package PublicInbox::DS;
use strict;
use bytes;
-use POSIX ();
-use Time::HiRes ();
+use POSIX qw(WNOHANG);
use IO::Handle qw();
-use Fcntl qw(FD_CLOEXEC F_SETFD F_GETFD);
-
+use Fcntl qw(SEEK_SET :DEFAULT);
+use Time::HiRes qw(clock_gettime CLOCK_MONOTONIC);
+use parent qw(Exporter);
+our @EXPORT_OK = qw(now msg_more);
use warnings;
+use 5.010_001;
+use Scalar::Util qw(blessed);
use PublicInbox::Syscall qw(:epoll);
+use PublicInbox::Tmpfile;
use fields ('sock', # underlying socket
- 'wbuf', # arrayref of scalars, scalarrefs, or coderefs to write
+ 'rbuf', # scalarref, usually undef
+ 'wbuf', # arrayref of coderefs or GLOB refs
'wbuf_off', # offset into first element of wbuf to start writing at
- 'closed', # bool: socket is closed
- 'event_watch', # bitmask of events the client is interested in (POLLIN,OUT,etc.)
);
-use Errno qw(EAGAIN EINVAL);
-use Carp qw(croak confess);
-
-use constant DebugLevel => 0;
-
-use constant POLLIN => 1;
-use constant POLLOUT => 4;
-use constant POLLERR => 8;
-use constant POLLHUP => 16;
-use constant POLLNVAL => 32;
-
-our $HAVE_KQUEUE = eval { require IO::KQueue; 1 };
+use Errno qw(EAGAIN EINVAL);
+use Carp qw(confess carp);
+my $nextq; # queue for next_tick
+my $WaitPids; # list of [ pid, callback, callback_arg ]
+my $later_queue; # callbacks
+my $EXPMAP; # fd -> [ idle_time, $self ]
+our $EXPTIME = 180; # 3 minutes
+my ($later_timer, $reap_timer, $exp_timer);
our (
- $HaveEpoll, # Flag -- is epoll available? initially undefined.
- $HaveKQueue,
%DescriptorMap, # fd (num) -> PublicInbox::DS object
- $Epoll, # Global epoll fd (for epoll mode only)
- $KQueue, # Global kqueue fd ref (for kqueue mode only)
+ $Epoll, # Global epoll fd (or DSKQXS ref)
$_io, # IO::Handle for Epoll
@ToClose, # sockets to close when event loop is done
$LoopTimeout, # timeout of event loop in milliseconds
$DoneInit, # if we've done the one-time module init yet
@Timers, # timers
+ $in_loop,
);
-# this may be set to zero with old kernels
-our $EPOLLEXCLUSIVE = EPOLLEXCLUSIVE;
Reset();
#####################################################################
=cut
sub Reset {
%DescriptorMap = ();
+ $nextq = [];
+ $WaitPids = [];
+ $later_queue = [];
+ $EXPMAP = {};
+ $reap_timer = $later_timer = $exp_timer = undef;
@ToClose = ();
$LoopTimeout = -1; # no timeout by default
@Timers = ();
$PostLoopCallback = undef;
$DoneInit = 0;
- # NOTE kqueue is close-on-fork, and we don't account for it, yet
- # OTOH, we (public-inbox) don't need this sub outside of tests...
- POSIX::close($$KQueue) if !$_io && $KQueue && $$KQueue >= 0;
- $KQueue = undef;
-
- $_io = undef; # close $Epoll
- $Epoll = undef;
+ $_io = undef; # closes real $Epoll FD
+ $Epoll = undef; # may call DSKQXS::DESTROY
*EventLoop = *FirstTimeEventLoop;
}
return $LoopTimeout = $_[1] + 0;
}
-=head2 C<< CLASS->DebugMsg( $format, @args ) >>
-
-Print the debugging message specified by the C<sprintf>-style I<format> and
-I<args>
-
-=cut
-sub DebugMsg {
- my ( $class, $fmt, @args ) = @_;
- chomp $fmt;
- printf STDERR ">>> $fmt\n", @args;
-}
-
=head2 C<< CLASS->AddTimer( $seconds, $coderef ) >>
Add a timer to occur $seconds from now. $seconds may be fractional, but timers
=cut
sub AddTimer {
- my $class = shift;
- my ($secs, $coderef) = @_;
+ my ($class, $secs, $coderef) = @_;
- my $fire_time = Time::HiRes::time() + $secs;
+ my $fire_time = now() + $secs;
my $timer = bless [$fire_time, $coderef], "PublicInbox::DS::Timer";
return if $DoneInit;
$DoneInit = 1;
- if ($HAVE_KQUEUE) {
- $KQueue = IO::KQueue->new();
- $HaveKQueue = defined $KQueue;
- if ($HaveKQueue) {
- *EventLoop = *KQueueEventLoop;
- }
- }
- elsif (PublicInbox::Syscall::epoll_defined()) {
- $Epoll = eval { epoll_create(1024); };
- $HaveEpoll = defined $Epoll && $Epoll >= 0;
- if ($HaveEpoll) {
- set_cloexec($Epoll);
- *EventLoop = *EpollEventLoop;
+ if (PublicInbox::Syscall::epoll_defined()) {
+ $Epoll = epoll_create();
+ set_cloexec($Epoll) if (defined($Epoll) && $Epoll >= 0);
+ } else {
+ my $cls;
+ for (qw(DSKQXS DSPoll)) {
+ $cls = "PublicInbox::$_";
+ last if eval "require $cls";
}
+ $cls->import(qw(epoll_ctl epoll_wait));
+ $Epoll = $cls->new;
}
-
- if (!$HaveEpoll && !$HaveKQueue) {
- require IO::Poll;
- *EventLoop = *PollEventLoop;
- }
+ *EventLoop = *EpollEventLoop;
}
=head2 C<< CLASS->EventLoop() >>
_InitPoller();
- if ($HaveEpoll) {
- EpollEventLoop($class);
- } elsif ($HaveKQueue) {
- KQueueEventLoop($class);
- } else {
- PollEventLoop($class);
+ EventLoop($class);
+}
+
+sub now () { clock_gettime(CLOCK_MONOTONIC) }
+
+sub next_tick () {
+ my $q = $nextq;
+ $nextq = [];
+ for (@$q) {
+ # we avoid "ref" on blessed refs to workaround a Perl 5.16.3 leak:
+ # https://rt.perl.org/Public/Bug/Display.html?id=114340
+ if (blessed($_)) {
+ $_->event_step;
+ } else {
+ $_->();
+ }
}
}
# runs timers and returns milliseconds for next one, or next event loop
sub RunTimers {
- return $LoopTimeout unless @Timers;
+ next_tick();
+
+ return ((@$nextq || @ToClose) ? 0 : $LoopTimeout) unless @Timers;
- my $now = Time::HiRes::time();
+ my $now = now();
# Run expired timers
while (@Timers && $Timers[0][0] <= $now) {
$to_run->[1]->($now) if $to_run->[1];
}
+ # timers may enqueue into nextq:
+ return 0 if (@$nextq || @ToClose);
+
return $LoopTimeout unless @Timers;
# convert time to an even number of milliseconds, adding 1
return $timeout;
}
-### The epoll-based event loop. Gets installed as EventLoop if IO::Epoll loads
-### okay.
-sub EpollEventLoop {
- my $class = shift;
+# We can't use waitpid(-1) safely here since it can hit ``, system(),
+# and other things. So we scan the $WaitPids list, which is hopefully
+# not too big.
+sub reap_pids {
+ my $tmp = $WaitPids;
+ $WaitPids = [];
+ $reap_timer = undef;
+ foreach my $ary (@$tmp) {
+ my ($pid, $cb, $arg) = @$ary;
+ my $ret = waitpid($pid, WNOHANG);
+ if ($ret == 0) {
+ push @$WaitPids, $ary;
+ } elsif ($cb) {
+ eval { $cb->($arg, $pid) };
+ }
+ }
+ if (@$WaitPids) {
+ # we may not be donea, and we may miss our
+ $reap_timer = AddTimer(undef, 1, \&reap_pids);
+ }
+}
+
+# reentrant SIGCHLD handler (since reap_pids is not reentrant)
+sub enqueue_reap ($) { push @$nextq, \&reap_pids };
- while (1) {
+sub EpollEventLoop {
+ local $in_loop = 1;
+ do {
my @events;
my $i;
my $timeout = RunTimers();
# get up to 1000 events
my $evcount = epoll_wait($Epoll, 1000, $timeout, \@events);
for ($i=0; $i<$evcount; $i++) {
- my $ev = $events[$i];
-
# 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.
- my PublicInbox::DS $pob = $DescriptorMap{$ev->[0]};
- my $code;
- my $state = $ev->[1];
-
- DebugLevel >= 1 && $class->DebugMsg("Event: fd=%d (%s), state=%d \@ %s\n",
- $ev->[0], ref($pob), $ev->[1], time);
-
- # standard non-profiling codepat
- $pob->event_read if $state & EPOLLIN && ! $pob->{closed};
- $pob->event_write if $state & EPOLLOUT && ! $pob->{closed};
- if ($state & (EPOLLERR|EPOLLHUP)) {
- $pob->event_err if $state & EPOLLERR && ! $pob->{closed};
- $pob->event_hup if $state & EPOLLHUP && ! $pob->{closed};
- }
- }
- return unless PostEventLoop();
- }
- exit 0;
-}
-
-### The fallback IO::Poll-based event loop. Gets installed as EventLoop if
-### IO::Epoll fails to load.
-sub PollEventLoop {
- my $class = shift;
-
- my PublicInbox::DS $pob;
-
- while (1) {
- my $timeout = RunTimers();
-
- # the following sets up @poll as a series of ($poll,$event_mask)
- # items, then uses IO::Poll::_poll, implemented in XS, which
- # modifies the array in place with the even elements being
- # replaced with the event masks that occured.
- my @poll;
- while ( my ($fd, $sock) = each %DescriptorMap ) {
- push @poll, $fd, $sock->{event_watch};
- }
-
- # if nothing to poll, either end immediately (if no timeout)
- # or just keep calling the callback
- unless (@poll) {
- select undef, undef, undef, ($timeout / 1000);
- return unless PostEventLoop();
- next;
- }
-
- my $count = IO::Poll::_poll($timeout, @poll);
- unless ($count >= 0) {
- return unless PostEventLoop();
- next;
- }
-
- # Fetch handles with read events
- while (@poll) {
- my ($fd, $state) = splice(@poll, 0, 2);
- next unless $state;
-
- $pob = $DescriptorMap{$fd};
-
- $pob->event_read if $state & POLLIN && ! $pob->{closed};
- $pob->event_write if $state & POLLOUT && ! $pob->{closed};
- $pob->event_err if $state & POLLERR && ! $pob->{closed};
- $pob->event_hup if $state & POLLHUP && ! $pob->{closed};
- }
-
- return unless PostEventLoop();
- }
-
- exit 0;
-}
-
-### The kqueue-based event loop. Gets installed as EventLoop if IO::KQueue works
-### okay.
-sub KQueueEventLoop {
- my $class = shift;
-
- while (1) {
- my $timeout = RunTimers();
- my @ret = eval { $KQueue->kevent($timeout) };
- if (my $err = $@) {
- # workaround https://rt.cpan.org/Ticket/Display.html?id=116615
- if ($err =~ /Interrupted system call/) {
- @ret = ();
- } else {
- die $err;
- }
- }
-
- foreach my $kev (@ret) {
- my ($fd, $filter, $flags, $fflags) = @$kev;
- my PublicInbox::DS $pob = $DescriptorMap{$fd};
-
- DebugLevel >= 1 && $class->DebugMsg("Event: fd=%d (%s), flags=%d \@ %s\n",
- $fd, ref($pob), $flags, time);
-
- $pob->event_read if $filter == IO::KQueue::EVFILT_READ() && !$pob->{closed};
- $pob->event_write if $filter == IO::KQueue::EVFILT_WRITE() && !$pob->{closed};
- if ($flags == IO::KQueue::EV_EOF() && !$pob->{closed}) {
- if ($fflags) {
- $pob->event_err;
- } else {
- $pob->event_hup;
- }
- }
+ $DescriptorMap{$events[$i]->[0]}->event_step;
}
- return unless PostEventLoop();
- }
-
- exit(0);
+ } while (PostEventLoop());
+ _run_later();
}
=head2 C<< CLASS->SetPostLoopCallback( CODEREF ) >>
# now we can close sockets that wanted to close during our event processing.
# (we didn't want to close them during the loop, as we didn't want fd numbers
# being reused and confused during the event loop)
- while (my $sock = shift @ToClose) {
- my $fd = fileno($sock);
-
- # close the socket. (not a PublicInbox::DS close)
- $sock->close;
-
- # and now we can finally remove the fd from the map. see
- # comment above in _cleanup.
- delete $DescriptorMap{$fd};
- }
-
+ delete($DescriptorMap{fileno($_)}) for @ToClose;
+ @ToClose = (); # let refcounting drop everything all at once
# by default we keep running, unless a postloop callback (either per-object
# or global) cancels it
=cut
sub new {
- my ($self, $sock, $exclusive) = @_;
+ my ($self, $sock, $ev) = @_;
$self = fields::new($self) unless ref $self;
$self->{sock} = $sock;
Carp::cluck("undef sock and/or fd in PublicInbox::DS->new. sock=" . ($sock || "") . ", fd=" . ($fd || ""))
unless $sock && $fd;
- $self->{wbuf} = [];
- $self->{wbuf_off} = 0;
- $self->{closed} = 0;
-
- my $ev = $self->{event_watch} = POLLERR|POLLHUP|POLLNVAL;
-
_InitPoller();
- if ($HaveEpoll) {
- if ($exclusive) {
- $ev = $self->{event_watch} = EPOLLIN|EPOLLERR|EPOLLHUP|$EPOLLEXCLUSIVE;
+ if (epoll_ctl($Epoll, EPOLL_CTL_ADD, $fd, $ev)) {
+ if ($! == EINVAL && ($ev & EPOLLEXCLUSIVE)) {
+ $ev &= ~EPOLLEXCLUSIVE;
+ goto retry;
}
-retry:
- if (epoll_ctl($Epoll, EPOLL_CTL_ADD, $fd, $ev)) {
- if ($! == EINVAL && ($ev & $EPOLLEXCLUSIVE)) {
- $EPOLLEXCLUSIVE = 0; # old kernel
- $ev = $self->{event_watch} = EPOLLIN|EPOLLERR|EPOLLHUP;
- goto retry;
- }
- die "couldn't add epoll watch for $fd: $!\n";
- }
- }
- elsif ($HaveKQueue) {
- # Add them to the queue but disabled for now
- $KQueue->EV_SET($fd, IO::KQueue::EVFILT_READ(),
- IO::KQueue::EV_ADD() | IO::KQueue::EV_DISABLE());
- $KQueue->EV_SET($fd, IO::KQueue::EVFILT_WRITE(),
- IO::KQueue::EV_ADD() | IO::KQueue::EV_DISABLE());
+ die "couldn't add epoll watch for $fd: $!\n";
}
-
Carp::cluck("PublicInbox::DS::new blowing away existing descriptor map for fd=$fd ($DescriptorMap{$fd})")
if $DescriptorMap{$fd};
### I N S T A N C E M E T H O D S
#####################################################################
-=head2 C<< $obj->steal_socket() >>
-
-Basically returns our socket and makes it so that we don't try to close it,
-but we do remove it from epoll handlers. THIS CLOSES $self. It is the same
-thing as calling close, except it gives you the socket to use.
-
-=cut
-sub steal_socket {
- my PublicInbox::DS $self = $_[0];
- return if $self->{closed};
-
- # cleanup does most of the work of closing this socket
- $self->_cleanup();
-
- # now undef our internal sock and fd structures so we don't use them
- my $sock = $self->{sock};
- $self->{sock} = undef;
- return $sock;
-}
+sub requeue ($) { push @$nextq, $_[0] }
=head2 C<< $obj->close >>
=cut
sub close {
- my PublicInbox::DS $self = $_[0];
- return if $self->{closed};
-
- # this does most of the work of closing us
- $self->_cleanup();
-
- # defer closing the actual socket until the event loop is done
- # processing this round of events. (otherwise we might reuse fds)
- if (my $sock = delete $self->{sock}) {
- push @ToClose, $sock;
- }
-
- return 0;
-}
-
-### METHOD: _cleanup()
-### Called by our closers so we can clean internal data structures.
-sub _cleanup {
- my PublicInbox::DS $self = $_[0];
-
- # we're effectively closed; we have no fd and sock when we leave here
- $self->{closed} = 1;
+ my ($self) = @_;
+ my $sock = delete $self->{sock} or return;
# we need to flush our write buffer, as there may
# be self-referential closures (sub { $client->close })
# preventing the object from being destroyed
- @{$self->{wbuf}} = ();
+ delete $self->{wbuf};
# if we're using epoll, we have to remove this from our epoll fd so we stop getting
# notifications about it
- if ($HaveEpoll && $self->{sock}) {
- my $fd = fileno($self->{sock});
- epoll_ctl($Epoll, EPOLL_CTL_DEL, $fd, $self->{event_watch}) and
- confess("EPOLL_CTL_DEL: $!");
- }
+ my $fd = fileno($sock);
+ epoll_ctl($Epoll, EPOLL_CTL_DEL, $fd, 0) and
+ confess("EPOLL_CTL_DEL: $!");
# we explicitly don't delete from DescriptorMap here until we
# actually close the socket, as we might be in the middle of
# processing an epoll_wait/etc that returned hundreds of fds, one
# of which is not yet processed and is what we're closing. if we
# keep it in DescriptorMap, then the event harnesses can just
- # looked at $pob->{closed} and ignore it. but if it's an
+ # looked at $pob->{sock} == undef and ignore it. but if it's an
# un-accounted for fd, then it (understandably) freak out a bit
# and emit warnings, thinking their state got off.
+
+ # defer closing the actual socket until the event loop is done
+ # processing this round of events. (otherwise we might reuse fds)
+ push @ToClose, $sock;
+
+ return 0;
}
-=head2 C<< $obj->sock() >>
+# portable, non-thread-safe sendfile emulation (no pread, yet)
+sub psendfile ($$$) {
+ my ($sock, $fh, $off) = @_;
+
+ seek($fh, $$off, SEEK_SET) or return;
+ defined(my $to_write = read($fh, my $buf, 16384)) or return;
+ my $written = 0;
+ while ($to_write > 0) {
+ if (defined(my $w = syswrite($sock, $buf, $to_write, $written))) {
+ $written += $w;
+ $to_write -= $w;
+ } else {
+ return if $written == 0;
+ last;
+ }
+ }
+ $$off += $written;
+ $written;
+}
-Returns the underlying IO::Handle for the object.
+sub epbit ($$) { # (sock, default)
+ ref($_[0]) eq 'IO::Socket::SSL' ? PublicInbox::TLS::epollbit() : $_[1];
+}
-=cut
-sub sock {
- my PublicInbox::DS $self = shift;
- return $self->{sock};
+# returns 1 if done, 0 if incomplete
+sub flush_write ($) {
+ my ($self) = @_;
+ my $wbuf = $self->{wbuf} or return 1;
+ my $sock = $self->{sock};
+
+next_buf:
+ while (my $bref = $wbuf->[0]) {
+ if (ref($bref) ne 'CODE') {
+ my $off = delete($self->{wbuf_off}) // 0;
+ while ($sock) {
+ my $w = psendfile($sock, $bref, \$off);
+ if (defined $w) {
+ if ($w == 0) {
+ shift @$wbuf;
+ goto next_buf;
+ }
+ } elsif ($! == EAGAIN) {
+ epwait($sock, epbit($sock, EPOLLOUT) | EPOLLONESHOT);
+ $self->{wbuf_off} = $off;
+ return 0;
+ } else {
+ return $self->close;
+ }
+ }
+ } else { #($ref eq 'CODE') {
+ shift @$wbuf;
+ my $before = scalar(@$wbuf);
+ $bref->($self);
+
+ # bref may be enqueueing more CODE to call (see accept_tls_step)
+ return 0 if (scalar(@$wbuf) > $before);
+ }
+ } # while @$wbuf
+
+ delete $self->{wbuf};
+ 1; # all done
+}
+
+sub rbuf_idle ($$) {
+ my ($self, $rbuf) = @_;
+ if ($$rbuf eq '') { # who knows how long till we can read again
+ delete $self->{rbuf};
+ } else {
+ $self->{rbuf} = $rbuf;
+ }
+}
+
+sub do_read ($$$;$) {
+ my ($self, $rbuf, $len, $off) = @_;
+ my $r = sysread(my $sock = $self->{sock}, $$rbuf, $len, $off // 0);
+ return ($r == 0 ? $self->close : $r) if defined $r;
+ # common for clients to break connections without warning,
+ # would be too noisy to log here:
+ if ($! == EAGAIN) {
+ epwait($sock, epbit($sock, EPOLLIN) | EPOLLONESHOT);
+ rbuf_idle($self, $rbuf);
+ 0;
+ } else {
+ $self->close;
+ }
+}
+
+# drop the socket if we hit unrecoverable errors on our system which
+# require BOFH attention: ENOSPC, EFBIG, EIO, EMFILE, ENFILE...
+sub drop {
+ my $self = shift;
+ carp(@_);
+ $self->close;
+}
+
+# n.b.: use ->write/->read for this buffer to allow compatibility with
+# PerlIO::mmap or PerlIO::scalar if needed
+sub tmpio ($$$) {
+ my ($self, $bref, $off) = @_;
+ my $fh = tmpfile('wbuf', $self->{sock}, 1) or
+ return drop($self, "tmpfile $!");
+ $fh->autoflush(1);
+ my $len = bytes::length($$bref) - $off;
+ $fh->write($$bref, $len, $off) or return drop($self, "write ($len): $!");
+ $fh
}
=head2 C<< $obj->write( $data ) >>
Write the specified data to the underlying handle. I<data> may be scalar,
-scalar ref, code ref (to run when there), or undef just to kick-start.
+scalar ref, code ref (to run when there).
Returns 1 if writes all went through, or 0 if there are writes in queue. If
it returns 1, caller should stop waiting for 'writable' events)
=cut
sub write {
- my PublicInbox::DS $self;
- my $data;
- ($self, $data) = @_;
+ my ($self, $data) = @_;
# nobody should be writing to closed sockets, but caller code can
# do two writes within an event, have the first fail and
# now-dead object does its second write. that is this case. we
# just lie and say it worked. it'll be dead soon and won't be
# hurt by this lie.
- return 1 if $self->{closed};
-
- my $bref;
-
- # just queue data if there's already a wait
- my $need_queue;
+ my $sock = $self->{sock} or return 1;
+ my $ref = ref $data;
+ my $bref = $ref ? $data : \$data;
my $wbuf = $self->{wbuf};
-
- if (defined $data) {
- $bref = ref $data ? $data : \$data;
- if (scalar @$wbuf) {
+ if ($wbuf && scalar(@$wbuf)) { # already buffering, can't write more...
+ if ($ref eq 'CODE') {
push @$wbuf, $bref;
- return 0;
- }
-
- # this flag says we're bypassing the queue system, knowing we're the
- # only outstanding write, and hoping we don't ever need to use it.
- # if so later, though, we'll need to queue
- $need_queue = 1;
- }
-
- WRITE:
- while (1) {
- return 1 unless $bref ||= $wbuf->[0];
-
- my $len;
- eval {
- $len = length($$bref); # this will die if $bref is a code ref, caught below
- };
- if ($@) {
- if (UNIVERSAL::isa($bref, "CODE")) {
- unless ($need_queue) {
- shift @$wbuf;
- }
- $bref->();
-
- # code refs are just run and never get reenqueued
- # (they're one-shot), so turn off the flag indicating the
- # outstanding data needs queueing.
- $need_queue = 0;
-
- undef $bref;
- next WRITE;
+ } else {
+ my $last = $wbuf->[-1];
+ if (ref($last) eq 'GLOB') { # append to tmp file buffer
+ $last->print($$bref) or return drop($self, "print: $!");
+ } else {
+ my $tmpio = tmpio($self, $bref, 0) or return 0;
+ push @$wbuf, $tmpio;
}
- die "Write error: $@ <$bref>";
}
-
- my $to_write = $len - $self->{wbuf_off};
- my $written = syswrite($self->{sock}, $$bref, $to_write,
- $self->{wbuf_off});
-
- if (! defined $written) {
- if ($! == EAGAIN) {
- # since connection has stuff to write, it should now be
- # interested in pending writes:
- if ($need_queue) {
- push @$wbuf, $bref;
- }
- $self->watch_write(1);
- return 0;
- }
-
+ return 0;
+ } elsif ($ref eq 'CODE') {
+ $bref->($self);
+ return 1;
+ } else {
+ my $to_write = bytes::length($$bref);
+ my $written = syswrite($sock, $$bref, $to_write);
+
+ if (defined $written) {
+ return 1 if $written == $to_write;
+ requeue($self); # runs: event_step -> flush_write
+ } elsif ($! == EAGAIN) {
+ epwait($sock, epbit($sock, EPOLLOUT) | EPOLLONESHOT);
+ $written = 0;
+ } else {
return $self->close;
- } elsif ($written != $to_write) {
- if ($need_queue) {
- push @$wbuf, $bref;
- }
- # since connection has stuff to write, it should now be
- # interested in pending writes:
- $self->{wbuf_off} += $written;
- $self->on_incomplete_write;
- return 0;
- } elsif ($written == $to_write) {
- $self->{wbuf_off} = 0;
- $self->watch_write(0);
+ }
- # this was our only write, so we can return immediately
- # since we avoided incrementing the buffer size or
- # putting it in the buffer. we also know there
- # can't be anything else to write.
- return 1 if $need_queue;
+ # deal with EAGAIN or partial write:
+ my $tmpio = tmpio($self, $bref, $written) or return 0;
- shift @$wbuf;
- undef $bref;
- next WRITE;
- }
+ # wbuf may be an empty array if we're being called inside
+ # ->flush_write via CODE bref:
+ push @{$self->{wbuf} ||= []}, $tmpio;
+ return 0;
}
}
-sub on_incomplete_write {
- my PublicInbox::DS $self = shift;
- $self->watch_write(1);
-}
-
-=head2 C<< $obj->read( $bytecount ) >>
-
-Read at most I<bytecount> bytes from the underlying handle; returns scalar
-ref on read, or undef on connection closed.
-
-=cut
-sub read {
- my PublicInbox::DS $self = shift;
- return if $self->{closed};
- my $bytes = shift;
- my $buf;
- my $sock = $self->{sock};
+use constant MSG_MORE => ($^O eq 'linux') ? 0x8000 : 0;
- # if this is too high, perl quits(!!). reports on mailing lists
- # don't seem to point to a universal answer. 5MB worked for some,
- # crashed for others. 1MB works for more people. let's go with 1MB
- # for now. :/
- my $req_bytes = $bytes > 1048576 ? 1048576 : $bytes;
-
- my $res = sysread($sock, $buf, $req_bytes, 0);
- DebugLevel >= 2 && $self->debugmsg("sysread = %d; \$! = %d", $res, $!);
+sub msg_more ($$) {
+ my $self = $_[0];
+ my $sock = $self->{sock} or return 1;
+ my $wbuf = $self->{wbuf};
- if (! $res && $! != EAGAIN) {
- # catches 0=conn closed or undef=error
- return undef;
+ if (MSG_MORE && (!defined($wbuf) || !scalar(@$wbuf)) &&
+ ref($sock) ne 'IO::Socket::SSL') {
+ my $n = send($sock, $_[1], MSG_MORE);
+ if (defined $n) {
+ my $nlen = bytes::length($_[1]) - $n;
+ return 1 if $nlen == 0; # all done!
+ # queue up the unwritten substring:
+ my $tmpio = tmpio($self, \($_[1]), $n) or return 0;
+ $self->{wbuf} //= $wbuf //= [];
+ push @$wbuf, $tmpio;
+ epwait($sock, EPOLLOUT|EPOLLONESHOT);
+ return 0;
+ }
}
- return \$buf;
+ # don't redispatch into NNTPdeflate::write
+ PublicInbox::DS::write($self, \($_[1]));
}
-=head2 (VIRTUAL) C<< $obj->event_read() >>
-
-Readable event handler. Concrete deriviatives of PublicInbox::DS should
-provide an implementation of this. The default implementation will die if
-called.
-
-=cut
-sub event_read { die "Base class event_read called for $_[0]\n"; }
-
-=head2 (VIRTUAL) C<< $obj->event_err() >>
-
-Error event handler. Concrete deriviatives of PublicInbox::DS should
-provide an implementation of this. The default implementation will die if
-called.
-
-=cut
-sub event_err { die "Base class event_err called for $_[0]\n"; }
-
-=head2 (VIRTUAL) C<< $obj->event_hup() >>
-
-'Hangup' event handler. Concrete deriviatives of PublicInbox::DS should
-provide an implementation of this. The default implementation will die if
-called.
-
-=cut
-sub event_hup { die "Base class event_hup called for $_[0]\n"; }
-
-=head2 C<< $obj->event_write() >>
-
-Writable event handler. Concrete deriviatives of PublicInbox::DS may wish to
-provide an implementation of this. The default implementation calls
-C<write()> with an C<undef>.
-
-=cut
-sub event_write {
- my $self = shift;
- $self->write(undef);
+sub epwait ($$) {
+ my ($sock, $ev) = @_;
+ epoll_ctl($Epoll, EPOLL_CTL_MOD, fileno($sock), $ev) and
+ confess("EPOLL_CTL_MOD $!");
}
-=head2 C<< $obj->watch_read( $boolean ) >>
+# return true if complete, false if incomplete (or failure)
+sub accept_tls_step ($) {
+ my ($self) = @_;
+ my $sock = $self->{sock} or return;
+ return 1 if $sock->accept_SSL;
+ return $self->close if $! != EAGAIN;
+ epwait($sock, PublicInbox::TLS::epollbit() | EPOLLONESHOT);
+ unshift @{$self->{wbuf} ||= []}, \&accept_tls_step;
+ 0;
+}
-Turn 'readable' event notification on or off.
+# return true if complete, false if incomplete (or failure)
+sub shutdn_tls_step ($) {
+ my ($self) = @_;
+ my $sock = $self->{sock} or return;
+ return $self->close if $sock->stop_SSL(SSL_fast_shutdown => 1);
+ return $self->close if $! != EAGAIN;
+ epwait($sock, PublicInbox::TLS::epollbit() | EPOLLONESHOT);
+ unshift @{$self->{wbuf} ||= []}, \&shutdn_tls_step;
+ 0;
+}
-=cut
-sub watch_read {
- my PublicInbox::DS $self = shift;
- return if $self->{closed} || !$self->{sock};
-
- my $val = shift;
- my $event = $self->{event_watch};
-
- $event &= ~POLLIN if ! $val;
- $event |= POLLIN if $val;
-
- my $fd = fileno($self->{sock});
- # If it changed, set it
- if ($event != $self->{event_watch}) {
- if ($HaveKQueue) {
- $KQueue->EV_SET($fd, IO::KQueue::EVFILT_READ(),
- $val ? IO::KQueue::EV_ENABLE() : IO::KQueue::EV_DISABLE());
- }
- elsif ($HaveEpoll) {
- epoll_ctl($Epoll, EPOLL_CTL_MOD, $fd, $event) and
- confess("EPOLL_CTL_MOD: $!");
- }
- $self->{event_watch} = $event;
+# don't bother with shutdown($sock, 2), we don't fork+exec w/o CLOEXEC
+# or fork w/o exec, so no inadvertant socket sharing
+sub shutdn ($) {
+ my ($self) = @_;
+ my $sock = $self->{sock} or return;
+ if (ref($sock) eq 'IO::Socket::SSL') {
+ shutdn_tls_step($self);
+ } else {
+ $self->close;
}
}
-=head2 C<< $obj->watch_write( $boolean ) >>
+# must be called with eval, PublicInbox::DS may not be loaded (see t/qspawn.t)
+sub dwaitpid ($$$) {
+ my ($pid, $cb, $arg) = @_;
+ if ($in_loop) {
+ push @$WaitPids, [ $pid, $cb, $arg ];
-Turn 'writable' event notification on or off.
-
-=cut
-sub watch_write {
- my PublicInbox::DS $self = shift;
- return if $self->{closed} || !$self->{sock};
-
- my $val = shift;
- my $event = $self->{event_watch};
-
- $event &= ~POLLOUT if ! $val;
- $event |= POLLOUT if $val;
- my $fd = fileno($self->{sock});
-
- # If it changed, set it
- if ($event != $self->{event_watch}) {
- if ($HaveKQueue) {
- $KQueue->EV_SET($fd, IO::KQueue::EVFILT_WRITE(),
- $val ? IO::KQueue::EV_ENABLE() : IO::KQueue::EV_DISABLE());
- }
- elsif ($HaveEpoll) {
- epoll_ctl($Epoll, EPOLL_CTL_MOD, $fd, $event) and
- confess "EPOLL_CTL_MOD: $!";
- }
- $self->{event_watch} = $event;
+ # We could've just missed our SIGCHLD, cover it, here:
+ requeue(\&reap_pids);
+ } else {
+ die "Not in EventLoop\n";
}
}
-=head2 C<< $obj->dump_error( $message ) >>
+sub _run_later () {
+ my $run = $later_queue;
+ $later_timer = undef;
+ $later_queue = [];
+ $_->() for @$run;
+}
-Prints to STDERR a backtrace with information about this socket and what lead
-up to the dump_error call.
+sub later ($) {
+ my ($cb) = @_;
+ push @$later_queue, $cb;
+ $later_timer //= AddTimer(undef, 60, \&_run_later);
+}
-=cut
-sub dump_error {
- my $i = 0;
- my @list;
- while (my ($file, $line, $sub) = (caller($i++))[1..3]) {
- push @list, "\t$file:$line called $sub\n";
+sub expire_old () {
+ my $now = now();
+ my $exp = $EXPTIME;
+ my $old = $now - $exp;
+ my %new;
+ while (my ($fd, $v) = each %$EXPMAP) {
+ my ($idle_time, $ds_obj) = @$v;
+ if ($idle_time < $old) {
+ if (!$ds_obj->shutdn) {
+ $new{$fd} = $v;
+ }
+ } else {
+ $new{$fd} = $v;
+ }
}
-
- warn "ERROR: $_[1]\n" .
- "\t$_[0] = " . $_[0]->as_string . "\n" .
- join('', @list);
+ $EXPMAP = \%new;
+ $exp_timer = scalar(keys %new) ? later(\&expire_old) : undef;
}
-=head2 C<< $obj->debugmsg( $format, @args ) >>
-
-Print the debugging message specified by the C<sprintf>-style I<format> and
-I<args>.
-
-=cut
-sub debugmsg {
- my ( $self, $fmt, @args ) = @_;
- confess "Not an object" unless ref $self;
-
- chomp $fmt;
- printf STDERR ">>> $fmt\n", @args;
+sub update_idle_time {
+ my ($self) = @_;
+ my $sock = $self->{sock} or return;
+ $EXPMAP->{fileno($sock)} = [ now(), $self ];
+ $exp_timer //= later(\&expire_old);
}
-=head2 C<< $obj->as_string() >>
-
-Returns a string describing this socket.
-
-=cut
-sub as_string {
- my PublicInbox::DS $self = shift;
- my $rw = "(" . ($self->{event_watch} & POLLIN ? 'R' : '') .
- ($self->{event_watch} & POLLOUT ? 'W' : '') . ")";
- my $ret = ref($self) . "$rw: " . ($self->{closed} ? "closed" : "open");
- return $ret;
+sub not_idle_long {
+ my ($self, $now) = @_;
+ my $sock = $self->{sock} or return;
+ my $ary = $EXPMAP->{fileno($sock)} or return;
+ my $exp_at = $ary->[0] + $EXPTIME;
+ $exp_at > $now;
}
package PublicInbox::DS::Timer;