flink-watermark
程序员文章站
2022-06-07 22:57:55
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一.背景
当我们统计用户点击的时候,有时候会因为各种情况数据延迟,我们需要一个允许最大的延迟范围进行统计。这里的延迟统计分为两种:
模拟初始数据:早上10:10:00 用户点击了一次,但是延迟到10:10:05 才发送过来,允许最大延迟5秒, 5秒窗口统计。我们希望还是能统计到
二.基本代码
@Data public class UserTimeInfo implements Serializable { private String userId; /** 实际时间-偏移量 偏移后的时间*/ private Timestamp pTime; public UserTimeInfo() { } public UserTimeInfo(String userId, Timestamp pTime) { this.userId = userId; this.pTime = pTime; } }
public class UserTimeSource implements SourceFunction<UserTimeInfo> { /** * 为了id 统计方便,我们只留一个id */ static String[] userIds = {"id->"}; Random random = new Random(); /** * 模拟发送20次 */ int times = 20; @Override public void run(SourceContext sc) throws Exception { while (true) { TimeUnit.SECONDS.sleep(1); int m = (int) (System.currentTimeMillis() % userIds.length); // 随机延迟几秒 int defTime = random.nextInt(5); // 发送时间 DateTime dateTime = new DateTime(); // 计算延迟后的时间,并且打印时间 DateTime dateTimePrint = dateTime.plusSeconds(-defTime); System.out.println("实际时间:" + print(dateTime) + ",延迟:" + defTime + ":-->" + print(dateTimePrint)); // 发送延迟时间 dateTime = dateTime.plusSeconds(-defTime); sc.collect(new UserTimeInfo(userIds[m], new Timestamp(dateTime.getMillis()))); // 只持续固定时间方便观察 if (--times == 0) { break; } } } @Override public void cancel() { System.out.println("cancel to do ..."); } private static String print(DateTime dateTime) { return dateTime.toString("yyyy-MM-dd hh:mm:ss"); } }
三.定义我们的两种watermark
a. 基于系统时间
/** * 这里逻辑,模拟按系统时间进行统计 * 所有数据和系统自身时间有关 */ public class UserTimeWaterMarkBySystem implements AssignerWithPeriodicWatermarks<UserTimeInfo> { /** * 默认允许 5秒延迟 */ long maxDelayTime = 5000; /** * 该时间由于基于系统时间来做, * 如果10:00 11:10 秒用户点击的数据,然后延迟,实际收到的时间是10.00 11:15 * a.根据系统时间 想减,小于5秒就会统计到 * b.注意,如果程序挂了,12点重启消费这个数据,就统计不到了 * @return */ @Nullable @Override public Watermark getCurrentWatermark() { return new Watermark(System.currentTimeMillis() - maxDelayTime); } @Override public long extractTimestamp(UserTimeInfo element, long previousElementTimestamp) { long timestamp = element.getPTime().getTime(); return timestamp; } }
b.根据数据自生时间进行做延迟判断
public class UserTimeWaterMarkByRowTime implements AssignerWithPeriodicWatermarks<UserTimeInfo> { /** * 默认允许 5秒延迟 */ long maxDelayTime = 5000; /** * 该时间由于基于数据时间来做, * 如果10:00 11:10 秒用户点击的数据,然后延迟,实际收到的时间是10.00 11:15 * a.根据系统时间 想减,小于5秒就会统计到 * b.只要消息 时间延迟小于5 就能被统计。 * 这种对点击事件来说,更符合要求 * @return */ private long currentMaxTimestamp; @Nullable @Override public Watermark getCurrentWatermark() { return new Watermark(currentMaxTimestamp - maxDelayTime); } @Override public long extractTimestamp(UserTimeInfo element, long previousElementTimestamp) { long timestamp = element.getPTime().getTime(); currentMaxTimestamp = Math.max(timestamp, currentMaxTimestamp); return timestamp; } }
四.source 类,和以前一样
public class UserTimeWaterMarkApp { public static void main(String[] args) throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(1); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); DataStream<UserTimeInfo> userInfoDataStream = env.addSource(new UserTimeSource()); // UserTimeWaterMarkByRowTime 这个时间可以替换 DataStream<UserTimeInfo> timedData = userInfoDataStream.assignTimestampsAndWatermarks(new UserTimeWaterMarkByRowTime()); StreamTableEnvironment tableEnv = TableEnvironment.getTableEnvironment(env); tableEnv.registerDataStream("test", timedData, "userId,pTime.rowtime"); Table result = tableEnv.sqlQuery("SELECT userId,TUMBLE_END(pTime, INTERVAL '5' SECOND) as pTime,count(1) as cnt FROM test" + " GROUP BY TUMBLE(pTime, INTERVAL '5' SECOND),userId "); // deal with (Tuple2<Boolean, Row> value) -> out.collect(row) SingleOutputStreamOperator allClick = tableEnv.toRetractStream(result, Row.class) .flatMap((Tuple2<Boolean, Row> value, Collector<Row> out) -> { out.collect(value.f1); }).returns(Row.class); // add sink or print allClick.print(); env.execute("test"); } }
public class UserTimeWaterMarkApp { public static void main(String[] args) throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(1); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); DataStream<UserTimeInfo> userInfoDataStream = env.addSource(new UserTimeSource()); DataStream<UserTimeInfo> timedData = userInfoDataStream.assignTimestampsAndWatermarks(new UserTimeWaterMarkByRowTime()); StreamTableEnvironment tableEnv = TableEnvironment.getTableEnvironment(env); tableEnv.registerDataStream("test", timedData, "userId,pTime.rowtime"); Table result = tableEnv.sqlQuery("SELECT userId,TUMBLE_END(pTime, INTERVAL '5' SECOND) as pTime,count(1) as cnt FROM test" + " GROUP BY TUMBLE(pTime, INTERVAL '5' SECOND),userId "); // deal with (Tuple2<Boolean, Row> value) -> out.collect(row) SingleOutputStreamOperator allClick = tableEnv.toRetractStream(result, Row.class) .flatMap((Tuple2<Boolean, Row> value, Collector<Row> out) -> { out.collect(value.f1); }).returns(Row.class); // add sink or print allClick.print(); env.execute("test"); }
小结:
1.这个是基于flink 1.7 跑的
2.代码比较简单,也好理解,有问题直接私信我