Workerman is a high-performance PHP Socket framework that provides a simple and powerful way to build concurrent network applications. However, due to the limitations of the programming language itself, PHP may encounter some challenges when dealing with high concurrency. To solve this problem, Workerman provides a concurrency limit implementation method to ensure the stability and performance of applications under high load conditions.
In Workerman, you can control the number of Worker processes and the number of concurrent connections by settingworker->count
. Each Worker process runs in an independent process space, so it can support concurrent processing of a large number of connections. For example, by setting$worker->count = 4
, 4 Worker processes can be started to handle connections.
However, due to the single-threaded nature of PHP, each process can only handle one connection at the same time. If the number of connections exceeds the number of Worker processes, some connections will be blocked until an idle Worker process becomes available. To avoid this situation, you can use multi-process extensions to increase concurrent processing capabilities.
A common multi-process extension ispcntl
, which provides PHP with the ability to manage processes. By using thepcntl_fork()
function, a child process can be created in the Worker process to handle the connection. This way, each child process can handle one connection, resulting in higher concurrency performance.
The following is a simple sample code that demonstrates how to use thepcntl
extension to implement concurrency limits:
// 创建Worker对象 $worker = new Worker('tcp://0.0.0.0:8000'); // 设置Worker进程数 $worker->count = 4; // 定义连接处理函数 $worker->onConnect = function($connection){ // 生成子进程处理连接 $pid = pcntl_fork(); if($pid > 0){ // 父进程关闭该连接 $connection->close(); }elseif($pid == 0){ // 子进程处理连接请求 // TODO: 处理连接的业务逻辑 sleep(10); echo "Child process finished "; // 处理完毕后子进程退出 exit(); }else{ // 创建子进程失败 echo "Fork failed "; } }; // 运行Worker Worker::runAll();
In the above code, when a new connection arrives , a child process will first be created in the parent process. The child process is responsible for handling the business logic of the connection, while the parent process closes the connection. When the child process completes processing, call theexit()
function to exit.
It should be noted that since the child process and the parent process are independent process spaces, the variables and resources between them are isolated from each other. If child processes need to share data, shared memory or other IPC mechanisms can be used.
By using the concurrency limit implementation method, the stability and performance of network applications in high concurrency situations can be ensured while making full use of server resources. However, you also need to pay attention to the reasonable configuration and adjustment of the number of Worker processes to avoid the negative impact of too many or too few processes on system performance.
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