Async, streaming plaintext TCP/IP and secure TLS socket server and client connections for ReactPHP.
Development version: This branch contains the code for the upcoming v3 release. For the code of the current stable v1 release, check out the
1.xbranch.The upcoming v3 release will be the way forward for this package. However, we will still actively support v1 for those not yet on the latest version. See also installation instructions for more details.
The socket library provides re-usable interfaces for a socket-layer
server and client based on the EventLoop
and Stream components.
Its server component allows you to build networking servers that accept incoming
connections from networking clients (such as an HTTP server).
Its client component allows you to build networking clients that establish
outgoing connections to networking servers (such as an HTTP or database client).
This library provides async, streaming means for all of this, so you can
handle multiple concurrent connections without blocking.
Table of Contents
Here is a server that closes the connection if you send it anything:
$socket = new React\Socket\SocketServer('127.0.0.1:8080');
$socket->on('connection', function (React\Socket\ConnectionInterface $connection) {
$connection->write("Hello " . $connection->getRemoteAddress() . "!\n");
$connection->write("Welcome to this amazing server!\n");
$connection->write("Here's a tip: don't say anything.\n");
$connection->on('data', function ($data) use ($connection) {
$connection->close();
});
});See also the examples.
Here's a client that outputs the output of said server and then attempts to send it a string:
$connector = new React\Socket\Connector();
$connector->connect('127.0.0.1:8080')->then(function (React\Socket\ConnectionInterface $connection) {
$connection->pipe(new React\Stream\WritableResourceStream(STDOUT));
$connection->write("Hello World!\n");
}, function (Exception $e) {
echo 'Error: ' . $e->getMessage() . PHP_EOL;
});The ConnectionInterface is used to represent any incoming and outgoing
connection, such as a normal TCP/IP connection.
An incoming or outgoing connection is a duplex stream (both readable and
writable) that implements React's
DuplexStreamInterface.
It contains additional properties for the local and remote address (client IP)
where this connection has been established to/from.
Most commonly, instances implementing this ConnectionInterface are emitted
by all classes implementing the ServerInterface and
used by all classes implementing the ConnectorInterface.
Because the ConnectionInterface implements the underlying
DuplexStreamInterface
you can use any of its events and methods as usual:
$connection->on('data', function ($chunk) {
echo $chunk;
});
$connection->on('end', function () {
echo 'ended';
});
$connection->on('error', function (Exception $e) {
echo 'error: ' . $e->getMessage();
});
$connection->on('close', function () {
echo 'closed';
});
$connection->write($data);
$connection->end($data = null);
$connection->close();
// …For more details, see the
DuplexStreamInterface.
The getRemoteAddress(): ?string method returns the full remote address
(URI) where this connection has been established with.
$address = $connection->getRemoteAddress();
echo 'Connection with ' . $address . PHP_EOL;If the remote address can not be determined or is unknown at this time (such as
after the connection has been closed), it MAY return a NULL value instead.
Otherwise, it will return the full address (URI) as a string value, such
as tcp://127.0.0.1:8080, tcp://[::1]:80, tls://127.0.0.1:443,
unix://example.sock or unix:///path/to/example.sock.
Note that individual URI components are application specific and depend
on the underlying transport protocol.
If this is a TCP/IP based connection and you only want the remote IP, you may use something like this:
$address = $connection->getRemoteAddress();
$ip = trim(parse_url($address, PHP_URL_HOST), '[]');
echo 'Connection with ' . $ip . PHP_EOL;The getLocalAddress(): ?string method returns the full local address
(URI) where this connection has been established with.
$address = $connection->getLocalAddress();
echo 'Connection with ' . $address . PHP_EOL;If the local address can not be determined or is unknown at this time (such as
after the connection has been closed), it MAY return a NULL value instead.
Otherwise, it will return the full address (URI) as a string value, such
as tcp://127.0.0.1:8080, tcp://[::1]:80, tls://127.0.0.1:443,
unix://example.sock or unix:///path/to/example.sock.
Note that individual URI components are application specific and depend
on the underlying transport protocol.
This method complements the getRemoteAddress() method,
so they should not be confused.
If your TcpServer instance is listening on multiple interfaces (e.g. using
the address 0.0.0.0), you can use this method to find out which interface
actually accepted this connection (such as a public or local interface).
If your system has multiple interfaces (e.g. a WAN and a LAN interface), you can use this method to find out which interface was actually used for this connection.
The ServerInterface is responsible for providing an interface for accepting
incoming streaming connections, such as a normal TCP/IP connection.
Most higher-level components (such as a HTTP server) accept an instance implementing this interface to accept incoming streaming connections. This is usually done via dependency injection, so it's fairly simple to actually swap this implementation against any other implementation of this interface. This means that you SHOULD typehint against this interface instead of a concrete implementation of this interface.
Besides defining a few methods, this interface also implements the
EventEmitterInterface
which allows you to react to certain events.
The connection event will be emitted whenever a new connection has been
established, i.e. a new client connects to this server socket:
$socket->on('connection', function (React\Socket\ConnectionInterface $connection) {
echo 'new connection' . PHP_EOL;
});See also the ConnectionInterface for more details
about handling the incoming connection.
The error event will be emitted whenever there's an error accepting a new
connection from a client.
$socket->on('error', function (Exception $e) {
echo 'error: ' . $e->getMessage() . PHP_EOL;
});Note that this is not a fatal error event, i.e. the server keeps listening for new connections even after this event.
The getAddress(): ?string method can be used to
return the full address (URI) this server is currently listening on.
$address = $socket->getAddress();
echo 'Server listening on ' . $address . PHP_EOL;If the address can not be determined or is unknown at this time (such as
after the socket has been closed), it MAY return a NULL value instead.
Otherwise, it will return the full address (URI) as a string value, such
as tcp://127.0.0.1:8080, tcp://[::1]:80, tls://127.0.0.1:443
unix://example.sock or unix:///path/to/example.sock.
Note that individual URI components are application specific and depend
on the underlying transport protocol.
If this is a TCP/IP based server and you only want the local port, you may use something like this:
$address = $socket->getAddress();
$port = parse_url($address, PHP_URL_PORT);
echo 'Server listening on port ' . $port . PHP_EOL;The pause(): void method can be used to
pause accepting new incoming connections.
Removes the socket resource from the EventLoop and thus stop accepting new connections. Note that the listening socket stays active and is not closed.
This means that new incoming connections will stay pending in the operating system backlog until its configurable backlog is filled. Once the backlog is filled, the operating system may reject further incoming connections until the backlog is drained again by resuming to accept new connections.
Once the server is paused, no futher connection events SHOULD
be emitted.
$socket->pause();
$socket->on('connection', assertShouldNeverCalled());This method is advisory-only, though generally not recommended, the
server MAY continue emitting connection events.
Unless otherwise noted, a successfully opened server SHOULD NOT start in paused state.
You can continue processing events by calling resume() again.
Note that both methods can be called any number of times, in particular
calling pause() more than once SHOULD NOT have any effect.
Similarly, calling this after close() is a NO-OP.
The resume(): void method can be used to
resume accepting new incoming connections.
Re-attach the socket resource to the EventLoop after a previous pause().
$socket->pause();
Loop::addTimer(1.0, function () use ($socket) {
$socket->resume();
});Note that both methods can be called any number of times, in particular
calling resume() without a prior pause() SHOULD NOT have any effect.
Similarly, calling this after close() is a NO-OP.
The close(): void method can be used to
shut down this listening socket.
This will stop listening for new incoming connections on this socket.
echo 'Shutting down server socket' . PHP_EOL;
$socket->close();Calling this method more than once on the same instance is a NO-OP.
The SocketServer class is the main class in this package that implements the
ServerInterface and allows you to accept incoming
streaming connections, such as plaintext TCP/IP or secure TLS connection streams.
In order to accept plaintext TCP/IP connections, you can simply pass a host and port combination like this:
$socket = new React\Socket\SocketServer('127.0.0.1:8080');Listening on the localhost address 127.0.0.1 means it will not be reachable from
outside of this system.
In order to change the host the socket is listening on, you can provide an IP
address of an interface or use the special 0.0.0.0 address to listen on all
interfaces:
$socket = new React\Socket\SocketServer('0.0.0.0:8080');If you want to listen on an IPv6 address, you MUST enclose the host in square brackets:
$socket = new React\Socket\SocketServer('[::1]:8080');In order to use a random port assignment, you can use the port 0:
$socket = new React\Socket\SocketServer('127.0.0.1:0');
$address = $socket->getAddress();To listen on a Unix domain socket (UDS) path, you MUST prefix the URI with the
unix:// scheme:
$socket = new React\Socket\SocketServer('unix:///tmp/server.sock');In order to listen on an existing file descriptor (FD) number, you MUST prefix
the URI with php://fd/ like this:
$socket = new React\Socket\SocketServer('php://fd/3');If the given URI is invalid, does not contain a port, any other scheme or if it
contains a hostname, it will throw an InvalidArgumentException:
// throws InvalidArgumentException due to missing port
$socket = new React\Socket\SocketServer('127.0.0.1');If the given URI appears to be valid, but listening on it fails (such as if port
is already in use or port below 1024 may require root access etc.), it will
throw a RuntimeException:
$first = new React\Socket\SocketServer('127.0.0.1:8080');
// throws RuntimeException because port is already in use
$second = new React\Socket\SocketServer('127.0.0.1:8080');Note that these error conditions may vary depending on your system and/or configuration. See the exception message and code for more details about the actual error condition.
Optionally, you can specify TCP socket context options for the underlying stream socket resource like this:
$socket = new React\Socket\SocketServer('[::1]:8080', [ 'tcp' => [ 'backlog' => 200, 'so_reuseport' => true, 'ipv6_v6only' => true ] ]);Note that available socket context options, their defaults and effects of changing these may vary depending on your system and/or PHP version. Passing unknown context options has no effect. The
backlogcontext option defaults to511unless given explicitly.You can start a secure TLS (formerly known as SSL) server by simply prepending the
tls://URI scheme. Internally, it will wait for plaintext TCP/IP connections and then performs a TLS handshake for each connection. It thus requires valid TLS context options, which in its most basic form may look something like this if you're using a PEM encoded certificate file:$socket = new React\Socket\SocketServer('tls://127.0.0.1:8080', [ 'tls' => [ 'local_cert' => 'server.pem' ] ]);Note that the certificate file will not be loaded on instantiation but when an incoming connection initializes its TLS context. This implies that any invalid certificate file paths or contents will only cause an
errorevent at a later time.If your private key is encrypted with a passphrase, you have to specify it like this:
$socket = new React\Socket\SocketServer('tls://127.0.0.1:8000', [ 'tls' => [ 'local_cert' => 'server.pem', 'passphrase' => 'secret' ] ]);By default, this server supports TLSv1.0+ and excludes support for legacy SSLv2/SSLv3. You can also explicitly choose the TLS version you want to negotiate with the remote side:
$socket = new React\Socket\SocketServer('tls://127.0.0.1:8000', [ 'tls' => [ 'local_cert' => 'server.pem', 'crypto_method' => STREAM_CRYPTO_METHOD_TLSv1_2_SERVER ] ]);Note that available TLS context options, their defaults and effects of changing these may vary depending on your system and/or PHP version. The outer context array allows you to also use
tcp(and possibly more) context options at the same time. Passing unknown context options has no effect. If you do not use thetls://scheme, then passingtlscontext options has no effect.Whenever a client connects, it will emit a
connectionevent with a connection instance implementingConnectionInterface:$socket->on('connection', function (React\Socket\ConnectionInterface $connection) { echo 'Plaintext connection from ' . $connection->getRemoteAddress() . PHP_EOL; $connection->write('hello there!' . PHP_EOL); … });See also the
ServerInterfacefor more details.This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.Note that the
SocketServerclass is a concrete implementation for TCP/IP sockets. If you want to typehint in your higher-level protocol implementation, you SHOULD use the genericServerInterfaceinstead.The
TcpServerclass implements theServerInterfaceand is responsible for accepting plaintext TCP/IP connections.$server = new React\Socket\TcpServer(8080);As above, the
$uriparameter can consist of only a port, in which case the server will default to listening on the localhost address127.0.0.1, which means it will not be reachable from outside of this system.In order to use a random port assignment, you can use the port
0:$server = new React\Socket\TcpServer(0); $address = $server->getAddress();In order to change the host the socket is listening on, you can provide an IP address through the first parameter provided to the constructor, optionally preceded by the
tcp://scheme:$server = new React\Socket\TcpServer('192.168.0.1:8080');If you want to listen on an IPv6 address, you MUST enclose the host in square brackets:
$server = new React\Socket\TcpServer('[::1]:8080');If the given URI is invalid, does not contain a port, any other scheme or if it contains a hostname, it will throw an
InvalidArgumentException:// throws InvalidArgumentException due to missing port $server = new React\Socket\TcpServer('127.0.0.1');If the given URI appears to be valid, but listening on it fails (such as if port is already in use or port below 1024 may require root access etc.), it will throw a
RuntimeException:$first = new React\Socket\TcpServer(8080); // throws RuntimeException because port is already in use $second = new React\Socket\TcpServer(8080);Note that these error conditions may vary depending on your system and/or configuration. See the exception message and code for more details about the actual error condition.
This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.Optionally, you can specify socket context options for the underlying stream socket resource like this:
$server = new React\Socket\TcpServer('[::1]:8080', null, [ 'backlog' => 200, 'so_reuseport' => true, 'ipv6_v6only' => true ]);Note that available socket context options, their defaults and effects of changing these may vary depending on your system and/or PHP version. Passing unknown context options has no effect. The
backlogcontext option defaults to511unless given explicitly.Whenever a client connects, it will emit a
connectionevent with a connection instance implementingConnectionInterface:$server->on('connection', function (React\Socket\ConnectionInterface $connection) { echo 'Plaintext connection from ' . $connection->getRemoteAddress() . PHP_EOL; $connection->write('hello there!' . PHP_EOL); … });See also the
ServerInterfacefor more details.The
SecureServerclass implements theServerInterfaceand is responsible for providing a secure TLS (formerly known as SSL) server.It does so by wrapping a
TcpServerinstance which waits for plaintext TCP/IP connections and then performs a TLS handshake for each connection. It thus requires valid TLS context options, which in its most basic form may look something like this if you're using a PEM encoded certificate file:$server = new React\Socket\TcpServer(8000); $server = new React\Socket\SecureServer($server, null, [ 'local_cert' => 'server.pem' ]);Note that the certificate file will not be loaded on instantiation but when an incoming connection initializes its TLS context. This implies that any invalid certificate file paths or contents will only cause an
errorevent at a later time.If your private key is encrypted with a passphrase, you have to specify it like this:
$server = new React\Socket\TcpServer(8000); $server = new React\Socket\SecureServer($server, null, [ 'local_cert' => 'server.pem', 'passphrase' => 'secret' ]);By default, this server supports TLSv1.0+ and excludes support for legacy SSLv2/SSLv3. You can also explicitly choose the TLS version you want to negotiate with the remote side:
$server = new React\Socket\TcpServer(8000); $server = new React\Socket\SecureServer($server, null, [ 'local_cert' => 'server.pem', 'crypto_method' => STREAM_CRYPTO_METHOD_TLSv1_2_SERVER ]);Note that available TLS context options, their defaults and effects of changing these may vary depending on your system and/or PHP version. Passing unknown context options has no effect.
Whenever a client completes the TLS handshake, it will emit a
connectionevent with a connection instance implementingConnectionInterface:$server->on('connection', function (React\Socket\ConnectionInterface $connection) { echo 'Secure connection from' . $connection->getRemoteAddress() . PHP_EOL; $connection->write('hello there!' . PHP_EOL); … });Whenever a client fails to perform a successful TLS handshake, it will emit an
errorevent and then close the underlying TCP/IP connection:$server->on('error', function (Exception $e) { echo 'Error' . $e->getMessage() . PHP_EOL; });See also the
ServerInterfacefor more details.Note that the
SecureServerclass is a concrete implementation for TLS sockets. If you want to typehint in your higher-level protocol implementation, you SHOULD use the genericServerInterfaceinstead.This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.Advanced usage: Despite allowing any
ServerInterfaceas first parameter, you SHOULD pass aTcpServerinstance as first parameter, unless you know what you're doing. Internally, theSecureServerhas to set the required TLS context options on the underlying stream resources. These resources are not exposed through any of the interfaces defined in this package, but only through the internalConnectionclass. TheTcpServerclass is guaranteed to emit connections that implement theConnectionInterfaceand uses the internalConnectionclass in order to expose these underlying resources. If you use a customServerInterfaceand itsconnectionevent does not meet this requirement, theSecureServerwill emit anerrorevent and then close the underlying connection.The
UnixServerclass implements theServerInterfaceand is responsible for accepting connections on Unix domain sockets (UDS).$server = new React\Socket\UnixServer('/tmp/server.sock');As above, the
$uriparameter can consist of only a socket path or socket path prefixed by theunix://scheme.If the given URI appears to be valid, but listening on it fails (such as if the socket is already in use or the file not accessible etc.), it will throw a
RuntimeException:$first = new React\Socket\UnixServer('/tmp/same.sock'); // throws RuntimeException because socket is already in use $second = new React\Socket\UnixServer('/tmp/same.sock');Note that these error conditions may vary depending on your system and/or configuration. In particular, Zend PHP does only report "Unknown error" when the UDS path already exists and can not be bound. You may want to check
is_file()on the given UDS path to report a more user-friendly error message in this case. See the exception message and code for more details about the actual error condition.This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.Whenever a client connects, it will emit a
connectionevent with a connection instance implementingConnectionInterface:$server->on('connection', function (React\Socket\ConnectionInterface $connection) { echo 'New connection' . PHP_EOL; $connection->write('hello there!' . PHP_EOL); … });See also the
ServerInterfacefor more details.The
LimitingServerdecorator wraps a givenServerInterfaceand is responsible for limiting and keeping track of open connections to this server instance.Whenever the underlying server emits a
connectionevent, it will check its limits and then either
- keep track of this connection by adding it to the list of open connections and then forward the
connectionevent- or reject (close) the connection when its limits are exceeded and will forward an
errorevent instead.Whenever a connection closes, it will remove this connection from the list of open connections.
$server = new React\Socket\LimitingServer($server, 100); $server->on('connection', function (React\Socket\ConnectionInterface $connection) { $connection->write('hello there!' . PHP_EOL); … });See also the second example for more details.
You have to pass a maximum number of open connections to ensure the server will automatically reject (close) connections once this limit is exceeded. In this case, it will emit an
errorevent to inform about this and noconnectionevent will be emitted.$server = new React\Socket\LimitingServer($server, 100); $server->on('connection', function (React\Socket\ConnectionInterface $connection) { $connection->write('hello there!' . PHP_EOL); … });You MAY pass a
nulllimit in order to put no limit on the number of open connections and keep accepting new connection until you run out of operating system resources (such as open file handles). This may be useful if you do not want to take care of applying a limit but still want to use thegetConnections()method.You can optionally configure the server to pause accepting new connections once the connection limit is reached. In this case, it will pause the underlying server and no longer process any new connections at all, thus also no longer closing any excessive connections. The underlying operating system is responsible for keeping a backlog of pending connections until its limit is reached, at which point it will start rejecting further connections. Once the server is below the connection limit, it will continue consuming connections from the backlog and will process any outstanding data on each connection. This mode may be useful for some protocols that are designed to wait for a response message (such as HTTP), but may be less useful for other protocols that demand immediate responses (such as a "welcome" message in an interactive chat).
$server = new React\Socket\LimitingServer($server, 100, true); $server->on('connection', function (React\Socket\ConnectionInterface $connection) { $connection->write('hello there!' . PHP_EOL); … });The
getConnections(): ConnectionInterface[]method can be used to return an array with all currently active connections.foreach ($server->getConnection() as $connection) { $connection->write('Hi!'); }The
ConnectorInterfaceis responsible for providing an interface for establishing streaming connections, such as a normal TCP/IP connection.This is the main interface defined in this package and it is used throughout React's vast ecosystem.
Most higher-level components (such as HTTP, database or other networking service clients) accept an instance implementing this interface to create their TCP/IP connection to the underlying networking service. This is usually done via dependency injection, so it's fairly simple to actually swap this implementation against any other implementation of this interface.
The interface only offers a single method:
The
connect(string $uri): PromiseInterface<ConnectionInterface>method can be used to create a streaming connection to the given remote address.It returns a Promise which either fulfills with a stream implementing
ConnectionInterfaceon success or rejects with anExceptionif the connection is not successful:$connector->connect('google.com:443')->then( function (React\Socket\ConnectionInterface $connection) { // connection successfully established }, function (Exception $error) { // failed to connect due to $error } );See also
ConnectionInterfacefor more details.The returned Promise MUST be implemented in such a way that it can be cancelled when it is still pending. Cancelling a pending promise MUST reject its value with an
Exception. It SHOULD clean up any underlying resources and references as applicable:$promise = $connector->connect($uri); $promise->cancel();The
Connectorclass is the main class in this package that implements theConnectorInterfaceand allows you to create streaming connections.You can use this connector to create any kind of streaming connections, such as plaintext TCP/IP, secure TLS or local Unix connection streams.
It binds to the main event loop and can be used like this:
$connector = new React\Socket\Connector(); $connector->connect($uri)->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); }, function (Exception $e) { echo 'Error: ' . $e->getMessage() . PHP_EOL; });In order to create a plaintext TCP/IP connection, you can simply pass a host and port combination like this:
$connector->connect('www.google.com:80')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });If you do no specify a URI scheme in the destination URI, it will assume
tcp://as a default and establish a plaintext TCP/IP connection. Note that TCP/IP connections require a host and port part in the destination URI like above, all other URI components are optional.In order to create a secure TLS connection, you can use the
tls://URI scheme like this:$connector->connect('tls://www.google.com:443')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });In order to create a local Unix domain socket connection, you can use the
unix://URI scheme like this:$connector->connect('unix:///tmp/demo.sock')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });The
getRemoteAddress()method will return the target Unix domain socket (UDS) path as given to theconnect()method, including theunix://scheme, for exampleunix:///tmp/demo.sock. ThegetLocalAddress()method will most likely return anullvalue as this value is not applicable to UDS connections here.Under the hood, the
Connectoris implemented as a higher-level facade for the lower-level connectors implemented in this package. This means it also shares all of their features and implementation details. If you want to typehint in your higher-level protocol implementation, you SHOULD use the genericConnectorInterfaceinstead.As of
v1.4.0, theConnectorclass defaults to using the happy eyeballs algorithm to automatically connect over IPv4 or IPv6 when a hostname is given. This automatically attempts to connect using both IPv4 and IPv6 at the same time (preferring IPv6), thus avoiding the usual problems faced by users with imperfect IPv6 connections or setups. If you want to revert to the old behavior of only doing an IPv4 lookup and only attempt a single IPv4 connection, you can set up theConnectorlike this:$connector = new React\Socket\Connector([ 'happy_eyeballs' => false ]);Similarly, you can also affect the default DNS behavior as follows. The
Connectorclass will try to detect your system DNS settings (and uses Google's public DNS server8.8.8.8as a fallback if unable to determine your system settings) to resolve all public hostnames into underlying IP addresses by default. If you explicitly want to use a custom DNS server (such as a local DNS relay or a company wide DNS server), you can set up theConnectorlike this:$connector = new React\Socket\Connector([ 'dns' => '127.0.1.1' ]); $connector->connect('localhost:80')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });If you do not want to use a DNS resolver at all and want to connect to IP addresses only, you can also set up your
Connectorlike this:$connector = new React\Socket\Connector([ 'dns' => false ]); $connector->connect('127.0.0.1:80')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });Advanced: If you need a custom DNS
React\Dns\Resolver\ResolverInterfaceinstance, you can also set up yourConnectorlike this:$dnsResolverFactory = new React\Dns\Resolver\Factory(); $resolver = $dnsResolverFactory->createCached('127.0.1.1'); $connector = new React\Socket\Connector([ 'dns' => $resolver ]); $connector->connect('localhost:80')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });By default, the
tcp://andtls://URI schemes will use timeout value that respects yourdefault_socket_timeoutini setting (which defaults to 60s). If you want a custom timeout value, you can simply pass this like this:$connector = new React\Socket\Connector([ 'timeout' => 10.0 ]);Similarly, if you do not want to apply a timeout at all and let the operating system handle this, you can pass a boolean flag like this:
$connector = new React\Socket\Connector([ 'timeout' => false ]);By default, the
Connectorsupports thetcp://,tls://andunix://URI schemes. If you want to explicitly prohibit any of these, you can simply pass boolean flags like this:// only allow secure TLS connections $connector = new React\Socket\Connector([ 'tcp' => false, 'tls' => true, 'unix' => false, )); $connector->connect('tls://google.com:443')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });The
tcp://andtls://also accept additional context options passed to the underlying connectors. If you want to explicitly pass additional context options, you can simply pass arrays of context options like this:// allow insecure TLS connections $connector = new React\Socket\Connector([ 'tcp' => [ 'bindto' => '192.168.0.1:0' ], 'tls' => [ 'verify_peer' => false, 'verify_peer_name' => false ], ]); $connector->connect('tls://localhost:443')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });By default, this connector supports TLSv1.0+ and excludes support for legacy SSLv2/SSLv3. You can also explicitly choose the TLS version you want to negotiate with the remote side:
$connector = new React\Socket\Connector([ 'tls' => [ 'crypto_method' => STREAM_CRYPTO_METHOD_TLSv1_2_CLIENT ] ]);For more details about context options, please refer to the PHP documentation about socket context options and SSL context options.
Advanced: By default, the
Connectorsupports thetcp://,tls://andunix://URI schemes. For this, it sets up the required connector classes automatically. If you want to explicitly pass custom connectors for any of these, you can simply pass an instance implementing theConnectorInterfacelike this:$dnsResolverFactory = new React\Dns\Resolver\Factory(); $resolver = $dnsResolverFactory->createCached('127.0.1.1'); $tcp = new React\Socket\HappyEyeBallsConnector(null, new React\Socket\TcpConnector(), $resolver); $tls = new React\Socket\SecureConnector($tcp); $unix = new React\Socket\UnixConnector(); $connector = new React\Socket\Connector([ 'tcp' => $tcp, 'tls' => $tls, 'unix' => $unix, 'dns' => false, 'timeout' => false, ]); $connector->connect('google.com:80')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });Internally, the
tcp://connector will always be wrapped by the DNS resolver, unless you disable DNS like in the above example. In this case, thetcp://connector receives the actual hostname instead of only the resolved IP address and is thus responsible for performing the lookup. Internally, the automatically createdtls://connector will always wrap the underlyingtcp://connector for establishing the underlying plaintext TCP/IP connection before enabling secure TLS mode. If you want to use a custom underlyingtcp://connector for secure TLS connections only, you may explicitly pass atls://connector like above instead. Internally, thetcp://andtls://connectors will always be wrapped byTimeoutConnector, unless you disable timeouts like in the above example.This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.The
TcpConnectorclass implements theConnectorInterfaceand allows you to create plaintext TCP/IP connections to any IP-port-combination:$tcpConnector = new React\Socket\TcpConnector(); $tcpConnector->connect('127.0.0.1:80')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });See also the examples.
Pending connection attempts can be cancelled by cancelling its pending promise like so:
$promise = $tcpConnector->connect('127.0.0.1:80'); $promise->cancel();Calling
cancel()on a pending promise will close the underlying socket resource, thus cancelling the pending TCP/IP connection, and reject the resulting promise.This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.You can optionally pass additional socket context options to the constructor like this:
$tcpConnector = new React\Socket\TcpConnector(null, [ 'bindto' => '192.168.0.1:0' ]);Note that this class only allows you to connect to IP-port-combinations. If the given URI is invalid, does not contain a valid IP address and port or contains any other scheme, it will reject with an
InvalidArgumentException:If the given URI appears to be valid, but connecting to it fails (such as if the remote host rejects the connection etc.), it will reject with a
RuntimeException.If you want to connect to hostname-port-combinations, see also the following chapter.
Advanced usage: Internally, the
TcpConnectorallocates an empty context resource for each stream resource. If the destination URI contains ahostnamequery parameter, its value will be used to set up the TLS peer name. This is used by theSecureConnectorandDnsConnectorto verify the peer name and can also be used if you want a custom TLS peer name.The
HappyEyeBallsConnectorclass implements theConnectorInterfaceand allows you to create plaintext TCP/IP connections to any hostname-port-combination. Internally it implements the happy eyeballs algorithm fromRFC6555andRFC8305to support IPv6 and IPv4 hostnames.It does so by decorating a given
TcpConnectorinstance so that it first looks up the given domain name via DNS (if applicable) and then establishes the underlying TCP/IP connection to the resolved target IP address.Make sure to set up your DNS resolver and underlying TCP connector like this:
$dnsResolverFactory = new React\Dns\Resolver\Factory(); $dns = $dnsResolverFactory->createCached('8.8.8.8'); $dnsConnector = new React\Socket\HappyEyeBallsConnector(null, $tcpConnector, $dns); $dnsConnector->connect('www.google.com:80')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });See also the examples.
Pending connection attempts can be cancelled by cancelling its pending promise like so:
$promise = $dnsConnector->connect('www.google.com:80'); $promise->cancel();Calling
cancel()on a pending promise will cancel the underlying DNS lookups and/or the underlying TCP/IP connection(s) and reject the resulting promise.This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.Advanced usage: Internally, the
HappyEyeBallsConnectorrelies on aResolverto look up the IP addresses for the given hostname. It will then replace the hostname in the destination URI with this IP's and append ahostnamequery parameter and pass this updated URI to the underlying connector. The Happy Eye Balls algorithm describes looking the IPv6 and IPv4 address for the given hostname so this connector sends out two DNS lookups for the A and AAAA records. It then uses all IP addresses (both v6 and v4) and tries to connect to all of them with a 50ms interval in between. Alterating between IPv6 and IPv4 addresses. When a connection is established all the other DNS lookups and connection attempts are cancelled.The
DnsConnectorclass implements theConnectorInterfaceand allows you to create plaintext TCP/IP connections to any hostname-port-combination.It does so by decorating a given
TcpConnectorinstance so that it first looks up the given domain name via DNS (if applicable) and then establishes the underlying TCP/IP connection to the resolved target IP address.Make sure to set up your DNS resolver and underlying TCP connector like this:
$dnsResolverFactory = new React\Dns\Resolver\Factory(); $dns = $dnsResolverFactory->createCached('8.8.8.8'); $dnsConnector = new React\Socket\DnsConnector($tcpConnector, $dns); $dnsConnector->connect('www.google.com:80')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write('...'); $connection->end(); });See also the examples.
Pending connection attempts can be cancelled by cancelling its pending promise like so:
$promise = $dnsConnector->connect('www.google.com:80'); $promise->cancel();Calling
cancel()on a pending promise will cancel the underlying DNS lookup and/or the underlying TCP/IP connection and reject the resulting promise.Advanced usage: Internally, the
DnsConnectorrelies on aReact\Dns\Resolver\ResolverInterfaceto look up the IP address for the given hostname. It will then replace the hostname in the destination URI with this IP and append ahostnamequery parameter and pass this updated URI to the underlying connector. The underlying connector is thus responsible for creating a connection to the target IP address, while this query parameter can be used to check the original hostname and is used by theTcpConnectorto set up the TLS peer name. If ahostnameis given explicitly, this query parameter will not be modified, which can be useful if you want a custom TLS peer name.The
SecureConnectorclass implements theConnectorInterfaceand allows you to create secure TLS (formerly known as SSL) connections to any hostname-port-combination.It does so by decorating a given
DnsConnectorinstance so that it first creates a plaintext TCP/IP connection and then enables TLS encryption on this stream.$secureConnector = new React\Socket\SecureConnector($dnsConnector); $secureConnector->connect('www.google.com:443')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write("GET / HTTP/1.0\r\nHost: www.google.com\r\n\r\n"); ... });See also the examples.
Pending connection attempts can be cancelled by cancelling its pending promise like so:
$promise = $secureConnector->connect('www.google.com:443'); $promise->cancel();Calling
cancel()on a pending promise will cancel the underlying TCP/IP connection and/or the SSL/TLS negotiation and reject the resulting promise.This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.You can optionally pass additional SSL context options to the constructor like this:
$secureConnector = new React\Socket\SecureConnector($dnsConnector, null, [ 'verify_peer' => false, 'verify_peer_name' => false ]);By default, this connector supports TLSv1.0+ and excludes support for legacy SSLv2/SSLv3. You can also explicitly choose the TLS version you want to negotiate with the remote side:
$secureConnector = new React\Socket\SecureConnector($dnsConnector, null, [ 'crypto_method' => STREAM_CRYPTO_METHOD_TLSv1_2_CLIENT ]);Advanced usage: Internally, the
SecureConnectorrelies on setting up the required context options on the underlying stream resource. It should therefor be used with aTcpConnectorsomewhere in the connector stack so that it can allocate an empty context resource for each stream resource and verify the peer name. Failing to do so may result in a TLS peer name mismatch error or some hard to trace race conditions, because all stream resources will use a single, shared default context resource otherwise.The
TimeoutConnectorclass implements theConnectorInterfaceand allows you to add timeout handling to any existing connector instance.It does so by decorating any given
ConnectorInterfaceinstance and starting a timer that will automatically reject and abort any underlying connection attempt if it takes too long.$timeoutConnector = new React\Socket\TimeoutConnector($connector, 3.0); $timeoutConnector->connect('google.com:80')->then(function (React\Socket\ConnectionInterface $connection) { // connection succeeded within 3.0 seconds });See also any of the examples.
This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.Pending connection attempts can be cancelled by cancelling its pending promise like so:
$promise = $timeoutConnector->connect('google.com:80'); $promise->cancel();Calling
cancel()on a pending promise will cancel the underlying connection attempt, abort the timer and reject the resulting promise.The
UnixConnectorclass implements theConnectorInterfaceand allows you to connect to Unix domain socket (UDS) paths like this:$connector = new React\Socket\UnixConnector(); $connector->connect('/tmp/demo.sock')->then(function (React\Socket\ConnectionInterface $connection) { $connection->write("HELLO\n"); });Connecting to Unix domain sockets is an atomic operation, i.e. its promise will settle (either resolve or reject) immediately. As such, calling
cancel()on the resulting promise has no effect.The
getRemoteAddress()method will return the target Unix domain socket (UDS) path as given to theconnect()method, prepended with theunix://scheme, for exampleunix:///tmp/demo.sock. ThegetLocalAddress()method will most likely return anullvalue as this value is not applicable to UDS connections here.This class takes an optional
LoopInterface|null $loopparameter that can be used to pass the event loop instance to use for this object. You can use anullvalue here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.The
FixedUriConnectorclass implements theConnectorInterfaceand decorates an existing Connector to always use a fixed, preconfigured URI.This can be useful for consumers that do not support certain URIs, such as when you want to explicitly connect to a Unix domain socket (UDS) path instead of connecting to a default address assumed by an higher-level API:
$connector = new React\Socket\FixedUriConnector( 'unix:///var/run/docker.sock', new React\Socket\UnixConnector() ); // destination will be ignored, actually connects to Unix domain socket $promise = $connector->connect('localhost:80');The recommended way to install this library is through Composer. New to Composer?
Once released, this project will follow SemVer. At the moment, this will install the latest development version:
composer require react/socket:^3@devSee also the CHANGELOG for details about version upgrades.
This project aims to run on any platform and thus does not require any PHP extensions and supports running on PHP 7.1 through current PHP 8+. It's highly recommended to use the latest supported PHP version for this project.
Legacy PHP < 7.3.3 (and PHP < 7.2.15) suffers from a bug where feof() might block with 100% CPU usage on fragmented TLS records. We try to work around this by always consuming the complete receive buffer at once to avoid stale data in TLS buffers. This is known to work around high CPU usage for well-behaving peers, but this may cause very large data chunks for high throughput scenarios. The buggy behavior can still be triggered due to network I/O buffers or malicious peers on affected versions, upgrading is highly recommended.
Legacy PHP < 7.1.4 suffers from a bug when writing big chunks of data over TLS streams at once. We try to work around this by limiting the write chunk size to 8192 bytes for older PHP versions only. This is only a work-around and has a noticable performance penalty on affected versions.
To run the test suite, you first need to clone this repo and then install all dependencies through Composer:
composer installTo run the test suite, go to the project root and run:
vendor/bin/phpunitThe test suite also contains a number of functional integration tests that rely on a stable internet connection. If you do not want to run these, they can simply be skipped like this:
vendor/bin/phpunit --exclude-group internetMIT, see LICENSE file.
