Leaf的Github地址:
https://github.com/Meituan-Dianping/Leaf
Leaf美团技术团队博客地址:
https://tech.meituan.com/2017/04/21/mt-leaf.html
关于Leaf的使用手册、架构说明、Segment和Snowflake的特点和时钟回拨解决办法,参考上面的链接内容都能获得到答案。拒绝重复搬砖。
在本篇博客里我想就Leaf的Segment模式的源码实现做个简单的注释。代码分支:master。
1.Segment
Segment是SegmentBuffer的成员属性,cache中存储的是SegmentBuffer,Segment是双buffer的实现。
2.初始化Segment
在初始化Segment时,主要做两件事情。1是根据数据库表中配置的busi_tag更新缓存;2是添加定时任务,定时(一分钟间隔)更新缓存。
@Override public boolean init() { logger.info("Init ..."); // 确保加载到kv后才初始化成功 updateCacheFromDb(); initOK = true; updateCacheFromDbAtEveryMinute(); return initOK; }
updateCacheFromDb():
private void updateCacheFromDb() { logger.info("update cache from db"); StopWatch sw = new Slf4JStopWatch(); try { //从配置的数据源中加载biz_tag List<String> dbTags = dao.getAllTags(); if (dbTags == null || dbTags.isEmpty()) { return; } //cache中的biz_tag.初始为空. List<String> cacheTags = new ArrayList<String>(cache.keySet()); //存储本次更新操作,要从DB中加载进cache的biz_tag. Set<String> insertTagsSet = new HashSet<>(dbTags); //存储失效的biz_tag:存在于cache,不存在于DB. Set<String> removeTagsSet = new HashSet<>(cacheTags); //过滤去重,得到需要存入进cache的biz_tag for(int i = 0; i < cacheTags.size(); i++){ String tmp = cacheTags.get(i); if(insertTagsSet.contains(tmp)){ insertTagsSet.remove(tmp); } } //存储进cache for (String tag : insertTagsSet) { SegmentBuffer buffer = new SegmentBuffer(); buffer.setKey(tag); Segment segment = buffer.getCurrent(); segment.setValue(new AtomicLong(0)); //这里的max、step均为0.所以这一步仅仅将biz_tag存储进了cache,并没有对SegmentBuffer执行初始化操作. segment.setMax(0); segment.setStep(0); cache.put(tag, buffer); logger.info("Add tag {} from db to IdCache, SegmentBuffer {}", tag, buffer); } //cache中已失效的biz_tag从cache删除 for(int i = 0; i < dbTags.size(); i++){ String tmp = dbTags.get(i); if(removeTagsSet.contains(tmp)){ removeTagsSet.remove(tmp); } } for (String tag : removeTagsSet) { cache.remove(tag); logger.info("Remove tag {} from IdCache", tag); } } catch (Exception e) { logger.warn("update cache from db exception", e); } finally { sw.stop("updateCacheFromDb"); } }
3.获取到下一个序列号
@Override public Result get(final String key) { if (!initOK) { return new Result(EXCEPTION_ID_IDCACHE_INIT_FALSE, Status.EXCEPTION); } //判断cache中是否有这个key——bizTag if (cache.containsKey(key)) { SegmentBuffer buffer = cache.get(key); //未初始化, if (!buffer.isInitOk()) { synchronized (buffer) { //再次判断,以防重复初始化. if (!buffer.isInitOk()) { try { //对SegmentBuffer当前的Segment进行初始化 updateSegmentFromDb(key, buffer.getCurrent()); logger.info("Init buffer. Update leafkey {} {} from db", key, buffer.getCurrent()); buffer.setInitOk(true); } catch (Exception e) { logger.warn("Init buffer {} exception", buffer.getCurrent(), e); } } } } return getIdFromSegmentBuffer(cache.get(key)); } return new Result(EXCEPTION_ID_KEY_NOT_EXISTS, Status.EXCEPTION); }
updateSegmentFromDb();
public void updateSegmentFromDb(String key, Segment segment) { StopWatch sw = new Slf4JStopWatch(); SegmentBuffer buffer = segment.getBuffer(); LeafAlloc leafAlloc; //1.SegmentBuffer尚未初始化,则SegmentBuffer的step等于数据库中的step; if (!buffer.isInitOk()) { leafAlloc = dao.updateMaxIdAndGetLeafAlloc(key); buffer.setStep(leafAlloc.getStep()); buffer.setMinStep(leafAlloc.getStep());//leafAlloc中的step为DB中的step } else if (buffer.getUpdateTimestamp() == 0) { //2.SegmentBuffer已经初始化完成: leafAlloc = dao.updateMaxIdAndGetLeafAlloc(key); buffer.setUpdateTimestamp(System.currentTimeMillis()); buffer.setStep(leafAlloc.getStep()); buffer.setMinStep(leafAlloc.getStep());//leafAlloc中的step为DB中的step } else { //2.SegmentBuffer已经初始化完成: //a) SegmentBuffer的存活时间小于15分钟: // i. 如果SegmentBuffer当前的step*2大于最大值(一百万),则什么也不做,不再扩大step // ii. 否则,SegmentBuffer的step扩大为原来的2倍。 //b) SegmentBuffer的存活时间小于30分钟:什么也不做. //c) SegmentBuffer的存活时间在15至30分钟之间: // i. 如果SegmentBuffer的step/2 大于等于数据库中的step,那么就将SegmentBuffer的step值变为原来的二分之一,否则什么也不做。 long duration = System.currentTimeMillis() - buffer.getUpdateTimestamp(); int nextStep = buffer.getStep(); if (duration < SEGMENT_DURATION) { if (nextStep * 2 > MAX_STEP) { //do nothing } else { nextStep = nextStep * 2; } } else if (duration < SEGMENT_DURATION * 2) { //do nothing with nextStep } else { nextStep = nextStep / 2 >= buffer.getMinStep() ? nextStep / 2 : nextStep; } logger.info("leafKey[{}], step[{}], duration[{}mins], nextStep[{}]", key, buffer.getStep(), String.format("%.2f",((double)duration / (1000 * 60))), nextStep); LeafAlloc temp = new LeafAlloc(); temp.setKey(key); temp.setStep(nextStep); leafAlloc = dao.updateMaxIdByCustomStepAndGetLeafAlloc(temp); buffer.setUpdateTimestamp(System.currentTimeMillis()); buffer.setStep(nextStep); buffer.setMinStep(leafAlloc.getStep());//leafAlloc的step为DB中的step } // must set value before set max long value = leafAlloc.getMaxId() - buffer.getStep(); segment.getValue().set(value); segment.setMax(leafAlloc.getMaxId()); segment.setStep(buffer.getStep()); sw.stop("updateSegmentFromDb", key + " " + segment); }
getIdFromSegmentBuffer();
public Result getIdFromSegmentBuffer(final SegmentBuffer buffer) { while (true) { //读锁 buffer.rLock().lock(); try { //获取到当前正在使用的Segment. final Segment segment = buffer.getCurrent(); //如果下一个Segment没有初始化完成,当前Segment的ID闲置数量小于9成,并且没有在执行Segment初始化操作,就去执行对下一个Segment的初始化. //只要当前号段消费数量达到了10%,就对下一个号段进行初始化. if (!buffer.isNextReady() && (segment.getIdle() < 0.9 * segment.getStep()) && buffer.getThreadRunning().compareAndSet(false, true)) { service.execute(new Runnable() { @Override public void run() { Segment next = buffer.getSegments()[buffer.nextPos()]; boolean updateOk = false; try { //根据biz_tag,根据DB对Segment初始化 updateSegmentFromDb(buffer.getKey(), next); updateOk = true; logger.info("update segment {} from db {}", buffer.getKey(), next); } catch (Exception e) { logger.warn(buffer.getKey() + " updateSegmentFromDb exception", e); } finally { if (updateOk) { //获取写锁 buffer.wLock().lock(); buffer.setNextReady(true); buffer.getThreadRunning().set(false); buffer.wLock().unlock(); } else { buffer.getThreadRunning().set(false); } } } }); } //Segment的value记录了当前已分配的ID最大值,加一后返回.原子性操作. long value = segment.getValue().getAndIncrement(); //如果超过了当前Segment缓存的最大值(当前Segment号段已经消费完毕),就进入阻塞等待. if (value < segment.getMax()) { return new Result(value, Status.SUCCESS); } } finally { buffer.rLock().unlock(); } //当前号段已经消费完了,下个号段正在有别的线程在执行初始化,进入等待. //做空转. waitAndSleep(buffer); buffer.wLock().lock(); //下面这段代码在做空转之前已经执行过,这里为什么还要再次执行呢? //在当前线程空转期间,可能已经有别的线程执行完毕了对下个Segment的初始化操作,并进行了切换.防止出现多次切换. try { final Segment segment = buffer.getCurrent(); long value = segment.getValue().getAndIncrement(); if (value < segment.getMax()) { return new Result(value, Status.SUCCESS); } //当前Segment缓存的号段已经消费完了,下一个Segment初始化好了就进行切换 if (buffer.isNextReady()) { //将Segment切换为下一个. buffer.switchPos(); buffer.setNextReady(false); } else { //ERROR.当前Segment号段满了,下一个号段还未准备好. logger.error("Both two segments in {} are not ready!", buffer); return new Result(EXCEPTION_ID_TWO_SEGMENTS_ARE_NULL, Status.EXCEPTION); } } finally { buffer.wLock().unlock(); } } }