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How to use coroutines to implement highly concurrent swoole_ftp function in Swoole

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Release: 2023-06-25 09:06:13
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With the rapid development of Internet technology, more and more application scenarios have emerged, and high-concurrency processing methods have become one of the important topics in modern application development. In Swoole, the emergence of coroutines provides more possibilities for high-concurrency solutions. This article will introduce how to use coroutines to implement high-concurrency swoole_ftp function in Swoole.

1. Advantages of Swoole coroutine

Swoole coroutine is a lightweight concurrency processing method provided by Swoole. Compared with the traditional multi-threaded and multi-process model, the main advantages of coroutines are:

  1. The bottom layer uses the "user-level thread" technology of coroutines, which avoids creation and destruction at the operating system level. Thread performance overhead.
  2. Coroutines are scheduled within the same thread, avoiding the process of context switching. In high-concurrency scenarios, the waiting time for I/O operations can be greatly reduced and program performance improved.
  3. Coroutines can avoid callback nesting and improve the readability and maintainability of the code.

Based on these advantages, we can make full use of the advantages of coroutines in concurrent processing to improve our application processing efficiency.

2. Basic use of swoole_ftp function

The swoole_ftp function is provided in the Swoole library. Through this function, we can implement functions such as uploading and downloading FTP files.

To use the swoole_ftp function, you need to first create a SwooleCoroutineFTP instance, and then call the corresponding function through the instance to implement specific operations. The following is a simple example:

<?php
$ftp = new SwooleCoroutineFTP();
$ftp->connect('127.0.0.1', 21);
$ftp->login('username', 'password');

//上传文件
$ftp->put('/path/to/remote/file', '/path/to/local/file');

//下载文件
$ftp->get('/path/to/remote/file', '/path/to/local/file');

$ftp->close();
Copy after login

In the above code example, we first create a CoroutineFTP instance, connect to the FTP server through the connect method, then log in through the login method, and finally use the put and get functions to implement File upload and download operations, and finally use the close method to close the connection.

3. Use coroutines to implement high-concurrency swoole_ftp function

In practical applications, we often need to handle a large number of file transfer requests, and traditional methods are often difficult to handle such high concurrency. Scenes. The use of coroutines can solve this problem.

The following is a sample code that uses coroutine to achieve high concurrency swoole_ftp function:

<?php
use SwooleCoroutineFTP;
use SwooleCoroutine;

Coroutineun(function () {
    $ftp = new FTP();

    //连接服务器
    $ftp->connect('127.0.0.1', 21);
    $ftp->login('username', 'password');

    $concurrency = 100;
    $total = 1000;

    $chan = new CoroutineChannel($concurrency);

    for ($i = 0; $i < $total; $i++) {
        // 数据发送到协程
        Coroutine::create(function () use ($ftp, $i, $chan) {
            // 协程容量限制
            $chan->push(true);

            $local_file = '/path/to/local/file';
            $remote_file = "/path/to/remote/file-$i";

            echo "开始上传 $local_file 到 $remote_file
";

            $ftp->put($remote_file, $local_file);

            echo "上传 $local_file 到 $remote_file 完成
";

            // 完成时归还容量
            $chan->pop();
        });

        // 容量限制
        if ($chan->length() >= $concurrency) {
            $chan->pop();
        }
    }

    // 等待协程完成
    for ($i = 0; $i < $concurrency; $i++) {
        $chan->push(true);
    }

    // 断开连接
    $ftp->close();`
});
Copy after login

In the above code example, we use SwooleCoroutineChannel to implement the capacity limit of the coroutine, thereby avoiding concurrency Too much data leads to insufficient server resources. In each coroutine that uploads files, we use the put function to implement the function of uploading files, and return the capacity of the coroutine after the upload is completed.

In the end, we limited the number of coroutines to 100 and uploaded 1,000 files at the same time without causing insufficient server resources.

4. Summary

Using coroutines can effectively optimize Swoole's concurrent processing capabilities, and can improve the performance and stability of the program when processing large amounts of data transmission operations. This article focuses on the use of the swoole_ftp function and combines the advantages of coroutines to implement highly concurrent file upload and download functions. Hope it helps everyone.

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