本文介绍了node.js中实现端口重用原理详解,分享给大家,具体如下:
起源,从官方实例中看多进程共用端口
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const cluster = require('cluster');
const http = require('http');
const numcpus = require('os').cpus().length;
if (cluster.ismaster) {
console.log(`master ${process.pid} is running`);
for (let i = 0; i < numcpus; i++) {
cluster.fork();
}
cluster.on('exit', (worker, code, signal) => {
console.log(`worker ${worker.process.pid} died`);
});
} else {
http.createserver((req, res) => {
res.writehead(200);
res.end('hello world\n');
}).listen(8000);
console.log(`worker ${process.pid} started`);
}
执行结果:
$ node server.js
master 3596 is running
worker 4324 started
worker 4520 started
worker 6056 started
worker 5644 started
了解http.js模块:
我们都只有要创建一个http服务,必须引用http模块,http模块最终会调用net.js实现网络服务
// lib/net.js
'use strict';
...
server.prototype.listen = function(...args) {
...
if (options instanceof tcp) {
this._handle = options;
this[async_id_symbol] = this._handle.getasyncid();
listenincluster(this, null, -1, -1, backlogfromargs); // 注意这个方法调用了cluster模式下的处理办法
return this;
}
...
};
function listenincluster(server, address, port, addresstype,backlog, fd, exclusive) {
// 如果是master 进程或者没有开启cluster模式直接启动listen
if (cluster.ismaster || exclusive) {
//_listen2,细心的人一定会发现为什么是listen2而不直接使用listen
// _listen2 包裹了listen方法,如果是worker进程,会调用被hack后的listen方法,从而避免出错端口被占用的错误
server._listen2(address, port, addresstype, backlog, fd);
return;
}
const serverquery = {
address: address,
port: port,
addresstype: addresstype,
fd: fd,
flags: 0
};
// 是fork 出来的进程,获取master上的handel,并且监听,
// 现在是不是很好奇_getserver方法做了什么
cluster._getserver(server, serverquery, listenonmasterhandle);
}
...
答案很快就可以通过cluster._getserver 这个函数找到
// lib/internal/cluster/child.js
cluster._getserver = function(obj, options, cb) {
// ...
const message = util._extend({
act: 'queryserver', // 关键点:构建一个queryserver的消息
index: indexes[indexeskey],
data: null
}, options);
message.address = address;
// 发送queryserver消息给master进程,master 在收到这个消息后,会创建一个开始一个server,并且listen
send(message, (reply, handle) => {
rr(reply, indexeskey, cb); // round-robin.
});
obj.once('listening', () => {
cluster.worker.state = 'listening';
const address = obj.address();
message.act = 'listening';
message.port = address && address.port || options.port;
send(message);
});
};
//...
// round-robin. master distributes handles across workers.
function rr(message, indexeskey, cb) {
if (message.errno) return cb(message.errno, null);
var key = message.key;
// 这里hack 了listen方法
// 子进程调用的listen方法,就是这个,直接返回0,所以不会报端口被占用的错误
function listen(backlog) {
return 0;
}
// ...
const handle = { close, listen, ref: noop, unref: noop };
handles[key] = handle;
// 这个cb 函数是net.js 中的listenonmasterhandle 方法
cb(0, handle);
}
// lib/net.js
/*
function listenonmasterhandle(err, handle) {
err = checkbinderror(err, port, handle);
server._handle = handle;
// _listen2 函数中,调用的handle.listen方法,也就是上面被hack的listen
server._listen2(address, port, addresstype, backlog, fd);
}
*/
master进程收到queryserver消息后进行启动服务
// lib/internal/cluster/master.js
function queryserver(worker, message) {
const args = [
message.address,
message.port,
message.addresstype,
message.fd,
message.index
];
const key = args.join(':');
var handle = handles[key];
// 如果地址没被监听过,通过roundrobinhandle监听开启服务
if (handle === undefined) {
var constructor = roundrobinhandle;
if (schedulingpolicy !== sched_rr ||
message.addresstype === 'udp4' ||
message.addresstype === 'udp6') {
constructor = sharedhandle;
}
handles[key] = handle = new constructor(key,
address,
message.port,
message.addresstype,
message.fd,
message.flags);
}
// 如果地址已经被监听,直接绑定handel到已经监听到服务上,去消费请求
// set custom server data
handle.add(worker, (errno, reply, handle) => {
reply = util._extend({
errno: errno,
key: key,
ack: message.seq,
data: handles[key].data
}, reply);
if (errno)
delete handles[key]; // gives other workers a chance to retry.
send(worker, reply, handle);
});
}
看到这一步,已经很明显,我们知道了多进行端口共享的实现原理
那现在问题来了,既然worker进程是如何获取到master进程监听服务接收到的connect呢?
// lib/internal/cluster/round_robin_handle.js
function roundrobinhandle(key, address, port, addresstype, fd) {
this.server = net.createserver(assert.fail);
if (fd >= 0)
this.server.listen({ fd });
else if (port >= 0)
this.server.listen(port, address);
else
this.server.listen(address); // unix socket path.
this.server.once('listening', () => {
this.handle = this.server._handle;
// 监听onconnection方法
this.handle.onconnection = (err, handle) => this.distribute(err, handle);
this.server._handle = null;
this.server = null;
});
}
roundrobinhandle.prototype.add = function (worker, send) {
// ...
};
roundrobinhandle.prototype.remove = function (worker) {
// ...
};
roundrobinhandle.prototype.distribute = function (err, handle) {
// 负载均衡地挑选出一个worker
this.handles.push(handle);
const worker = this.free.shift();
if (worker) this.handoff(worker);
};
roundrobinhandle.prototype.handoff = function (worker) {
const handle = this.handles.shift();
const message = { act: 'newconn', key: this.key };
// 向work进程其发送newconn内部消息和客户端的句柄handle
sendhelper(worker.process, message, handle, (reply) => {
// ...
this.handoff(worker);
});
};
下面让我们看看worker进程接收到newconn消息后进行了哪些操作
// lib/child.js
function onmessage(message, handle) {
if (message.act === 'newconn')
onconnection(message, handle);
else if (message.act === 'disconnect')
_disconnect.call(worker, true);
}
// round-robin connection.
// 接收连接,并且处理
function onconnection(message, handle) {
const key = message.key;
const server = handles[key];
const accepted = server !== undefined;
send({ ack: message.seq, accepted });
if (accepted) server.onconnection(0, handle);
}
总结
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