package Mojo::Server::Prefork; use Mojo::Base 'Mojo::Server::Daemon'; use Fcntl ':flock'; use File::Spec::Functions qw(catfile tmpdir); use IO::Poll 'POLLIN'; use List::Util 'shuffle'; use Mojo::Util 'steady_time'; use POSIX 'WNOHANG'; use Scalar::Util 'weaken'; use Time::HiRes (); has accepts => 1000; has accept_interval => 0.025; has [qw(graceful_timeout heartbeat_timeout)] => 20; has heartbeat_interval => 5; has lock_file => sub { catfile tmpdir, 'prefork.lock' }; has lock_timeout => 1; has multi_accept => 50; has pid_file => sub { catfile tmpdir, 'prefork.pid' }; has workers => 4; sub DESTROY { my $self = shift; # Worker return unless $self->{finished}; # Manager if (my $file = $self->{lock_file}) { unlink $file if -w $file } if (my $file = $self->pid_file) { unlink $file if -w $file } } sub check_pid { my $file = shift->pid_file; return undef unless open my $handle, '<', $file; my $pid = <$handle>; chomp $pid; # Running return $pid if $pid && kill 0, $pid; # Not running unlink $file if -w $file; return undef; } sub run { my $self = shift; # No Windows support say 'Preforking not available for Windows.' and exit 0 if $^O eq 'MSWin32'; # Prepare lock file and event loop $self->{lock_file} = $self->lock_file . ".$$"; my $loop = $self->ioloop->max_accepts($self->accepts); $loop->$_($self->$_) for qw(accept_interval multi_accept); # Pipe for worker communication pipe($self->{reader}, $self->{writer}) or die "Can't create pipe: $!"; $self->{poll} = IO::Poll->new; $self->{poll}->mask($self->{reader}, POLLIN); # Clean manager environment local $SIG{INT} = local $SIG{TERM} = sub { $self->_term }; local $SIG{CHLD} = sub { while ((my $pid = waitpid -1, WNOHANG) > 0) { $self->app->log->debug("Worker $pid stopped.") if delete $self->emit(reap => $pid)->{pool}{$pid}; } }; local $SIG{QUIT} = sub { $self->_term(1) }; local $SIG{TTIN} = sub { $self->workers($self->workers + 1) }; local $SIG{TTOU} = sub { $self->workers($self->workers - 1) if $self->workers > 0; return unless $self->workers; $self->{pool}{shuffle keys %{$self->{pool}}}{graceful} ||= steady_time; }; # Preload application before starting workers $self->start->app->log->info("Manager $$ started."); $self->{running} = 1; $self->_manage while $self->{running}; } sub _heartbeat { my $self = shift; # Poll for heartbeats my $poll = $self->{poll}; $poll->poll(1); return unless $poll->handles(POLLIN); return unless $self->{reader}->sysread(my $chunk, 4194304); # Update heartbeats my $time = steady_time; $self->{pool}{$1} and $self->emit(heartbeat => $1)->{pool}{$1}{time} = $time while $chunk =~ /(\d+)\n/g; } sub _manage { my $self = shift; # Spawn more workers and check PID file if (!$self->{finished}) { $self->_spawn while keys %{$self->{pool}} < $self->workers; $self->_pid_file; } # Shutdown elsif (!keys %{$self->{pool}}) { return delete $self->{running} } # Manage workers $self->emit('wait')->_heartbeat; my $log = $self->app->log; for my $pid (keys %{$self->{pool}}) { next unless my $w = $self->{pool}{$pid}; # No heartbeat (graceful stop) my $interval = $self->heartbeat_interval; my $timeout = $self->heartbeat_timeout; my $time = steady_time; if (!$w->{graceful} && ($w->{time} + $interval + $timeout <= $time)) { $log->info("Worker $pid has no heartbeat, restarting."); $w->{graceful} = $time; } # Graceful stop with timeout $w->{graceful} ||= $time if $self->{graceful}; if ($w->{graceful}) { $log->debug("Trying to stop worker $pid gracefully."); kill 'QUIT', $pid; $w->{force} = 1 if $w->{graceful} + $self->graceful_timeout <= $time; } # Normal stop if (($self->{finished} && !$self->{graceful}) || $w->{force}) { $log->debug("Stopping worker $pid."); kill 'KILL', $pid; } } } sub _pid_file { my $self = shift; # Check if PID file already exists return if -e (my $file = $self->pid_file); # Create PID file $self->app->log->info(qq{Creating process id file "$file".}); die qq{Can't create process id file "$file": $!} unless open my $handle, '>', $file; chmod 0644, $handle; print $handle $$; } sub _spawn { my $self = shift; # Manager die "Can't fork: $!" unless defined(my $pid = fork); return $self->emit(spawn => $pid)->{pool}{$pid} = {time => steady_time} if $pid; # Prepare lock file my $file = $self->{lock_file}; die qq{Can't open lock file "$file": $!} unless open my $handle, '>', $file; # Change user/group my $loop = $self->setuidgid->ioloop; # Accept mutex $loop->lock( sub { # Blocking ("ualarm" can't be imported on Windows) my $lock; if ($_[1]) { eval { local $SIG{ALRM} = sub { die "alarm\n" }; my $old = Time::HiRes::ualarm $self->lock_timeout * 1000000; $lock = flock $handle, LOCK_EX; Time::HiRes::ualarm $old; }; if ($@) { $lock = $@ eq "alarm\n" ? 0 : die($@) } } # Non blocking else { $lock = flock $handle, LOCK_EX | LOCK_NB } return $lock; } ); $loop->unlock(sub { flock $handle, LOCK_UN }); # Heartbeat messages (stop sending during graceful stop) weaken $self; $loop->recurring( $self->heartbeat_interval => sub { return unless shift->max_connections; $self->{writer}->syswrite("$$\n") or exit 0; } ); # Clean worker environment $SIG{$_} = 'DEFAULT' for qw(INT TERM CHLD TTIN TTOU); $SIG{QUIT} = sub { $loop->max_connections(0) }; delete @$self{qw(poll reader)}; $self->app->log->debug("Worker $$ started."); $loop->start; exit 0; } sub _term { my ($self, $graceful) = @_; $self->emit(finish => $graceful)->{finished} = 1; $self->{graceful} = 1 if $graceful; } 1; =encoding utf8 =head1 NAME Mojo::Server::Prefork - Preforking non-blocking I/O HTTP and WebSocket server =head1 SYNOPSIS use Mojo::Server::Prefork; my $prefork = Mojo::Server::Prefork->new(listen => ['http://*:8080']); $prefork->unsubscribe('request'); $prefork->on(request => sub { my ($prefork, $tx) = @_; # Request my $method = $tx->req->method; my $path = $tx->req->url->path; # Response $tx->res->code(200); $tx->res->headers->content_type('text/plain'); $tx->res->body("$method request for $path!"); # Resume transaction $tx->resume; }); $prefork->run; =head1 DESCRIPTION L is a full featured, UNIX optimized, preforking non-blocking I/O HTTP and WebSocket server, built around the very well tested and reliable L, with IPv6, TLS, Comet (long polling), keep-alive, connection pooling, timeout, cookie, multipart and multiple event loop support. Note that the server uses signals for process management, so you should avoid modifying signal handlers in your applications. For better scalability (epoll, kqueue) and to provide IPv6 as well as TLS support, the optional modules L (4.0+), L (0.16+) and L (1.75+) will be used automatically by L if they are installed. Individual features can also be disabled with the MOJO_NO_IPV6 and MOJO_NO_TLS environment variables. See L for more. =head1 MANAGER SIGNALS The L manager process can be controlled at runtime with the following signals. =head2 INT, TERM Shutdown server immediately. =head2 QUIT Shutdown server gracefully. =head2 TTIN Increase worker pool by one. =head2 TTOU Decrease worker pool by one. =head1 WORKER SIGNALS L worker processes can be controlled at runtime with the following signals. =head2 INT, TERM Stop worker immediately. =head2 QUIT Stop worker gracefully. =head1 EVENTS L inherits all events from L and can emit the following new ones. =head2 finish $prefork->on(finish => sub { my ($prefork, $graceful) = @_; ... }); Emitted when the server shuts down. $prefork->on(finish => sub { my ($prefork, $graceful) = @_; say $graceful ? 'Graceful server shutdown' : 'Server shutdown'; }); =head2 heartbeat $prefork->on(heartbeat => sub { my ($prefork, $pid) = @_; ... }); Emitted when a heartbeat message has been received from a worker. $prefork->on(heartbeat => sub { my ($prefork, $pid) = @_; say "Worker $pid has a heartbeat"; }); =head2 reap $prefork->on(reap => sub { my ($prefork, $pid) = @_; ... }); Emitted when a child process dies. $prefork->on(reap => sub { my ($prefork, $pid) = @_; say "Worker $pid stopped"; }); =head2 spawn $prefork->on(spawn => sub { my ($prefork, $pid) = @_; ... }); Emitted when a worker process is spawned. $prefork->on(spawn => sub { my ($prefork, $pid) = @_; say "Worker $pid started"; }); =head2 wait $prefork->on(wait => sub { my $prefork = shift; ... }); Emitted when the manager starts waiting for new heartbeat messages. $prefork->on(wait => sub { my $prefork = shift; my $workers = $prefork->workers; say "Waiting for heartbeat messages from $workers workers"; }); =head1 ATTRIBUTES L inherits all attributes from L and implements the following new ones. =head2 accept_interval my $interval = $prefork->accept_interval; $prefork = $prefork->accept_interval(0.5); Interval in seconds for trying to reacquire the accept mutex, defaults to C<0.025>. Note that changing this value can affect performance and idle CPU usage. =head2 accepts my $accepts = $prefork->accepts; $prefork = $prefork->accepts(100); Maximum number of connections a worker is allowed to accept before stopping gracefully, defaults to C<1000>. Setting the value to C<0> will allow workers to accept new connections indefinitely. Note that up to half of this value can be subtracted randomly to improve load balancing, and that worker processes will stop sending heartbeat messages once the limit has been reached. =head2 graceful_timeout my $timeout = $prefork->graceful_timeout; $prefork = $prefork->graceful_timeout(15); Maximum amount of time in seconds stopping a worker gracefully may take before being forced, defaults to C<20>. =head2 heartbeat_interval my $interval = $prefork->heartbeat_intrval; $prefork = $prefork->heartbeat_interval(3); Heartbeat interval in seconds, defaults to C<5>. =head2 heartbeat_timeout my $timeout = $prefork->heartbeat_timeout; $prefork = $prefork->heartbeat_timeout(2); Maximum amount of time in seconds before a worker without a heartbeat will be stopped gracefully, defaults to C<20>. =head2 lock_file my $file = $prefork->lock_file; $prefork = $prefork->lock_file('/tmp/prefork.lock'); Full path of accept mutex lock file prefix, to which the process id will be appended, defaults to a random temporary path. =head2 lock_timeout my $timeout = $prefork->lock_timeout; $prefork = $prefork->lock_timeout(0.5); Maximum amount of time in seconds a worker may block when waiting for the accept mutex, defaults to C<1>. Note that changing this value can affect performance and idle CPU usage. =head2 multi_accept my $multi = $prefork->multi_accept; $prefork = $prefork->multi_accept(100); Number of connections to accept at once, defaults to C<50>. =head2 pid_file my $file = $prefork->pid_file; $prefork = $prefork->pid_file('/tmp/prefork.pid'); Full path of process id file, defaults to a random temporary path. =head2 workers my $workers = $prefork->workers; $prefork = $prefork->workers(10); Number of worker processes, defaults to C<4>. A good rule of thumb is two worker processes per CPU core. =head1 METHODS L inherits all methods from L and implements the following new ones. =head2 check_pid my $pid = $prefork->check_pid; Get process id for running server from L or delete it if server is not running. say 'Server is not running' unless $prefork->check_pid; =head2 run $prefork->run; Run server. =head1 SEE ALSO L, L, L. =cut