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With the rapid development of the Internet, high-performance distributed caching systems have become an important part of modern application development. As a high-performance network communication framework, Swoole can undertake concurrent access and achieve high performance and high concurrency requirements. In this article, we will introduce how to use Swoole to build a high-performance distributed cache system.
1. What is a distributed cache system
Before we understand in depth how to use Swoole to build a distributed cache system, let us first understand what a distributed cache system is.
The distributed cache system is a system that distributes cache data to multiple nodes and manages it. The system uses cache to store data and speed up access. Compared with traditional single-node cache systems, distributed cache systems have obvious advantages in improving concurrent processing, preventing single-node failures, and improving scalability.
2. Introduction to Swoole
Swoole is a network communication framework based on PHP language. It supports asynchronous IO and coroutine features, and realizes the high concurrency, high performance and low memory of PHP language. occupied. The bottom layer of Swoole is written in C and interacts with applications through PHP extensions.
Swoole supports multiple protocols such as TCP/UDP/HTTP/WebSocket, and also supports asynchronous connections and query operations for databases such as MySQL/Redis/PostgreSQL, providing developers with a wealth of choices.
3. How to use Swoole to implement a high-performance distributed cache system
In order to implement a high-performance distributed cache system, we You need to choose an appropriate caching solution first. Here, we chose Redis as the cache storage solution. Redis has the characteristics of fast reading and writing speed, supports multiple data types, and supports master-slave replication. It is very suitable as a storage solution for distributed cache systems.
We can use Swoole's Server class to implement a TCP server to establish a connection with the client and accept the client's request. The following is the specific implementation code:
$server = new SwooleServer("127.0.0.1", 9501); $server->set([ "worker_num" => 4, //Worker进程数 "max_request" => 1000, //Worker进程的最大请求数 ]); $server->on("connect", function($server, $fd) { echo "Client:{$fd} connect. "; }); $server->on("receive", function($server, $fd, $from_id, $data) { $redis = new Redis(); $redis->connect("127.0.0.1", 6379); $redis->select(0); $redis->set("key", "value"); $value = $redis->get("key"); $server->send($fd, $value); }); $server->on("close", function($server, $fd) { echo "Client:{$fd} close. "; }); $server->start();
In the above code, we define a TCP server and listen to the local 9501 port. At the same time, we also set up 4 Worker processes and the maximum request volume is 1,000.
When the client establishes a connection with the server, the server will output information similar to "Client: 1 connect." When the client initiates a request to the server, the server will connect to the Redis database and store a key-value pair, then obtain the value corresponding to the key and return it to the client.
In the client implementation, we only need to connect to the server and send a request to it. The following is the implementation of the client code:
$client = new SwooleClient(SWOOLE_SOCK_TCP); $client->connect("127.0.0.1", 9501); $client->send("Hello World!"); $response = $client->recv(); echo $response; $client->close();
In the above code, we define a Swoole client and connect to the server through the connect() method. Then send the request content in the send() method, wait for the server's response and assign the result to the $response variable, and finally use the close() method to close the client connection.
4. Summary
In this article, we introduced how to use Swoole to implement a high-performance distributed cache system. By choosing an appropriate caching solution and using the Swoole framework to implement the server and client, we can quickly build a high-performance distributed caching system, which facilitates application development. I hope this article is helpful to your study.
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