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雪花算法通过顺序号持久化解决时钟回拨

作者:互联网

雪花算法自定义解决时钟回拨问题一文中,对雪花算法的时钟回拨解决思路进行了说明,由于顺序号保存在内存中,每次启动都是从初始值开始,在特定场景下,比如停止服务后进行了时钟回拨,在理论上,还是可能出现序列号重复的情况。

这里将序列号持久化到本地磁盘文件中,这样下次启动时,首先会读取之前保存的持久化文件,获取序列号,而不是直接从固定值(比如1)开始,这样就算回拨了时间,只要顺序号还是持续增加的,就不会出现序列号相同的情况。

package com.demo.server.config;

import cn.hutool.core.net.NetUtil;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.springframework.core.io.ClassPathResource;

import java.io.File;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.nio.charset.StandardCharsets;

public class CustomSnowFlake {

	private static Logger log = LoggerFactory.getLogger(CustomSnowFlake.class);

	// 2020-01-01 00:00:00 对应的秒
	private final static long beginTs = 1577808000L;

	// 顺序号最大值(大约419万)
	private final static long maxSequence = 4194300L;

	// 最大时钟回拨(秒),4194秒,大约69分钟
	private final static long maxTimeback = 4194L;

	private long lastTs = 0L;

	private long processId;
	private int processIdBits = 10;

	private long sequence = 1L;
	private int sequenceBits = 22;

	public CustomSnowFlake() throws IOException {

		String ipAddr = NetUtil.getLocalhostStr();
		log.info("当前机器的ipAddr:" + ipAddr);

		Long workerId = NetUtil.ipv4ToLong(ipAddr);
		workerId = workerId % 1024;

		log.info("当前机器的workId:" + workerId);

		this.processId = workerId;

	}

	/**
	 * 根据已知的workerId和流水号进行初始化
	 * @param workerId
	 * @param sequence
	 */
	public CustomSnowFlake(Long workerId, Long sequence) {

		this.processId = workerId;
		this.sequence = sequence;
	}

	/**
	 *
	 * @param processId
	 */
	public CustomSnowFlake(long processId) {
		if (processId > ((1 << processIdBits) - 1)) {
			throw new RuntimeException("进程ID超出范围,设置位数" + processIdBits + ",最大" + ((1 << processIdBits) - 1));
		}
		this.processId = processId;
	}

	/**
	 * 文件不存在时,不需要报错
	 */
	public void restoreCheckPoint() {

		String fileName = "snowflake.properties";
		ClassPathResource resource = new ClassPathResource(fileName);

		try {
			String confPath = resource.getURI().getPath();
			File confFile = new File(confPath);
			InputStream inputStream = new FileInputStream(confFile);

			byte buf[] = new byte[(int) confFile.length()];
			int read = inputStream.read(buf);
			inputStream.close();

			String confInfo = new String(buf);
			if (confInfo.startsWith("sequence=")) {
				String splits[] = confInfo.split("=");
				String sequence = splits[1];
				this.sequence = Long.parseLong(sequence);
			}

		} catch (Exception e) {
			e.printStackTrace();
		}
	}

	/**
	 * 文件不存在时,不影响正常使用
	 * 只是不能持久化顺序号
	 */
	public void saveCheckPoint() {
		String fileName = "snowflake.properties";
		ClassPathResource resource = new ClassPathResource(fileName);

		try {

			String confPath = resource.getURI().getPath();
			System.out.println("confPath = " + confPath);
			File confFile = new File(confPath);

			FileOutputStream outputStream = new FileOutputStream(confFile);
			String configInfo = "sequence=" + sequence;
			outputStream.write(configInfo.getBytes(StandardCharsets.UTF_8));

			outputStream.close();
		} catch (Exception e) {
			e.printStackTrace();
		}
	}

	/**
	 * 获取当前时间(秒为单位)
	 * @return
	 */
	protected long timeGen() {
		return System.currentTimeMillis() / 1000;
	}

	/**
	 * 生成一个Id
	 * @return
	 */
	public synchronized long nextId() {

		// 获取当前时间(秒为单位)
		long ts = timeGen();

		// 刚刚生成的时间戳比上次的时间戳还小,出错
		long tempDiff = lastTs - ts;
		if (tempDiff >= maxTimeback) {
			log.warn("时钟回拨超过4194秒,存在Id重复风险");
		}

		sequence = sequence + 1;
		if(sequence >= maxSequence)
		{
			sequence = 1;
		}

		// 更新lastTs时间戳
		lastTs = ts;
		long timeDiff = ts - beginTs;

		return (timeDiff << (processIdBits + sequenceBits)) | (processId << sequenceBits) | sequence;
	}

    public static void main(String[] args) throws Exception {
        // TODO Auto-generated method stub

        CustomSnowFlake ig = new CustomSnowFlake();

		ig.restoreCheckPoint();

        for (int i = 0; i < 10; i++) {
        	System.out.println(ig.nextId());
			ig.saveCheckPoint();
            Thread.sleep(1000);
        }
    }
}

根据情况,还可以进行一定的优化,比如不一定每次生成id都进行持久化,而是当生成id次数达到一定数量或者间隔一定时间(比如3秒或5秒)以后,再进行持久化,这样就可以提高效率。当然这样做的结果,就可能有部分序列号没有成功保存的情况。因为序列号中的时间因子是每秒编号,所有程序重新启动后,往往时间就和之前的不相同了。

对于并发量小的情况,每次生成id都进行持久化,对性能和效率的影响也不大,对并发量大的情况,就需要考虑采用间隔一定数量或时间的方式来进行优化了。

标签:sequence,workerId,private,回拨,long,顺序号,import,序列号,时钟
来源: https://blog.csdn.net/liaomingwu/article/details/122826842