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Always turn off hyphenation; it makes .\" way too many mistakes in technical documents. .if n .ad l .nh .SH "NAME" Mojo::IOLoop \- Minimalistic event loop .SH "SYNOPSIS" .IX Header "SYNOPSIS" .Vb 1 \& use Mojo::IOLoop; \& \& # Listen on port 3000 \& Mojo::IOLoop\->server({port => 3000} => sub { \& my ($loop, $stream) = @_; \& \& $stream\->on(read => sub { \& my ($stream, $bytes) = @_; \& \& # Process input chunk \& say $bytes; \& \& # Write response \& $stream\->write(\*(AqHTTP/1.1 200 OK\*(Aq); \& }); \& }); \& \& # Connect to port 3000 \& my $id = Mojo::IOLoop\->client({port => 3000} => sub { \& my ($loop, $err, $stream) = @_; \& \& $stream\->on(read => sub { \& my ($stream, $bytes) = @_; \& \& # Process input \& say "Input: $bytes"; \& }); \& \& # Write request \& $stream\->write("GET / HTTP/1.1\ex0d\ex0a\ex0d\ex0a"); \& }); \& \& # Add a timer \& Mojo::IOLoop\->timer(5 => sub { \& my $loop = shift; \& $loop\->remove($id); \& }); \& \& # Start event loop if necessary \& Mojo::IOLoop\->start unless Mojo::IOLoop\->is_running; .Ve .SH "DESCRIPTION" .IX Header "DESCRIPTION" Mojo::IOLoop is a very minimalistic event loop based on Mojo::Reactor, it has been reduced to the absolute minimal feature set required to build solid and scalable non-blocking \s-1TCP\s0 clients and servers. .PP Optional modules \s-1EV\s0 (4.0+), IO::Socket::IP (0.16+) and IO::Socket::SSL (1.75+) are supported transparently, and used if installed. Individual features can also be disabled with the \s-1MOJO_NO_IPV6\s0 and \s-1MOJO_NO_TLS\s0 environment variables. .PP The event loop will be resilient to time jumps if a monotonic clock is available through Time::HiRes. A \s-1TLS\s0 certificate and key are also built right in, to make writing test servers as easy as possible. Also note that for convenience the \f(CW\*(C`PIPE\*(C'\fR signal will be set to \f(CW\*(C`IGNORE\*(C'\fR when Mojo::IOLoop is loaded. .PP See Mojolicious::Guides::Cookbook for more. .SH "ATTRIBUTES" .IX Header "ATTRIBUTES" Mojo::IOLoop implements the following attributes. .SS "accept_interval" .IX Subsection "accept_interval" .Vb 2 \& my $interval = $loop\->accept_interval; \& $loop = $loop\->accept_interval(0.5); .Ve .PP Interval in seconds for trying to reacquire the accept mutex and connection management, defaults to \f(CW0.025\fR. Note that changing this value can affect performance and idle \s-1CPU\s0 usage. .SS "lock" .IX Subsection "lock" .Vb 2 \& my $cb = $loop\->lock; \& $loop = $loop\->lock(sub {...}); .Ve .PP A callback for acquiring the accept mutex, used to sync multiple server processes. The callback should return true or false. Note that exceptions in this callback are not captured. .PP .Vb 2 \& $loop\->lock(sub { \& my ($loop, $blocking) = @_; \& \& # Got the accept mutex, start accepting new connections \& return 1; \& }); .Ve .SS "max_accepts" .IX Subsection "max_accepts" .Vb 2 \& my $max = $loop\->max_accepts; \& $loop = $loop\->max_accepts(1000); .Ve .PP The maximum number of connections this event loop is allowed to accept before shutting down gracefully without interrupting existing connections, defaults to \f(CW0\fR. Setting the value to \f(CW0\fR will allow this event loop to accept new connections indefinitely. Note that up to half of this value can be subtracted randomly to improve load balancing between multiple server processes. .SS "max_connections" .IX Subsection "max_connections" .Vb 2 \& my $max = $loop\->max_connections; \& $loop = $loop\->max_connections(1000); .Ve .PP The maximum number of parallel connections this event loop is allowed to handle before stopping to accept new incoming connections, defaults to \&\f(CW1000\fR. Setting the value to \f(CW0\fR will make this event loop stop accepting new connections and allow it to shut down gracefully without interrupting existing connections. .SS "multi_accept" .IX Subsection "multi_accept" .Vb 2 \& my $multi = $loop\->multi_accept; \& $loop = $loop\->multi_accept(100); .Ve .PP Number of connections to accept at once, defaults to \f(CW50\fR. .SS "reactor" .IX Subsection "reactor" .Vb 2 \& my $reactor = $loop\->reactor; \& $loop = $loop\->reactor(Mojo::Reactor\->new); .Ve .PP Low level event reactor, usually a Mojo::Reactor::Poll or Mojo::Reactor::EV object. .PP .Vb 5 \& # Watch if handle becomes readable or writable \& $loop\->reactor\->io($handle => sub { \& my ($reactor, $writable) = @_; \& say $writable ? \*(AqHandle is writable\*(Aq : \*(AqHandle is readable\*(Aq; \& }); \& \& # Change to watching only if handle becomes writable \& $loop\->reactor\->watch($handle, 0, 1); .Ve .SS "unlock" .IX Subsection "unlock" .Vb 2 \& my $cb = $loop\->unlock; \& $loop = $loop\->unlock(sub {...}); .Ve .PP A callback for releasing the accept mutex, used to sync multiple server processes. Note that exceptions in this callback are not captured. .SH "METHODS" .IX Header "METHODS" Mojo::IOLoop inherits all methods from Mojo::Base and implements the following new ones. .SS "acceptor" .IX Subsection "acceptor" .Vb 3 \& my $server = Mojo::IOLoop\->acceptor($id); \& my $server = $loop\->acceptor($id); \& my $id = $loop\->acceptor(Mojo::IOLoop::Server\->new); .Ve .PP Get Mojo::IOLoop::Server object for id or turn object into an acceptor. .SS "client" .IX Subsection "client" .Vb 4 \& my $id \& = Mojo::IOLoop\->client(address => \*(Aq127.0.0.1\*(Aq, port => 3000, sub {...}); \& my $id = $loop\->client(address => \*(Aq127.0.0.1\*(Aq, port => 3000, sub {...}); \& my $id = $loop\->client({address => \*(Aq127.0.0.1\*(Aq, port => 3000} => sub {...}); .Ve .PP Open \s-1TCP\s0 connection with Mojo::IOLoop::Client, takes the same arguments as \&\*(L"connect\*(R" in Mojo::IOLoop::Client. .PP .Vb 5 \& # Connect to localhost on port 3000 \& Mojo::IOLoop\->client({port => 3000} => sub { \& my ($loop, $err, $stream) = @_; \& ... \& }); .Ve .SS "delay" .IX Subsection "delay" .Vb 4 \& my $delay = Mojo::IOLoop\->delay; \& my $delay = $loop\->delay; \& my $delay = $loop\->delay(sub {...}); \& my $delay = $loop\->delay(sub {...}, sub {...}); .Ve .PP Get Mojo::IOLoop::Delay object to manage callbacks and control the flow of events. A single callback will be treated as a subscriber to the \f(CW\*(C`finish\*(C'\fR event, and multiple ones as a chain of steps. .PP .Vb 9 \& # Synchronize multiple events \& my $delay = Mojo::IOLoop\->delay(sub { say \*(AqBOOM!\*(Aq }); \& for my $i (1 .. 10) { \& my $end = $delay\->begin; \& Mojo::IOLoop\->timer($i => sub { \& say 10 \- $i; \& $end\->(); \& }); \& } \& \& # Sequentialize multiple events \& my $delay = Mojo::IOLoop\->delay( \& \& # First step (simple timer) \& sub { \& my $delay = shift; \& Mojo::IOLoop\->timer(2 => $delay\->begin); \& say \*(AqSecond step in 2 seconds.\*(Aq; \& }, \& \& # Second step (parallel timers) \& sub { \& my $delay = shift; \& Mojo::IOLoop\->timer(1 => $delay\->begin); \& Mojo::IOLoop\->timer(3 => $delay\->begin); \& say \*(AqThird step in 3 seconds.\*(Aq; \& }, \& \& # Third step (the end) \& sub { say \*(AqAnd done after 5 seconds total.\*(Aq } \& ); \& \& # Wait for events if necessary \& $delay\->wait unless Mojo::IOLoop\->is_running; .Ve .SS "generate_port" .IX Subsection "generate_port" .Vb 2 \& my $port = Mojo::IOLoop\->generate_port; \& my $port = $loop\->generate_port; .Ve .PP Find a free \s-1TCP\s0 port, this is a utility function primarily used for tests. .SS "is_running" .IX Subsection "is_running" .Vb 2 \& my $success = Mojo::IOLoop\->is_running; \& my $success = $loop\->is_running; .Ve .PP Check if event loop is running. .PP .Vb 1 \& exit unless Mojo::IOLoop\->is_running; .Ve .SS "one_tick" .IX Subsection "one_tick" .Vb 2 \& Mojo::IOLoop\->one_tick; \& $loop\->one_tick; .Ve .PP Run event loop until an event occurs. Note that this method can recurse back into the reactor, so you need to be careful. .SS "recurring" .IX Subsection "recurring" .Vb 2 \& my $id = Mojo::IOLoop\->recurring(0.5 => sub {...}); \& my $id = $loop\->recurring(3 => sub {...}); .Ve .PP Create a new recurring timer, invoking the callback repeatedly after a given amount of time in seconds. .PP .Vb 2 \& # Invoke as soon as possible \& Mojo::IOLoop\->recurring(0 => sub { say \*(AqReactor tick.\*(Aq }); .Ve .SS "remove" .IX Subsection "remove" .Vb 2 \& Mojo::IOLoop\->remove($id); \& $loop\->remove($id); .Ve .PP Remove anything with an id, connections will be dropped gracefully by allowing them to finish writing all data in their write buffers. .SS "server" .IX Subsection "server" .Vb 3 \& my $id = Mojo::IOLoop\->server(port => 3000, sub {...}); \& my $id = $loop\->server(port => 3000, sub {...}); \& my $id = $loop\->server({port => 3000} => sub {...}); .Ve .PP Accept \s-1TCP\s0 connections with Mojo::IOLoop::Server, takes the same arguments as \*(L"listen\*(R" in Mojo::IOLoop::Server. .PP .Vb 5 \& # Listen on port 3000 \& Mojo::IOLoop\->server({port => 3000} => sub { \& my ($loop, $stream, $id) = @_; \& ... \& }); .Ve .SS "singleton" .IX Subsection "singleton" .Vb 1 \& my $loop = Mojo::IOLoop\->singleton; .Ve .PP The global Mojo::IOLoop singleton, used to access a single shared event loop object from everywhere inside the process. .PP .Vb 3 \& # Many methods also allow you to take shortcuts \& Mojo::IOLoop\->timer(2 => sub { Mojo::IOLoop\->stop }); \& Mojo::IOLoop\->start; .Ve .SS "start" .IX Subsection "start" .Vb 2 \& Mojo::IOLoop\->start; \& $loop\->start; .Ve .PP Start the event loop, this will block until \f(CW\*(C`stop\*(C'\fR is called. Note that some reactors stop automatically if there are no events being watched anymore. .PP .Vb 2 \& # Start event loop only if it is not running already \& Mojo::IOLoop\->start unless Mojo::IOLoop\->is_running; .Ve .SS "stop" .IX Subsection "stop" .Vb 2 \& Mojo::IOLoop\->stop; \& $loop\->stop; .Ve .PP Stop the event loop, this will not interrupt any existing connections and the event loop can be restarted by running \f(CW\*(C`start\*(C'\fR again. .SS "stream" .IX Subsection "stream" .Vb 3 \& my $stream = Mojo::IOLoop\->stream($id); \& my $stream = $loop\->stream($id); \& my $id = $loop\->stream(Mojo::IOLoop::Stream\->new); .Ve .PP Get Mojo::IOLoop::Stream object for id or turn object into a connection. .PP .Vb 2 \& # Increase inactivity timeout for connection to 300 seconds \& Mojo::IOLoop\->stream($id)\->timeout(300); .Ve .SS "timer" .IX Subsection "timer" .Vb 3 \& my $id = Mojo::IOLoop\->timer(5 => sub {...}); \& my $id = $loop\->timer(5 => sub {...}); \& my $id = $loop\->timer(0.25 => sub {...}); .Ve .PP Create a new timer, invoking the callback after a given amount of time in seconds. .PP .Vb 2 \& # Invoke as soon as possible \& Mojo::IOLoop\->timer(0 => sub { say \*(AqNext tick.\*(Aq }); .Ve .SH "DEBUGGING" .IX Header "DEBUGGING" You can set the \s-1MOJO_IOLOOP_DEBUG\s0 environment variable to get some advanced diagnostics information printed to \f(CW\*(C`STDERR\*(C'\fR. .PP .Vb 1 \& MOJO_IOLOOP_DEBUG=1 .Ve .SH "SEE ALSO" .IX Header "SEE ALSO" Mojolicious, Mojolicious::Guides, .