stream

Event-driven readable and writable streams for non-blocking I/O in ReactPHP.

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Stream

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Event-driven readable and writable streams for non-blocking I/O in 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.x branch.

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.

In order to make the EventLoop
easier to use, this component introduces the powerful concept of “streams”.
Streams allow you to efficiently process huge amounts of data (such as a multi
Gigabyte file download) in small chunks without having to store everything in
memory at once.
They are very similar to the streams found in PHP itself,
but have an interface more suited for async, non-blocking I/O.

Table of contents

Stream usage

ReactPHP uses the concept of “streams” throughout its ecosystem to provide a
consistent higher-level abstraction for processing streams of arbitrary data
contents and size.
While a stream itself is a quite low-level concept, it can be used as a powerful
abstraction to build higher-level components and protocols on top.

If you’re new to this concept, it helps to think of them as a water pipe:
You can consume water from a source or you can produce water and forward (pipe)
it to any destination (sink).

Similarly, streams can either be

  • readable (such as STDIN terminal input) or
  • writable (such as STDOUT terminal output) or
  • duplex (both readable and writable, such as a TCP/IP connection)

Accordingly, this package defines the following three interfaces

ReadableStreamInterface

The ReadableStreamInterface is responsible for providing an interface for
read-only streams and the readable side of duplex streams.

Besides defining a few methods, this interface also implements the
EventEmitterInterface which allows you to react to certain events.

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.

data event

The data event will be emitted whenever some data was read/received
from this source stream.
The event receives a single mixed argument for incoming data.

$stream->on('data', function (mixed $data): void {
    echo $data;
});

This event MAY be emitted any number of times, which may be zero times if
this stream does not send any data at all.
It SHOULD not be emitted after an end or close event.

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 emit the raw (binary) payload data that is received 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.

end event

The end event will be emitted once the source stream has successfully
reached the end of the stream (EOF).

$stream->on('end', function (): void {
    echo 'END';
});

This event SHOULD be emitted once or never at all, depending on whether
a successful end was detected.
It SHOULD NOT be emitted after a previous end or close event.
It MUST NOT be emitted if the stream closes due to a non-successful
end, such as after a previous error event.

After the stream is ended, it MUST switch to non-readable mode,
see also isReadable().

This event will only be emitted if the end was reached successfully,
not if the stream was interrupted by an unrecoverable error or explicitly
closed. Not all streams know this concept of a “successful end”.
Many use-cases involve detecting when the stream closes (terminates)
instead, in this case you should use the close event.
After the stream emits an end event, it SHOULD usually be followed by a
close event.

Many common streams (such as a TCP/IP connection or a file-based stream)
will emit this event if either the remote side closes the connection or
a file handle was successfully read until reaching its end (EOF).

Note that this event should not be confused with the end() method.
This event defines a successful end reading from a source stream, while
the end() method defines writing a successful end to a destination
stream.

error event

The error event will be emitted once a fatal error occurs, usually while
trying to read from this stream.
The event receives a single Exception argument for the error instance.

$server->on('error', function (Exception $e): void {
    echo 'Error: ' . $e->getMessage() . PHP_EOL;
});

This event SHOULD be emitted once the stream detects a fatal error, such
as a fatal transmission error or after an unexpected data or premature
end event.
It SHOULD NOT be emitted after a previous error, end or close event.
It MUST NOT be emitted if this is not a fatal error condition, such as
a temporary network issue that did not cause any data to be lost.

After the stream errors, it MUST close the stream and SHOULD thus be
followed by a close event and then switch to non-readable mode, see
also close() and isReadable().

Many common streams (such as a TCP/IP connection or a file-based stream)
only deal with data transmission and do not make assumption about data
boundaries (such as unexpected data or premature end events).
In other words, many lower-level protocols (such as TCP/IP) may choose
to only emit this for a fatal transmission error once and will then
close (terminate) the stream in response.

If this stream is a DuplexStreamInterface, you should also notice
how the writable side of the stream also implements an error event.
In other words, an error may occur while either reading or writing the
stream which should result in the same error processing.

close event

The close event will be emitted once the stream closes (terminates).

$stream->on('close', function (): void {
    echo 'CLOSED';
});

This event SHOULD be emitted once or never at all, depending on whether
the stream ever terminates.
It SHOULD NOT be emitted after a previous close event.

After the stream is closed, it MUST switch to non-readable mode,
see also isReadable().

Unlike the end event, this event SHOULD be emitted whenever the stream
closes, irrespective of whether this happens implicitly due to an
unrecoverable error or explicitly when either side closes the stream.
If you only want to detect a successful end, you should use the end
event instead.

Many common streams (such as a TCP/IP connection or a file-based stream)
will likely choose to emit this event after reading a successful end
event or after a fatal transmission error event.

If this stream is a DuplexStreamInterface, you should also notice
how the writable side of the stream also implements a close event.
In other words, after receiving this event, the stream MUST switch into
non-writable AND non-readable mode, see also isWritable().
Note that this event should not be confused with the end event.

isReadable()

The isReadable(): bool method can be used to
check whether this stream is in a readable state (not closed already).

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.

pause()

The pause(): void method can be used to
pause reading incoming data events.

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.

See also resume().

resume()

The resume(): void method can be used to
resume reading incoming data events.

Re-attach the data source after a previous pause().

$stream->pause();

Loop::addTimer(1.0, function () use ($stream): void {
    $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.

See also pause().

pipe()

The pipe(WritableStreamInterface $dest, array $options = []): WritableStreamInterface method can be used to
pipe all the data from this readable source into the given writable destination.

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, ['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): void {
    $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.

close()

The close(): void method can be used to
close the stream (forcefully).

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.

WritableStreamInterface

The WritableStreamInterface is responsible for providing an interface for
write-only streams and the writable side of duplex streams.

Besides defining a few methods, this interface also implements the
EventEmitterInterface which allows you to react to certain events.

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.

drain event

The drain event will be emitted whenever the write buffer became full
previously and is now ready to accept more data.

$stream->on('drain', function () use ($stream): void {
    echo 'Stream is now ready to accept more data';
});

This event SHOULD be emitted once every time the buffer became full
previously and is now ready to accept more data.
In other words, this event MAY be emitted any number of times, which may
be zero times if the buffer never became full in the first place.
This event SHOULD NOT be emitted if the buffer has not become full
previously.

This event is mostly used internally, see also write() for more details.

pipe event

The pipe event will be emitted whenever a readable stream is pipe()d
into this stream.
The event receives a single ReadableStreamInterface argument for the
source stream.

$stream->on('pipe', function (ReadableStreamInterface $source) use ($stream): void {
    echo 'Now receiving piped data';

    // explicitly close target if source emits an error
    $source->on('error', function () use ($stream): void {
        $stream->close();
    });
});

$source->pipe($stream);

This event MUST be emitted once for each readable stream that is
successfully piped into this destination stream.
In other words, this event MAY be emitted any number of times, which may
be zero times if no stream is ever piped into this stream.
This event MUST NOT be emitted if either the source is not readable
(closed already) or this destination is not writable (closed already).

This event is mostly used internally, see also pipe() for more details.

error event

The error event will be emitted once a fatal error occurs, usually while
trying to write to this stream.
The event receives a single Exception argument for the error instance.

$stream->on('error', function (Exception $e): void {
    echo 'Error: ' . $e->getMessage() . PHP_EOL;
});

This event SHOULD be emitted once the stream detects a fatal error, such
as a fatal transmission error.
It SHOULD NOT be emitted after a previous error or close event.
It MUST NOT be emitted if this is not a fatal error condition, such as
a temporary network issue that did not cause any data to be lost.

After the stream errors, it MUST close the stream and SHOULD thus be
followed by a close event and then switch to non-writable mode, see
also close() and isWritable().

Many common streams (such as a TCP/IP connection or a file-based stream)
only deal with data transmission and may choose
to only emit this for a fatal transmission error once and will then
close (terminate) the stream in response.

If this stream is a DuplexStreamInterface, you should also notice
how the readable side of the stream also implements an error event.
In other words, an error may occur while either reading or writing the
stream which should result in the same error processing.

close event

The close event will be emitted once the stream closes (terminates).

$stream->on('close', function (): void {
    echo 'CLOSED';
});

This event SHOULD be emitted once or never at all, depending on whether
the stream ever terminates.
It SHOULD NOT be emitted after a previous close event.

After the stream is closed, it MUST switch to non-writable mode,
see also isWritable().

This event SHOULD be emitted whenever the stream closes, irrespective of
whether this happens implicitly due to an unrecoverable error or
explicitly when either side closes the stream.

Many common streams (such as a TCP/IP connection or a file-based stream)
will likely choose to emit this event after flushing the buffer from
the end() method, after receiving a successful end event or after
a fatal transmission error event.

If this stream is a DuplexStreamInterface, you should also notice
how the readable side of the stream also implements a close event.
In other words, after receiving this event, the stream MUST switch into
non-writable AND non-readable mode, see also isReadable().
Note that this event should not be confused with the end event.

isWritable()

The isWritable(): bool method can be used to
check whether this stream is in a writable state (not closed already).

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.

write()

The write(mixed $data): bool method can be used to
write some data into the stream.

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.

end()

The end(mixed $data = null): void method can be used to
successfully end the stream (after optionally sending some final data).

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.

close()

The close(): void method can be used to
close the stream (forcefully).

This method can be used to forcefully close the stream, i.e. close
the stream without waiting for any buffered data to be flushed.
If there’s still data in the buffer, this data SHOULD be discarded.

$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-writable
mode, see also isWritable().
This means that no further writes are possible, so any additional
write() or end() calls have no effect.

$stream->close();
assert($stream->isWritable() === false);

$stream->write('nope'); // NO-OP
$stream->end(); // NO-OP

Note that this method should not be confused with the end() method.
Unlike the end() method, this method does not take care of any existing
buffers and simply discards any buffer contents.
Likewise, this method may also be called after calling end() on a
stream in order to stop waiting for the stream to flush its final data.

$stream->end();
Loop::addTimer(1.0, function () use ($stream): void {
    $stream->close();
});

If this stream is a DuplexStreamInterface, you should also notice
how the readable 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 isReadable().

DuplexStreamInterface

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.

See also ReadableStreamInterface and
WritableStreamInterface for more details.

Creating streams

ReactPHP uses the concept of “streams” throughout its ecosystem, so that
many higher-level consumers of this package only deal with
stream usage.
This implies that stream instances are most often created within some
higher-level components and many consumers never actually have to deal with
creating a stream instance.

  • Use react/socket
    if you want to accept incoming or establish outgoing plaintext TCP/IP or
    secure TLS socket connection streams.
  • Use react/http
    if you want to receive an incoming HTTP request body streams.
  • Use react/child-process
    if you want to communicate with child processes via process pipes such as
    STDIN, STDOUT, STDERR etc.
  • Use experimental react/filesystem
    if you want to read from / write to the filesystem.
  • See also the last chapter for more real-world applications.

However, if you are writing a lower-level component or want to create a stream
instance from a stream resource, then the following chapter is for you.

Note that the following examples use fopen() and stream_socket_client()
for illustration purposes only.
These functions SHOULD NOT be used in a truly async program because each call
may take several seconds to complete and would block the EventLoop otherwise.
Additionally, the fopen() call will return a file handle on some platforms
which may or may not be supported by all EventLoop implementations.
As an alternative, you may want to use higher-level libraries listed above.

ReadableResourceStream

The ReadableResourceStream is a concrete implementation of the
ReadableStreamInterface for PHP’s stream resources.

This can be used to represent a read-only resource like a file stream opened in
readable mode or a stream such as STDIN:

$stream = new ReadableResourceStream(STDIN);
$stream->on('data', function (string $chunk): void {
    echo $chunk;
});
$stream->on('end', function (): void {
    echo 'END';
});

See also ReadableStreamInterface for more details.

The first parameter given to the constructor MUST be a valid stream resource
that is opened in reading mode (e.g. fopen() mode r).
Otherwise, it will throw an InvalidArgumentException:

// throws InvalidArgumentException
$stream = new ReadableResourceStream(false);

See also the DuplexResourceStream for read-and-write
stream resources otherwise.

Internally, this class tries to enable non-blocking mode on the stream resource
which may not be supported for all stream resources.
Most notably, this is not supported by pipes on Windows (STDIN etc.).
If this fails, it will throw a RuntimeException:

// throws RuntimeException on Windows
$stream = new ReadableResourceStream(STDIN);

Once the constructor is called with a valid stream resource, this class will
take care of the underlying stream resource.
You SHOULD only use its public API and SHOULD NOT interfere with the underlying
stream resource manually.

This class takes an optional LoopInterface|null $loop parameter that can be used to
pass the event loop instance to use for this object. You can use a null value
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.

This class takes an optional int|null $readChunkSize parameter that controls
the maximum buffer size in bytes to read at once from the stream.
You can use a null value here in order to apply its default value.
This value SHOULD NOT be changed unless you know what you’re doing.
This can be a positive number which means that up to X bytes will be read
at once from the underlying stream resource. Note that the actual number
of bytes read may be lower if the stream resource has less than X bytes
currently available.
This can be -1 which means “read everything available” from the
underlying stream resource.
This should read until the stream resource is not readable anymore
(i.e. underlying buffer drained), note that this does not neccessarily
mean it reached EOF.

$stream = new ReadableResourceStream(STDIN, null, 8192);

PHP bug warning: If the PHP process has explicitly been started without a
STDIN stream, then trying to read from STDIN may return data from
another stream resource. This does not happen if you start this with an empty
stream like php test.php < /dev/null instead of php test.php <&-.
See #81 for more details.

Changelog: As of v1.2.0 the $loop parameter can be omitted (or skipped with a
null value) to use the default loop.

WritableResourceStream

The WritableResourceStream is a concrete implementation of the
WritableStreamInterface for PHP’s stream resources.

This can be used to represent a write-only resource like a file stream opened in
writable mode or a stream such as STDOUT or STDERR:

$stream = new WritableResourceStream(STDOUT);
$stream->write('hello!');
$stream->end();

See also WritableStreamInterface for more details.

The first parameter given to the constructor MUST be a valid stream resource
that is opened for writing.
Otherwise, it will throw an InvalidArgumentException:

// throws InvalidArgumentException
$stream = new WritableResourceStream(false);

See also the DuplexResourceStream for read-and-write
stream resources otherwise.

Internally, this class tries to enable non-blocking mode on the stream resource
which may not be supported for all stream resources.
Most notably, this is not supported by pipes on Windows (STDOUT, STDERR etc.).
If this fails, it will throw a RuntimeException:

// throws RuntimeException on Windows
$stream = new WritableResourceStream(STDOUT);

Once the constructor is called with a valid stream resource, this class will
take care of the underlying stream resource.
You SHOULD only use its public API and SHOULD NOT interfere with the underlying
stream resource manually.

Any write() calls to this class will not be performed instantly, but will
be performed asynchronously, once the EventLoop reports the stream resource is
ready to accept data.
For this, it uses an in-memory buffer string to collect all outstanding writes.
This buffer has a soft-limit applied which defines how much data it is willing
to accept before the caller SHOULD stop sending further data.

This class takes an optional LoopInterface|null $loop parameter that can be used to
pass the event loop instance to use for this object. You can use a null value
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.

This class takes an optional int|null $writeBufferSoftLimit parameter that controls
this maximum buffer size in bytes.
You can use a null value here in order to apply its default value.
This value SHOULD NOT be changed unless you know what you’re doing.

$stream = new WritableResourceStream(STDOUT, null, 8192);

This class takes an optional int|null $writeChunkSize parameter that controls
this maximum buffer size in bytes to write at once to the stream.
You can use a null value here in order to apply its default value.
This value SHOULD NOT be changed unless you know what you’re doing.
This can be a positive number which means that up to X bytes will be written
at once to the underlying stream resource. Note that the actual number
of bytes written may be lower if the stream resource has less than X bytes
currently available.
This can be -1 which means “write everything available” to the
underlying stream resource.

$stream = new WritableResourceStream(STDOUT, null, null, 8192);

See also write() for more details.

Changelog: As of v1.2.0 the $loop parameter can be omitted (or skipped with a
null value) to use the default loop.

DuplexResourceStream

The DuplexResourceStream is a concrete implementation of the
DuplexStreamInterface for PHP’s stream resources.

This can be used to represent a read-and-write resource like a file stream opened
in read and write mode mode or a stream such as a TCP/IP connection:

$conn = stream_socket_client('tcp://google.com:80');
$stream = new DuplexResourceStream($conn);
$stream->write('hello!');
$stream->end();

See also DuplexStreamInterface for more details.

The first parameter given to the constructor MUST be a valid stream resource
that is opened for reading and writing.
Otherwise, it will throw an InvalidArgumentException:

// throws InvalidArgumentException
$stream = new DuplexResourceStream(false);

See also the ReadableResourceStream for read-only
and the WritableResourceStream for write-only
stream resources otherwise.

Internally, this class tries to enable non-blocking mode on the stream resource
which may not be supported for all stream resources.
Most notably, this is not supported by pipes on Windows (STDOUT, STDERR etc.).
If this fails, it will throw a RuntimeException:

// throws RuntimeException on Windows
$stream = new DuplexResourceStream(STDOUT);

Once the constructor is called with a valid stream resource, this class will
take care of the underlying stream resource.
You SHOULD only use its public API and SHOULD NOT interfere with the underlying
stream resource manually.

This class takes an optional LoopInterface|null $loop parameter that can be used to
pass the event loop instance to use for this object. You can use a null value
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.

This class takes an optional int|null $readChunkSize parameter that controls
the maximum buffer size in bytes to read at once from the stream.
You can use a null value here in order to apply its default value.
This value SHOULD NOT be changed unless you know what you’re doing.
This can be a positive number which means that up to X bytes will be read
at once from the underlying stream resource. Note that the actual number
of bytes read may be lower if the stream resource has less than X bytes
currently available.
This can be -1 which means “read everything available” from the
underlying stream resource.
This should read until the stream resource is not readable anymore
(i.e. underlying buffer drained), note that this does not neccessarily
mean it reached EOF.

$conn = stream_socket_client('tcp://google.com:80');
$stream = new DuplexResourceStream($conn, null, 8192);

Any write() calls to this class will not be performed instantly, but will
be performed asynchronously, once the EventLoop reports the stream resource is
ready to accept data.
For this, it uses an in-memory buffer string to collect all outstanding writes.
This buffer has a soft-limit applied which defines how much data it is willing
to accept before the caller SHOULD stop sending further data.

This class takes another optional WritableStreamInterface|null $buffer parameter
that controls this write behavior of this stream.
You can use a null value here in order to apply its default value.
This value SHOULD NOT be changed unless you know what you’re doing.

If you want to change the write buffer soft limit, you can pass an instance of
WritableResourceStream like this:

$conn = stream_socket_client('tcp://google.com:80');
$buffer = new WritableResourceStream($conn, null, 8192);
$stream = new DuplexResourceStream($conn, null, null, $buffer);

See also WritableResourceStream for more details.

Changelog: As of v1.2.0 the $loop parameter can be omitted (or skipped with a
null value) to use the default loop.

ThroughStream

The ThroughStream implements the
DuplexStreamInterface and will simply pass any data
you write to it through to its readable end.

$through = new ThroughStream();
$through->on('data', $this->expectCallableOnceWith('hello'));

$through->write('hello');

Similarly, the end() method will end the stream and emit an
end event and then close() the stream.
The close() method will close the stream and emit a
close event.
Accordingly, this is can also be used in a pipe() context like this:

$through = new ThroughStream();
$source->pipe($through)->pipe($dest);

Optionally, its constructor accepts any callable function which will then be
used to filter any data written to it. This function receives a single data
argument as passed to the writable side and must return the data as it will be
passed to its readable end:

$through = new ThroughStream('strtoupper');
$source->pipe($through)->pipe($dest);

Note that this class makes no assumptions about any data types. This can be
used to convert data, for example for transforming any structured data into
a newline-delimited JSON (NDJSON) stream like this:

$through = new ThroughStream(function (mixed $data): string {
    return json_encode($data) . PHP_EOL;
});
$through->on('data', $this->expectCallableOnceWith("[2, true]\n"));

$through->write([2, true]);

The callback function is allowed to throw an Exception. In this case,
the stream will emit an error event and then close() the stream.

$through = new ThroughStream(function (mixed $data): string {
    if (!is_string($data)) {
        throw new \UnexpectedValueException('Only strings allowed');
    }
    return $data;
});
$through->on('error', $this->expectCallableOnce()));
$through->on('close', $this->expectCallableOnce()));
$through->on('data', $this->expectCallableNever()));

$through->write(2);

CompositeStream

The CompositeStream implements the
DuplexStreamInterface and can be used to create a
single duplex stream from two individual streams implementing
ReadableStreamInterface and
WritableStreamInterface respectively.

This is useful for some APIs which may require a single
DuplexStreamInterface or simply because it’s often
more convenient to work with a single stream instance like this:

$stdin = new ReadableResourceStream(STDIN);
$stdout = new WritableResourceStream(STDOUT);

$stdio = new CompositeStream($stdin, $stdout);

$stdio->on('data', function (string $chunk) use ($stdio): void {
    $stdio->write('You said: ' . $chunk);
});

This is a well-behaving stream which forwards all stream events from the
underlying streams and forwards all streams calls to the underlying streams.

If you write() to the duplex stream, it will simply write() to the
writable side and return its status.

If you end() the duplex stream, it will end() the writable side and will
pause() the readable side.

If you close() the duplex stream, both input streams will be closed.
If either of the two input streams emits a close event, the duplex stream
will also close.
If either of the two input streams is already closed while constructing the
duplex stream, it will close() the other side and return a closed stream.

Usage

The following example can be used to pipe the contents of a source file into
a destination file without having to ever read the whole file into memory:

$source = new React\Stream\ReadableResourceStream(fopen('source.txt', 'r'));
$dest = new React\Stream\WritableResourceStream(fopen('destination.txt', 'w'));

$source->pipe($dest);

Note that this example uses fopen() for illustration purposes only.
This should not be used in a truly async program because the filesystem is
inherently blocking and each call could potentially take several seconds.
See also creating streams for more sophisticated
examples.

Install

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/stream:^3@dev

See 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.

Tests

To run the test suite, you first need to clone this repo and then install all
dependencies through Composer:

composer install

To run the test suite, go to the project root and run:

vendor/bin/phpunit

The 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 internet

On top of this, we use PHPStan on max level to ensure type safety across the project:

vendor/bin/phpstan

License

MIT, see LICENSE file.

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