nodejs进程线程优化性能

1. node.js 单线程的特点

node.js 以异步非阻塞单线程，作为其执行速度的保障。什么是非阻塞单线程？

举一个现实生活中的例子，我去巢大食堂打饭，我选择了A套餐，然后工作人员区为我配餐，我就在旁边等着直到阿姨叫号然后我取餐。这个过程是同步。

如果工作人员在为我配餐的同时，仍然可以接受排在我后面的同学的点餐，这样餐厅并没有因为我在等待A套餐而停止。这个过程是非阻塞。

如果我在阿姨为我配餐的同时，我去旁边小超市买了杯冷饮，等阿姨叫号时我再去取餐。这个过程就是异步非阻塞，同时阿姨叫号我去取餐的行为叫做回调。

• 高性能（不用考虑多线程间来回调用引起性能的损耗）
• 线程安全（不用担心同意变量会被多线程进行读写而造成程序的崩溃）
• 底层多线程
  说node.js 是单线程其实也是不全面的，node.js 底层库会使用libuv调用多线程来处理I/O 操作。这就像食堂只有一个窗口，只能有按顺序一个个的接收点餐，但是后厨配菜的员工却有很多，他们各司其职保证出餐的速度。

如果服务器是多核且有充足的物理资源，如何充分发挥这些物理资源达到性能最大化。既食堂后厨有很多大师傅，一个窗口售卖的速度太慢，许多大师傅都是空闲的窗台。邪恶的资本家你们懂的？

2.如何通过多线程提高node.js 的性能

• cluster: 为了利用多核系统，用户有时会想启动一个 Node.js 进程的集群去处理负载。

const Koa = require('Koa');
const koaRouter = require('koa-router'); const app = new Koa(); const router = new koaRouter(); function fibo(n) { return n > 1 ? fibo(n - 1) + fibo(n-2) : 1 } app.use(router['routes']()); router.get('/', function(ctx, next) { var result = fibo(35); ctx.body = `${result}`; }); if (!module.parent) { app.listen(8080); console.log(`Server was start.`); } 

通过ab 压力测试命令：

ab -c 20 -n 100 http://localhost:8080/

没有经过cluster 集群优化：

Server Software:        
Server Hostname:        localhost
Server Port:            8080

Document Path:          /
Document Length:        8 bytes

Concurrency Level:      20
Time taken for tests:   13.569 seconds
Complete requests:      100
Failed requests:        0
Total transferred:      14300 bytes
HTML transferred:       800 bytes
Requests per second:    7.37 [#/sec] (mean)
Time per request:       2713.723 [ms] (mean)
Time per request:       135.686 [ms] (mean, across all concurrent requests)
Transfer rate:          1.03 [Kbytes/sec] received

Connection Times (ms)
              min  mean[+/-sd] median   max
Connect:        0    0   0.2      0       1
Processing:   155 2465 622.9   2738    2762
Waiting:      153 2465 623.0   2737    2762
Total:        155 2465 622.8   2738    2762

Percentage of the requests served within a certain time (ms)
  50%   2738
  66%   2743
  75%   2746
  80%   2747
  90%   2753
  95%   2757
  98%   2761
  99%   2762
 100%   2762 (longest request)

通过cluster 集群优化后：

const Koa = require('Koa');
const koaRouter = require('koa-router'); const numCpus = require('os').cpus().length; const cluster = require('cluster'); const app = new Koa(); const router = new koaRouter(); if (cluster.isMaster) { console.log(`${numCpus}`); for (var index = 0; index < numCpus; index++) { cluster.fork(); } } else { app.use(router['routes']()); router.get('/', function(ctx, next) { var result = fibo(35); ctx.body = `${result}`; }); if (!module.parent) { app.listen(8080); console.log(`Server was start.`); } } function fibo(n) { return n > 1 ? fibo(n - 1) + fibo(n-2) : 1 } 

通过ab 压力测试命令：

ab -c 20 -n 100 http://localhost:8080/

Server Software:        
Server Hostname:        localhost
Server Port:            8080

Document Path:          /
Document Length:        8 bytes

Concurrency Level:      20
Time taken for tests:   6.513 seconds
Complete requests:      100
Failed requests:        0
Total transferred:      14300 bytes
HTML transferred:       800 bytes
Requests per second:    15.35 [#/sec] (mean)
Time per request:       1302.524 [ms] (mean)
Time per request:       65.126 [ms] (mean, across all concurrent requests)
Transfer rate:          2.14 [Kbytes/sec] received

Connection Times (ms)
              min  mean[+/-sd] median   max
Connect:        0    0   0.5      0       2
Processing:   279 1198 258.7   1294    1335
Waiting:      279 1198 258.7   1294    1335
Total:        281 1198 258.3   1295    1335

Percentage of the requests served within a certain time (ms)
  50%   1295
  66%   1301
  75%   1303
  80%   1308
  90%   1322
  95%   1328
  98%   1333
  99%   1335
 100%   1335 (longest request)

对比两次的测试结果：
优化后，
Requests per second （每秒处理的任务数） 由 7.37 提高到 15.35.
Time per request （每个用户的平均处理时间） 由 135.686 降低到 65.126

3. 如何通过多进程提高node.js 的性能

• Child Process 创建进程

main.js

const Koa = require('Koa');
const koaRouter = require('koa-router'); const fork = require('child_process').fork; const app = new Koa(); const router = new koaRouter(); app.use(router['routes']()); router.get('/', function(ctx, next) { var worker = fork('./work_fibo.js'); worker.on('message', function(m) { if ('object' === typeof m && m.type === 'fibo') { worker.kill(); ctx.body = m.result.toString(); } }); worker.send({type: "fibo", num: 35}, (err) => { console.log(`${err}`); }); console.log(`${worker.pid}`); }); if (!module.parent) { app.listen(8080); console.log(`Server was start.`); } 

work_fibo.js

var fibo = function fibo(n) { return n > 1 ? fibo(n - 1) + fibo(n - 2) : 1; } process.on('message', function(m) { if (typeof m === 'object' && m.type === 'fibo') { var num = fibo(m.num); process.send({type: 'fibo', result: num}); } }); process.on('SIGHUP', function() { process.exist(); }); 

通过ab 压力测试命令：

ab -c 20 -n 100 http://localhost:8080/

Server Software:        
Server Hostname:        localhost
Server Port:            8080

Document Path:          /
Document Length:        9 bytes

Concurrency Level:      20
Time taken for tests:   3.619 seconds
Complete requests:      100
Failed requests:        0
Non-2xx responses:      100
Total transferred:      15100 bytes
HTML transferred:       900 bytes
Requests per second:    27.63 [#/sec] (mean)
Time per request:       723.764 [ms] (mean)
Time per request:       36.188 [ms] (mean, across all concurrent requests)
Transfer rate:          4.07 [Kbytes/sec] received

Connection Times (ms)
              min  mean[+/-sd] median   max
Connect:        0    1   4.5      0      43
Processing:    21  611 270.7    650    1134
Waiting:       18  610 270.7    649    1132
Total:         22  612 270.2    652    1134

Percentage of the requests served within a certain time (ms)
  50%    652
  66%    744
  75%    794
  80%    835
  90%    958
  95%   1054
  98%   1122
  99%   1134
 100%   1134 (longest request)

对比两次的测试结果：
优化后，
Requests per second （每秒处理的任务数） 由 7.37 提高到 15.35 最后通过进程优化后达到 27.63
Time per request （每个用户的平均处理时间） 由 135.686 降低到 65.126 最后通过进程优化后达到 36.188

转载：https://www.jianshu.com/p/f25388f030be