storm 消息重发机制

Storm为确保消息的安全可靠到达每一个指定的bolt进行业务处理提供了一套可靠的安全机制

Storm的可靠性是指Storm会告知用户每一个消息单元是否在一个指定的时间(timeout)内被完全处理。 完全处理的意思是该MessageId绑定的源Tuple以及由该源Tuple衍生的所有Tuple都经过了Topology中每一个应该到达的Bolt的处理。
当storm在消息发送的过程中，如果某一处出现异常主要通过Storm的ACKER机制处理，保证数据重发从而确保数据不会丢失，具体原理查看storm消息重发机制。

http://www.tuicool.com/articles/vErmIb

实例代码
【spout】

public class MessageSpout implements IRichSpout {
    
    private static final long serialVersionUID = 1l;
    
    private int index = 0;
    
    private SpoutOutputCollector collector;
    
    private String[] subjects = new String[]{
        "groovy,oeacnbase",
        "openfire,restful",
        "flume,activiti",
        "hadoop,hbase",
        "spark,sqoop"
    };
    
    public void open(Map conf, TopologyContext context, SpoutOutputCollector collector) {
        this.collector = collector; 
    }

    public void nextTuple() {
        if(index < subjects.length){
            String sub = subjects[index];
            //发送信息参数1为值，参数2为msgId
            collector.emit(new Values(sub),index);
            index++;
        }
    }

    public void declareOutputFields(OutputFieldsDeclarer declarer) {
        declarer.declare(new Fields("subjects"));   
    }

    //ack函数即发送消息成功后会调用(监听消息发送是否成功)
    public void ack(Object msgId) {
        System.out.println("【消息发送成功！！！】(msgId = " + msgId + ")");   
    }
    
    //失败调用函数
    public void fail(Object msgId) {
        System.out.println("【消息发送失败... ...】(msgId = " + msgId + ")");
        System.out.println("【重发进行中... ...】");
        collector.emit(new Values(subjects[(Integer)msgId]),msgId);
        System.out.println("【重发成功！！！】");
    }

    public void activate() {    
    }

    public void close() {   
    }

    public void deactivate() {  
    }

    public Map getComponentConfiguration() {
        return null;
    }
}

【bolt1】空格切分

public class SpliterBolt implements IRichBolt {
    
    private static final long serialVersionUID = 1l;
    
    private OutputCollector collector;
    
    private boolean flag = false;

    public void cleanup() {
    }

    public void execute(Tuple tuple) {      
        try {
            String subjects = tuple.getStringByField("subjects");   
            
            //模拟失败（每一个bolt环节都有可能失败）测试ack
//          if(!flag && subjects.equals("flume,activiti")){
//              flag = true ; 
//              int a = 1/0;
//          }
            
            String[] words = subjects.split(",");
            for(String word : words){
                //注意这里循环发送消息，要携带tuple对象，用于处理异常时重发策略
                collector.emit(tuple,new Values(word));
            }
            collector.ack(tuple);//标记成功
        } catch (Exception e) {
            e.printStackTrace();
            collector.fail(tuple);//标记失败
        }   
    }

    public void prepare(Map config, TopologyContext context, OutputCollector collector) {
        this.collector = collector;
    }

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

    public Map getComponentConfiguration() {
        return null;
    }
}

【bolt】结果输出

public class WriterBolt implements IRichBolt {
    
    private static final long serialVersionUID = 1l;
    
    private FileWriter writer;
    
    private OutputCollector collector;
    
    private boolean flag = false;

    public void cleanup() {
    
    }

    public void execute(Tuple tuple) {
        String word = tuple.getString(0);

        try {
            //模拟失败（每一个bolt环节都有可能失败）
//          if(!flag && word.equals("hadoop")){
//              flag = true;
//              int a = 1/0;
//          }
            writer.write(word);
            writer.write("\r\n");
            writer.flush();
        } catch (Exception e) {
            e.printStackTrace();
            collector.fail(tuple);//标记失败
        }
        collector.emit(tuple,new Values(word));
        collector.ack(tuple);//标记成功
    }

    public void prepare(Map config, TopologyContext context, OutputCollector collector) {
        this.collector = collector;
        try {
            writer = new FileWriter("e://message.txt");
        } catch (IOException e) {
            e.printStackTrace();
        }
    }

    public void declareOutputFields(OutputFieldsDeclarer declarer) {
    
    }
    public Map getComponentConfiguration() {
        return null;
    }
}

【topology】处理逻辑

/**
 * 
 * @author mis
 *
 *  测试ack保证机制
 */
public class MessageTopology {
    
    public static void main(String[] args) throws Exception {
        TopologyBuilder builder = new TopologyBuilder();
        builder.setSpout("spout", new MessageSpout());
        builder.setBolt("split-bolt", new SpliterBolt()).shuffleGrouping("spout");
        builder.setBolt("write-bolt", new WriterBolt()).shuffleGrouping("split-bolt");
        
        //本地运行
        Config config = new Config();
        config.setDebug(false);
        LocalCluster cluster = new LocalCluster();
        System.out.println(cluster);
        cluster.submitTopology("message", config, builder.createTopology());
        Thread.sleep(10000);
        cluster.killTopology("message");
        cluster.shutdown();
    }
}

成功

2017-04-26_110225.png

失败（启动ack保证机制）

2017-04-26_110518.png