Java实现平滑加权轮询算法之降权和提权详解

网友投稿 369 2022-08-04


Java实现平滑加权轮询算法之降权和提权详解

目录前言1.两个关键点2.代码实现2.1.服务节点类2.2.平滑轮询算法降权和提权3.分析结果4.结论

前言

上一篇讲了普通轮询、加权轮询的两种实现方式,重点讲了平滑加权轮询算法,并在文末留下了悬念:节点出现分配失败时降低有效权重值;成功时提高有效权重值(但不能大于weight值)。

本文在平滑加权轮询算法的基础上讲,还没弄懂的可以看上一篇文章。

现在来模拟实现:平滑加权轮询算法的降权和提权

1.两个关键点

节点宕机时,降低有效权重值;

节点正常时,提高有效权重值(但不能大于weight值);

注意:降低或提高权重都是针对有效权重。

2.代码实现

2.1.服务节点类

package com.yty.loadbalancingalgorithm.wrr;

/**

* String ip:负载IP

* final Integer weight:权重,保存配置的权重

* Integer effectiveWeight:有效权重,轮询的过程权重可能变化

* Integer currentWeight:当前权重,比对该值大小获取节点

* 第一次加权轮询时:currentWeight = weight = effectiveWeight

* 后面每次加权轮询时:currentWeight 的值都会不断变化,其他权重不变

* Boolean isAvailable:是否存活

*/

public class ServerNode implements Comparable{

private String ip;

private final Integer weight;

private Integer effectiveWeight;

private Integer currentWeight;

private Boolean isAvailable;

public ServerNode(String ip, Integer weight){

this(ip,weight,true);

}

public ServerNode(String ip, Integer weight,Boolean isAvailable){

this.ip = ip;

this.weight = weight;

this.effectiveWeight = weight;

this.currentWeight = weight;

this.isAvailable = isAvailable;

}

public String getIp() {

return ip;

}

public void setIp(String ip) {

this.ip = ip;

}

public Integer getWeight() {

return weight;

}

public Integer getEffectiveWeight() {

return effectiveWeight;

}

public void setEffectiveWeight(Integer effectiveWeight) {

this.effectiveWeight = effectiveWeight;

}

public Integer getCurrentWeight() {

return currentWeight;

}

public void setCurrentWeight(Integer currentWeight) {

this.currentWeight = currentWeight;

}

public Boolean isAvailable() {

return isAvailable;

}

public void setIsAvailable(Boolean isAvailable){

this.isAvailable = isAvailable;

}

// 每成功一次,恢复有效权重1,不超过配置的起始权重

public void onInvokeSuccess(){

if(effectiveWeight < weight) effectiveWeight++;

}

// 每失败一次,有效权重减少1,无底线的减少

public void onInvokeFault(){

effectiveWeight--;

}

@Override

public int compareTo(ServerNode node) {

return currentWeight > node.currentWeight ? 1 : (currentWeight.equals(node.currentWScyGIuoutaeight) ? 0 : -1);

}

@Override

public String toString() {

return "{ip='" + ip + "', weight=" + weight + ", effectiveWeight=" + effectiveWeight

+ ", currentWeight=" + currentWeight + ", isAvailable=" + isAvailable + "}";

}

}

2.2.平滑轮询算法降权和提权

package com.yty.loadbalancingalgorithm.wrr;

import java.util.ArrayList;

import java.util.List;

/**

* 加权轮询算法:加入存活状态,降权使宕机权重降低,从而不会被选中

*/

public class WeightedRoundRobinAvailable {

private static List serverNodes = new ArrayList<>();

// 准备模拟数据

static {

serverNodes.add(new ServerNode("192.168.1.101",1));// 默认为true

serverNodes.add(new ServerNode("192.168.1.102",3,false));

serverNodes.add(new ServerNode("192.168.1.103",2));

}

/**

* 按照当前权重(currentWeight)最大值获取IP

* @return ServerNode

*/

public ServerNode selectNode(){

if (serverNodes.size() <= 0) return null;

if (serverNodes.size() == 1)

return (serverNodes.get(0).isAvailable()) ? serverNodes.get(0) : null;

// 权重之和

Integer totalWeight = 0;

ServerNode nodeOfMaxWeight = null; // 保存轮询选中的节点信息

synchronized (serverNodes){

StringBuffer sb1 = new StringBuffer();

StringBuffer sb2 = new StringBuffer();

sb1.append(Thread.currentThread().getName()+"==加权轮询--[当前权重]值的变化:"+printCurrentWeight(serverNodes));

// 有限权重总和可能发生变化

for(ServerNode serverNode : serverNodes){

totalWeight += serverNode.getEffectiveWeight();

}

// 选出当前权重最大的节点

ServerNode tempNodeOfMaxWeight = serverNodes.get(0);

for (ServerNode serverNode : serverNodes) {

if (serverNodeScyGIuouta.isAvailable()) {

serverNode.onInvokeSuccess();//提权

sb2.append(Thread.currentThread().getName()+"==[正常节点]:"+serverNode+"\n");

} else {

serverNode.onInvokeFault();//降权

sb2.append(Thread.currentThread().getName()+"==[宕机节点]:"+serverNode+"\n");

}

tempNodeOfMaxWeight = tempNodeOfMaxWeight.compareTo(serverNode) > 0 ? tempNodeOfMaxWeight : serverNode;

}

// 必须new个新的节点实例来保存信息,否则引用指向同一个堆实例,后面的set操作将会修改节点信息

nodeOfMaxWeight = new ServerNode(tempNodeOfMaxWeight.getIp(),tempNodeOfMaxWeight.getWeight(),tempNodeOfMaxWeight.isAvailable());

nodeOfMaxWeight.setEffectiveWeight(tempNodeOfMaxWeight.getEffectiveWeight());

nodeOfMaxWeight.setCurrentWeight(tempNodeOfMaxWeight.getCurrentWeight());

// 调整当前权重比:按权重(effectiveWeight)的比例进行调整,确保请求分发合理。

tempNodeOfMaxWeight.setCurrentWeight(tempNodeOfMaxWeight.getCurrentWeight() - totalWeight);

sb1.append(" -> "+printCurrentWeight(serverNodes));

serverNodes.forEach(serverNode -> serverNode.setCurrentWeight(serverNode.getCurrentWeight()+serverNode.getEffectiveWeight()));

sb1.append(" -> "+printCurrentWeight(serverNodes));

System.out.print(sb2); //所有节点的当前信息

System.out.println(sb1); //打印当前权重变化过程

}

return nodeOfMaxWeight;

}

// 格式化打印信息

private String printCurrentWeight(List serverNodes){

StringBuffer stringBuffer = new StringBuffer("[");

serverNodes.forEach(node -> stringBuffer.append(node.getCurrentWeight()+",") );

return stringBuffer.substring(0, stringBuffer.length() - 1) + "]";

}

// 并发测试:两个线程循环获取节点

public static void main(String[] args) throws InterruptedException {

// 循环次数

int loop = 18;

new Thread(() -> {

WeightedRoundRobinAvailable weightedRoundRobin1 = new WeightedRoundRobinAvailable();

for(int i=1;i<=loop;i++){

ServerNode serverNode = weightedRoundRobin1.selectNode();

System.out.println(Thread.currentThread().getName()+"==第"+i+"次轮询选中[当前权重最大]的节点:" + serverNode + "\n");

}

}).start();

//

new Thread(() -> {

WeightedRoundRobinAvailable weightedRoundRobin2 = new WeightedRoundRobinAvailable();

for(int i=1;i<=loop;i++){

ServerNode serverNode = weightedRoundRobin2.selectNode();

System.out.println(Thread.currentThread().getName()+"==第"+i+"次轮询选中[当前权重最大]的节点:" + serverNode + "\n");

}

}).start();

//main 线程睡了一下,再偷偷把 所有宕机 拉起来:模拟服务器恢复正常

Thread.sleep(5);

for (ServerNode serverNode:serverNodes){

if(!serverNode.isAvailable())

serverNode.setIsAvailable(true);

}

}

}

3.分析结果

执行结果:将执行结果的前中后四次抽出来分析

Thread-0==[正常节点]:{ip='192.168.1.101', weightScyGIuouta=1, effectiveWeight=1, currentWeight=1, isAvahttp://ilable=true}

Thread-0==[宕机节点]:{ip='192.168.1.102', weight=3, effectiveWeight=2, currentWeight=3, isAvailable=false}

Thread-0==[正常节点]:{ip='192.168.1.103', weight=2, effectiveWeight=2, currentWeight=2, isAvailable=true}

Thread-0==加权轮询--[当前权重]值的变化:[1,3,2] -> [1,-3,2] -> [2,-1,4]

Thread-0==第1次轮询选中[当前权重最大]的节点:{ip='192.168.1.102', weight=3, effectiveWeight=2, currentWeight=3, isAvailable=false}

……

Thread-1==[正常节点]:{ip='192.168.1.101', weight=1, effectiveWeight=1, currentWeight=6, isAvailable=true}

Thread-1==[宕机节点]:{ip='192.168.1.102', weight=3, effectiveWeight=-7, currentWeight=-21, isAvailable=false}

Thread-1==[正常节点]:{ip='192.168.1.103', weight=2, effectiveWeight=2, currentWeight=12, isAvailable=true}

Thread-1==加权轮询--[当前权重]值的变化:[6,-21,12] -> [6,-21,15] -> [7,-28,17]

Thread-1==第5次轮询选中[当前权重最大]的节点:{ip='192.168.1.103', weight=2, effectiveWeight=2, currentWeight=12, isAvailable=true}

……

Thread-0==[正常节点]:{ip='192.168.1.101', weight=1, effectiveWeight=1, currentWeight=13, isAvailable=true}

Thread-0==[正常节点]:{ip='192.168.1.102', weight=3, effectiveWeight=3, currentWeight=-19, isAvailable=true}

Thread-0==[正常节点]:{ip='192.168.1.103', weight=2, effectiveWeight=2, currentWeight=12, isAvailable=true}

Thread-0==加权轮询--[当前权重]值的变化:[13,-19,12] -> [7,-19,12] -> [8,-16,14]

Thread-0==第15次轮询选中[当前权重最大]的节点:{ip='192.168.1.101', weight=1, effectiveWeight=1, currentWeight=13, isAvailable=true}

……

Thread-1==[正常节点]:{ip='192.168.1.101', weight=1, effectiveWeight=1, currentWeight=2, isAvailable=true}

Thread-1==[正常节点]:{ip='192.168.1.102', weight=3, effectiveWeight=3, currentWeight=2, isAvailable=true}

Thread-1==[正常节点]:{ip='192.168.1.103', weight=2, effectiveWeight=2, currentWeight=2, isAvailable=true}

Thread-1==加权轮询--[当前权重]值的变化:[2,2,2] -> [2,2,-4] -> [3,5,-2]

Thread-1==第18次轮询选中[当前权重最大]的节点:{ip='192.168.1.103', weight=2, effectiveWeight=2, currentWeight=2, isAvailable=true}

分析

一开始权重最高的节点虽然是宕机了,但是还是会被选中并返回;

“有效权重总和” 和 “当前权重总和”都减少了1,因为设置轮询到失败节点,都会自减1;

到第5次轮询时,当前权重已经变成了[7,-28,17],可以看出宕机节点越往后当前权重越小,所以后面根本不会再选中宕机节点,虽然没剔除故障节点,但却起到不分配宕机节点;

到第15次轮询时,有效权重已经恢复起始值,当前权重变为[8,-16,14],当前权重只能慢慢恢复,并不是节点一正常就立即恢复宕机过的节点,起到对故障节点的缓冲恢复(故障过的节点可能还存在问题);

最后1次轮询时,因为没有宕机节点,所以有效权重不变,当前权重已经恢复[3,5,-2],如果再轮询一次,那就会访问到一开始故障的节点了。

4.结论

降权起到缓慢“剔除”宕机节点的效果;提权起到缓冲恢复宕机节点的效果。

对比上一篇文章可以看到:

当前权重(currentWeight):针对的是节点的选择,受有效权重影响,起到缓慢“剔除”宕机节点和缓冲恢复宕机节点的效果,当前权重最高就会被选择;

有效权重(effectiveWeight):针对的是权重的变化,也即是降权和提权,降权/提权只会直接操作有效权重;

权重(weight):针对的是存储起始配置,限定有效权重的提权。


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