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Apache Storm

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背景介绍

流计算:将大规模流动数据在不断变化的运动过程中实现数据的实时分析,捕捉到可能有用的信息,并把结果发送到下一计算节点。
主流流计算框架:Kafka Streaming、Apache Storm、Spark Streaming、Flink DataStream等。

  • Kafka Streaming:是一套基于Kafka-Streaming库的一套流计算工具jar包,具有简单容易集成等特点。
  • Apache Storm:流处理框架实现对流数据流的处理和状态管理等操作。
  • Spark Streaming:是基于Spark 离散 RDD 的小批量内存计算,因为计算速度比较快,被认定为实时|处理。
  • Flink DataStream:Stateful Computations over Data Streams,Flink核心是一个流式的数据流执行引擎,其针对数据流的分布式计算提供了数据分布、数据通信以及容错机制等功能,在流处理领域中借鉴了Storm和SparkStreaming的优势作为第三代流处理框架。

What is Apache Storm?

Apache Storm提供了一种基于Topology流计算概念,该概念等价于hadoop的mapreduce计算,但是不同于MapReduce计算因为MR计算会最终终止,但是Topology计算会一直运行下去,除非用户执行storm kill指令该计算才会终止.Storm提供了高可靠/可扩展/高度容错的流计算服务 ,该服务可以保证数据|Tuple可靠性处理(至少一次|精确1次)处理机制.可以方便的和现用户的服务进行集成,例如:HDFS/Kafka/Hbase/Redis/Memcached/Yarn等服务集成.Storm的单个阶段每秒钟可以处理100万条数据|Tuple

Storm 架构

技术图片
nimbus:计算任务的主节点,负责分发代码/分配任务/故障检测 Supervisor任务执行.

supervisor:接受来自Nimbus的任务分配,启动Worker进程执行计算任务.

zookeeper:负责Nimbus和Supervisor协调,会使用zk存储nimbus和supervisor进程状态信息,这就导致了Nimbus和Supervisor是无状态的可以实现任务快速回复,即而让流计算达到难以置信的稳定.

Worker:是Supervisor专门为某一个Topology任务启动的一个Java 进程,Worker进程通过执行Executors(线程池)计算任务,每个任务是同Task执行,一个Task就代表一个线程.一旦Topology被kill,该Topology下的所有worker进程退出.

Storm环境

Storm 编译

由于Storm在和消息队列Kafka整合的的时候,存在bugSTORM-3046为了后期的使用方便这里,需要大家下载storm-1.2.3源码包,然后通过Maven编译。
技术图片
编译Storm

[root@CentOS ~]# tar -zxf apache-maven-3.3.9-bin.tar.gz -C /usr/
[root@CentOS ~]# vi .bashrc

if [ -f /etc/bashrc ]; then
        . /etc/bashrc
fi
M2_HOME=/usr/apache-maven-3.3.9
STORM_HOME=/usr/apache-storm-1.2.3
JAVA_HOME=/usr/java/latest
CLASSPATH=.
PATH=$PATH:$JAVA_HOME/bin:$STORM_HOME/bin:$M2_HOME/bin
export JAVA_HOME
export CLASSPATH
export PATH
export STORM_HOME
export M2_HOME
[root@CentOS ~]# source .bashrc

[root@CentOS ~]#
[root@CentOS ~]#
[root@CentOS ~]#
[root@CentOS ~]#
[root@CentOS ~]# tar -zxf storm-1.2.3.tar.gz
[root@CentOS ~]# cd storm-1.2.3
[root@CentOS storm-1.2.3]# mvn clean package install -DskipTests=true
[root@CentOS storm-1.2.3]# cd storm-dist/binary
[root@CentOS binary]# mvn package -Dgpg.skip=true

指令执行结束后,在storm-1.2.3/storm-dist/binary/target目录下会产生apache-storm-1.2.3.tar.gz文件.该文件为Storm运行文件。

Maven依赖问题

进入storm-1.2.3的文件后再pom.xml问价中添加两个配置

部署配置

<distributionManagement>
    <repository>
        <id>nexus</id>
        <name>admin</name>
        <url>http://localhost:8081/nexus/content/repositories/releases/</url>
    </repository>
</distributionManagement>

源码插件

<plugin>
    <groupId>org.apache.maven.plugins</groupId>
    <artifactId>maven-source-plugin</artifactId>
    <version>3.0.1</version>
    <configuration>
        <attach>true</attach>
    </configuration>
    <executions>
        <execution>
            <phase>compile</phase>
            <goals>
                <goal>jar</goal>
            </goals>
        </execution>
    </executions>
</plugin>

然后执行以下脚本,耐心等待,即可将该版本的所有依赖 jar和源码jar部署到私服上了。

[root@CentOS storm-1.2.3]# mvn deploy -DskipTests=true

技术图片

Storm安装

  • 安装JDK,要求1.8+,配置JAVA_HOME
[root@CentOS ~]# rpm -ivh jdk-8u171-linux-x64.rpm
Preparing...                ########################################### [100%]
   1:jdk1.8                 ########################################### [100%]
Unpacking JAR files...
        tools.jar...
        plugin.jar...
        javaws.jar...
        deploy.jar...
        rt.jar...
        jsse.jar...
        charsets.jar...
        localedata.jar...
[root@CentOS ~]# vi .bashrc        
JAVA_HOME=/usr/java/latest
CLASSPATH=.
PATH=$PATH:$JAVA_HOME/bin
export JAVA_HOME
export CLASSPATH
export PATH
[root@CentOS ~]# source .bashrc
  • 配置主机名和IP映射关系
[root@CentOS ~]# vi /etc/hosts
127.0.0.1   localhost localhost.localdomain localhost4 localhost4.localdomain4
::1         localhost localhost.localdomain localhost6 localhost6.localdomain6
192.168.38.129 CentOS
  • 关闭防火墙
[root@CentOS ~]# vi /etc/hosts
[root@CentOS ~]# service iptables stop
iptables: Setting chains to policy ACCEPT: filter          [  OK  ]
iptables: Flushing firewall rules:                         [  OK  ]
iptables: Unloading modules:                               [  OK  ]
[root@CentOS ~]# chkconfig iptables off
  • 安装Zookeeper
[root@CentOS ~]# tar -zxf zookeeper-3.4.6.tar.gz -C /usr/
[root@CentOS ~]# mkdir zkdata
[root@CentOS ~]# cp /usr/zookeeper-3.4.6/conf/zoo_sample.cfg /usr/zookeeper-3.4.6/conf/zoo.cfg
[root@CentOS ~]# vi /usr/zookeeper-3.4.6/conf/zoo.cfg
tickTime=2000
dataDir=/root/zkdata
clientPort=2181
[root@CentOS ~]# /usr/zookeeper-3.4.6/bin/zkServer.sh start zoo.cfg
JMX enabled by default
Using config: /usr/zookeeper-3.4.6/bin/../conf/zoo.cfg
Starting zookeeper ... STARTED
[root@CentOS ~]# /usr/zookeeper-3.4.6/bin/zkServer.sh status zoo.cfg
JMX enabled by default
Using config: /usr/zookeeper-3.4.6/bin/../conf/zoo.cfg
Mode: standalone
  • 安装配置Storm
[root@CentOS ~]# tar -zxf apache-storm-1.2.2.tar.gz -C /usr/
[root@CentOS ~]# vi .bashrc 
STORM_HOME=/usr/apache-storm-1.2.3
JAVA_HOME=/usr/java/latest
CLASSPATH=.
PATH=$PATH:$JAVA_HOME/bin:$STORM_HOME/bin
export JAVA_HOME
export CLASSPATH
export PATH
export STORM_HOME

[root@CentOS ~]# source .bashrc 
[root@CentOS ~]# vi /usr/apache-storm-1.2.3/conf/storm.yaml 
 storm.zookeeper.servers:
     - "CentOS"
 storm.local.dir: "/usr/apache-storm-1.2.3/storm-stage"
 nimbus.seeds: ["CentOS"]
 supervisor.slots.ports:
     - 6700
     - 6701
     - 6702
     - 6703
  • 启动Storm
[root@CentOS ~]# nohup storm nimbus >/dev/null 2>&1 &
[root@CentOS ~]# nohup storm supervisor >/dev/null 2>&1 &
[root@CentOS ~]# nohup storm ui >/dev/null 2>&1 & 

启动storm ui是Storm计算的状态页面,用户可以访问该页面完成对Topology任务的管理和并行度参数察看等。

  • 检测启动成功
[root@CentOS ~]# jps
1682 nimbus
1636 QuorumPeerMain
2072 Jps
1721 Supervisor
1772 core

访问:http://CentOS:8080

技术图片

Topology

Topologies:包含实时计算的逻辑,一个完成Topology(任务),是由SpoutBolt连接形成一个计算图表Graph(DAG).Spout和Bolt组件通过stream grouping|Shuffle方式连接起来.

Streams:Streams是一些列无止境的Tuples,这些Tuple都有schema ,该Schema描述了Tuple中的filed的名字.

Streams <==> List<Tuple> + Schema(field1,field2,...) 
元组 元素构成数组+ 命名元素|schema
Tuple t=new Tuple(new Object[]{zhangsan,18,true})
String name=t.getStringByField("name");
Boolean sex=t.getBooleanByField("sex");

Spouts:负责产生Tuple,是Streams源头.通常是通过Spout读取外围系统的数据,并且将数据封装成Tuple,并且将封装Tuple发射|emit到Topology中.IRichSpout|BaseRichSpout

Bolts:所有的Topology中的Tuple是通过Bolt处理,Bolt作用是用于过滤/聚合/函数处理/join/存储数据到DB中等.

IRichBolt|BaseRichBolt,IBasicBolt|BaseBasicBolt,IStatefulBolt | BaseStatefulBolt

参考:http://storm.apache.org/releases/1.2.2/Concepts.html

入门案例

public class TopologyBuilderTests {
    public static void main(String[] args) throws Exception {
        //1.创建TopologyBuilder,编制Topology任务
        TopologyBuilder builder=new TopologyBuilder();
        Config config = new Config();
        config.setDebug(false);
        config.setNumAckers(0);
        config.setNumWorkers(2);

        //2.设置Spout,不间断的向streams中发射字符串
        builder.setSpout("WordSpout",new WordSpout());

        //3.设置Bolt用于处理上游的Tuple,并将一行文本拆解成单个字符
        builder.setBolt("LineSplitBolt",new LineSplitBolt(),2)
                .setNumTasks(4)
                .shuffleGrouping("WordSpout");

        //4.将上游的字符按照 word分区的形式发送给Bolt计算字符和字符出现的次数
        builder.setBolt("WordCountBolt",new WordCountBolt(),4)
                .fieldsGrouping("LineSplitBolt",new Fields("word"));

        //5.按照word分区接收来自上游Bolt的输出,将结果打印在控制台
        builder.setBolt("WordPrintBolt",new WordPrintBolt(),3)
                .fieldsGrouping("WordCountBolt", new Fields("word"));

        //6.将编制的Topology提交
        StormSubmitter.submitTopology("Hello World",config,builder.createTopology());
    }
}

WordSpout

public class WordSpout extends BaseRichSpout {
    private  SpoutOutputCollector collector;
    private String[] lines={"this is a test demo",
            "Strom is easy to learn"};
    @Override
    public void open(Map conf, TopologyContext context, SpoutOutputCollector collector) {
        this.collector=collector;
    }

    @Override
    public void nextTuple() {
        Utils.sleep(1000);
        String line = lines[new Random().nextInt(lines.length)];
        collector.emit(new Values(line));
    }

    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("line"));
    }
}

LineSplitBolt

public class LineSplitBolt extends BaseRichBolt {
    private OutputCollector collector;
    @Override
    public void prepare(Map stormConf, TopologyContext context, OutputCollector collector) {
        this.collector=collector;
    }

    @Override
    public void execute(Tuple input) {
        String[] words = input.getStringByField("line").split("\\W+");
        for (String word : words) {
            collector.emit(new Values(word));
        }
    }

    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("word"));
    }
}

WordCountBolt

public class WordCountBolt extends BaseRichBolt {
    private OutputCollector collector;
    private Map<String,Integer> wordMap;
    @Override
    public void prepare(Map stormConf, TopologyContext context, OutputCollector collector) {
        this.collector=collector;
        wordMap=new HashMap<String,Integer>();
    }

    @Override
    public void execute(Tuple input) {
        String word = input.getStringByField("word");
        int count=0;
        if(!wordMap.containsKey(word)){
            count=1;
        }else{
            count=wordMap.get(word)+1;
        }
        wordMap.put(word,count);
        collector.emit(new Values(word,count));
    }

    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("word","count"));
    }
}

WordPrintBolt

public class WordPrintBolt extends BaseRichBolt {
  @Override
  public void prepare(Map stormConf,TopologyContext context, OutputCollector collector) { }

  @Override
  public void execute(Tuple input) {
    System.out.println(input);
  }
  @Override
  public void declareOutputFields(OutputFieldsDeclarer declarer) { }
}
  • 任务提交

远程提交

[root@CentOS ~]# storm jar xxx.jar 入口类全限定名

仿真提交

//测试环境
LocalCluster cluster=new LocalCluster();
cluster.submitTopology("Hello World",config,topology);

将StormSubmitter更改为LocalCluster即可

  • 查看任务列表
[root@CentOS ~]# storm list
Topology_name        Status     Num_tasks  Num_workers  Uptime_secs
-------------------------------------------------------------------
Hello World          ACTIVE     12         2            58
  • 删除Topology
[root@CentOS ~]# storm  kill 'Hello World'

Storm 任务并行度

分析入门案例的代码Storm集群在接收到以上的Topology之后会尝试将任务拆解成4个阶段,并且得到如下矢量状态执行图:

技术图片
可以在Storm UI页面中看到共计启动10个线程运行12个Task.
技术图片
在用户提交一个任务的时候,Storm 首先会根据用户设定的config.setNumWorkers方法启动Woker服务,由Worker进程负责对整个Topology的任务并行度进行均分。也就说一个并行度就代表1个线程。在上诉入门案例中系统启动了2个Work服务,该Worker服务负责将负责这10个线程的执行。其中LineSplitBolt并行度设置为2但是Task设置为4,Storm会启动两个线程实例化4个LineSplitBolt负责将Spout发射的字符串拆分成字符。

技术图片

现在可以将入门案例任务执行绘制如下:

技术图片
storm rebalance

[root@CentOS ~]# storm rebalance 'Hello World' -w 5 -n 4

技术图片

[root@CentOS ~]# storm rebalance 'Hello World' -w 5 -n 2 -e LineSplitBolt=4

技术图片
参考:http://storm.apache.org/releases/1.2.2/Understanding-the-parallelism-of-a-Storm-topology.html

消息的可靠性保障

Storm 消息Tuple可以通过一个叫做__ackerBolt去监测整个Tuple Tree是否能够被完整消费,如果消费超时或者失败该__acker会调用Spout组件的fail方法,要求Spout重新发送Tuple.默认__ackerBolt并行度是和Worker数目一直,用户可以通过config.setNumAckers(0);关闭Storm的Acker机制。

Acker机制使用策略

//Spout在发射 tuple 的时候必须提供msgID
collector.emit(new Values(line),i);
//所有的下游的Bolt,必须锚定当前tuple,并且在处理完后,必须调用ack方法
try {
    //锚定 当前 tuple
    collector.emit(tuple,new Values(word,count));
    //给上游应答
    collector.ack(tuple);
} catch (Exception e) {
    //通知失败
    collector.fail(tuple);
}

Spout ack方法只有当TupleTree 被完整处理后才会被__ackerBolt调用Spout#ack方法,但是Spout#Fail调用有两种情形:

①当下游有任何一个Bolt调用了collector.fail(tuple);

__acker监测超时默认时间30 secs系统都会调用fail方法.

当启用Storm的Ack机制之后,处理的每个Tuple都必须被ack或fail。 因为Storm使用内存来跟踪每个元组,因此如果没有ack/fail每个Tuple,那么__ackerBolt最终会耗尽内存。

WordSpout写法

public class WordSpout extends BaseRichSpout {
    private SpoutOutputCollector collector;
    private String[] lines={"this is a test demo",
                            "Strom is easy to learn"};
    @Override
    public void open(Map conf, TopologyContext context, SpoutOutputCollector collector) {
        this.collector=collector;
    }

    @Override
    public void nextTuple() {
        Utils.sleep(1000);
        int msgId = new Random().nextInt(lines.length);
        String line = lines[msgId];
        //启动Acker机制
        collector.emit(new Values(line),msgId);
    }

    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("line"));
    }

    @Override
    public void ack(Object msgId) {
        //Tuple被完整处理系统回调
    }

    @Override
    public void fail(Object msgId) {
        //Tuple处理失败或者超时回调
    }
}

LineSplitBolt

public class LineSplitBolt extends BaseRichBolt {
    private OutputCollector collector;
    @Override
    public void prepare(Map stormConf, TopologyContext context, OutputCollector collector) {
        this.collector=collector;
    }

    @Override
    public void execute(Tuple input) {
        String[] words = input.getStringByField("line").split("\\W+");
        try {
            for (String word : words) {
                //设定Input锚定
                collector.emit(input,new Values(word));
            }
            //进行确认Ack
            collector.ack(input);
        } catch (Exception e) {
            //失败通知
            collector.fail(input);
        }
    }

    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("word"));
    }
}

在开启可靠传输之后,所有的Bolt都必须遵循这种ack和fail机制,为了方便Storm提供了IBasicBolt/BaseBasicBolt类帮助用户简化开发步骤,以上代码可以更改为:

public class LineSplitBolt extends BaseBasicBolt {
    private OutputCollector collector;
    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("word"));
    }
    @Override
    public void execute(Tuple input, BasicOutputCollector collector) {
        String[] words = input.getStringByField("line").split("\\W+");
        for (String word : words) {
            collector.emit(new Values(word));
        }
    }
}

如果可以重放元组,我如何使我的应用程序正常工作?

与软件设计一样,答案是“它取决于”具体的应用场景。如果你真的想要一次语义使用Trident API。在某些情况下,与大量分析一样,丢弃数据是可以的,因此通过将acker bolt的数量设置为0 Config.TOPOLOGY_ACKERS来禁用容错。但在某些情况下,您希望确保所有内容都至少处理过一次。如果所有操作都是幂等的,或者重复删除可能会发生,那么这尤其有用。

去除Storm可靠性,提升性能方案?

  • 在Spout发射tuple时候,不提供msgID
  • 在config设置config.setNumAckers(0);
  • 取消在Bolt端的锚定,第一个bolt执行ack方法.

如何防止Spout挂起的Tuple数目过多,导致Topology内存紧张?

config.setMaxSpoutPending(100);

设置一个spout task上面最多有多少个没有处理(ack/fail)的tuple,防止tuple队列过大, 只对可靠任务起作用.

可靠机制算法原理解析
技术图片
? T1 ^ T2 ^ Tn .... ^T1 ^ T2 .. Tn =0

http://storm.apache.org/releases/1.2.2/Guaranteeing-message-processing.html

Storm 容错机制(了解)

Nimbus和Supervisor都是stateless ,即使服务宕机,机器可以通过Zookeeper和本地磁盘数据对任务进行恢复.如果Worker宕机会用Supervisor重新启动Worker进行,如果Supervisor宕机会有Nimbus将任务分配其他的Supervisor进行调度.

参考:http://storm.apache.org/releases/1.2.2/Daemon-Fault-Tolerance.html

Storm 状态管理

概述

Storm提供了一种机制使得Bolt可以存储和查询自己的操作的状态,目前Storm提供了一个默认的实现,该实现基于内存In-Memory实现,除此之外还提供了基于Redis/Memcached和Hbase等的实现.Storm提供了IStatefulBolt|BaseStatefulBolt 用于实现Bolt的状态管理.

public class WordCountBolt extends BaseStatefulBolt<KeyValueState> {

    private  KeyValueState<String,Integer> state;
    private  OutputCollector collector;

    @Override
    public void prepare(Map stormConf, TopologyContext tc, OutputCollector collector) {
        this.collector=collector;
    }

    @Override
    public void execute(Tuple tuple) {
        String word = tuple.getStringByField("word");
        //获取word值,如果没有返回默认值 1
        Integer count = state.get(word, 0);
        state.put(word,count+1);
        //设置锚定
        collector.emit(tuple,new Values(word,count+1));
        //设置ack应答
        collector.ack(tuple);
    }

    @Override
    public void initState(KeyValueState keyValueState) {
        this.state=keyValueState;
    }

    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("word","count"));
    }
}

Storm默认实现使用InMemoryKeyValueState,该种方式在JVM退出的时候,无法持久化Bolt状态,因此通常在开发环境下会使用Redis或者Hbase充当存储.

RedisState

<dependency>
    <groupId>org.apache.storm</groupId>
    <artifactId>storm-redis</artifactId>
    <version>1.2.2</version>
</dependency>
config.put(Config.TOPOLOGY_STATE_PROVIDER,"org.apache.storm.redis.state.RedisKeyValueStateProvider");

Map<String,Object> stateConfig=new HashMap<String,Object>();
Map<String,Object> redisConfig=new HashMap<String,Object>();
redisConfig.put("host","CentOS");
redisConfig.put("port",6379);
stateConfig.put("jedisPoolConfig",redisConfig);
ObjectMapper objectMapper=new ObjectMapper();
config.put(Config.TOPOLOGY_STATE_PROVIDER_CONFIG,objectMapper.writeValueAsString(stateConfig));

将结果存储到Redis-RedisStoreBolt

JedisPoolConfig poolConfig = new JedisPoolConfig.Builder()
    .setHost("CentOS").setPort(6379).build();
RedisStoreMapper storeMapper = new WordCountStoreMapper();
RedisStoreBolt storeBolt = new RedisStoreBolt(poolConfig, storeMapper);

RedisStoreMapper

public class WordCountStoreMapper implements RedisStoreMapper {
    private RedisDataTypeDescription description;
    public WordCountStoreMapper() {
        description = new RedisDataTypeDescription(
            RedisDataTypeDescription.RedisDataType.SORTED_SET, "zwordscount");
    }
    @Override
    public RedisDataTypeDescription getDataTypeDescription() {
        return description;
    }
    @Override
    public String getKeyFromTuple(ITuple iTuple) {
        return iTuple.getStringByField("word");
    }
    @Override
    public String getValueFromTuple(ITuple iTuple) {
        return iTuple.getIntegerByField("count")+"";
    }
}

HbaseState

<dependency>
    <groupId>org.apache.storm</groupId>
    <artifactId>storm-hbase</artifactId>
    <version>1.2.2</version>
</dependency>
     config.put(Config.TOPOLOGY_STATE_PROVIDER,"org.apache.storm.hbase.state.HBaseKeyValueStateProvider");

Map<String,Object> hbaseConfig=new HashMap<String,Object>();
hbaseConfig.put("hbase.zookeeper.quorum", "CentOS");

config.put("hbase.conf", hbaseConfig);

ObjectMapper objectMapper=new ObjectMapper();
Map<String,Object> stateConfig=new HashMap<String,Object>();
stateConfig.put("hbaseConfigKey","hbase.conf");
stateConfig.put("tableName","baizhi:state");
stateConfig.put("columnFamily","cf1");
config.put(Config.TOPOLOGY_STATE_PROVIDER_CONFIG,objectMapper.writeValueAsString(stateConfig));

将计算结果存储到Hbase-HBaseBolt

SimpleHBaseMapper mapper = new SimpleHBaseMapper()
    .withRowKeyField("word")
    .withColumnFields(new Fields("word"))
    .withCounterFields(new Fields("count"))
    .withColumnFamily("cf1");

HBaseBolt hbaseBolt = new HBaseBolt("baizhi:t_word_count", mapper)
    .withConfigKey("hbase.conf");

Map<String,Object> hbaseConfig=new HashMap<String,Object>();
        hbaseConfig.put("hbase.zookeeper.quorum", "CentOS");

config.put("hbase.conf", hbaseConfig);

Storm状态管理实现机制
技术图片

参考:http://storm.apache.org/releases/1.2.2/State-checkpointing.html

Distributed RPC

Storm的DRPC真正的实现了并行计算.Storm Topology接受用户的参数进行计算,然后最终将计算结果以Tuple形式返回给用户.
技术图片
搭建DRPC服务器

vi /usr/apache-storm-1.2.2/conf/storm.yaml

 storm.zookeeper.servers:
     - "CentOS"
 storm.local.dir: "/usr/apache-storm-1.2.2/storm-stage"
 nimbus.seeds: ["CentOS"]
 supervisor.slots.ports:
     - 6700
     - 6701
     - 6702
     - 6703
 drpc.servers:
     - "CentOS"
 storm.thrift.transport: "org.apache.storm.security.auth.plain.PlainSaslTransportPlugin"

启动DRPC服务器

[root@CentOS ~]# nohup storm drpc  >/dev/null 2>&1 &
[root@CentOS ~]# nohup storm nimbus >/dev/null 2>&1 &
[root@CentOS ~]# nohup storm supervisor >/dev/null 2>&1 &
[root@CentOS ~]# nohup storm ui >/dev/null 2>&1 &

配置Maven依赖

<dependency>
    <groupId>org.apache.storm</groupId>
    <artifactId>storm-core</artifactId>
    <version>${storm.version}</version>
</dependency>
<dependency>
    <groupId>org.apache.storm</groupId>
    <artifactId>storm-redis</artifactId>
    <version>${storm.version}</version>
</dependency>
public class WordCountRedisLookupMapper implements RedisLookupMapper {
    /**
     *
     * @param input 输入的Tuple
     * @param value Redis查询到的值
     * @return:将 返回的结果封装成 values
     */
    @Override
    public List<Values> toTuple(ITuple input, Object value) {
        Object id = input.getValue(0);
        List<Values> values = Lists.newArrayList();
        if(value == null){
          value = 0;
        }
        values.add(new Values(id, value));

        return values;
    }

    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("id", "num"));
    }

    @Override
    public RedisDataTypeDescription getDataTypeDescription() {
        return  new RedisDataTypeDescription(
                RedisDataTypeDescription.RedisDataType.HASH, "wordcount");
    }

    @Override
    public String getKeyFromTuple(ITuple tuple) {
         return tuple.getString(1);
    }
    @Override
    public String getValueFromTuple(ITuple tuple) {
        return null;
    }
}
---
public class TopologyDRPCStreeamTest {
    public static void main(String[] args) throws Exception {
        //1.创建TopologyBuilder,编制Topology任务
        LinearDRPCTopologyBuilder builder = new LinearDRPCTopologyBuilder("count");
        Config conf = new Config();
        conf.setDebug(false);
        JedisPoolConfig poolConfig = new JedisPoolConfig.Builder()
                .setHost("192.168.38.129").setPort(6379).build();
        RedisLookupMapper lookupMapper = new WordCountRedisLookupMapper();
        RedisLookupBolt lookupBolt = new RedisLookupBolt(poolConfig, lookupMapper);
        builder.addBolt(lookupBolt,4);
        StormSubmitter.submitTopology("drpc-demo", conf, builder.createRemoteTopology());
    }
}
---
public class TestDRPCTests {
    public static void main(String[] args) throws TException {
        Config conf = new Config();
        conf.put("storm.thrift.transport", "org.apache.storm.security.auth.plain.PlainSaslTransportPlugin");
        conf.put(Config.STORM_NIMBUS_RETRY_TIMES, 3);
        conf.put(Config.STORM_NIMBUS_RETRY_INTERVAL, 10);
        conf.put(Config.STORM_NIMBUS_RETRY_INTERVAL_CEILING, 20);
        DRPCClient client = new DRPCClient(conf, "192.168.38.129", 3772);

        String result = client.execute("count", "hello");
        System.out.println(result);
    }
}

Storm 集成 Kafka/Redis

Maven 依赖

<dependency>
    <groupId>org.apache.storm</groupId>
    <artifactId>storm-core</artifactId>
    <version>${storm.version}</version>
</dependency>

<dependency>
    <groupId>org.apache.storm</groupId>
    <artifactId>storm-redis</artifactId>
    <version>${storm.version}</version>
</dependency>

<dependency>
    <groupId>org.apache.storm</groupId>
    <artifactId>storm-kafka-client</artifactId>
    <version>${storm.version}</version>
</dependency>

链接Kafka

TopologyBuilder tp=new TopologyBuilder();
Config conf = new Config();


KafkaSpoutConfig.Builder<String,String> builder=
    new KafkaSpoutConfig.Builder<String,String>("CentOS:9092,CentOS:9093,CentOS:9094", 
    "topic01");

// null的tuple不处理
builder.setEmitNullTuples(false);
// 设置key-value 序列化
builder.setProp(ConsumerConfig.KEY_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
builder.setProp(ConsumerConfig.VALUE_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
// 设置消费组
builder.setProp(ConsumerConfig.GROUP_ID_CONFIG,"consumer_id_01");
// 设置读取策略,从上一次未提交提交偏移量开始
builder.setFirstPollOffsetStrategy(
    KafkaSpoutConfig.FirstPollOffsetStrategy.UNCOMMITTED_LATEST);

// 开启Tuple的应答,只有正常应答的Tuple,对应的offset才会提交
builder.setProcessingGuarantee(KafkaSpoutConfig.ProcessingGuarantee.AT_LEAST_ONCE);
// 设置每个分区最大未提交Commit数目,如果单个分区超设置值,系统就不在继续poll对应分区的数据,
// 解决Storm压背问题问题
builder.setMaxUncommittedOffsets(2);

// 设置 KafkaSpout
tp.setSpout("KafkaSpout",new KafkaSpout<>(builder.build()));

LineSplitBolt

public class LineSplitBolt extends BaseBasicBolt {

    @Override
    public void execute(Tuple input, BasicOutputCollector collector) {
        String[] tokens = input.getStringByField("value").split("\\W+");
        for (String token : tokens) {
            collector.emit(new Values(token));
        }
    }

    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("word"));
    }
}
tp.setBolt("LineSplitBolt",new LineSplitBolt()).shuffleGrouping("KafkaSpout");

这里需要注意必须BaseBasicBolt,否则会导致系统重新读取Kafka信息,导致数据重复计算。

WordCountBolt

public class WordCountBolt extends BaseStatefulBolt<KeyValueState<String,Integer>> {
    private KeyValueState<String,Integer> state;
    private OutputCollector collector;
    @Override
    public void prepare(Map stormConf, TopologyContext context, OutputCollector collector) {
        this.collector=collector;
    }

    @Override
    public void execute(Tuple input) {

        String word = input.getStringByField("word");
        Integer count = state.get(word, 0)+1;
        state.put(word,count);
        collector.emit(input,new Values(word,count));
        collector.ack(input);
    }

    @Override
    public void initState(KeyValueState<String, Integer> state) {
        this.state=state;
    }

    @Override
    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("word","count"));
    }
Config conf = new Config();
conf.put(Config.TOPOLOGY_STATE_PROVIDER,
         "org.apache.storm.redis.state.RedisKeyValueStateProvider");
String jedisConfigJson ="{\"jedisPoolConfig\":{\"port\":6379,\"host\":\"CentOS\"}}";
conf.put(Config.TOPOLOGY_STATE_PROVIDER_CONFIG,jedisConfigJson);

RedisStoreBolt

public class WordCountRedisStoreMapper implements RedisStoreMapper {
    @Override
    public RedisDataTypeDescription getDataTypeDescription() {
        return new RedisDataTypeDescription(RedisDataTypeDescription.RedisDataType.HASH,
                                            "wordcount");
    }

    @Override
    public String getKeyFromTuple(ITuple tuple) {
        return tuple.getStringByField("word");
    }

    @Override
    public String getValueFromTuple(ITuple tuple) {
        System.out.println("tuple:\t"+tuple);
        return tuple.getIntegerByField("count").toString();
    }
}
JedisPoolConfig jedisPoolConfig=new JedisPoolConfig.Builder()
    .setHost("CentOS")
    .setPort(6379)
    .setTimeout(5000)
    .build();

tp.setBolt("RedisStoreBolt",
           new RedisStoreBolt(jedisPoolConfig, new WordCountRedisStoreMapper()))
           .fieldsGrouping("WordCountBolt",new Fields("word"));

整体代码

TopologyBuilder tp=new TopologyBuilder();

//设置Redis Store存储
Map<String,Object> stateConfig=new HashMap<String,Object>();
Map<String,Object> redisConfig=new HashMap<String,Object>();
redisConfig.put("host","CentOS");
redisConfig.put("port",6379);
stateConfig.put("jedisPoolConfig",redisConfig);
ObjectMapper objectMapper=new ObjectMapper();
Config conf = new Config();
conf.put(Config.TOPOLOGY_STATE_PROVIDER,"org.apache.storm.redis.state.RedisKeyValueStateProvider");
String jedisConfigJson =objectMapper.writeValueAsString(stateConfig);
conf.put(Config.TOPOLOGY_STATE_PROVIDER_CONFIG,jedisConfigJson);


//设置Kafka链接参数
KafkaSpoutConfig.Builder<String,String> builder=new KafkaSpoutConfig.Builder<String,String>(
    "CentOS:9092,CentOS:9093,CentOS:9094", "topic01");
//设置key-value 序列化
builder.setProp(ConsumerConfig.KEY_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
builder.setProp(ConsumerConfig.VALUE_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
//设置消费组
builder.setProp(ConsumerConfig.GROUP_ID_CONFIG,"consumer_id_01");
//设置读取策略,从上一次未提交提交偏移量开始
builder.setFirstPollOffsetStrategy(KafkaSpoutConfig.FirstPollOffsetStrategy.UNCOMMITTED_LATEST);
//开启Tuple的应答,只有正常应答的Tuple,对应的offset才会提交
builder.setProcessingGuarantee(KafkaSpoutConfig.ProcessingGuarantee.AT_LEAST_ONCE);
//设置每个分区最大未提交Commit偏移量,如果单个分区超设置值,系统就不在继续poll对应分区的数据,解决压背问题问题
builder.setMaxUncommittedOffsets(2);
builder.setEmitNullTuples(false);
tp.setSpout("KafkaSpout",new KafkaSpout<>(builder.build()));

tp.setBolt("LineSplitBolt",new LineSplitBolt())
    .shuffleGrouping("KafkaSpout");

tp.setBolt("WordCountBolt",new WordCountBolt())
    .fieldsGrouping("LineSplitBolt",new Fields("word"));
//设置Redis Store Bolt链接参数
JedisPoolConfig jedisPoolConfig=new JedisPoolConfig.Builder()
    .setHost("CentOS")
    .setPort(6379)
    .setTimeout(5000)
    .build();

tp.setBolt("RedisStoreBolt",new RedisStoreBolt(jedisPoolConfig,new WordCountRedisStoreMapper()))
    .fieldsGrouping("WordCountBolt",new Fields("word"));
//任务提交
StormSubmitter.submitTopology("kafkademo",conf,tp.createTopology());

[root@CentOS ~]# storm jar storm-1.0-SNAPSHOT.jar com.baizhi.demo09.KafkaSpoutTopology --artifacts ‘org.apache.storm:storm-redis:1.2.2,org.apache.storm:storm-kafka-client:1.2.2‘

Storm 窗口函数

Storm核心支持处理窗口内的一组元组。 Windows使用以下两个参数指定:

  • 窗口长度- the length or duration of the window
  • 滑动间隔- the interval at which the windowing slides

Sliding Window

Tuples以窗口进行分组,窗口每间隔一段滑动间隔滑动除一个新的窗口。例如下面就是一个基于时间滑动的窗口,窗口每间隔10秒钟为一个窗口,每间隔5秒钟滑动一次窗口,从下面的案例中可以看到,滑动窗口是存在一定的重叠,也就是说一个tuple可能属于1~n个窗口 。

........| e1 e2 | e3 e4 e5 e6 | e7 e8 e9 |...
-5      0       5            10          15   -> time
|<------- w1 -->|
        |<---------- w2 ----->|
                |<-------------- w3 ---->|

Tumbling Window

Tuples以窗口分组,窗口滑动的长度恰好等于窗口长度,这就导致和Tumbling Window和Sliding Window最大的区别是Tumbling Window没有重叠,也就是说一个Tuple只属于固定某一个window。

| e1 e2 | e3 e4 e5 e6 | e7 e8 e9 |...
0       5             10         15    -> time
   w1         w2            w3
TopologyBuilder tp=new TopologyBuilder();

tp.setSpout("ClickSpout",new ClickSpout(),1);

tp.setBolt("ClickMapBolt",new ClickMapBolt(),4)
   .shuffleGrouping("ClickSpout");

ClickWindowCountBolt wb = new ClickWindowCountBolt();
wb.withWindow(BaseWindowedBolt.Duration.seconds(2),
             BaseWindowedBolt.Duration.seconds(1));
tp.setBolt("ClickWindowCountBolt",wb,3)
   .fieldsGrouping("ClickMapBolt",new Fields("click"));

tp.setBolt("PrintClickBolt",new PrintClickBolt())
   .fieldsGrouping("ClickWindowCountBolt",new Fields("click"));

LocalCluster lc=new LocalCluster();
lc.submitTopology("window",new Config(),tp.createTopology());

Tuple时间戳和乱序

默认情况下,窗口中跟踪的时间戳是Bolt处理元组的时间。窗口计算基于处理时间戳执行。 Storm支持根据源生成的时间戳跟踪窗口。

  • 指定属性该属性值必须是long类型,如果不存在就会抛出异常
public BaseWindowedBolt withTimestampField(String fieldName)
  • TimestampExtractor该实现也可以提取时间戳
public BaseWindowedBolt withTimestampExtractor(TimestampExtractor timestampExtractor)

推荐使用第二个方案,因为比较灵活。例如:

public class EventTimeTimestampExtractor implements TimestampExtractor {
    @Override
    public long extractTimestamp(Tuple tuple) {
        SimpleDateFormat sdf=new SimpleDateFormat("yyyy-MM-dd hh:mm:ss");
        Long start =tuple.getLongByField("timestamp");
        String word = tuple.getStringByField("word");
        System.out.println("收到:"+word+"\t"+sdf.format(start));
        return tuple.getLongByField("timestamp");
    }
}

在给定时间戳之后,系统可以根据给定的时间戳计算window,此时允许用户处理最大乱序的时间.

public BaseWindowedBolt withLag(Duration duration)

如果超过最大延迟时间的元素系统会默认忽略处理。用户可以指定乱序处理的逻辑。用于专门处理乱序流逻辑。

public BaseWindowedBolt withLateTupleStream(String streamId)

例如:

SlidingWindowBolt slidingWindowBolt = new SlidingWindowBolt();
slidingWindowBolt.withTumblingWindow(Duration.seconds(5))
    .withTimestampExtractor(new EventTimeTimestampExtractor())
    .withLag(Duration.seconds(2))
    .withLateTupleStream("late");

tp.setBolt("SlidingWindowBolt", slidingWindowBolt).fieldsGrouping("ExtractorBolt",new Fields("word"));
tp.setBolt("late",new LateBolt()).shuffleGrouping("SlidingWindowBolt","late");

Watermarks

为了处理带有时间戳字段的Tuple,Storm会根据传入的Tuple的时间戳在内部计算Watermarks。Watermarks是所有输入流中最新元组时间戳(减去滞后)的最大值(原文介绍有误)。定期(默认每秒),发出Watermarks时间戳,如果正在使用基于元组的时间戳,则将其视为窗口计算的时钟周期。默认计算watermarker频率是1秒。用户可以通过 public BaseWindowedBolt withWatermarkInterval(Duration interval)?指定计算的评率。
技术图片

e01,155479500000
e02,155479501000
e03,155479504000
e04,155479505000
e05,155479506000                          
Config conf = new Config();
conf.setNumWorkers(1);
conf.setMessageTimeoutSecs(60);

TopologyBuilder tp = new TopologyBuilder();
//设置Kafka链接参数
KafkaSpoutConfig.Builder<String,String> builder=new KafkaSpoutConfig.Builder<String,String>(
    "CentOS:9092,CentOS:9093,CentOS:9094", "topic01");
//设置key-value 序列化
builder.setProp(ConsumerConfig.KEY_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
builder.setProp(ConsumerConfig.VALUE_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
//设置消费组
builder.setProp(ConsumerConfig.GROUP_ID_CONFIG,"consumer_id_"+ UUID.randomUUID());
//设置读取策略,从上一次未提交提交偏移量开始
builder.setFirstPollOffsetStrategy(KafkaSpoutConfig.FirstPollOffsetStrategy.UNCOMMITTED_LATEST);
//开启Tuple的应答,只有正常应答的Tuple,对应的offset才会提交
builder.setProcessingGuarantee(KafkaSpoutConfig.ProcessingGuarantee.AT_LEAST_ONCE);
//设置每个分区最大未提交Commit偏移量,如果单个分区超设置值,系统就不在继续poll对应分区的数据,解决压背问题问题
builder.setMaxUncommittedOffsets(100);
builder.setEmitNullTuples(false);

tp.setSpout("KafkaSpout",new KafkaSpout<String,String>(builder.build()));

tp.setBolt("ExtractorBolt",new ExtractorBolt()).shuffleGrouping("KafkaSpout");

SlidingWindowBolt slidingWindowBolt = new SlidingWindowBolt();
slidingWindowBolt.withTumblingWindow(Duration.seconds(5))
    .withTimestampExtractor(new EventTimeTimestampExtractor())
    .withLag(Duration.seconds(2))
    .withWatermarkInterval(Duration.seconds(1))
    .withLateTupleStream("late");

tp.setBolt("SlidingWindowBolt", slidingWindowBolt).fieldsGrouping("ExtractorBolt",new Fields("word"));

tp.setBolt("late",new LateBolt()).shuffleGrouping("SlidingWindowBolt","late");
new LocalCluster().submitTopology("word-count",conf,tp.createTopology());

注意:①消息超时时间Timeout必须远远大于window length + sliding interval 否则会导致消息因为没有能够及时被完全处理,而导致Storm系统重发。②所有的Bolt都必须实现BaseBasicBolt,这样用户用关注Tuple的Acker ③ 所有在BaseWindowedBolt中的Tuple必须acker。否则系统同样会因为Tuple超时而导致Tuple重发。

WindowJoin

Storm核心支持在JoinBolt的帮助下将多个数据流合并为一个。 JoinBolt是一个Windowed Bolt,即它等待配置的窗口持续时间以匹配正在连接的流之间的Tuple。

public static KafkaSpout<String,String> buiderKafkaSpout(String topic,String group){
    KafkaSpoutConfig.Builder<String,String> builder=
        new KafkaSpoutConfig.Builder<String,String>(
        "CentOS:9092,CentOS:9093,CentOS:9094", topic);
    //设置key-value 序列化
    builder.setProp(ConsumerConfig.KEY_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
    builder.setProp(ConsumerConfig.VALUE_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
    //设置消费组
    builder.setProp(ConsumerConfig.GROUP_ID_CONFIG,"consumer_id_"+ group);
    //设置读取策略,从上一次未提交提交偏移量开始
    builder.setFirstPollOffsetStrategy(
        KafkaSpoutConfig.FirstPollOffsetStrategy.UNCOMMITTED_LATEST);
    //开启Tuple的应答,只有正常应答的Tuple,对应的offset才会提交
    builder.setProcessingGuarantee(KafkaSpoutConfig.ProcessingGuarantee.AT_LEAST_ONCE);
    //设置每个分区最大未提交Commit偏移量,如果单个分区超设置值,系统就不在继续poll对应分区的数据,解决压背问题问题
    builder.setMaxUncommittedOffsets(100);
    builder.setEmitNullTuples(false);
    return new KafkaSpout<String,String>(builder.build());
}
TopologyBuilder tp=new TopologyBuilder();
Config conf = new Config();
conf.setNumWorkers(1);
conf.setMessageTimeoutSecs(120);

tp.setSpout("spout01",buiderKafkaSpout("topic01","g2"));
tp.setSpout("spout02",buiderKafkaSpout("topic02","g2"));

tp.setBolt("UserBolt",new UserBolt()).shuffleGrouping("spout01");
tp.setBolt("OrderBolt",new OrderBolt()).shuffleGrouping("spout02");

JoinBolt joinBolt = new JoinBolt(JoinBolt.Selector.STREAM,"user","uid")
    .leftJoin("order", "uid", "user")
    .select("uid,name,item,price")
    .withTumblingWindow(BaseWindowedBolt.Duration.seconds(60));

tp.setBolt("joinBolt",joinBolt)
    .fieldsGrouping("UserBolt","user",new Fields("uid"))
    .fieldsGrouping("OrderBolt","order",new Fields("uid"));

tp.setBolt("PrintJoinBolt",new PrintJoinBolt()).fieldsGrouping("joinBolt",new Fields("uid"));

new LocalCluster().submitTopology("join",conf,tp.createTopology());

Trident Tutorial

Trident 是构建在Storm之上一个用于实时流处理的高级API(抽象),它允许您无缝地将高吞吐量有状态流处理与低延迟分布式查询混合在一起。Trident支持jion/聚合/分组/函数/过滤算子使用,很优雅将以上算子翻译Toplogy任务,用户无需关心翻译过程.Trident可以保证整个Topology数据处理的一致性并且保证exactly-once语义处理 ,Trident中的核心数据模型是“流”,Trident所有的针对流处理都是批量处理List[Tuple],例如:

[Tupe1,Tupe2,Tupe3,...,Tupen]
         |
[Tupe1,Tupe2,Tupe3],[Tupe4,Tupe5,Tupe6] ...

Stream在集群中的节点之间进行分区,并且应用于流的操作跨每个分区并行运行。

Trident和Kafka整合

<dependency>
    <groupId>org.apache.storm</groupId>
    <artifactId>storm-core</artifactId>
    <version>${storm.version}</version>
</dependency>
<dependency>
    <groupId>org.apache.storm</groupId>
    <artifactId>storm-kafka-client</artifactId>
    <version>${storm.version}</version>
</dependency>
TridentTopology topology = new TridentTopology();
Config conf = new Config();
KafkaTridentSpoutOpaque<String, String> kafkaTridentSpoutOpaque = buildKafkaTridentSpoutOpaque(conf,"topic01");
topology.newStream("kafka",kafkaTridentSpoutOpaque)
    .peek(new Consumer() {
        @Override
        public void accept(TridentTuple input) {
            System.out.println(input);
        }
    });
StormSubmitter.submitTopology("demo01",conf,topology.build());
public static KafkaTridentSpoutOpaque<String,String> buildKafkaTridentSpoutOpaque(Config conf,String topic){
    //开启事务控制,否则系统不会提交offset STORM-2675 在1.2.0以前无法正常运行
    conf.put(Config.TRANSACTIONAL_ZOOKEEPER_PORT,2181);
    conf.put(Config.TRANSACTIONAL_ZOOKEEPER_SERVERS, Arrays.asList(new String[]{"CentOS"}));

    //注意如果是1.2.2以前版本存在bug STORM-3064 在1.2.3和2.0.0版本已经修复
    String servers="CentOS:9092,CentOS:9093,CentOS:9094";
    KafkaSpoutConfig.Builder<String,String> builder=
        new KafkaSpoutConfig.Builder<String,String>(servers,topic);

    builder.setProp(ConsumerConfig.KEY_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class.getName());
    builder.setProp(ConsumerConfig.VALUE_DESERIALIZER_CLASS_CONFIG,  StringDeserializer.class.getName());
    builder.setProp(ConsumerConfig.GROUP_ID_CONFIG,"consumer_id_00");
    builder.setRecordTranslator(new DefaultRecordTranslator<String,String>());

    //如果消费者第一次消费,则从latest位置,如果不是则从上一次未提交为位置
    builder.setFirstPollOffsetStrategy(
        KafkaSpoutConfig.FirstPollOffsetStrategy.UNCOMMITTED_LATEST);
    //设置offset为手动提交,只有事务提交的时候offset才提交
    builder.setProcessingGuarantee(KafkaSpoutConfig.ProcessingGuarantee.AT_LEAST_ONCE);
    //如果每个分区中累计达到有2个未提交的Record,系统将停止poll数据
    builder.setMaxUncommittedOffsets(2);

    return new KafkaTridentSpoutOpaque<String,String>(builder.build());
}

[root@CentOS ~]# storm jar storm-lowlevel-1.0-SNAPSHOT.jar com.jiangzz.demo10.TridentTopologyTests --artifacts ‘org.apache.storm:storm-kafka-client:1.2.3‘

或者在项目中添加插件,该插件会将项目依赖的jar包都打包提交。

<plugin>
    <groupId>org.apache.maven.plugins</groupId>
    <artifactId>maven-shade-plugin</artifactId>
    <version>2.4.1</version>
    <executions>
        <execution>
            <phase>package</phase>
            <goals>
                <goal>shade</goal>
            </goals>
        </execution>
    </executions>
</plugin>

Trident API

each

该函数的作用是将流的数据一个个的传递给function处理,这些function分为BaseFunctionBaseFilter

BaseFunction:该函数的作用是给Tuple修改属性。

TridentTopology topology = new TridentTopology();
Config conf = new Config();
KafkaTridentSpoutOpaque<String, String> kafkaTridentSpoutOpaque = buildKafkaTridentSpoutOpaque(conf,"topic01");
topology.newStream("kafka",kafkaTridentSpoutOpaque)

    .each(new Fields("value"), new BaseFunction() {
        @Override
        public void execute(TridentTuple tuple, TridentCollector collector) {
            String[] token = tuple.getStringByField("value").split("\\W+");
            collector.emit(new Values(token[2]));
        }
    },new Fields("sex"))
    .peek(new Consumer() {
        @Override
        public void accept(TridentTuple input) {
            System.out.println(input.getFields()+"\t"+input);
        }
    });

new LocalCluster().submitTopology("demo01",conf,topology.build());
输入:
 1 zhangsan true 12
 2 lisi false 25
输出:
 1 zhangsan true 12, true
 2 lisi false 25, false

BaseFilter:过滤结果,将不满足要求的Tuple移除。

TridentTopology topology = new TridentTopology();
Config conf = new Config();
KafkaTridentSpoutOpaque<String, String> kafkaTridentSpoutOpaque = buildKafkaTridentSpoutOpaque(conf,"topic01");
topology.newStream("kafka",kafkaTridentSpoutOpaque)

    .each(new Fields("value"), new BaseFilter() {
        @Override
        public boolean isKeep(TridentTuple tuple) {
            return tuple.getStringByField("value").contains("error");
        }
    })
    .peek(new Consumer() {
        @Override
        public void accept(TridentTuple input) {
            System.out.println(input.getFields()+"\t"+input);
        }
    });

new LocalCluster().submitTopology("demo01",conf,topology.build());
>error hello world
>this is an error messgae
>this is not message
>hello error tests

Map

将Tuple转换为某种形式的Tuple,负责将上游的Tuple转换为新的Tuple,如果不提供Fields,则用户不能修改原有Tuple的元素个数。

TridentTopology topology = new TridentTopology();
Config conf = new Config();
KafkaTridentSpoutOpaque<String, String> kafkaTridentSpoutOpaque = buildKafkaTridentSpoutOpaque(conf,"topic01");
topology.newStream("kafka",kafkaTridentSpoutOpaque)

    .map(new MapFunction() {
        @Override
        public Values execute(TridentTuple input) {
            String value = input.getStringByField("value");
            return new Values(value);
        }
    },new Fields("value"))
    .peek(new Consumer() {
        @Override
        public void accept(TridentTuple input) {
            System.out.println(input.getFields()+"\t"+input);
        }
    });

new LocalCluster().submitTopology("demo01",conf,topology.build());

flatMap

将一个Tuple转换为多个Tuple。

TridentTopology topology = new TridentTopology();
Config conf = new Config();
KafkaTridentSpoutOpaque<String, String> kafkaTridentSpoutOpaque = buildKafkaTridentSpoutOpaque(conf,"topic01");
topology.newStream("kafka",kafkaTridentSpoutOpaque)
    .flatMap(new FlatMapFunction() {
        @Override
        public Iterable<Values> execute(TridentTuple input) {
            String[] tokens = input.getStringByField("value").split(" ");
            String[] hobbies = tokens[1].split(",");
            String user=tokens[0];
            List<Values> vs=new ArrayList<Values>();
            for (String hobby : hobbies) {
                vs.add(new Values(user,hobby));
            }
            return vs;
        }
    },new Fields("user","hobby"))
    .peek(new Consumer() {
        @Override
        public void accept(TridentTuple input) {
            System.out.println(input.getFields()+"\t"+input);
        }
    });

new LocalCluster().submitTopology("demo01",conf,topology.build());

project

指定需要获取的filed

TridentTopology topology = new TridentTopology();
Config conf = new Config();
KafkaTridentSpoutOpaque<String, String> kafkaTridentSpoutOpaque = buildKafkaTridentSpoutOpaque(conf,"topic01");
topology.newStream("kafka",kafkaTridentSpoutOpaque)
    .project(new Fields("partition","offset","value"))
    .peek(new Consumer() {
        @Override
        public void accept(TridentTuple input) {
            System.out.println(input.getFields()+"\t"+input);
        }
    });

new LocalCluster().submitTopology("demo01",conf,topology.build());

partition & partitionAggregate

TridentTopology topology = new TridentTopology();
Config conf = new Config();
topology.newStream("kafka",buildKafkaTridentSpoutOpaque(conf,"topic01"))
   .parallelismHint(3)
   .flatMap(new FlatMapFunction() {
       @Override
       public Iterable<Values> execute(TridentTuple input) {
           String value = input.getStringByField("value");
           String[] words = value.split(" ");
           List<Values> vs=new ArrayList<Values>();
           for (String word : words) {
               vs.add(new Values(word,1));
           }
           return vs;
       }
   },new Fields("word","count"))
   .partition(new PartialKeyGrouping(new Fields("word")))
   .parallelismHint(4)
   .partitionAggregate(new Fields("word","count"),new WordCountAggregator(),
                       new Fields("word","count"))
   .each(new Fields("word", "count"), new BaseFilter() {
       @Override
       public boolean isKeep(TridentTuple tuple) {
           return true;
       }
   })
   .peek(new Consumer() {
       @Override
       public void accept(TridentTuple input) {
           System.out.println(input);
       }
   });

new LocalCluster().submitTopology("demo01",conf,topology.build());

WordCountAggregator计算逻辑

public static class WordCountAggregator extends BaseAggregator<Map<String,Integer>>{

    @Override
    public Map<String, Integer> init(Object batchId, TridentCollector collector) {
        return new HashMap<String,Integer>();
    }

    @Override
    public void aggregate(Map<String, Integer> val, TridentTuple tuple, TridentCollector collector) {
        System.out.println("aggregate:"+tuple+"\t"+this+"\t"+val);

        String word = tuple.getStringByField("word");
        Integer count=tuple.getIntegerByField("count");
        if(val.containsKey(word)){
            count= val.get(word)+count;
        }
        val.put(word,count);
    }

    @Override
    public void complete(Map<String, Integer> val, TridentCollector collector) {
        for (Map.Entry<String, Integer> entry : val.entrySet()) {
            collector.emit(new Values(entry.getKey(),entry.getValue()));
        }
        val.clear();
    }
}

Trident State

Trident以容错方式管理状态,以便在重试和失败时状态更新是幂等的。这使您可以推理Trident拓扑,就好像每条消息都被精确处理一次。在进行状态更新时,可以实现各种级别的容错。

Redis

persistentAggregate

TridentTopology topology = new TridentTopology();
Config conf = new Config();

KafkaTridentSpoutOpaque<String,String> kafkaTridentSpoutOpaque=
    KafkaSpoutUitls.buildKafkaSpoutOpaque(conf,"topic01");

JedisPoolConfig poolConfig = new JedisPoolConfig.Builder()
    .setHost("CentOS")
    .setPort(6379)
    .build();


Options<OpaqueValue> options=new Options<OpaqueValue>();
options.dataTypeDescription=new RedisDataTypeDescription(RedisDataTypeDescription.RedisDataType.HASH,"mapstate");
options.serializer=new JSONOpaqueSerializer();


topology.newStream("kakfaspout",kafkaTridentSpoutOpaque)
    .map((t)-> new Values(t.getStringByField("value")),new Fields("line"))
    .flatMap(line->{
        String[] words = line.getStringByField("line").split(" ");
        List<Values> values=new ArrayList<Values>();
        for (String word : words) {
            values.add(new Values(word));
        }
        return values;
    },new Fields("word"))
    .parallelismHint(3)
    .groupBy(new Fields("word"))
    .persistentAggregate(RedisMapState.opaque(poolConfig,options),new Fields("word"),new WordCountReducerAggregator(),null);

new LocalCluster().submitTopology("TestTridentDemo",conf,topology.build());
public static class WordCountReducerAggregator implements ReducerAggregator<Long>{

    @Override
    public Long init() {
        return 0L;
    }

    @Override
    public Long reduce(Long curr, TridentTuple tuple) {
        return curr+1;
    }
}

这里必须注意泛型不能是Integer,必须修改为Long否则重启报错,这算是Storm的一个目前的一个Bug

newStaticState

RedisRetriveStateFactory

public class RedisRetriveStateFactory implements StateFactory {
    @Override
    public State makeState(Map conf, IMetricsContext metrics, int partitionIndex, int numPartitions) {
        return new RedisMapState();
    }
}

RedisMapState

public class RedisMapState implements State  {
    private Jedis jedis=new Jedis("CentOS",6379);
    private JSONOpaqueSerializer jsonOpaqueSerializer=new JSONOpaqueSerializer();

    @Override
    public void beginCommit(Long txid) {

    }
    @Override
    public void commit(Long txid) {

    }
    public List<Long> batchRetive(List<TridentTuple> args) {

        String[] keys=new String[args.size()];
        for(int i=0;i<args.size();i++){
            keys[i]=args.get(i).getStringByField("word");
        }
        List<Long> longs=new ArrayList<Long>(args.size());
        for (String key : keys) {
            String v=jedis.hget("mapstate",key);
            if(v!=null){
                OpaqueValue opaqueValue = jsonOpaqueSerializer.deserialize(v.getBytes());
                long l = Long.parseLong(opaqueValue.getCurr().toString());
                longs.add(l);
            }else{
                longs.add(0L);
            }
        }
        return longs;
    }
}

RedisMapStateQueryFunction

public class RedisMapStateQueryFunction implements QueryFunction<RedisMapState,Long> {
    @Override
    public List<Long> batchRetrieve(RedisMapState state, List<TridentTuple> args) {
        return state.batchRetive(args);
    }

    @Override
    public void execute(TridentTuple tuple, Long result, TridentCollector collector) {
        collector.emit(new Values(result));
    }
    @Override
    public void prepare(Map conf, TridentOperationContext context) {

    }
    @Override
    public void cleanup() {

    }
}

TridentTopologyTests

TridentTopology topology = new TridentTopology();
Config conf = new Config();
KafkaTridentSpoutOpaque<String, String> kafkaTridentSpoutOpaque = KafkaSpoutUitls.buildKafkaSpoutOpaque(conf,"topic01");

//自定义State
StateFactory stateFactory = new RedisRetriveStateFactory();
TridentState state = topology.newStaticState(stateFactory);

topology.newStream("kafka",kafkaTridentSpoutOpaque)
    .flatMap(new FlatMapFunction() {
        @Override
        public Iterable<Values> execute(TridentTuple input) {
            String[] split = input.getStringByField("value").split(" ");
            List<Values> values=new ArrayList<Values>();
            for (String s : split) {
                values.add(new Values(s));
            }
            return values;
        }
    },new Fields("word"))
    .stateQuery(state, new Fields("word"),new RedisMapStateQueryFunction(),new Fields("count")).peek(new Consumer() {
    @Override
    public void accept(TridentTuple input) {
        System.out.println(input);
    }
});

new LocalCluster().submitTopology("demo01",conf,topology.build());

Window

TridentTopology topology = new TridentTopology();
Config conf = new Config();
KafkaTridentSpoutOpaque<String, String> kafkaTridentSpoutOpaque = buildKafkaTridentSpoutOpaque(conf,"topic01");
WindowsStoreFactory wsf=new InMemoryWindowsStoreFactory();
topology.newStream("kafka",kafkaTridentSpoutOpaque)
    .project(new Fields("value"))
    .flatMap(new FlatMapFunction() {
        @Override
        public Iterable<Values> execute(TridentTuple input) {
            String[] values = input.getStringByField("value").split("\\W+");
            List<Values> vs=new ArrayList<Values>();
            for (String value : values) {
                vs.add(new Values(value,1));
            }
            return vs;
        }
    },new Fields("word","count"))
    .tumblingWindow(
        BaseWindowedBolt.Duration.seconds(10),
        wsf,
        new Fields("word","count"),
        new WordCountAggregator(),
        new Fields("word","count")
    )
    .peek(new Consumer() {
        @Override
        public void accept(TridentTuple input) {
            System.out.println(input.getFields()+"\t"+input);
        }
    });

new LocalCluster().submitTopology("demo01",conf,topology.build());

WordCountAggregator

public static class WordCountAggregator extends BaseAggregator<TridentToplogyDemo.CountState> {
    @Override
    public CountState init(Object batchId, TridentCollector tridentCollector) {

        return new CountState();
    }
    @Override
    public void aggregate(CountState state, TridentTuple tridentTuple, TridentCollector tridentCollector) {
        boolean exits = state.count.containsKey(tridentTuple.getStringByField("word"));
        int count=0;
        if(exits){
            count = state.count.get(tridentTuple.getStringByField("word"));
            count=count+1;
        }else{
            count=1;
        }
        state.count.put(tridentTuple.getStringByField("word"),count);
    }

    @Override
    public void complete(CountState state, TridentCollector tridentCollector) {
        Set<Map.Entry<String, Integer>> entries = state.count.entrySet();
        for (Map.Entry<String, Integer> entry : entries) {
            tridentCollector.emit(new Values(entry.getKey(),entry.getValue()));
        }
    }
}

Storm 集群搭建

技术图片

  • 时钟同步
  • 安装JDK
  • 安装zk集群(正常启动)
  • 配置主机名和IP映射关系
  • 安装配置Storm
[root@CentOSX ~]# tar -zxf apache-storm-1.2.2.tar.gz -C /usr/

[root@CentOSX ~]# vi .bashrc 
`STORM_HOME=/usr/apache-storm-1.2.2`
HBASE_MANAGES_ZK=false
HBASE_HOME=/usr/hbase-1.2.4
HADOOP_HOME=/usr/hadoop-2.6.0
HADOOP_CLASSPATH=/root/mysql-connector-java-5.1.44.jar
JAVA_HOME=/usr/java/latest
PATH=$PATH:$JAVA_HOME/bin:$HADOOP_HOME/bin:$HADOOP_HOME/sbin:$HBASE_HOME/bin:`$STORM_HOME/bin`
CLASSPATH=.
export JAVA_HOME
export PATH
export CLASSPATH
export HADOOP_HOME
export HADOOP_CLASSPATH
export HBASE_HOME
export HBASE_MANAGES_ZK
`export STORM_HOME`
[root@CentOSX ~]# source .bashrc 
[root@CentOSX ~]# vi /usr/apache-storm-1.2.2/conf/storm.yaml 
 storm.zookeeper.servers:
     - "CentOSA"
     - "CentOSB"
     - "CentOSC"
 storm.local.dir: "/usr/apache-storm-1.2.2/storm-stage"
 nimbus.seeds: ["CentOSA","CentOSB","CentOSC"]
 supervisor.slots.ports:
     - 6700
     - 6701
     - 6702
     - 6703
 drpc.servers:
     - "CentOSA"
     - "CentOSB"
     - "CentOSC"
 storm.thrift.transport: "org.apache.storm.security.auth.plain.PlainSaslTransportPlugin"
     
  • 启动 Storm 集群
[root@CentOSA ~]# nohup storm ui >/dev/null 2>&1 &
[root@CentOSX ~]# nohup storm nimbus >/dev/null 2>&1 &
[root@CentOSX ~]# nohup storm supervisor >/dev/null 2>&1 &
[root@CentOSX ~]# nohup storm drpc >/dev/null 2>&1 & 

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技术图片

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原文地址:https://www.cnblogs.com/jiangzz/p/10724334.html

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