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www1350
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dubbo源码解析(八) LoadBalance
LoadBalance层
配置
服务端服务级别
<dubbo:service interface="..." loadbalance="roundrobin" />
客户端服务级别
<dubbo:reference interface="..." loadbalance="roundrobin" />
服务端方法级别
<dubbo:service interface="...">
<dubbo:method name="..." loadbalance="roundrobin"/>
</dubbo:service>
客户端方法级别
<dubbo:reference interface="...">
<dubbo:method name="..." loadbalance="roundrobin"/>
</dubbo:reference>
在集群负载均衡时,Dubbo 提供了多种均衡策略,缺省为 random 随机调用。
@SPI(RandomLoadBalance.NAME)
public interface LoadBalance {
/**
* select one invoker in list.
*
* @param invokers invokers.
* @param url refer url
* @param invocation invocation.
* @return selected invoker.
*/
@Adaptive("loadbalance")
<T> Invoker<T> select(List<Invoker<T>> invokers, URL url, Invocation invocation) throws RpcException;
}
负载均衡策略
Random LoadBalance
- 随机,按权重设置随机概率。
- 在一个截面上碰撞的概率高,但调用量越大分布越均匀,而且按概率使用权重后也比较均匀,有利于动态调整提供者权重。
public class RandomLoadBalance extends AbstractLoadBalance {
public static final String NAME = "random";
private final Random random = new Random();
protected <T> Invoker<T> doSelect(List<Invoker<T>> invokers, URL url, Invocation invocation) {
int length = invokers.size(); // Number of invokers
int totalWeight = 0; // The sum of weights
boolean sameWeight = true; // Every invoker has the same weight?
for (int i = 0; i < length; i++) {
int weight = getWeight(invokers.get(i), invocation);
totalWeight += weight; // Sum
if (sameWeight && i > 0
&& weight != getWeight(invokers.get(i - 1), invocation)) {
sameWeight = false;
}
}
if (totalWeight > 0 && !sameWeight) {
// 只要不是所有的都是同一个weight或者totalWeight大于0,根据权重随机选出一个
int offset = random.nextInt(totalWeight);
// Return a invoker based on the random value.
for (int i = 0; i < length; i++) {
offset -= getWeight(invokers.get(i), invocation);
if (offset < 0) {
return invokers.get(i);
}
}
}
// 所有的weight相同随机选一个
return invokers.get(random.nextInt(length));
}
}
RoundRobin LoadBalance
- 轮循,按公约后的权重设置轮循比率。
- 存在慢的提供者累积请求的问题,比如:第二台机器很慢,但没挂,当请求调到第二台时就卡在那,久而久之,所有请求都卡在调到第二台上。
public class RoundRobinLoadBalance extends AbstractLoadBalance {
public static final String NAME = "roundrobin";
private final ConcurrentMap<String, AtomicPositiveInteger> sequences = new ConcurrentHashMap<String, AtomicPositiveInteger>();
protected <T> Invoker<T> doSelect(List<Invoker<T>> invokers, URL url, Invocation invocation) {
String key = invokers.get(0).getUrl().getServiceKey() + "." + invocation.getMethodName();
int length = invokers.size(); // Number of invokers
int maxWeight = 0; // The maximum weight
int minWeight = Integer.MAX_VALUE; // The minimum weight
final LinkedHashMap<Invoker<T>, IntegerWrapper> invokerToWeightMap = new LinkedHashMap<Invoker<T>, IntegerWrapper>();
int weightSum = 0;
for (int i = 0; i < length; i++) {
int weight = getWeight(invokers.get(i), invocation);
maxWeight = Math.max(maxWeight, weight); // Choose the maximum weight
minWeight = Math.min(minWeight, weight); // Choose the minimum weight
if (weight > 0) {
invokerToWeightMap.put(invokers.get(i), new IntegerWrapper(weight));
weightSum += weight;
}
}
AtomicPositiveInteger sequence = sequences.get(key);
if (sequence == null) {
sequences.putIfAbsent(key, new AtomicPositiveInteger());
sequence = sequences.get(key);
}
int currentSequence = sequence.getAndIncrement();
if (maxWeight > 0 && minWeight < maxWeight) {
int mod = currentSequence % weightSum;
for (int i = 0; i < maxWeight; i++) {
for (Map.Entry<Invoker<T>, IntegerWrapper> each : invokerToWeightMap.entrySet()) {
final Invoker<T> k = each.getKey();
final IntegerWrapper v = each.getValue();
if (mod == 0 && v.getValue() > 0) {
return k;
}
if (v.getValue() > 0) {
v.decrement();
mod--;
}
}
}
}
// Round robin
return invokers.get(currentSequence % length);
}
private static final class IntegerWrapper {
private int value;
public IntegerWrapper(int value) {
this.value = value;
}
public int getValue() {
return value;
}
public void setValue(int value) {
this.value = value;
}
public void decrement() {
this.value--;
}
}
}
LeastActive LoadBalance
- 最少活跃调用数,相同活跃数的随机,活跃数指调用前后计数差。
- 使慢的提供者收到更少请求,因为越慢的提供者的调用前后计数差会越大。
public class LeastActiveLoadBalance extends AbstractLoadBalance {
public static final String NAME = "leastactive";
private final Random random = new Random();
protected <T> Invoker<T> doSelect(List<Invoker<T>> invokers, URL url, Invocation invocation) {
int length = invokers.size(); // Number of invokers
int leastActive = -1; // The least active value of all invokers
int leastCount = 0; // The number of invokers having the same least active value (leastActive)
int[] leastIndexs = new int[length]; // The index of invokers having the same least active value (leastActive)
int totalWeight = 0; // The sum of weights
int firstWeight = 0; // Initial value, used for comparision
boolean sameWeight = true; // Every invoker has the same weight value?
for (int i = 0; i < length; i++) {
Invoker<T> invoker = invokers.get(i);
int active = RpcStatus.getStatus(invoker.getUrl(), invocation.getMethodName()).getActive(); // Active number
int weight = invoker.getUrl().getMethodParameter(invocation.getMethodName(), Constants.WEIGHT_KEY, Constants.DEFAULT_WEIGHT); // Weight
if (leastActive == -1 || active < leastActive) { // Restart, when find a invoker having smaller least active value.
leastActive = active; // Record the current least active value
leastCount = 1; // Reset leastCount, count again based on current leastCount
leastIndexs[0] = i; // Reset
totalWeight = weight; // Reset
firstWeight = weight; // Record the weight the first invoker
sameWeight = true; // Reset, every invoker has the same weight value?
} else if (active == leastActive) { // If current invoker's active value equals with leaseActive, then accumulating.
leastIndexs[leastCount++] = i; // Record index number of this invoker
totalWeight += weight; // Add this invoker's weight to totalWeight.
// If every invoker has the same weight?
if (sameWeight && i > 0
&& weight != firstWeight) {
sameWeight = false;
}
}
}
// assert(leastCount > 0)
if (leastCount == 1) {
// If we got exactly one invoker having the least active value, return this invoker directly.
return invokers.get(leastIndexs[0]);
}
if (!sameWeight && totalWeight > 0) {
// If (not every invoker has the same weight & at least one invoker's weight>0), select randomly based on totalWeight.
int offsetWeight = random.nextInt(totalWeight);
// Return a invoker based on the random value.
for (int i = 0; i < leastCount; i++) {
int leastIndex = leastIndexs[i];
offsetWeight -= getWeight(invokers.get(leastIndex), invocation);
if (offsetWeight <= 0)
return invokers.get(leastIndex);
}
}
// If all invokers have the same weight value or totalWeight=0, return evenly.
return invokers.get(leastIndexs[random.nextInt(leastCount)]);
}
}
ConsistentHash LoadBalance
- 一致性 Hash,相同参数的请求总是发到同一提供者。
- 当某一台提供者挂时,原本发往该提供者的请求,基于虚拟节点,平摊到其它提供者,不会引起剧烈变动。
- 算法参见:http://en.wikipedia.org/wiki/Consistent_hashing
- 缺省只对第一个参数 Hash,如果要修改,请配置
<dubbo:parameter key="hash.arguments" value="0,1" /> - 缺省用 160 份虚拟节点,如果要修改,请配置
<dubbo:parameter key="hash.nodes" value="320" />
public class ConsistentHashLoadBalance extends AbstractLoadBalance {
private final ConcurrentMap<String, ConsistentHashSelector<?>> selectors = new ConcurrentHashMap<String, ConsistentHashSelector<?>>();
@SuppressWarnings("unchecked")
@Override
protected <T> Invoker<T> doSelect(List<Invoker<T>> invokers, URL url, Invocation invocation) {
String key = invokers.get(0).getUrl().getServiceKey() + "." + invocation.getMethodName();
int identityHashCode = System.identityHashCode(invokers);
ConsistentHashSelector<T> selector = (ConsistentHashSelector<T>) selectors.get(key);
if (selector == null || selector.identityHashCode != identityHashCode) {
selectors.put(key, new ConsistentHashSelector<T>(invokers, invocation.getMethodName(), identityHashCode));
selector = (ConsistentHashSelector<T>) selectors.get(key);
}
return selector.select(invocation);
}
private static final class ConsistentHashSelector<T> {
private final TreeMap<Long, Invoker<T>> virtualInvokers;
private final int replicaNumber;
private final int identityHashCode;
private final int[] argumentIndex;
ConsistentHashSelector(List<Invoker<T>> invokers, String methodName, int identityHashCode) {
this.virtualInvokers = new TreeMap<Long, Invoker<T>>();
this.identityHashCode = identityHashCode;
URL url = invokers.get(0).getUrl();
this.replicaNumber = url.getMethodParameter(methodName, "hash.nodes", 160);
String[] index = Constants.COMMA_SPLIT_PATTERN.split(url.getMethodParameter(methodName, "hash.arguments", "0"));
argumentIndex = new int[index.length];
for (int i = 0; i < index.length; i++) {
argumentIndex[i] = Integer.parseInt(index[i]);
}
for (Invoker<T> invoker : invokers) {
String address = invoker.getUrl().getAddress();
for (int i = 0; i < replicaNumber / 4; i++) {
byte[] digest = md5(address + i);
for (int h = 0; h < 4; h++) {
long m = hash(digest, h);
virtualInvokers.put(m, invoker);
}
}
}
}
public Invoker<T> select(Invocation invocation) {
String key = toKey(invocation.getArguments());
byte[] digest = md5(key);
return selectForKey(hash(digest, 0));
}
private String toKey(Object[] args) {
StringBuilder buf = new StringBuilder();
for (int i : argumentIndex) {
if (i >= 0 && i < args.length) {
buf.append(args[i]);
}
}
return buf.toString();
}
private Invoker<T> selectForKey(long hash) {
Map.Entry<Long, Invoker<T>> entry = virtualInvokers.tailMap(hash, true).firstEntry();
if (entry == null) {
entry = virtualInvokers.firstEntry();
}
return entry.getValue();
}
private long hash(byte[] digest, int number) {
return (((long) (digest[3 + number * 4] & 0xFF) << 24)
| ((long) (digest[2 + number * 4] & 0xFF) << 16)
| ((long) (digest[1 + number * 4] & 0xFF) << 8)
| (digest[number * 4] & 0xFF))
& 0xFFFFFFFFL;
}
private byte[] md5(String value) {
MessageDigest md5;
try {
md5 = MessageDigest.getInstance("MD5");
} catch (NoSuchAlgorithmException e) {
throw new IllegalStateException(e.getMessage(), e);
}
md5.reset();
byte[] bytes;
try {
bytes = value.getBytes("UTF-8");
} catch (UnsupportedEncodingException e) {
throw new IllegalStateException(e.getMessage(), e);
}
md5.update(bytes);
return md5.digest();
}
}
}
