1 Flume source常用类型
1.1 Avro Source
1.1.1 概述
文档定义:
Listens on Avro port and receives events from external Avro client streams. When paired with the built-in Avro Sink on another (previous hop) Flume agent, it can create tiered collection topologies.
监听Avro端口,从Avro Client 流中接收Agents
当与另一个(前一跳)的flume agent内置的Avro Sink匹配时,塔能够够创建分层收集拓扑。
1.1.2 示例
创建配置文件
cd jobs
vim avro_demo1.conf
#定义agent的sources,sinks,channels的名字
a1.sources = s1
a1.sinks = k1
a1.channels = c1
#配置source
a1.sources.s1.channels = c1
a1.sources.s1.type = avro
a1.sources.s1.bind = hadoop10 # 这里也可以使用ip地址,我这里指定主机名,但要配置好/etc/hosts
a1.sources.s1.port = 33333
#配置channels
a1.channels.c1.type = memory
#配置sinks
a1.sinks.k1.channel = c1
a1.sinks.k1.type = logger
#为sources和sinks绑定channels
a1.sources.s1.channels = c1
a1.sinks.k1.channel = c1
启动flume
flume-ng agent -n a1 -c conf/ -f jobs/avro_demo1.conf -Dflume.root.logger=INFO,console
另启动一个终端,通过flume提供的avro客户端向指定机器指定端口发送日志信息
echo "hello world" > avro_log.txt
flume-ng avro-client -c conf/ -H hadoop10 -p 33333 -F avro_log.txt
在监听处观察
2020-12-26 10:07:58,494 (New I/O server boss #3) [INFO - org.apache.avro.ipc.NettyServer$NettyServerAvroHandler.handleUpstream(NettyServer.java:171)] [id: 0x9c055f8e, /192.168.122.10:51714 => /192.168.122.10:33333] OPEN
2020-12-26 10:07:58,495 (New I/O worker #1) [INFO - org.apache.avro.ipc.NettyServer$NettyServerAvroHandler.handleUpstream(NettyServer.java:171)] [id: 0x9c055f8e, /192.168.122.10:51714 => /192.168.122.10:33333] BOUND: /192.168.122.10:33333
2020-12-26 10:07:58,495 (New I/O worker #1) [INFO - org.apache.avro.ipc.NettyServer$NettyServerAvroHandler.handleUpstream(NettyServer.java:171)] [id: 0x9c055f8e, /192.168.122.10:51714 => /192.168.122.10:33333] CONNECTED: /192.168.122.10:51714
2020-12-26 10:07:58,755 (SinkRunner-PollingRunner-DefaultSinkProcessor) [INFO - org.apache.flume.sink.LoggerSink.process(LoggerSink.java:95)] Event: { headers:{} body: 68 65 6C 6C 6F 20 77 6F 72 64 hello word }
2020-12-26 10:07:58,760 (New I/O worker #1) [INFO - org.apache.avro.ipc.NettyServer$NettyServerAvroHandler.handleUpstream(NettyServer.java:171)] [id: 0x9c055f8e, /192.168.122.10:51714 :> /192.168.122.10:33333] DISCONNECTED
2020-12-26 10:07:58,760 (New I/O worker #1) [INFO - org.apache.avro.ipc.NettyServer$NettyServerAvroHandler.handleUpstream(NettyServer.java:171)] [id: 0x9c055f8e, /192.168.122.10:51714 :> /192.168.122.10:33333] UNBOUND
2020-12-26 10:07:58,760 (New I/O worker #1) [INFO - org.apache.avro.ipc.NettyServer$NettyServerAvroHandler.handleUpstream(NettyServer.java:171)] [id: 0x9c055f8e, /192.168.122.10:51714 :> /192.168.122.10:33333] CLOSED
2020-12-26 10:07:58,760 (New I/O worker #1) [INFO - org.apache.avro.ipc.NettyServer$NettyServerAvroHandler.channelClosed(NettyServer.java:209)] Connection to /192.168.122.10:51714 disconnected.
1.2 Exec Source
1.2.1 概述
文档定义
Exec source runs a given Unix command on start-up and expects that process to continuously produce data on standard out (stderr is simply discarded, unless property logStdErr is set to true). If the process exits for any reason, the source also exits and will produce no further data. This means configurations such as cat [named pipe] or tail -F [file] are going to produce the desired results where as date will probably not - the former two commands produce streams of data where as the latter produces a single event and exits.
ExecSource它通过配置,设定一个Unix(linux)命令,然后通过这个命令不断输出数据,如果进程退出了,那ExecSource也跟着一起退出,不再产生数据。
1.2.2 示例
1)创建配置文件
touch exec_demo.conf
vim exec_demo.conf
#Name the components on this agent
a1.sources= s1
a1.sinks= k1
a1.channels= c1
#配置sources
a1.sources.s1.type = exec
a1.sources.s1.command = tail -F /home/v2admin/exec_demo.log
#配置channel
a1.channels.c1.type= memory
#配置sinks
a1.sinks.k1.type= logger
#关联channel
a1.sources.s1.channels = c1
a1.sinks.k1.channel= c1
2)在/home/v2admin下定义个日志文件
touch exec_demo.log
3)启动flume
flume-ng agent -n a1 -c conf/ -f job/exec_demo.conf -Dflume.root.logger=INFO,console
4)另起一个终端,在exec_demo.log中追加内容
[v2admin@hadoop10 ~]$ echo "hello world" >> exec_demo.log
[v2admin@hadoop10 ~]$ echo "this is my demo" >> exec_demo.log
5)在监听窗口观察日志
2020-12-26 10:30:12,616 (SinkRunner-PollingRunner-DefaultSinkProcessor) [INFO - org.apache.flume.sink.LoggerSink.process(LoggerSink.java:95)] Event: { headers:{} body: 68 65 6C 6C 6F 20 77 6F 72 6C 64 hello world }
2020-12-26 10:30:37,329 (SinkRunner-PollingRunner-DefaultSinkProcessor) [INFO - org.apache.flume.sink.LoggerSink.process(LoggerSink.java:95)] Event: { headers:{} body: 74 68 69 73 20 69 73 20 6D 79 20 64 65 6D 6F this is my demo }
1.3 Spooling Directory Source
1.3.1 概述
官网
This source lets you ingest data by placing files to be ingested into a “spooling” directory on disk. This source will watch the specified directory for new files, and will parse events out of new files as they appear. The event parsing logic is pluggable. After a given file has been fully read into the channel, completion by default is indicated by renaming the file or it can be deleted or the trackerDir is used to keep track of processed files.
Unlike the Exec source, this source is reliable and will not miss data, even if Flume is restarted or killed. In exchange for this reliability, only immutable, uniquely-named files must be dropped into the spooling directory. Flume tries to detect these problem conditions and will fail loudly if they are violated:
1.If a file is written to after being placed into the spooling directory, Flume will print an error to its log file and stop processing.
2.If a file name is reused at a later time, Flume will print an error to its log file and stop processing.
To avoid the above issues, it may be useful to add a unique identifier (such as a timestamp) to log file names when they are moved into the spooling directory.
Despite the reliability guarantees of this source, there are still cases in which events may be duplicated if certain downstream failures occur. This is consistent with the guarantees offered by other Flume components.
Spooling Directory Source能够监测配置的目录下新增的文件,并将文件中的数据读取出来,但是它不适合对实时追加日志的文件进行监听并同步。
加粗属性为必要配置,其他可选
1.3.2 示例
1)创建配置文件
touch spooldir_demo.conf
vim spooldir_demo.conf
#定义agent的sources,sinks,channels的名字
a1.sources = s1
a1.sinks = k1
a1.channels = c1
#配置source
a1.sources.s1.type = spooldir
a1.sources.s1.spoolDir = /home/v2admin/demo
a1.sources.s1.fileHeader = true
#配置channels
a1.channels.c1.type = memory
#配置sinks
a1.sinks.k1.channel = c1
a1.sinks.k1.type = logger
#为sources和sinks绑定channels
a1.sources.s1.channels = c1
a1.sinks.k1.channel = c1
2)在/home/v2admin创建demo目录
mkdir demo
3)启动flume
flume-ng agent -n a1 -c conf/ -f jobs/spooldir_demo.conf -Dflume.root.logger=INFO,console
4)另启一个终端
cd /home/v2admin/demo
echo "hello world" >> spooldir.log
5)在监听出观察
2020-12-26 11:28:40,815 (pool-3-thread-1) [INFO - org.apache.flume.client.avro.ReliableSpoolingFileEventReader.readEvents(ReliableSpoolingFileEventReader.java:384)] Last read took us just up to a file boundary. Rolling to the next file, if there is one.
2020-12-26 11:28:40,815 (pool-3-thread-1) [INFO - org.apache.flume.client.avro.ReliableSpoolingFileEventReader.rollCurrentFile(ReliableSpoolingFileEventReader.java:497)] Preparing to move file /home/v2admin/demo/spooldir.log to /home/v2admin/demo/spooldir.log.COMPLETED
2020-12-26 11:28:40,817 (SinkRunner-PollingRunner-DefaultSinkProcessor) [INFO - org.apache.flume.sink.LoggerSink.process(LoggerSink.java:95)] Event: { headers:{file=/home/v2admin/demo/spooldir.log} body: 68 65 6C 6C 6F 20 77 6F 72 6C 64 hello world }
6)spooldir目录下的文件不可以再次编辑
// 再次执行下
echo "hello world" >> spooldir.log
观察
[ERROR - org.apache.flume.source.SpoolDirectorySource$SpoolDirectoryRunnable.run(SpoolDirectorySource.java:296)] FATAL: Spool Directory source s1: { spoolDir: /home/v2admin/demo }: Uncaught exception in SpoolDirectorySource thread. Restart or reconfigure Flume to continue processing.
java.lang.IllegalStateException: File name has been re-used with different files. Spooling assumptions violated for /home/v2admin/demo/spooldir.log.COMPLETED
at org.apache.flume.client.avro.ReliableSpoolingFileEventReader.rollCurrentFile(ReliableSpoolingFileEventReader.java:528)
at org.apache.flume.client.avro.ReliableSpoolingFileEventReader.retireCurrentFile(ReliableSpoolingFileEventReader.java:475)
at org.apache.flume.client.avro.ReliableSpoolingFileEventReader.readEvents(ReliableSpoolingFileEventReader.java:386)
at org.apache.flume.source.SpoolDirectorySource$SpoolDirectoryRunnable.run(SpoolDirectorySource.java:263)
at java.util.concurrent.Executors$RunnableAdapter.call(Executors.java:511)
at java.util.concurrent.FutureTask.runAndReset(FutureTask.java:308)
at java.util.concurrent.ScheduledThreadPoolExecutor$ScheduledFutureTask.access$301(ScheduledThreadPoolExecutor.java:180)
at java.util.concurrent.ScheduledThreadPoolExecutor$ScheduledFutureTask.run(ScheduledThreadPoolExecutor.java:294)
at java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1149)
at java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:624)
at java.lang.Thread.run(Thread.java:748)
1.4 Taildir Source
1.4.1 概述
Taildir Source适合用于监听多个实时追加的文件,并且能够实现断点续传。
1.4.2 示例
1)创建配置文件
vim taildir_demo.conf
#Name the components on this agent
a1.sources= s1
a1.sinks= k1
a1.channels= c1
#配置sources
a1.sources.s1.type = TAILDIR
a1.sources.s1.positionFile = /home/v2admin/demo/pos.log
a1.sources.s1.filegroups = f
a1.sources.s1.filegroups.f = /home/v2admin/demo/f/.*.log.*
#配置channel
a1.channels.c1.type= memory
#配置sinks
a1.sinks.k1.type= logger
#关联channel
a1.sources.s1.channels = c1
a1.sinks.k1.channel= c1
2)在/home/v2admin/demo目录创建f目录
mkdir f
3)启动flume
flume-ng agent -n a1 -c conf/ -f jobs/taildir_demo.conf -Dflume.root.logger=INFO,console
4)进入/home/v2admin/demo/f目录
echo "hello world" > helloworld.log
echo "this is a demo" >> helloworld.log
5)在监听处观看
2020-12-26 11:55:45,079 (SinkRunner-PollingRunner-DefaultSinkProcessor) [INFO - org.apache.flume.sink.LoggerSink.process(LoggerSink.java:95)] Event: { headers:{} body: 68 65 6C 6C 6F 20 77 6F 72 6C 64 hello world }
2020-12-26 11:57:03,089 (SinkRunner-PollingRunner-DefaultSinkProcessor) [INFO - org.apache.flume.sink.LoggerSink.process(LoggerSink.java:95)] Event: { headers:{} body: 74 68 69 73 20 69 73 20 61 20 64 65 6D 6F this is a demo }
6)查看pos.log
[{"inode":73056560,"pos":27,"file":"/home/v2admin/demo/f/helloworld.log"}]