our (
%DescriptorMap, # fd (num) -> PublicInbox::DS object
$Epoll, # Global epoll fd (or DSKQXS ref)
- $_io, # IO::Handle for Epoll
+ $ep_io, # IO::Handle for Epoll
$PostLoopCallback, # subref to call at the end of each loop, if defined (global)
for my $q (@q) { @$q = () }
$EXPMAP = undef;
$wait_pids = $nextq = $ToClose = undef;
- $_io = undef; # closes real $Epoll FD
+ $ep_io = undef; # closes real $Epoll FD
$Epoll = undef; # may call DSKQXS::DESTROY
} while (@Timers || keys(%Stack) || $nextq || $wait_pids ||
$ToClose || keys(%DescriptorMap) ||
$UniqTimer{$_[0]} //= _add_named_timer(@_);
}
-# keeping this around in case we support other FD types for now,
-# epoll_create1(EPOLL_CLOEXEC) requires Linux 2.6.27+...
-sub set_cloexec ($) {
- my ($fd) = @_;
-
- open($_io, '+<&=', $fd) or return;
- defined(my $fl = fcntl($_io, F_GETFD, 0)) or return;
- fcntl($_io, F_SETFD, $fl | FD_CLOEXEC);
-}
-
# caller sets return value to $Epoll
-sub _InitPoller
-{
- if (PublicInbox::Syscall::epoll_defined()) {
- my $fd = epoll_create();
- set_cloexec($fd) if (defined($fd) && $fd >= 0);
- $fd;
- } else {
- my $cls;
- for (qw(DSKQXS DSPoll)) {
- $cls = "PublicInbox::$_";
- last if eval "require $cls";
- }
- $cls->import(qw(epoll_ctl epoll_wait));
- $cls->new;
- }
+sub _InitPoller () {
+ if (PublicInbox::Syscall::epoll_defined()) {
+ my $fd = epoll_create();
+ die "epoll_create: $!" if $fd < 0;
+ open($ep_io, '+<&=', $fd) or return;
+ my $fl = fcntl($ep_io, F_GETFD, 0);
+ fcntl($ep_io, F_SETFD, $fl | FD_CLOEXEC);
+ $fd;
+ } else {
+ my $cls;
+ for (qw(DSKQXS DSPoll)) {
+ $cls = "PublicInbox::$_";
+ last if eval "require $cls";
+ }
+ $cls->import(qw(epoll_ctl epoll_wait));
+ $cls->new;
+ }
}
-=head2 C<< CLASS->EventLoop() >>
-
-Start processing IO events. In most daemon programs this never exits. See
-C<PostLoopCallback> below for how to exit the loop.
-
-=cut
-
sub now () { clock_gettime(CLOCK_MONOTONIC) }
sub next_tick () {
$PostLoopCallback ? $PostLoopCallback->(\%DescriptorMap) : 1;
}
-sub EventLoop {
- $Epoll //= _InitPoller();
- local $in_loop = 1;
- my @events;
- do {
- my $timeout = RunTimers();
-
- # get up to 1000 events
- epoll_wait($Epoll, 1000, $timeout, \@events);
- for my $fd (@events) {
- # it's possible epoll_wait returned many events, including some at the end
- # that ones in the front triggered unregister-interest actions. if we
- # can't find the %sock entry, it's because we're no longer interested
- # in that event.
-
- # guard stack-not-refcounted w/ Carp + @DB::args
- my $obj = $DescriptorMap{$fd};
- $obj->event_step;
- }
- } while (PostEventLoop());
+# Start processing IO events. In most daemon programs this never exits. See
+# C<PostLoopCallback> for how to exit the loop.
+sub event_loop (;$$) {
+ my ($sig, $oldset) = @_;
+ $Epoll //= _InitPoller();
+ require PublicInbox::Sigfd if $sig;
+ my $sigfd = PublicInbox::Sigfd->new($sig, 1) if $sig;
+ local @SIG{keys %$sig} = values(%$sig) if $sig && !$sigfd;
+ local $SIG{PIPE} = 'IGNORE';
+ if (!$sigfd && $sig) {
+ # wake up every second to accept signals if we don't
+ # have signalfd or IO::KQueue:
+ sig_setmask($oldset);
+ PublicInbox::DS->SetLoopTimeout(1000);
+ }
+ $_[0] = $sigfd = $sig = undef; # $_[0] == sig
+ local $in_loop = 1;
+ my @events;
+ do {
+ my $timeout = RunTimers();
+
+ # get up to 1000 events
+ epoll_wait($Epoll, 1000, $timeout, \@events);
+ for my $fd (@events) {
+ # it's possible epoll_wait returned many events,
+ # including some at the end that ones in the front
+ # triggered unregister-interest actions. if we can't
+ # find the %sock entry, it's because we're no longer
+ # interested in that event.
+
+ # guard stack-not-refcounted w/ Carp + @DB::args
+ my $obj = $DescriptorMap{$fd};
+ $obj->event_step;
+ }
+ } while (PostEventLoop());
}
=head2 C<< CLASS->SetPostLoopCallback( CODEREF ) >>
=head2 C<< CLASS->new( $socket ) >>
Create a new PublicInbox::DS subclass object for the given I<socket> which will
-react to events on it during the C<EventLoop>.
+react to events on it during the C<event_loop>.
This is normally (always?) called from your subclass via:
$self->close;
}
-# n.b.: use ->write/->read for this buffer to allow compatibility with
-# PerlIO::mmap or PerlIO::scalar if needed
sub tmpio ($$$) {
my ($self, $bref, $off) = @_;
my $fh = tmpfile('wbuf', $self->{sock}, O_APPEND) or
return drop($self, "tmpfile $!");
$fh->autoflush(1);
my $len = length($$bref) - $off;
- print $fh substr($$bref, $off, $len) or
+ my $n = syswrite($fh, $$bref, $len, $off) //
return drop($self, "write ($len): $!");
+ $n == $len or return drop($self, "wrote $n < $len bytes");
[ $fh, 0 ] # [1] = offset, [2] = length, not set by us
}