Java客户端Jedis的八种调用方式

孤街醉人 提交于 2020-03-11 07:41:30
 
redis是一个著名的key-value存储系统,而作为其官方推荐的java版客户端jedis也非常强大和稳定,支持事务、管道及有jedis自身实现的分布式。 

在这里对jedis关于事务、管道和分布式的调用方式做一个简单的介绍和对比: 
一、普通同步方式 

最简单和基础的调用方式, 

@Test 
public void test1Normal() { 
    Jedis jedis = new Jedis("localhost"); 
    long start = System.currentTimeMillis(); 
    for (int i = 0; i < 100000; i++) { 
        String result = jedis.set("n" + i, "n" + i); 
    } 
    long end = System.currentTimeMillis(); 
    System.out.println("Simple SET: " + ((end - start)/1000.0) + " seconds"); 
    jedis.disconnect(); 


很简单吧,每次set之后都可以返回结果,标记是否成功。 
二、事务方式(Transactions) 

redis的事务很简单,他主要目的是保障,一个client发起的事务中的命令可以连续的执行,而中间不会插入其他client的命令。 

看下面例子: 

@Test 
public void test2Trans() { 
    Jedis jedis = new Jedis("localhost"); 
    long start = System.currentTimeMillis(); 
    Transaction tx = jedis.multi(); 
    for (int i = 0; i < 100000; i++) { 
        tx.set("t" + i, "t" + i); 
    } 
    List<Object> results = tx.exec(); 
    long end = System.currentTimeMillis(); 
    System.out.println("Transaction SET: " + ((end - start)/1000.0) + " seconds"); 
    jedis.disconnect(); 


我们调用jedis.watch(…)方法来监控key,如果调用后key值发生变化,则整个事务会执行失败。另外,事务中某个操作失败,并不会回滚其他操作。这一点需要注意。还有,我们可以使用discard()方法来取消事务。 
三、管道(Pipelining) 

有时,我们需要采用异步方式,一次发送多个指令,不同步等待其返回结果。这样可以取得非常好的执行效率。这就是管道,调用方法如下: 

@Test 
public void test3Pipelined() { 
    Jedis jedis = new Jedis("localhost"); 
    Pipeline pipeline = jedis.pipelined(); 
    long start = System.currentTimeMillis(); 
    for (int i = 0; i < 100000; i++) { 
        pipeline.set("p" + i, "p" + i); 
    } 
    List<Object> results = pipeline.syncAndReturnAll(); 
    long end = System.currentTimeMillis(); 
    System.out.println("Pipelined SET: " + ((end - start)/1000.0) + " seconds"); 
    jedis.disconnect(); 


四、管道中调用事务 

就Jedis提供的方法而言,是可以做到在管道中使用事务,其代码如下: 

@Test 
public void test4combPipelineTrans() { 
    jedis = new Jedis("localhost"); 
    long start = System.currentTimeMillis(); 
    Pipeline pipeline = jedis.pipelined(); 
    pipeline.multi(); 
    for (int i = 0; i < 100000; i++) { 
        pipeline.set("" + i, "" + i); 
    } 
    pipeline.exec(); 
    List<Object> results = pipeline.syncAndReturnAll(); 
    long end = System.currentTimeMillis(); 
    System.out.println("Pipelined transaction: " + ((end - start)/1000.0) + " seconds"); 
    jedis.disconnect(); 


但是经测试(见本文后续部分),发现其效率和单独使用事务差不多,甚至还略微差点。 
五、分布式直连同步调用 

@Test 
public void test5shardNormal() { 
    List<JedisShardInfo> shards = Arrays.asList( 
            new JedisShardInfo("localhost",6379), 
            new JedisShardInfo("localhost",6380)); 

    ShardedJedis sharding = new ShardedJedis(shards); 

    long start = System.currentTimeMillis(); 
    for (int i = 0; i < 100000; i++) { 
        String result = sharding.set("sn" + i, "n" + i); 
    } 
    long end = System.currentTimeMillis(); 
    System.out.println("Simple@Sharing SET: " + ((end - start)/1000.0) + " seconds"); 

    sharding.disconnect(); 


这个是分布式直接连接,并且是同步调用,每步执行都返回执行结果。类似地,还有异步管道调用。 
六、分布式直连异步调用 

@Test 
public void test6shardpipelined() { 
    List<JedisShardInfo> shards = Arrays.asList( 
            new JedisShardInfo("localhost",6379), 
            new JedisShardInfo("localhost",6380)); 

    ShardedJedis sharding = new ShardedJedis(shards); 

    ShardedJedisPipeline pipeline = sharding.pipelined(); 
    long start = System.currentTimeMillis(); 
    for (int i = 0; i < 100000; i++) { 
        pipeline.set("sp" + i, "p" + i); 
    } 
    List<Object> results = pipeline.syncAndReturnAll(); 
    long end = System.currentTimeMillis(); 
    System.out.println("Pipelined@Sharing SET: " + ((end - start)/1000.0) + " seconds"); 

    sharding.disconnect(); 


七、分布式连接池同步调用 (适用于2.2及以下版本)

如果,你的分布式调用代码是运行在线程中,那么上面两个直连调用方式就不合适了,因为直连方式是非线程安全的,这个时候,你就必须选择连接池调用。 

@Test 
public void test7shardSimplePool() { 
    List<JedisShardInfo> shards = Arrays.asList( 
            new JedisShardInfo("localhost",6379), 
            new JedisShardInfo("localhost",6380)); 

    ShardedJedisPool pool = new ShardedJedisPool(new JedisPoolConfig(), shards); 

    ShardedJedis one = pool.getResource(); 

    long start = System.currentTimeMillis(); 
    for (int i = 0; i < 100000; i++) { 
        String result = one.set("spn" + i, "n" + i); 
    } 
    long end = System.currentTimeMillis(); 
    pool.returnResource(one); 
    System.out.println("Simple@Pool SET: " + ((end - start)/1000.0) + " seconds"); 

    pool.destroy(); 


上面是同步方式,当然还有异步方式。 
八、分布式连接池异步调用 (适用于2.2及以下版本)

@Test 
public void test8shardPipelinedPool() { 
    List<JedisShardInfo> shards = Arrays.asList( 
            new JedisShardInfo("localhost",6379), 
            new JedisShardInfo("localhost",6380)); 

    ShardedJedisPool pool = new ShardedJedisPool(new JedisPoolConfig(), shards); 

    ShardedJedis one = pool.getResource(); 

    ShardedJedisPipeline pipeline = one.pipelined(); 

    long start = System.currentTimeMillis(); 
    for (int i = 0; i < 100000; i++) { 
        pipeline.set("sppn" + i, "n" + i); 
    } 
    List<Object> results = pipeline.syncAndReturnAll(); 
    long end = System.currentTimeMillis(); 
    pool.returnResource(one); 
    System.out.println("Pipelined@Pool SET: " + ((end - start)/1000.0) + " seconds"); 
    pool.destroy(); 


九、需要注意的地方 

    事务和管道都是异步模式。在事务和管道中不能同步查询结果。比如下面两个调用,都是不允许的: 

     Transaction tx = jedis.multi(); 
     for (int i = 0; i < 100000; i++) { 
         tx.set("t" + i, "t" + i); 
     } 
     System.out.println(tx.get("t1000").get());  //不允许 

     List<Object> results = tx.exec(); 

     … 
     … 

     Pipeline pipeline = jedis.pipelined(); 
     long start = System.currentTimeMillis(); 
     for (int i = 0; i < 100000; i++) { 
         pipeline.set("p" + i, "p" + i); 
     } 
     System.out.println(pipeline.get("p1000").get()); //不允许 

     List<Object> results = pipeline.syncAndReturnAll(); 

    事务和管道都是异步的,个人感觉,在管道中再进行事务调用,没有必要,不如直接进行事务模式。 

    分布式中,连接池的性能比直连的性能略好(见后续测试部分)。 

    分布式调用中不支持事务。 

    因为事务是在服务器端实现,而在分布式中,每批次的调用对象都可能访问不同的机器,所以,没法进行事务。 

十、测试 

运行上面的代码,进行测试,其结果如下: 

Simple SET: 5.227 seconds 

Transaction SET: 0.5 seconds 
Pipelined SET: 0.353 seconds 
Pipelined transaction: 0.509 seconds 

Simple@Sharing SET: 5.289 seconds 
Pipelined@Sharing SET: 0.348 seconds 

Simple@Pool SET: 5.039 seconds 
Pipelined@Pool SET: 0.401 seconds 

另外,经测试分布式中用到的机器越多,调用会越慢。上面是2片,下面是5片: 

Simple@Sharing SET: 5.494 seconds 
Pipelined@Sharing SET: 0.51 seconds 
Simple@Pool SET: 5.223 seconds 
Pipelined@Pool SET: 0.518 seconds 

下面是10片: 

Simple@Sharing SET: 5.9 seconds 
Pipelined@Sharing SET: 0.794 seconds 
Simple@Pool SET: 5.624 seconds 
Pipelined@Pool SET: 0.762 seconds 

下面是100片: 

Simple@Sharing SET: 14.055 seconds 
Pipelined@Sharing SET: 8.185 seconds 
Simple@Pool SET: 13.29 seconds 
Pipelined@Pool SET: 7.767 seconds 

分布式中,连接池方式调用不但线程安全外,根据上面的测试数据,也可以看出连接池比直连的效率更好。 
十一、完整的测试代码 

package com.example.nosqlclient; 

import java.util.Arrays; 
import java.util.List; 

import org.junit.AfterClass; 
import org.junit.BeforeClass; 
import org.junit.Test;  import redis.clients.jedis.Jedis;  import redis.clients.jedis.JedisPoolConfig;  import redis.clients.jedis.JedisShardInfo;  import redis.clients.jedis.Pipeline;  import redis.clients.jedis.ShardedJedis;  import redis.clients.jedis.ShardedJedisPipeline;  import redis.clients.jedis.ShardedJedisPool;  import redis.clients.jedis.Transaction;  import org.junit.FixMethodOrder;  import org.junit.runners.MethodSorters;  @FixMethodOrder(MethodSorters.NAME_ASCENDING)  public class TestJedis {      private static Jedis jedis;      private static ShardedJedis sharding;      private static ShardedJedisPool pool;      @BeforeClass      public static void setUpBeforeClass() throws Exception {          List<JedisShardInfo> shards = Arrays.asList(                  new JedisShardInfo("localhost",6379),                  new JedisShardInfo("localhost",6379)); //使用相同的ip:port,仅作测试          jedis = new Jedis("localhost");          sharding = new ShardedJedis(shards);          pool = new ShardedJedisPool(new JedisPoolConfig(), shards);      }      @AfterClass      public static void tearDownAfterClass() throws Exception {          jedis.disconnect();          sharding.disconnect();          pool.destroy();      }      @Test      public void test1Normal() {          long start = System.currentTimeMillis();          for (int i = 0; i < 100000; i++) {              String result = jedis.set("n" + i, "n" + i);          }          long end = System.currentTimeMillis();          System.out.println("Simple SET: " + ((end - start)/1000.0) + " seconds");      }      @Test      public void test2Trans() {          long start = System.currentTimeMillis();          Transaction tx = jedis.multi();          for (int i = 0; i < 100000; i++) {              tx.set("t" + i, "t" + i);          }          //System.out.println(tx.get("t1000").get());          List<Object> results = tx.exec();          long end = System.currentTimeMillis();          System.out.println("Transaction SET: " + ((end - start)/1000.0) + " seconds");      }      @Test      public void test3Pipelined() {          Pipeline pipeline = jedis.pipelined();          long start = System.currentTimeMillis();          for (int i = 0; i < 100000; i++) {              pipeline.set("p" + i, "p" + i);          }          //System.out.println(pipeline.get("p1000").get());          List<Object> results = pipeline.syncAndReturnAll();          long end = System.currentTimeMillis();          System.out.println("Pipelined SET: " + ((end - start)/1000.0) + " seconds");      }      @Test      public void test4combPipelineTrans() {          long start = System.currentTimeMillis();          Pipeline pipeline = jedis.pipelined();          pipeline.multi();          for (int i = 0; i < 100000; i++) {              pipeline.set("" + i, "" + i);          }          pipeline.exec();          List<Object> results = pipeline.syncAndReturnAll();          long end = System.currentTimeMillis();          System.out.println("Pipelined transaction: " + ((end - start)/1000.0) + " seconds");      }      @Test      public void test5shardNormal() {          long start = System.currentTimeMillis();          for (int i = 0; i < 100000; i++) {              String result = sharding.set("sn" + i, "n" + i);          }          long end = System.currentTimeMillis();          System.out.println("Simple@Sharing SET: " + ((end - start)/1000.0) + " seconds");      }      @Test      public void test6shardpipelined() {          ShardedJedisPipeline pipeline = sharding.pipelined();          long start = System.currentTimeMillis();          for (int i = 0; i < 100000; i++) {              pipeline.set("sp" + i, "p" + i);          }          List<Object> results = pipeline.syncAndReturnAll();          long end = System.currentTimeMillis();          System.out.println("Pipelined@Sharing SET: " + ((end - start)/1000.0) + " seconds");      }      @Test      public void test7shardSimplePool() {          ShardedJedis one = pool.getResource();          long start = System.currentTimeMillis();          for (int i = 0; i < 100000; i++) {              String result = one.set("spn" + i, "n" + i);          }          long end = System.currentTimeMillis();          pool.returnResource(one);          System.out.println("Simple@Pool SET: " + ((end - start)/1000.0) + " seconds");      }      @Test      public void test8shardPipelinedPool() {          ShardedJedis one = pool.getResource();          ShardedJedisPipeline pipeline = one.pipelined();          long start = System.currentTimeMillis();          for (int i = 0; i < 100000; i++) {              pipeline.set("sppn" + i, "n" + i);          }          List<Object> results = pipeline.syncAndReturnAll();          long end = System.currentTimeMillis();          pool.returnResource(one);          System.out.println("Pipelined@Pool SET: " + ((end - start)/1000.0) + " seconds");      }  } 
 
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