DuplexStreamInterface
extends
ReadableStreamInterface, WritableStreamInterface
in
The `DuplexStreamInterface` is responsible for providing an interface for duplex streams (both readable and writable).
It builds on top of the existing interfaces for readable and writable streams
and follows the exact same method and event semantics.
If you're new to this concept, you should look into the
ReadableStreamInterface
and WritableStreamInterface
first.
Besides defining a few methods, this interface also implements the
EventEmitterInterface
which allows you to react to the same events defined
on the ReadbleStreamInterface
and WritableStreamInterface
.
The event callback functions MUST be a valid callable
that obeys strict
parameter definitions and MUST accept event parameters exactly as documented.
The event callback functions MUST NOT throw an Exception
.
The return value of the event callback functions will be ignored and has no
effect, so for performance reasons you're recommended to not return any
excessive data structures.
Every implementation of this interface MUST follow these event semantics in order to be considered a well-behaving stream.
Note that higher-level implementations of this interface may choose to define additional events with dedicated semantics not defined as part of this low-level stream specification. Conformance with these event semantics is out of scope for this interface, so you may also have to refer to the documentation of such a higher-level implementation.
Tags
Table of Contents
Methods
- close() : void
- Closes the stream (forcefully).
- emit() : mixed
- end() : void
- Successfully ends the stream (after optionally sending some final data).
- isReadable() : bool
- Checks whether this stream is in a readable state (not closed already).
- isWritable() : bool
- Checks whether this stream is in a writable state (not closed already).
- listeners() : mixed
- on() : mixed
- once() : mixed
- pause() : void
- Pauses reading incoming data events.
- pipe() : WritableStreamInterface
- Pipes all the data from this readable source into the given writable destination.
- removeAllListeners() : mixed
- removeListener() : mixed
- resume() : void
- Resumes reading incoming data events.
- write() : bool
- Write some data into the stream.
Methods
close()
Closes the stream (forcefully).
public
close() : void
This method can be used to (forcefully) close the stream.
$stream->close();
Once the stream is closed, it SHOULD emit a close
event.
Note that this event SHOULD NOT be emitted more than once, in particular
if this method is called multiple times.
After calling this method, the stream MUST switch into a non-readable
mode, see also isReadable()
.
This means that no further data
or end
events SHOULD be emitted.
$stream->close();
assert($stream->isReadable() === false);
$stream->on('data', assertNeverCalled());
$stream->on('end', assertNeverCalled());
If this stream is a DuplexStreamInterface
, you should also notice
how the writable side of the stream also implements a close()
method.
In other words, after calling this method, the stream MUST switch into
non-writable AND non-readable mode, see also isWritable()
.
Note that this method should not be confused with the end()
method.
Tags
emit()
public
emit(mixed $event[, array<string|int, mixed> $arguments = [] ]) : mixed
Parameters
- $event : mixed
- $arguments : array<string|int, mixed> = []
end()
Successfully ends the stream (after optionally sending some final data).
public
end([mixed|string|null $data = null ]) : void
This method can be used to successfully end the stream, i.e. close the stream after sending out all data that is currently buffered.
$stream->write('hello');
$stream->write('world');
$stream->end();
If there's no data currently buffered and nothing to be flushed, then
this method MAY close()
the stream immediately.
If there's still data in the buffer that needs to be flushed first, then
this method SHOULD try to write out this data and only then close()
the stream.
Once the stream is closed, it SHOULD emit a close
event.
Note that this interface gives you no control over explicitly flushing the buffered data, as finding the appropriate time for this is beyond the scope of this interface and left up to the implementation of this interface.
Many common streams (such as a TCP/IP connection or file-based stream) may choose to buffer all given data and schedule a future flush by using an underlying EventLoop to check when the resource is actually writable.
You can optionally pass some final data that is written to the stream
before ending the stream. If a non-null
value is given as $data
, then
this method will behave just like calling write($data)
before ending
with no data.
// shorter version
$stream->end('bye');
// same as longer version
$stream->write('bye');
$stream->end();
After calling this method, the stream MUST switch into a non-writable
mode, see also isWritable()
.
This means that no further writes are possible, so any additional
write()
or end()
calls have no effect.
$stream->end();
assert($stream->isWritable() === false);
$stream->write('nope'); // NO-OP
$stream->end(); // NO-OP
If this stream is a DuplexStreamInterface
, calling this method SHOULD
also end its readable side, unless the stream supports half-open mode.
In other words, after calling this method, these streams SHOULD switch
into non-writable AND non-readable mode, see also isReadable()
.
This implies that in this case, the stream SHOULD NOT emit any data
or end
events anymore.
Streams MAY choose to use the pause()
method logic for this, but
special care may have to be taken to ensure a following call to the
resume()
method SHOULD NOT continue emitting readable events.
Note that this method should not be confused with the close()
method.
Parameters
- $data : mixed|string|null = null
isReadable()
Checks whether this stream is in a readable state (not closed already).
public
isReadable() : bool
This method can be used to check if the stream still accepts incoming
data events or if it is ended or closed already.
Once the stream is non-readable, no further data
or end
events SHOULD
be emitted.
assert($stream->isReadable() === false);
$stream->on('data', assertNeverCalled());
$stream->on('end', assertNeverCalled());
A successfully opened stream always MUST start in readable mode.
Once the stream ends or closes, it MUST switch to non-readable mode.
This can happen any time, explicitly through close()
or
implicitly due to a remote close or an unrecoverable transmission error.
Once a stream has switched to non-readable mode, it MUST NOT transition
back to readable mode.
If this stream is a DuplexStreamInterface
, you should also notice
how the writable side of the stream also implements an isWritable()
method. Unless this is a half-open duplex stream, they SHOULD usually
have the same return value.
Return values
boolisWritable()
Checks whether this stream is in a writable state (not closed already).
public
isWritable() : bool
This method can be used to check if the stream still accepts writing any data or if it is ended or closed already. Writing any data to a non-writable stream is a NO-OP:
assert($stream->isWritable() === false);
$stream->write('end'); // NO-OP
$stream->end('end'); // NO-OP
A successfully opened stream always MUST start in writable mode.
Once the stream ends or closes, it MUST switch to non-writable mode.
This can happen any time, explicitly through end()
or close()
or
implicitly due to a remote close or an unrecoverable transmission error.
Once a stream has switched to non-writable mode, it MUST NOT transition
back to writable mode.
If this stream is a DuplexStreamInterface
, you should also notice
how the readable side of the stream also implements an isReadable()
method. Unless this is a half-open duplex stream, they SHOULD usually
have the same return value.
Return values
boollisteners()
public
listeners([mixed $event = null ]) : mixed
Parameters
- $event : mixed = null
on()
public
on(mixed $event, callable $listener) : mixed
Parameters
- $event : mixed
- $listener : callable
once()
public
once(mixed $event, callable $listener) : mixed
Parameters
- $event : mixed
- $listener : callable
pause()
Pauses reading incoming data events.
public
pause() : void
Removes the data source file descriptor from the event loop. This allows you to throttle incoming data.
Unless otherwise noted, a successfully opened stream SHOULD NOT start in paused state.
Once the stream is paused, no futher data
or end
events SHOULD
be emitted.
$stream->pause();
$stream->on('data', assertShouldNeverCalled());
$stream->on('end', assertShouldNeverCalled());
This method is advisory-only, though generally not recommended, the
stream MAY continue emitting data
events.
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.
Tags
pipe()
Pipes all the data from this readable source into the given writable destination.
public
pipe(WritableStreamInterface $dest[, array<string|int, mixed> $options = array() ]) : WritableStreamInterface
Automatically sends all incoming data to the destination. Automatically throttles the source based on what the destination can handle.
$source->pipe($dest);
Similarly, you can also pipe an instance implementing DuplexStreamInterface
into itself in order to write back all the data that is received.
This may be a useful feature for a TCP/IP echo service:
$connection->pipe($connection);
This method returns the destination stream as-is, which can be used to set up chains of piped streams:
$source->pipe($decodeGzip)->pipe($filterBadWords)->pipe($dest);
By default, this will call end()
on the destination stream once the
source stream emits an end
event. This can be disabled like this:
$source->pipe($dest, array('end' => false));
Note that this only applies to the end
event.
If an error
or explicit close
event happens on the source stream,
you'll have to manually close the destination stream:
$source->pipe($dest);
$source->on('close', function () use ($dest) {
$dest->end('BYE!');
});
If the source stream is not readable (closed state), then this is a NO-OP.
$source->close();
$source->pipe($dest); // NO-OP
If the destinantion stream is not writable (closed state), then this will simply throttle (pause) the source stream:
$dest->close();
$source->pipe($dest); // calls $source->pause()
Similarly, if the destination stream is closed while the pipe is still active, it will also throttle (pause) the source stream:
$source->pipe($dest);
$dest->close(); // calls $source->pause()
Once the pipe is set up successfully, the destination stream MUST emit
a pipe
event with this source stream an event argument.
Parameters
- $dest : WritableStreamInterface
- $options : array<string|int, mixed> = array()
Return values
WritableStreamInterface —$dest stream as-is
removeAllListeners()
public
removeAllListeners([mixed $event = null ]) : mixed
Parameters
- $event : mixed = null
removeListener()
public
removeListener(mixed $event, callable $listener) : mixed
Parameters
- $event : mixed
- $listener : callable
resume()
Resumes reading incoming data events.
public
resume() : void
Re-attach the data source after a previous pause()
.
$stream->pause();
Loop::addTimer(1.0, function () use ($stream) {
$stream->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.
Tags
write()
Write some data into the stream.
public
write(mixed|string $data) : bool
A successful write MUST be confirmed with a boolean true
, which means
that either the data was written (flushed) immediately or is buffered and
scheduled for a future write. Note that this interface gives you no
control over explicitly flushing the buffered data, as finding the
appropriate time for this is beyond the scope of this interface and left
up to the implementation of this interface.
Many common streams (such as a TCP/IP connection or file-based stream) may choose to buffer all given data and schedule a future flush by using an underlying EventLoop to check when the resource is actually writable.
If a stream cannot handle writing (or flushing) the data, it SHOULD emit
an error
event and MAY close()
the stream if it can not recover from
this error.
If the internal buffer is full after adding $data
, then write()
SHOULD return false
, indicating that the caller should stop sending
data until the buffer drains.
The stream SHOULD send a drain
event once the buffer is ready to accept
more data.
Similarly, if the stream is not writable (already in a closed state)
it MUST NOT process the given $data
and SHOULD return false
,
indicating that the caller should stop sending data.
The given $data
argument MAY be of mixed type, but it's usually
recommended it SHOULD be a string
value or MAY use a type that allows
representation as a string
for maximum compatibility.
Many common streams (such as a TCP/IP connection or a file-based stream)
will only accept the raw (binary) payload data that is transferred over
the wire as chunks of string
values.
Due to the stream-based nature of this, the sender may send any number of chunks with varying sizes. There are no guarantees that these chunks will be received with the exact same framing the sender intended to send. In other words, many lower-level protocols (such as TCP/IP) transfer the data in chunks that may be anywhere between single-byte values to several dozens of kilobytes. You may want to apply a higher-level protocol to these low-level data chunks in order to achieve proper message framing.
Parameters
- $data : mixed|string