PID_ARGS
# ]
# }
# }
my %kr_sessions_to_pids;
# { $session_id => { $pid => 1 } }
sub PID_SESSION () { 0 }
sub PID_EVENT () { 1 }
sub PID_ARGS () { 2 }
sub _data_sig_relocate_kernel_id {
my ($self, $old_id, $new_id) = @_;
while (my ($signal, $sig_rec) = each %kr_signals) {
next unless exists $sig_rec->{$old_id};
$sig_rec->{$new_id} = delete $sig_rec->{$old_id};
}
$kr_sessions_to_signals{$new_id} = delete $kr_sessions_to_signals{$old_id}
if exists $kr_sessions_to_signals{$old_id};
while (my ($pid, $pid_rec) = each %kr_pids_to_events) {
next unless exists $pid_rec->{$old_id};
$pid_rec->{$new_id} = delete $pid_rec->{$old_id};
}
$kr_sessions_to_pids{$new_id} = delete $kr_sessions_to_pids{$old_id}
if exists $kr_sessions_to_pids{$old_id};
}
# Bookkeeping per dispatched signal.
# TODO - Why not lexicals?
use vars (
'@kr_signaled_sessions', # The sessions touched by a signal.
'$kr_signal_total_handled', # How many sessions handled a signal.
'$kr_signal_type', # The type of signal being dispatched.
);
#my @kr_signaled_sessions; # The sessions touched by a signal.
#my $kr_signal_total_handled; # How many sessions handled a signal.
#my $kr_signal_type; # The type of signal being dispatched.
# A flag to tell whether we're currently polling for signals.
# Under USE_SIGCHLD, determines whether a SIGCHLD polling event has
# already been queued.
my $polling_for_signals = 0;
# There may be latent subprocesses in some environments.
# Or we may need to "always loop once" if we're polling for SIGCHLD.
# This constant lets us define those exceptional cases.
# We had some in the past, but as of 2013-10-06 we seem to have
# eliminated those special cases.
use constant BASE_SIGCHLD_COUNT => 0;
my $kr_has_child_procs = BASE_SIGCHLD_COUNT;
# A list of special signal types. Signals that aren't listed here are
# benign (they do not kill sessions at all). "Terminal" signals are
# the ones that UNIX defaults to killing processes with. Thus STOP is
# not terminal.
sub SIGTYPE_BENIGN () { 0x00 }
sub SIGTYPE_TERMINAL () { 0x01 }
sub SIGTYPE_NONMASKABLE () { 0x02 }
my %_signal_types = (
QUIT => SIGTYPE_TERMINAL,
INT => SIGTYPE_TERMINAL,
KILL => SIGTYPE_TERMINAL,
TERM => SIGTYPE_TERMINAL,
HUP => SIGTYPE_TERMINAL,
IDLE => SIGTYPE_TERMINAL,
DIE => SIGTYPE_TERMINAL,
ZOMBIE => SIGTYPE_NONMASKABLE,
UIDESTROY => SIGTYPE_NONMASKABLE,
);
# Build a list of useful, real signals. Nonexistent signals, and ones
# which are globally unhandled, usually cause segmentation faults if
# perl was poorly configured. Some signals aren't available in some
# environments.
my %_safe_signals;
sub _data_sig_initialize {
my $self = shift;
$self->_data_sig_reset_procs;
$poe_kernel->[KR_SIGNALS] = \%kr_signals;
$poe_kernel->[KR_PIDS] = \%kr_pids_to_events;
# In case we're called multiple times.
unless (keys %_safe_signals) {
foreach my $signal (keys %SIG) {
# Nonexistent signals, and ones which are globally unhandled.
next if (
$signal =~ /^
( NUM\d+
|__[A-Z0-9]+__
|ALL|CATCHALL|DEFER|HOLD|IGNORE|MAX|PAUSE
|RTMIN|RTMAX|SETS
|SEGV
|
)
$/x
);
# Windows doesn't have a SIGBUS, but the debugger causes SIGBUS
# to be entered into %SIG. It's fatal to register its handler.
next if $signal eq 'BUS' and RUNNING_IN_HELL;
# Apache uses SIGCHLD and/or SIGCLD itself, so we can't.
next if $signal =~ /^CH?LD$/ and exists $INC{'Apache.pm'};
$_safe_signals{$signal} = 1;
}
# Reset some important signal handlers. The rest remain
# untouched.
$self->loop_ignore_signal("CHLD") if exists $SIG{CHLD};
$self->loop_ignore_signal("CLD") if exists $SIG{CLD};
$self->loop_ignore_signal("PIPE") if exists $SIG{PIPE};
$self->_data_sig_pipe_build if USE_SIGNAL_PIPE;
}
}
sub _data_sig_has_forked {
my( $self ) = @_;
$self->_data_sig_reset_procs;
if( USE_SIGNAL_PIPE ) {
$self->_data_sig_mask_all;
$self->_data_sig_pipe_finalize;
$self->_data_sig_pipe_build;
$self->_data_sig_unmask_all;
}
}
sub _data_sig_reset_procs {
my $self = shift;
# Initialize this to a true value so our waitpid() loop can run at
# least once. Starts false when running in an Apache handler so our
# SIGCHLD hijinks don't interfere with the web server.
$self->_data_sig_cease_polling();
$kr_has_child_procs = BASE_SIGCHLD_COUNT;
}
### Return signals that are safe to manipulate.
sub _data_sig_get_safe_signals {
return keys %_safe_signals;
}
### End-run leak checking.
our $finalizing;
sub _data_sig_finalize {
my( $self ) = @_;
my $finalized_ok = 1;
# tell _data_sig_pipe_send to ignore CHLD that waitpid might provoke
local $finalizing = 1;
$self->_data_sig_pipe_finalize;
while (my ($sig, $sig_rec) = each(%kr_signals)) {
$finalized_ok = 0;
_warn "!!! Leaked signal $sig\n";
while (my ($sid, $ses_rec) = each(%{$kr_signals{$sig}})) {
my ($event, $args, $session) = @$ses_rec;
_warn "!!!\t$sid = $session -> $event (@$args)\n";
}
}
while (my ($sid, $ses_rec) = each(%kr_sessions_to_signals)) {
$finalized_ok = 0;
_warn "!!! Leaked signal cross-reference: $sid\n";
while (my ($sig, $sig_rec) = each(%{$kr_signals{$sid}})) {
my ($event, $args) = @$sig_rec;
_warn "!!!\t$sig = $event (@$args)\n";
}
}
while (my ($sid, $pid_rec) = each(%kr_sessions_to_pids)) {
$finalized_ok = 0;
my @pids = keys %$pid_rec;
_warn "!!! Leaked session to PID map: $sid -> (@pids)\n";
}
while (my ($pid, $ses_rec) = each(%kr_pids_to_events)) {
$finalized_ok = 0;
_warn "!!! Leaked PID to event map: $pid\n";
while (my ($sid, $ev_rec, $ses) = each %$ses_rec) {
_warn "!!!\t$ses -> $ev_rec->[PID_EVENT] (@{$ev_rec->[PID_ARGS]})\n";
}
}
if ($kr_has_child_procs) {
_warn "!!! Kernel has $kr_has_child_procs child process(es).\n";
}
if ($polling_for_signals) {
_warn "!!! Finalizing signals while polling is active.\n";
}
if (USE_SIGNAL_PIPE and $self->_data_sig_pipe_has_signals()) {
_warn "!!! Finalizing signals while signal pipe contains messages.\n";
}
if (exists $kr_signals{CHLD}) {
_warn "!!! Finalizing signals while a blanket _child signal is watched.\n";
}
%_safe_signals = ();
unless (RUNNING_IN_HELL) {
local $!;
local $?;
my $leaked_children = 0;
PROCESS: until ((my $pid = waitpid( -1, WNOHANG )) == -1) {
$finalized_ok = 0;
$leaked_children++;
if ($pid == 0) {
_warn(
"!!! At least one child process is still running " .
"when POE::Kernel->run() is ready to return.\n"
);
last PROCESS;
}
_warn(
"!!! Stopped child process (PID $pid) reaped " .
"when POE::Kernel->run() is ready to return.\n"
);
}
if ($leaked_children) {
_warn("!!! Be sure to use sig_child() to reap child processes.\n");
_warn("!!! In extreme cases, failure to reap child processes has\n");
_warn("!!! resulted in a slow 'fork bomb' that has halted systems.\n");
}
}
return $finalized_ok;
}
### Add a signal to a session.
sub _data_sig_add {
my ($self, $session, $signal, $event, $args) = @_;
my $sid = $session->ID;
$kr_sessions_to_signals{$sid}->{$signal} = [ $event, $args || [], $session ];
$self->_data_sig_signal_watch($sid, $signal);
$kr_signals{$signal}->{$sid} = [ $event, $args || [], $session ];
}
sub _data_sig_signal_watch {
my ($self, $sid, $signal) = @_;
# TODO - $sid not used?
# First session to watch the signal.
# Ask the event loop to watch the signal.
if (
!exists($kr_signals{$signal}) and
exists($_safe_signals{$signal}) and
($signal ne "CHLD" or !scalar(keys %kr_sessions_to_pids))
) {
$self->loop_watch_signal($signal);
}
}
sub _data_sig_signal_ignore {
my ($self, $sid, $signal) = @_;
# TODO - $sid not used?
if (
!exists($kr_signals{$signal}) and
exists($_safe_signals{$signal}) and
($signal ne "CHLD" or !scalar(keys %kr_sessions_to_pids))
) {
$self->loop_ignore_signal($signal);
}
}
### Remove a signal from a session.
sub _data_sig_remove {
my ($self, $sid, $signal) = @_;
delete $kr_sessions_to_signals{$sid}->{$signal};
delete $kr_sessions_to_signals{$sid}
unless keys(%{$kr_sessions_to_signals{$sid}});
delete $kr_signals{$signal}->{$sid};
# Last watcher for that signal. Stop watching it internally.
unless (keys %{$kr_signals{$signal}}) {
delete $kr_signals{$signal};
$self->_data_sig_signal_ignore($sid, $signal);
}
}
### Clear all the signals from a session.
# XXX - It's ok to clear signals from a session that doesn't exist.
# Usually it means that the signals are being cleared, but it might
# mean that the session really doesn't exist. Should we care?
sub _data_sig_clear_session {
my ($self, $sid) = @_;
if (exists $kr_sessions_to_signals{$sid}) { # avoid autoviv
foreach (keys %{$kr_sessions_to_signals{$sid}}) {
$self->_data_sig_remove($sid, $_);
}
}
if (exists $kr_sessions_to_pids{$sid}) { # avoid autoviv
foreach (keys %{$kr_sessions_to_pids{$sid}}) {
$self->_data_sig_pid_ignore($sid, $_);
}
}
}
### Watch and ignore PIDs.
sub _data_sig_pid_watch {
my ($self, $session, $pid, $event, $args) = @_;
my $sid = $session->ID;
$kr_pids_to_events{$pid}{$sid} = [
$session, # PID_SESSION
$event, # PID_EVENT
$args, # PID_ARGS
];
$self->_data_sig_signal_watch($sid, "CHLD");
$kr_sessions_to_pids{$sid}{$pid} = 1;
$self->_data_ses_refcount_inc($sid);
# Assume there's a child process. This will be corrected on the
# next polling interval.
$kr_has_child_procs++ unless USE_SIGCHLD;
}
sub _data_sig_pid_ignore {
my ($self, $sid, $pid) = @_;
# Remove PID to event mapping.
delete $kr_pids_to_events{$pid}{$sid};
delete $kr_pids_to_events{$pid} unless (
keys %{$kr_pids_to_events{$pid}}
);
# Remove session to PID mapping.
delete $kr_sessions_to_pids{$sid}{$pid};
unless (keys %{$kr_sessions_to_pids{$sid}}) {
delete $kr_sessions_to_pids{$sid};
$self->_data_sig_signal_ignore($sid, "CHLD");
}
$self->_data_ses_refcount_dec($sid);
}
sub _data_sig_session_awaits_pids {
my ($self, $sid) = @_;
# There must be child processes or pending signals.
# Watching PIDs doesn't matter if there are none to be reaped.
return 0 unless $kr_has_child_procs or $self->_data_sig_pipe_has_signals();
# This session is watching at least one PID with sig_child().
# TODO - Watching a non-existent PID is legal but ill-advised.
return 1 if exists $kr_sessions_to_pids{$sid};
# Is the session waiting for a blanket sig(CHLD)?
return(
(exists $kr_sessions_to_signals{$sid}) &&
(exists $kr_sessions_to_signals{$sid}{CHLD})
);
}
sub _data_sig_pids_is_ses_watching {
my ($self, $sid, $pid) = @_;
return(
exists($kr_sessions_to_pids{$sid}) &&
exists($kr_sessions_to_pids{$sid}{$pid})
);
}
### Return a signal's type, or SIGTYPE_BENIGN if it's not special.
sub _data_sig_type {
my ($self, $signal) = @_;
return $_signal_types{$signal} || SIGTYPE_BENIGN;
}
### Flag a signal as being handled by some session.
sub _data_sig_handled {
my $self = shift;
$kr_signal_total_handled++;
}
### Clear the structures associated with a signal's "handled" status.
sub _data_sig_reset_handled {
my ($self, $signal) = @_;
undef $kr_signal_total_handled;
$kr_signal_type = $self->_data_sig_type($signal);
undef @kr_signaled_sessions;
}
### Is the signal explicitly watched?
sub _data_sig_explicitly_watched {
my ($self, $signal) = @_;
return exists $kr_signals{$signal};
}
### Return the signals watched by a session and the events they
### generate. TODO Used mainly for testing, but may also be useful
### for introspection.
sub _data_sig_watched_by_session {
my ($self, $sid) = @_;
return unless exists $kr_sessions_to_signals{$sid};
return %{$kr_sessions_to_signals{$sid}};
}
### Which sessions are watching a signal?
sub _data_sig_watchers {
my ($self, $signal) = @_;
return %{$kr_signals{$signal}};
}
### Return the current signal's handled status.
### TODO Used for testing.
sub _data_sig_handled_status {
return(
$kr_signal_total_handled,
$kr_signal_type,
\@kr_signaled_sessions,
);
}
### Determine if a given session is watching a signal. This uses a
### two-step exists so that the longer one does not autovivify keys in
### the shorter one.
sub _data_sig_is_watched_by_session {
my ($self, $signal, $sid) = @_;
return(
exists($kr_signals{$signal}) &&
exists($kr_signals{$signal}->{$sid})
);
}
### Destroy sessions touched by a nonmaskable signal or by an
### unhandled terminal signal. Check for garbage-collection on
### sessions which aren't to be terminated.
sub _data_sig_free_terminated_sessions {
my $self = shift;
if (
($kr_signal_type & SIGTYPE_NONMASKABLE) or
($kr_signal_type & SIGTYPE_TERMINAL and !$kr_signal_total_handled)
) {
foreach my $dead_session (@kr_signaled_sessions) {
next unless $self->_data_ses_exists($dead_session->ID);
if (TRACE_SIGNALS) {
_warn(
"<sg> stopping signaled session ",
$self->_data_alias_loggable($dead_session->ID)
);
}
$self->_data_ses_stop($dead_session->ID);
}
}
# Erase @kr_signaled_sessions, or they will leak until the next
# signal.
@kr_signaled_sessions = ();
}
### A signal has touched a session. Record this fact for later
### destruction tests.
sub _data_sig_touched_session {
my ($self, $session) = @_;
push @kr_signaled_sessions, $session;
}
# only used under !USE_SIGCHLD
sub _data_sig_begin_polling {
my ($self, $signal) = @_;
return if $polling_for_signals;
$polling_for_signals = 1;
$self->_data_sig_enqueue_poll_event($signal);
$self->_idle_queue_grow();
}
# only used under !USE_SIGCHLD
sub _data_sig_cease_polling {
$polling_for_signals = 0;
}
sub _data_sig_enqueue_poll_event {
my ($self, $signal) = @_;
if ( USE_SIGCHLD ) {
return if $polling_for_signals;
$polling_for_signals = 1;
$self->_data_ev_enqueue(
$self, $self, EN_SCPOLL, ET_SCPOLL, [ $signal ],
__FILE__, __LINE__, undef
);
} else {
return if $self->_data_ses_count() < 1;
return unless $polling_for_signals;
$self->_data_ev_enqueue(
$self, $self, EN_SCPOLL, ET_SCPOLL, [ $signal ],
__FILE__, __LINE__, undef, walltime(), POE::Kernel::CHILD_POLLING_INTERVAL(),
);
}
}
sub _data_sig_handle_poll_event {
my ($self, $signal) = @_;
if ( USE_SIGCHLD ) {
$polling_for_signals = undef;
}
if (TRACE_SIGNALS) {
_warn(
"<sg> POE::Kernel is polling for signals at " . monotime() .
(USE_SIGCHLD ? " due to SIGCHLD" : "")
);
}
$self->_data_sig_reap_pids();
# The poll loop is over. Resume slowly polling for signals.
if (USE_SIGCHLD) {
if (TRACE_SIGNALS) {
_warn("<sg> POE::Kernel has reset the SIG$signal handler");
}
# Per https://rt.cpan.org/Ticket/Display.html?id=45109 setting the
# signal handler must be done after reaping the outstanding child
# processes, at least on SysV systems like HP-UX.
$SIG{$signal} = \&_loop_signal_handler_chld;
}
else {
# The poll loop is over. Resume slowly polling for signals.
if ($polling_for_signals) {
if (TRACE_SIGNALS) {
_warn("<sg> POE::Kernel will poll again after a delay");
}
$self->_data_sig_enqueue_poll_event($signal);
}
else {
if (TRACE_SIGNALS) {
_warn("<sg> POE::Kernel SIGCHLD poll loop paused");
}
$self->_idle_queue_shrink();
}
}
}
sub _data_sig_reap_pids {
my $self = shift();
# Reap children for as long as waitpid(2) says something
# interesting has happened.
# TODO This has a possibility of an infinite loop, but so far it
# hasn't hasn't happened.
my $pid;
while ($pid = waitpid(-1, WNOHANG)) {
# waitpid(2) returned a process ID. Emit an appropriate SIGCHLD
# event and loop around again.
if (($pid > 0) or (RUNNING_IN_HELL and $pid < -1)) {
if (RUNNING_IN_HELL or WIFEXITED($?) or WIFSIGNALED($?)) {
if (TRACE_SIGNALS) {
_warn("<sg> POE::Kernel detected SIGCHLD (pid=$pid; exit=$?)");
}
# Check for explicit SIGCHLD watchers, and enqueue explicit
# events for them.
if (exists $kr_pids_to_events{$pid}) {
my @sessions_to_clear;
while (my ($sid, $ses_rec) = each %{$kr_pids_to_events{$pid}}) {
$self->_data_ev_enqueue(
$ses_rec->[PID_SESSION], $self, $ses_rec->[PID_EVENT], ET_SIGCLD,
[ 'CHLD', $pid, $?, @{$ses_rec->[PID_ARGS]} ],
__FILE__, __LINE__, undef
);
push @sessions_to_clear, $sid;
}
$self->_data_sig_pid_ignore($_, $pid) foreach @sessions_to_clear;
}
# Kick off a SIGCHLD cascade.
$self->_data_ev_enqueue(
$self, $self, EN_SIGNAL, ET_SIGNAL, [ 'CHLD', $pid, $? ],
__FILE__, __LINE__, undef
);
}
elsif (TRACE_SIGNALS) {
_warn("<sg> POE::Kernel detected strange exit (pid=$pid; exit=$?");
}
if (TRACE_SIGNALS) {
_warn("<sg> POE::Kernel will poll again immediately");
}
next;
}
# The only other negative value waitpid(2) should return is -1.
# This is highly unlikely, but it's necessary to catch
# portability problems.
#
# TODO - Find a way to test this.
_trap "internal consistency error: waitpid returned $pid" if $pid != -1;
# If the error is an interrupted syscall, poll again right away.
if ($! == EINTR) {
if (TRACE_SIGNALS) {
_warn(
"<sg> POE::Kernel's waitpid(2) was interrupted.\n",
"POE::Kernel will poll again immediately.\n"
);
}
next;
}
# No child processes exist. TODO This is different than
# children being present but running. Maybe this condition
# could halt polling entirely, and some UNIVERSAL::fork wrapper
# could restart polling when processes are forked.
if ($! == ECHILD) {
if (TRACE_SIGNALS) {
_warn("<sg> POE::Kernel has no child processes");
}
last;
}
# Some other error occurred.
if (TRACE_SIGNALS) {
_warn("<sg> POE::Kernel's waitpid(2) got error: $!");
}
last;
}
# Remember whether there are more processes to reap.
$kr_has_child_procs = !$pid;
}
# Are there child processes worth waiting for?
# We don't really care if we're not polling for signals.
sub _data_sig_kernel_awaits_pids {
my $self = shift();
return 0 if !USE_SIGCHLD and !$polling_for_signals;
# There must be child processes or pending signals.
return 0 unless $kr_has_child_procs or $self->_data_sig_pipe_has_signals();
# At least one session is watching an explicit PID.
# TODO - Watching a non-existent PID is legal but ill-advised.
return 1 if scalar keys %kr_pids_to_events;
# Is the session waiting for a blanket sig(CHLD)?
return exists $kr_signals{CHLD};
}
######################
## Safe signals, the final solution:
## Semantically, signal handlers and the main loop are in different threads.
## To avoid all possible deadlock and race conditions once and for all we
## implement them as shared-nothing threads.
##
## The signal handlers are split in 2 :
## - a top handler, which sends the signal number over a one-way pipe.
## - a bottom handler, which is called when this number is received in the
## main loop.
## The top handler will send a packet of PID and number. We need the PID
## because of the race condition with signals in perl; signals meant for the
## parent end up in both the parent and child. So we check the PID to make
## sure it was intended for the child. We use 'ii' (2 ints, aka 8 bytes)
## and not 'iC' (int+byte, aka 5 bytes) because we want a small factor of
## the buffer size in the hopes of never getting a short read. Ever.
use vars qw( $signal_pipe_read_fd );
my(
$signal_pipe_write,
$signal_pipe_read,
$signal_pipe_pid,
$signal_mask_none,
$signal_mask_all,
@pending_signals,
);
sub SIGINFO_NAME () { 0 }
sub SIGINFO_SRC_PID () { 1 }
sub _data_sig_pipe_has_signals {
my $self = shift();
return unless $signal_pipe_read;
my $vec = '';
vec($vec, fileno($signal_pipe_read), 1) = 1;
# Ambiguous call resolved as CORE::select(), qualify as such or use &
return(CORE::select($vec, undef, undef, 0) > 0);
}
sub _data_sig_pipe_build {
my( $self ) = @_;
return unless USE_SIGNAL_PIPE;
my $fake = 128;
# Associate the pipe with this PID
$signal_pipe_pid = $$;
# Mess with the signal mask
$self->_data_sig_mask_all;
# Open the signal pipe.
# TODO - Normally POE::Pipe::OneWay will do the right thing. Why
# are we overriding its per-platform autodetection?
if (RUNNING_IN_HELL) {
( $signal_pipe_read, $signal_pipe_write ) = POE::Pipe::OneWay->new('inet');
}
else {
( $signal_pipe_read, $signal_pipe_write ) = POE::Pipe::OneWay->new('pipe');
}
unless ($signal_pipe_write) {
_trap "<sg> Error " . ($!+0) . " trying to create the signal pipe: $!";
}
# Allows Resource::FileHandles to by-pass the queue
$signal_pipe_read_fd = fileno $signal_pipe_read;
if( TRACE_SIGNALS ) {
_warn "<sg> signal_pipe_write=$signal_pipe_write";
_warn "<sg> signal_pipe_read=$signal_pipe_read";
_warn "<sg> signal_pipe_read_fd=$signal_pipe_read_fd";
}
# Add to the select list
$self->_data_handle_condition( $signal_pipe_read );
$self->loop_watch_filehandle( $signal_pipe_read, MODE_RD );
$self->_data_sig_unmask_all;
}
sub _data_sig_mask_build {
return if RUNNING_IN_HELL;
$signal_mask_none = POSIX::SigSet->new();
$signal_mask_none->emptyset();
$signal_mask_all = POSIX::SigSet->new();
$signal_mask_all->fillset();
}
### Mask all signals
sub _data_sig_mask_all {
return if RUNNING_IN_HELL;
my $self = $poe_kernel;
unless( $signal_mask_all ) {
$self->_data_sig_mask_build;
}
my $mask_temp = POSIX::SigSet->new();
sigprocmask( SIG_SETMASK, $signal_mask_all, $mask_temp )
or _trap "<sg> Unable to mask all signals: $!";
}
### Unmask all signals
sub _data_sig_unmask_all {
return if RUNNING_IN_HELL;
my $self = $poe_kernel;
unless( $signal_mask_none ) {
$self->_data_sig_mask_build;
}
my $mask_temp = POSIX::SigSet->new();
sigprocmask( SIG_SETMASK, $signal_mask_none, $mask_temp )
or _trap "<sg> Unable to unmask all signals: $!";
}
sub _data_sig_pipe_finalize {
my( $self ) = @_;
if( $signal_pipe_read ) {
$self->loop_ignore_filehandle( $signal_pipe_read, MODE_RD );
close $signal_pipe_read; undef $signal_pipe_read;
}
if( $signal_pipe_write ) {
close $signal_pipe_write; undef $signal_pipe_write;
}
# Don't send anything more!
undef( $signal_pipe_pid );
}
### Send a signal "message" to the main thread
### Called from the top signal handlers
sub _data_sig_pipe_send {
local $!;
my $signal_name = $_[1];
if( TRACE_SIGNALS ) {
_warn "<sg> Caught SIG$signal_name";
}
return if $finalizing;
if( not defined $signal_pipe_pid ) {
_trap "<sg> _data_sig_pipe_send called before signal pipe was initialized.";
}
# ugh- has_forked() can't be called fast enough. This warning might
# show up before it is called. Should we just detect forking and do it
# for the user? Probably not...
if( $$ != $signal_pipe_pid ) {
_warn(
"<sg> Kernel now running in a different process " .
"(is=$$ was=$signal_pipe_pid ). " .
"You must call call \$poe_kernel->has_forked() in the child process."
);
}
# We're registering signals in a list. Pipes have more finite
# capacity, so we'll just write a single-byte semaphore-like token.
# It's up to the reader to process the list. Duplicates are
# permitted, and their ordering may be significant. Precedent:
# http://search.cpan.org/perldoc?IPC%3A%3AMorseSignals
push @pending_signals, [
$signal_name, # SIGINFO_NAME
$$, # SIGINFO_SRC_PID
];
if (TRACE_SIGNALS) {
_warn "<sg> Attempting signal pipe write";
}
my $count = syswrite( $signal_pipe_write, '!' );
# TODO - We need to crash gracefully if the write fails, but not if
# it's due to the pipe being full. We might solve this by only
# writing on the edge of @pending_signals == 1 after the push().
# We assume @pending_signals > 1 means there's a byte in the pipe,
# so the reader will wake up to catch 'em all.
if ( ASSERT_DATA ) {
unless (defined $count and $count == 1) {
_trap "<sg> Signal pipe write failed: $!";
}
}
}
### Read all signal numbers.
### Call the related bottom handler. That is, inside the kernel loop.
sub _data_sig_pipe_read {
my( $self, $fileno, $mode ) = @_;
if( ASSERT_DATA ) {
_trap "Illegal mode=$mode on fileno=$fileno" unless
$fileno == $signal_pipe_read_fd
and $mode eq MODE_RD;
}
# Read all data from the signal pipe.
# The data itself doesn't matter.
# TODO - If writes can happen on the edge of @pending_signals (from
# 0 to 1 element), then we oughtn't need to loop here.
while (1) {
my $octets_count = sysread( $signal_pipe_read, (my $data), 65536 );
next if $octets_count;
last if defined $octets_count;
last if $! == EAGAIN or $! == EWOULDBLOCK;
if (ASSERT_DATA) {
_trap "<sg> Error " . ($!+0) . " reading from signal pipe: $!";
}
elsif(TRACE_SIGNALS) {
_warn "<sg> Error " . ($!+0) . " reading from signal pipe: $!";
}
last;
}
# Double buffer signals.
# The intent is to avoid a race condition by processing the same
# buffer that new signals go into.
return unless @pending_signals;
my @signals = @pending_signals;
@pending_signals = ();
if (TRACE_SIGNALS) {
_warn "<sg> Read " . scalar(@signals) . " signals from the list";
}
foreach my $signal (@signals) {
my $signal_name = $signal->[SIGINFO_NAME];
my $signal_src_pid = $signal->[SIGINFO_SRC_PID];
# Ignore signals from other processes.
# This can happen if we've fork()ed without calling has_forked()
# to reset the signals subsystem.
#
# TODO - We might be able to get rid of has_forked() if PID
# mismatches are detected.
next if $signal_src_pid != $$;
if( $signal_name eq 'CHLD' ) {
_loop_signal_handler_chld_bottom( $signal_name );
}
elsif( $signal_name eq 'PIPE' ) {
_loop_signal_handler_pipe_bottom( $signal_name );
}
else {
_loop_signal_handler_generic_bottom( $signal_name );
}
}
}
1;
__END__
=head1 NAME
POE::Resource::Signals - internal signal manager for POE::Kernel
=head1 SYNOPSIS
There is no public API.
=head1 DESCRIPTION
POE::Resource::Signals is a mix-in class for POE::Kernel. It provides
the features needed to manage signals. It is used internally by
POE::Kernel, so it has no public interface.
=head1 SEE ALSO
See L<POE::Kernel/Signals> for a deeper discussion about POE's signal
handling.
See L<POE::Kernel/Signal Watcher Methods> for POE's public signals
API.
See L<POE::Kernel/Resources> for public information about POE
resources.
See L<POE::Resource> for general discussion about resources and the
classes that manage them.
=head1 BUGS
None known.
=head1 AUTHORS & COPYRIGHTS
Please see L<POE> for more information about authors and contributors.
=cut
# rocco // vim: ts=2 sw=2 expandtab
# TODO - Edit.
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