# Copyright (C) 2016-2020 all contributors
# License: AGPL-3.0+
# Like most Perl modules in public-inbox, this is internal and
# NOT subject to any stability guarantees! It is only documented
# for other hackers.
#
# This is used to limit the number of processes spawned by the
# PSGI server, so it acts like a semaphore and queues up extra
# commands to be run if currently at the limit. Multiple "limiters"
# may be configured which give inboxes different channels to
# operate in. This can be useful to ensure smaller inboxes can
# be cloned while cloning of large inboxes is maxed out.
#
# This does not depend on the PublicInbox::DS->EventLoop or any
# other external scheduling mechanism, you just need to call
# start() and finish() appropriately. However, public-inbox-httpd
# (which uses PublicInbox::DS) will be able to schedule this
# based on readability of stdout from the spawned process.
# See GitHTTPBackend.pm and SolverGit.pm for usage examples.
# It does not depend on any form of threading.
#
# This is useful for scheduling CGI execution of both long-lived
# git-http-backend(1) process (for "git clone") as well as short-lived
# processes such as git-apply(1).
package PublicInbox::Qspawn;
use strict;
use PublicInbox::Spawn qw(popen_rd);
use PublicInbox::GzipFilter;
use PublicInbox::DS qw(dwaitpid); # doesn't need event loop
# n.b.: we get EAGAIN with public-inbox-httpd, and EINTR on other PSGI servers
use Errno qw(EAGAIN EINTR);
my $def_limiter;
# declares a command to spawn (but does not spawn it).
# $cmd is the command to spawn
# $cmd_env is the environ for the child process (not PSGI env)
# $opt can include redirects and perhaps other process spawning options
sub new ($$$;) {
my ($class, $cmd, $cmd_env, $opt) = @_;
bless { args => [ $cmd, $cmd_env, $opt ] }, $class;
}
sub _do_spawn {
my ($self, $start_cb, $limiter) = @_;
my $err;
my ($cmd, $cmd_env, $opt) = @{delete $self->{args}};
my %o = %{$opt || {}};
$self->{limiter} = $limiter;
foreach my $k (@PublicInbox::Spawn::RLIMITS) {
if (defined(my $rlimit = $limiter->{$k})) {
$o{$k} = $rlimit;
}
}
$self->{cmd} = $o{quiet} ? undef : $cmd;
eval {
# popen_rd may die on EMFILE, ENFILE
($self->{rpipe}, $self->{pid}) = popen_rd($cmd, $cmd_env, \%o);
die "E: $!" unless defined($self->{pid});
$limiter->{running}++;
$start_cb->($self); # EPOLL_CTL_ADD may ENOSPC/ENOMEM
};
finish($self, $@) if $@;
}
sub child_err ($) {
my ($child_error) = @_; # typically $?
my $exitstatus = ($child_error >> 8) or return;
my $sig = $child_error & 127;
my $msg = "exit status=$exitstatus";
$msg .= " signal=$sig" if $sig;
$msg;
}
sub log_err ($$) {
my ($env, $msg) = @_;
$env->{'psgi.errors'}->print($msg, "\n");
}
sub finalize ($$) {
my ($self, $err) = @_;
my ($env, $qx_cb, $qx_arg, $qx_buf) =
delete @$self{qw(psgi_env qx_cb qx_arg qx_buf)};
# done, spawn whatever's in the queue
my $limiter = $self->{limiter};
my $running = --$limiter->{running};
if ($running < $limiter->{max}) {
if (my $next = shift(@{$limiter->{run_queue}})) {
_do_spawn(@$next, $limiter);
}
}
if ($err) {
if (defined $self->{err}) {
$self->{err} .= "; $err";
} else {
$self->{err} = $err;
}
if ($env && $self->{cmd}) {
log_err($env, join(' ', @{$self->{cmd}}) . ": $err");
}
}
if ($qx_cb) {
eval { $qx_cb->($qx_buf, $qx_arg) };
} elsif (my $wcb = delete $env->{'qspawn.wcb'}) {
# have we started writing, yet?
require PublicInbox::WwwStatic;
$wcb->(PublicInbox::WwwStatic::r(500));
}
}
# callback for dwaitpid
sub waitpid_err { finalize($_[0], child_err($?)) }
sub finish ($;$) {
my ($self, $err) = @_;
if (delete $self->{rpipe}) {
dwaitpid $self->{pid}, \&waitpid_err, $self;
} else {
finalize($self, $err);
}
}
sub start ($$$) {
my ($self, $limiter, $start_cb) = @_;
if ($limiter->{running} < $limiter->{max}) {
_do_spawn($self, $start_cb, $limiter);
} else {
push @{$limiter->{run_queue}}, [ $self, $start_cb ];
}
}
sub psgi_qx_init_cb {
my ($self) = @_;
my $async = delete $self->{async};
my ($r, $buf);
my $qx_fh = $self->{qx_fh};
reread:
$r = sysread($self->{rpipe}, $buf, 65536);
if ($async) {
$async->async_pass($self->{psgi_env}->{'psgix.io'},
$qx_fh, \$buf);
} elsif (defined $r) {
$r ? (print $qx_fh $buf) : event_step($self, undef);
} else {
return if $! == EAGAIN; # try again when notified
goto reread if $! == EINTR;
event_step($self, $!);
}
}
sub psgi_qx_start {
my ($self) = @_;
if (my $async = $self->{psgi_env}->{'pi-httpd.async'}) {
# PublicInbox::HTTPD::Async->new(rpipe, $cb, cb_arg, $end_obj)
$self->{async} = $async->($self->{rpipe},
\&psgi_qx_init_cb, $self, $self);
# init_cb will call ->async_pass or ->close
} else { # generic PSGI
psgi_qx_init_cb($self) while $self->{qx_fh};
}
}
# Similar to `backtick` or "qx" ("perldoc -f qx"), it calls $qx_cb with
# the stdout of the given command when done; but respects the given limiter
# $env is the PSGI env. As with ``/qx; only use this when output is small
# and safe to slurp.
sub psgi_qx {
my ($self, $env, $limiter, $qx_cb, $qx_arg) = @_;
$self->{psgi_env} = $env;
my $qx_buf = '';
open(my $qx_fh, '+>', \$qx_buf) or die; # PerlIO::scalar
$self->{qx_cb} = $qx_cb;
$self->{qx_arg} = $qx_arg;
$self->{qx_fh} = $qx_fh;
$self->{qx_buf} = \$qx_buf;
$limiter ||= $def_limiter ||= PublicInbox::Qspawn::Limiter->new(32);
start($self, $limiter, \&psgi_qx_start);
}
# this is called on pipe EOF to reap the process, may be called
# via PublicInbox::DS event loop OR via GetlineBody for generic
# PSGI servers.
sub event_step {
my ($self, $err) = @_; # $err: $!
log_err($self->{psgi_env}, "psgi_{return,qx} $err") if defined($err);
finish($self);
my ($fh, $qx_fh) = delete(@$self{qw(fh qx_fh)});
$fh->close if $fh; # async-only (psgi_return)
}
sub rd_hdr ($) {
my ($self) = @_;
# typically used for reading CGI headers
# we must loop until EAGAIN for EPOLLET in HTTPD/Async.pm
# We also need to check EINTR for generic PSGI servers.
my $ret;
my $total_rd = 0;
my $hdr_buf = $self->{hdr_buf};
my ($ph_cb, $ph_arg) = @{$self->{parse_hdr}};
do {
my $r = sysread($self->{rpipe}, $$hdr_buf, 4096,
length($$hdr_buf));
if (defined($r)) {
$total_rd += $r;
eval { $ret = $ph_cb->($total_rd, $hdr_buf, $ph_arg) };
if ($@) {
log_err($self->{psgi_env}, "parse_hdr: $@");
$ret = [ 500, [], [ "Internal error\n" ] ];
}
} else {
# caller should notify us when it's ready:
return if $! == EAGAIN;
next if $! == EINTR; # immediate retry
log_err($self->{psgi_env}, "error reading header: $!");
$ret = [ 500, [], [ "Internal error\n" ] ];
}
} until (defined $ret);
delete $self->{parse_hdr}; # done parsing headers
$ret;
}
sub psgi_return_init_cb {
my ($self) = @_;
my $r = rd_hdr($self) or return;
my $env = $self->{psgi_env};
my $filter = delete $env->{'qspawn.filter'} //
PublicInbox::GzipFilter::qsp_maybe($r->[1], $env);
my $wcb = delete $env->{'qspawn.wcb'};
my $async = delete $self->{async};
if (scalar(@$r) == 3) { # error
if ($async) {
# calls rpipe->close && ->event_step
$async->close;
} else {
$self->{rpipe}->close;
event_step($self);
}
$wcb->($r);
} elsif ($async) {
# done reading headers, handoff to read body
my $fh = $wcb->($r); # scalar @$r == 2
$fh = $filter->attach($fh) if $filter;
$self->{fh} = $fh;
$async->async_pass($env->{'psgix.io'}, $fh,
delete($self->{hdr_buf}));
} else { # for synchronous PSGI servers
require PublicInbox::GetlineBody;
$r->[2] = PublicInbox::GetlineBody->new($self->{rpipe},
\&event_step, $self,
${$self->{hdr_buf}}, $filter);
$wcb->($r);
}
}
sub psgi_return_start { # may run later, much later...
my ($self) = @_;
if (my $async = $self->{psgi_env}->{'pi-httpd.async'}) {
# PublicInbox::HTTPD::Async->new(rpipe, $cb, $cb_arg, $end_obj)
$self->{async} = $async->($self->{rpipe},
\&psgi_return_init_cb, $self, $self);
} else { # generic PSGI
psgi_return_init_cb($self) while $self->{parse_hdr};
}
}
# Used for streaming the stdout of one process as a PSGI response.
#
# $env is the PSGI env.
# optional keys in $env:
# $env->{'qspawn.wcb'} - the write callback from the PSGI server
# optional, use this if you've already
# captured it elsewhere. If not given,
# psgi_return will return an anonymous
# sub for the PSGI server to call
#
# $env->{'qspawn.filter'} - filter object, responds to ->attach for
# pi-httpd.async and ->translate for generic
# PSGI servers
#
# $limiter - the Limiter object to use (uses the def_limiter if not given)
#
# $parse_hdr - Initial read function; often for parsing CGI header output.
# It will be given the return value of sysread from the pipe
# and a string ref of the current buffer. Returns an arrayref
# for PSGI responses. 2-element arrays in PSGI mean the
# body will be streamed, later, via writes (push-based) to
# psgix.io. 3-element arrays means the body is available
# immediately (or streamed via ->getline (pull-based)).
sub psgi_return {
my ($self, $env, $limiter, $parse_hdr, $hdr_arg) = @_;
$self->{psgi_env} = $env;
$self->{hdr_buf} = \(my $hdr_buf = '');
$self->{parse_hdr} = [ $parse_hdr, $hdr_arg ];
$limiter ||= $def_limiter ||= PublicInbox::Qspawn::Limiter->new(32);
# the caller already captured the PSGI write callback from
# the PSGI server, so we can call ->start, here:
$env->{'qspawn.wcb'} and
return start($self, $limiter, \&psgi_return_start);
# the caller will return this sub to the PSGI server, so
# it can set the response callback (that is, for
# PublicInbox::HTTP, the chunked_wcb or identity_wcb callback),
# but other HTTP servers are supported:
sub {
$env->{'qspawn.wcb'} = $_[0];
start($self, $limiter, \&psgi_return_start);
}
}
package PublicInbox::Qspawn::Limiter;
use strict;
use warnings;
sub new {
my ($class, $max) = @_;
bless {
# 32 is same as the git-daemon connection limit
max => $max || 32,
running => 0,
run_queue => [],
# RLIMIT_CPU => undef,
# RLIMIT_DATA => undef,
# RLIMIT_CORE => undef,
}, $class;
}
sub setup_rlimit {
my ($self, $name, $cfg) = @_;
foreach my $rlim (@PublicInbox::Spawn::RLIMITS) {
my $k = lc($rlim);
$k =~ tr/_//d;
$k = "publicinboxlimiter.$name.$k";
defined(my $v = $cfg->{$k}) or next;
my @rlimit = split(/\s*,\s*/, $v);
if (scalar(@rlimit) == 1) {
push @rlimit, $rlimit[0];
} elsif (scalar(@rlimit) != 2) {
warn "could not parse $k: $v\n";
}
eval { require BSD::Resource };
if ($@) {
warn "BSD::Resource missing for $rlim";
next;
}
foreach my $i (0..$#rlimit) {
next if $rlimit[$i] ne 'INFINITY';
$rlimit[$i] = BSD::Resource::RLIM_INFINITY();
}
$self->{$rlim} = \@rlimit;
}
}
1;