PHP协程初体验

WBOY
Freigeben: 2016-06-23 13:44:37
Original
1116 Leute haben es durchsucht

PHP协程初体验

By warezhou 2014.11.24

上次通过C扩展为PHP添加coroutine尝试失败之后,由于短期内啃下Zend可能性几乎为零,只能打语言原生能力的主意了。Google之后发现,PHP5.5引入了Generator和Coroutine新特性,于是才有了本文的诞生。

背景阅读

《当C/C++后台开发遇上Coroutine》

http://km.oa.com/group/906/articles/show/165396

《一次失败的PHP扩展开发之旅》

http://km.oa.com/group/906/articles/show/208269

预备知识

Generator

function my_range($start, $end, $step = 1) {    for ($i = $start; $i     <p> 图 1 基于generator的range()实现</p>  <p class="sycode">   </p><pre style="代码" class="precsshei">$range = my_range(1, 1000);var_dump($range);/* * object(Generator)#1 (0) { * } */var_dump($range instanceof Iterator);/* * bool(true) */
Nach dem Login kopieren

图 2 my_range()的实现推测

由于接触PHP时日尚浅,并未深入语言实现细节,所以只能根据现象进行猜测,以下是我的一些个人理解:

  • 包含yield关键字的函数比较特殊,返回值是一个Generator对象,此时函数内语句尚未真正执行
  • Generator对象是Iterator接口实例,可以通过rewind()、current()、next()、valid()系列接口进行操纵
  • Generator可以视为一种“可中断”的函数,而yield构成了一系列的“中断点”
  • Generator类似于车间生产的流水线,每次需要用产品的时候才从那里取一个,然后这个流水线就停在那里等待下一次取操作
  • Coroutine

    细心的读者可能已经发现,截至目前,其实Generator已经实现了Coroutine的关键特性:中断执行、恢复执行。按照《当C/C++后台开发遇上Coroutine》的思路,借助“全局变量”一类语言设施进行信息传递,实现异步Server应该足够了。

    其实相对于swapcontext族函数,Generator已经前进了一大步,具备了“返回数据”的能力,如果同时具备“发送数据”的能力,就再也不必通过那些蹩脚的手法绕路而行了。在PHP里面,通过Generator的send()接口(注意:不再是next()接口),可以完成“发送数据”的任务,从而实现了真正的“双向通信”。

    function gen() {    $ret = (yield 'yield1');    echo "[gen]", $ret, "\n";    $ret = (yield 'yield2');    echo "[gen]", $ret, "\n";}$gen = gen();$ret = $gen->current();echo "[main]", $ret, "\n";$ret = $gen->send("send1");echo "[main]", $ret, "\n";$ret = $gen->send("send2");echo "[main]", $ret, "\n";/* * [main]yield1 * [gen]send1 * [main]yield2 * [gen]send2 * [main] */
    Nach dem Login kopieren

    图 3 Coroutine双向通信示例

    作为C/C++系码农,发现“可重入”、“双向通信”能力之后,貌似没有更多奢求了,不过PHP还是比较慷慨,继续添加了Exception机制,“错误处理”机制得到进一步完善。

    function gen() {    $ret = (yield 'yield1');    echo "[gen]", $ret, "\n";    try {        $ret = (yield 'yield2');        echo "[gen]", $ret, "\n";    } catch (Exception $ex) {        echo "[gen][Exception]", $ex->getMessage(), "\n";    }       echo "[gen]finish\n";}$gen = gen();$ret = $gen->current();echo "[main]", $ret, "\n";$ret = $gen->send("send1");echo "[main]", $ret, "\n";$ret = $gen->throw(new Exception("Test"));echo "[main]", $ret, "\n";/* * [main]yield1 * [gen]send1 * [main]yield2 * [gen][Exception]Test * [gen]finish * [main] */
    Nach dem Login kopieren

    图 4 Coroutine错误处理示例

    实战演习

    前面简单介绍了相关的语言设施,那么具体到实际项目中,到底应该如何运用呢?让我们继续《一次失败的PHP扩展开发之旅》描述的场景,借助上述特性实现那个美好的愿望:以同步方式书写异步代码!

    第一版初稿

    <?phpclass AsyncServer {    protected $handler;    protected $socket;    protected $tasks = [];    public function __construct($handler) {        $this->handler = $handler;        $this->socket = socket_create(AF_INET, SOCK_DGRAM, SOL_UDP);        if(!$this->socket) {            die(socket_strerror(socket_last_error())."\n");        }        if (!socket_set_nonblock($this->socket)) {            die(socket_strerror(socket_last_error())."\n");        }        if(!socket_bind($this->socket, "0.0.0.0", 1234)) {            die(socket_strerror(socket_last_error())."\n");        }    }    public function Run() {        while (true) {            $reads = array($this->socket);            foreach ($this->tasks as list($socket)) {                $reads[] = $socket;            }            $writes = NULL;            $excepts= NULL;            if (!socket_select($reads, $writes, $excepts, 0, 1000)) {                continue;            }            foreach ($reads as $one) {                $len = socket_recvfrom($one, $data, 65535, 0, $ip, $port);                if (!$len) {                    //echo "socket_recvfrom fail.\n";                    continue;                }                if ($one == $this->socket) {                    //echo "[Run]request recvfrom succ. data=$data ip=$ip port=$port\n";                    $handler = $this->handler;                    $coroutine = $handler($one, $data, $len, $ip, $port);                    $task = $coroutine->current();                    //echo "[Run]AsyncTask recv. data=$task->data ip=$task->ip port=$task->port timeout=$task->timeout\n";                    $socket = socket_create(AF_INET, SOCK_DGRAM, SOL_UDP);                    if(!$socket) {                        //echo socket_strerror(socket_last_error())."\n";                        $coroutine->throw(new Exception(socket_strerror(socket_last_error()), socket_last_error()));                        continue;                    }                    if (!socket_set_nonblock($socket)) {                        //echo socket_strerror(socket_last_error())."\n";                        $coroutine->throw(new Exception(socket_strerror(socket_last_error()), socket_last_error()));                        continue;                    }                    socket_sendto($socket, $task->data, $task->len, 0, $task->ip, $task->port);                    $this->tasks[$socket] = [$socket, $coroutine];                } else {                    //echo "[Run]response recvfrom succ. data=$data ip=$ip port=$port\n";                    if (!isset($this->tasks[$one])) {                        //echo "no async_task found.\n";                    } else {                        list($socket, $coroutine) = $this->tasks[$one];                        unset($this->tasks[$one]);                        socket_close($socket);                        $coroutine->send(array($data, $len));                    }                }            }        }    }}class AsyncTask {    public $data;    public $len;    public $ip;    public $port;    public $timeout;    public function __construct($data, $len, $ip, $port, $timeout) {        $this->data = $data;        $this->len = $len;        $this->ip = $ip;        $this->port = $port;        $this->timeout = $timeout;    }}function RequestHandler($socket, $req_buf, $req_len, $ip, $port) {    //echo "[RequestHandler] before yield AsyncTask. REQ=$req_buf\n";    list($rsp_buf, $rsp_len) = (yield new AsyncTask($req_buf, $req_len, "127.0.0.1", 2345, 1000));    //echo "[RequestHandler] after yield AsyncTask. RSP=$rsp_buf\n";    socket_sendto($socket, $rsp_buf, $rsp_len, 0, $ip, $port);}$server = new AsyncServer(RequestHandler);$server->Run();?>
    Nach dem Login kopieren

    代码解读:

  • 为了便于说明问题,这里所有底层通讯基于UDP,省略了TCP的connect等繁琐细节
  • AsyncServer为底层框架类,封装了网络通讯细节以及协程切换细节,通过socket进行coroutine绑定
  • RequestHandler为业务处理函数,通过yield new AsyncTask()实现异步网络交互
  • 第二版完善

    第一版遗留问题:

  • 异步网络交互的timeout未实现,仅预留了接口参数
  • yield new AsyncTask()调用方式不够自然,略感别扭
  • <?phpclass AsyncServer {    protected $handler;    protected $socket;    protected $tasks = [];    protected $timers = [];    public function __construct(callable $handler) {        $this->handler = $handler;        $this->socket = socket_create(AF_INET, SOCK_DGRAM, SOL_UDP);        if(!$this->socket) {            die(socket_strerror(socket_last_error())."\n");        }        if (!socket_set_nonblock($this->socket)) {            die(socket_strerror(socket_last_error())."\n");        }        if(!socket_bind($this->socket, "0.0.0.0", 1234)) {            die(socket_strerror(socket_last_error())."\n");        }    }    public function Run() {        while (true) {            $now = microtime(true) * 1000;            foreach ($this->timers as $time => $sockets) {                if ($time > $now) break;                foreach ($sockets as $one) {                    list($socket, $coroutine) = $this->tasks[$one];                    unset($this->tasks[$one]);                    socket_close($socket);                    $coroutine->throw(new Exception("Timeout"));                }                unset($this->timers[$time]);            }            $reads = array($this->socket);            foreach ($this->tasks as list($socket)) {                $reads[] = $socket;            }            $writes = NULL;            $excepts= NULL;            if (!socket_select($reads, $writes, $excepts, 0, 1000)) {                continue;            }            foreach ($reads as $one) {                $len = socket_recvfrom($one, $data, 65535, 0, $ip, $port);                if (!$len) {                    //echo "socket_recvfrom fail.\n";                    continue;                }                if ($one == $this->socket) {                    //echo "[Run]request recvfrom succ. data=$data ip=$ip port=$port\n";                    $handler = $this->handler;                    $coroutine = $handler($one, $data, $len, $ip, $port);                    if (!$coroutine) {                        //echo "[Run]everything is done.\n";                        continue;                    }                    $task = $coroutine->current();                    //echo "[Run]AsyncTask recv. data=$task->data ip=$task->ip port=$task->port timeout=$task->timeout\n";                    $socket = socket_create(AF_INET, SOCK_DGRAM, SOL_UDP);                    if(!$socket) {                        //echo socket_strerror(socket_last_error())."\n";                        $coroutine->throw(new Exception(socket_strerror(socket_last_error()), socket_last_error()));                        continue;                    }                    if (!socket_set_nonblock($socket)) {                        //echo socket_strerror(socket_last_error())."\n";                        $coroutine->throw(new Exception(socket_strerror(socket_last_error()), socket_last_error()));                        continue;                    }                    socket_sendto($socket, $task->data, $task->len, 0, $task->ip, $task->port);                    $deadline = $now + $task->timeout;                    $this->tasks[$socket] = [$socket, $coroutine, $deadline];                    $this->timers[$deadline][$socket] = $socket;                } else {                    //echo "[Run]response recvfrom succ. data=$data ip=$ip port=$port\n";                    list($socket, $coroutine, $deadline) = $this->tasks[$one];                    unset($this->tasks[$one]);                    unset($this->timers[$deadline][$one]);                    socket_close($socket);                    $coroutine->send(array($data, $len));                }            }        }    }}class AsyncTask {    public $data;    public $len;    public $ip;    public $port;    public $timeout;    public function __construct($data, $len, $ip, $port, $timeout) {        $this->data = $data;        $this->len = $len;        $this->ip = $ip;        $this->port = $port;        $this->timeout = $timeout;    }}function AsyncSendRecv($req_buf, $req_len, $ip, $port, $timeout) {    return new AsyncTask($req_buf, $req_len, $ip, $port, $timeout);}function RequestHandler($socket, $req_buf, $req_len, $ip, $port) {    //echo "[RequestHandler] before yield AsyncTask. REQ=$req_buf\n";    try {        list($rsp_buf, $rsp_len) = (yield AsyncSendRecv($req_buf, $req_len, "127.0.0.1", 2345, 3000));    } catch (Exception $ex) {        $rsp_buf = $ex->getMessage();        $rsp_len = strlen($rsp_buf);        //echo "[Exception]$rsp_buf\n";    }    //echo "[RequestHandler] after yield AsyncTask. RSP=$rsp_buf\n";    socket_sendto($socket, $rsp_buf, $rsp_len, 0, $ip, $port);}$server = new AsyncServer(RequestHandler);$server->Run();?>
    Nach dem Login kopieren

    代码解读:

  • 借助PHP内置array能力,实现简单的“超时管理”,以毫秒为精度作为时间分片
  • 封装AsyncSendRecv接口,调用形如yield AsyncSendRecv(),更加自然
  • 添加Exception作为错误处理机制,添加ret_code亦可,仅为展示之用
  • 性能测试

    测试环境


    测试数据

      100Byte/REQ 1000Byte/REQ
    async_svr_v1.php 16000/s 15000/s
    async_svr_v2.php 11000/s 10000/s
    展望未来
  • 有兴趣的PHPer可以基于该思路进行底层框架封装,对于常见阻塞操作进行封装,比如:connect、send、recv、sleep ...
  • 本人接触PHP时日尚浅,很多用法非最优,高手可有针对性优化,性能应该可以继续提高
  • 目前基于socket进行coroutine绑定,如果基于TCP通信,每次connect/close,开销过大,需要考虑实现连接池
  • python等语言也有类似的语言设施,有兴趣的读者可以自行研究
  • Verwandte Etiketten:
    Quelle:php.cn
    Erklärung dieser Website
    Der Inhalt dieses Artikels wird freiwillig von Internetnutzern beigesteuert und das Urheberrecht liegt beim ursprünglichen Autor. Diese Website übernimmt keine entsprechende rechtliche Verantwortung. Wenn Sie Inhalte finden, bei denen der Verdacht eines Plagiats oder einer Rechtsverletzung besteht, wenden Sie sich bitte an admin@php.cn
    Beliebte Tutorials
    Mehr>
    Neueste Downloads
    Mehr>
    Web-Effekte
    Quellcode der Website
    Website-Materialien
    Frontend-Vorlage