PhutilChannel.php
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Created: Fri, May 24, 16:32

PhutilChannel.php
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	<?php

	/**
	* Wrapper around streams, pipes, and other things that have basic read/write
	* I/O characteristics.
	*
	* Channels include buffering, so you can do fire-and-forget writes and reads
	* without worrying about network/pipe buffers. Use @{method:read} and
	* @{method:write} to read and write.
	*
	* Channels are nonblocking and provide a select()-oriented interface so you
	* can reasonably write server-like and daemon-like things with them. Use
	* @{method:waitForAny} to select channels.
	*
	* Channel operations other than @{method:update} generally operate on buffers.
	* Writes and reads affect buffers, while @{method:update} flushes output
	* buffers and fills input buffers.
	*
	* Channels are either "open" or "closed". You can detect that a channel has
	* closed by calling @{method:isOpen} or examining the return value of
	* @{method:update}.
	*
	* NOTE: Channels are new (as of June 2012) and subject to interface changes.
	*
	* @task io Reading and Writing
	* @task wait Waiting for Activity
	* @task update Responding to Activity
	* @task impl Channel Implementation
	*/
	abstract class PhutilChannel extends Phobject {

	private $ibuf = '';
	private $obuf;
	private $name;
	private $readBufferSize;

	public function __construct() {
	$this->obuf = new PhutilRope();
	}


	/* -( Reading and Writing )------------------------------------------------ */


	/**
	* Read from the channel. A channel defines the format of data that is read
	* from it, so this method may return strings, objects, or anything else.
	*
	* The default implementation returns bytes.
	*
	* @return wild Data from the channel, normally bytes.
	*
	* @task io
	*/
	public function read() {
	$result = $this->ibuf;
	$this->ibuf = '';
	return $result;
	}


	/**
	* Write to the channel. A channel defines what data format it accepts,
	* so this method may take strings, objects, or anything else.
	*
	* The default implementation accepts bytes.
	*
	* @param wild Data to write to the channel, normally bytes.
	* @return this
	*
	* @task io
	*/
	public function write($bytes) {
	if (!is_scalar($bytes)) {
	throw new Exception(
	pht(
	'%s may only write strings!',
	__METHOD__.'()'));
	}

	$this->obuf->append($bytes);
	return $this;
	}


	/* -( Waiting for Activity )----------------------------------------------- */


	/**
	* Wait for any activity on a list of channels. Convenience wrapper around
	* @{method:waitForActivity}.
	*
	* @param list<PhutilChannel> A list of channels to wait for.
	* @param dict Options, see above.
	* @return void
	*
	* @task wait
	*/
	public static function waitForAny(array $channels, array $options = array()) {
	return self::waitForActivity($channels, $channels, $options);
	}


	/**
	* Wait (using select()) for channels to become ready for reads or writes.
	* This method blocks until some channel is ready to be updated.
	*
	* It does not provide a way to determine which channels are ready to be
	* updated. The expectation is that you'll just update every channel. This
	* might change eventually.
	*
	* Available options are:
	*
	* - 'read' (list<stream>) Additional streams to select for read.
	* - 'write' (list<stream>) Additional streams to select for write.
	* - 'except' (list<stream>) Additional streams to select for except.
	* - 'timeout' (float) Select timeout, defaults to 1.
	*
	* NOTE: Extra streams must be //streams//, not //sockets//, because this
	* method uses `stream_select()`, not `socket_select()`.
	*
	* @param list<PhutilChannel> List of channels to wait for reads on.
	* @param list<PhutilChannel> List of channels to wait for writes on.
	* @return void
	*
	* @task wait
	*/
	public static function waitForActivity(
	array $reads,
	array $writes,
	array $options = array()) {

	assert_instances_of($reads, __CLASS__);
	assert_instances_of($writes, __CLASS__);

	$read = idx($options, 'read', array());
	$write = idx($options, 'write', array());
	$except = idx($options, 'except', array());
	$wait = idx($options, 'timeout', 1);

	// TODO: It would be nice to just be able to categorically reject these as
	// unselectable.
	foreach (array($reads, $writes) as $channels) {
	foreach ($channels as $channel) {
	$r_sockets = $channel->getReadSockets();
	$w_sockets = $channel->getWriteSockets();

	// If any channel has no read sockets and no write sockets, assume it
	// isn't selectable and return immediately (effectively degrading to a
	// busy wait).

	if (!$r_sockets && !$w_sockets) {
	return false;
	}
	}
	}

	foreach ($reads as $channel) {
	// If any of the read channels have data in read buffers, return
	// immediately. If we don't, we risk running select() on a bunch of
	// sockets which won't become readable because the data the application
	// expects is already in a read buffer.

	if (!$channel->isReadBufferEmpty()) {
	return;
	}

	$r_sockets = $channel->getReadSockets();
	foreach ($r_sockets as $socket) {
	$read[] = $socket;
	$except[] = $socket;
	}
	}

	foreach ($writes as $channel) {
	if ($channel->isWriteBufferEmpty()) {
	// If the channel's write buffer is empty, don't select the write
	// sockets, since they're writable immediately.
	$w_sockets = array();
	} else {
	$w_sockets = $channel->getWriteSockets();
	}

	foreach ($w_sockets as $socket) {
	$write[] = $socket;
	$except[] = $socket;
	}
	}

	if (!$read && !$write && !$except) {
	return false;
	}

	$wait_sec = (int)$wait;
	$wait_usec = 1000000 * ($wait - $wait_sec);

	@stream_select($read, $write, $except, $wait_sec, $wait_usec);
	}


	/* -( Responding to Activity )--------------------------------------------- */


	/**
	* Updates the channel, filling input buffers and flushing output buffers.
	* Returns false if the channel has closed.
	*
	* @return bool True if the channel is still open.
	*
	* @task update
	*/
	public function update() {
	$maximum_read = PHP_INT_MAX;
	if ($this->readBufferSize !== null) {
	$maximum_read = ($this->readBufferSize - strlen($this->ibuf));
	}

	while ($maximum_read > 0) {
	$in = $this->readBytes($maximum_read);
	if (!strlen($in)) {
	// Reading is blocked for now.
	break;
	}
	$this->ibuf .= $in;
	$maximum_read -= strlen($in);
	}

	while ($this->obuf->getByteLength()) {
	$len = $this->writeBytes($this->obuf->getAnyPrefix());
	if (!$len) {
	// Writing is blocked for now.
	break;
	}
	$this->obuf->removeBytesFromHead($len);
	}

	return $this->isOpen();
	}


	/* -( Channel Implementation )--------------------------------------------- */


	/**
	* Set a channel name. This is primarily intended to allow you to debug
	* channel code more easily, by naming channels something meaningful.
	*
	* @param string Channel name.
	* @return this
	*
	* @task impl
	*/
	public function setName($name) {
	$this->name = $name;
	return $this;
	}


	/**
	* Get the channel name, as set by @{method:setName}.
	*
	* @return string Name of the channel.
	*
	* @task impl
	*/
	public function getName() {
	return coalesce($this->name, get_class($this));
	}


	/**
	* Test if the channel is open: active, can be read from and written to, etc.
	*
	* @return bool True if the channel is open.
	*
	* @task impl
	*/
	abstract public function isOpen();


	/**
	* Close the channel for writing.
	*
	* @return void
	* @task impl
	*/
	abstract public function closeWriteChannel();

	/**
	* Test if the channel is open for reading.
	*
	* @return bool True if the channel is open for reading.
	*
	* @task impl
	*/
	public function isOpenForReading() {
	return $this->isOpen();
	}


	/**
	* Test if the channel is open for writing.
	*
	* @return bool True if the channel is open for writing.
	*
	* @task impl
	*/
	public function isOpenForWriting() {
	return $this->isOpen();
	}


	/**
	* Read from the channel's underlying I/O.
	*
	* @param int Maximum number of bytes to read.
	* @return string Bytes, if available.
	*
	* @task impl
	*/
	abstract protected function readBytes($length);


	/**
	* Write to the channel's underlying I/O.
	*
	* @param string Bytes to write.
	* @return int Number of bytes written.
	*
	* @task impl
	*/
	abstract protected function writeBytes($bytes);


	/**
	* Get sockets to select for reading.
	*
	* @return list<stream> Read sockets.
	*
	* @task impl
	*/
	protected function getReadSockets() {
	return array();
	}


	/**
	* Get sockets to select for writing.
	*
	* @return list<stream> Write sockets.
	*
	* @task impl
	*/
	protected function getWriteSockets() {
	return array();
	}


	/**
	* Set the maximum size of the channel's read buffer. Reads will artificially
	* block once the buffer reaches this size until the in-process buffer is
	* consumed.
	*
	* @param int\|null Maximum read buffer size, or `null` for a limitless buffer.
	* @return this
	* @task impl
	*/
	public function setReadBufferSize($size) {
	$this->readBufferSize = $size;
	return $this;
	}


	/**
	* Test state of the read buffer.
	*
	* @return bool True if the read buffer is empty.
	*
	* @task impl
	*/
	public function isReadBufferEmpty() {
	return (strlen($this->ibuf) == 0);
	}


	/**
	* Test state of the write buffer.
	*
	* @return bool True if the write buffer is empty.
	*
	* @task impl
	*/
	public function isWriteBufferEmpty() {
	return !$this->getWriteBufferSize();
	}


	/**
	* Get the number of bytes we're currently waiting to write.
	*
	* @return int Number of waiting bytes.
	*
	* @task impl
	*/
	public function getWriteBufferSize() {
	return $this->obuf->getByteLength();
	}


	/**
	* Wait for any buffered writes to complete. This is a blocking call. When
	* the call returns, the write buffer will be empty.
	*
	* @task impl
	*/
	public function flush() {
	while (!$this->isWriteBufferEmpty()) {
	self::waitForAny(array($this));
	if (!$this->update()) {
	throw new Exception(pht('Channel closed while flushing output!'));
	}
	}
	return $this;
	}

	}

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