Flume Service Model Configuration
Service Model Configuration Guide
This section applies to MRS 3.x or later.
Guide a reasonable Flume service configuration by providing performance differences between Flume common modules, to avoid a nonstandard overall service performance caused when a frontend Source and a backend Sink do not match in performance.
Only single channels are compared for description.
During Flume service configuration and module selection, the ultimate throughput of a sink must be greater than the maximum throughput of a source. Otherwise, in extreme load scenarios, the write speed of the source to a channel is greater than the read speed of sink from channel. Therefore, the channel is fully occupied due to frequent usage, and the performance is affected.
Avro Source and Avro Sink are usually used in pairs to transfer data between multiple Flume Agents. Therefore, Avro Source and Avro Sink do not become a performance bottleneck in general scenarios.
Inter-Module Performance
Based on comparison between the limit performances of modules, Kafka Sink and HDFS Sink can meet the throughput requirements when the front-end is SpoolDir Source. However, HBase Sink could become performance bottlenecks due to the low write performances thereof. As a result, data is stacked in Channel. If you have to use HBase Sink or other sinks that are prone to become performance bottlenecks, you can use Channel Selector or Sink Group to meet performance requirements.
Channel Selector
A channel selector allows a source to connect to multiple channels. Data of the source can be distributed or copied by selecting different types of selectors. Currently, a channel selector provided by Flume can be a replicating channel selector or a multiplexing channel selector.
Replicating: indicates that the data of the source is synchronized to all channels.
Multiplexing: indicates that based on the value of a specific field of the header of an event, a channel is selected to send the data. In this way, the data is distributed based on a service type.
- Replicating configuration example:
client.sources = kafkasource client.channels = channel1 channel2 client.sources.kafkasource.type = org.apache.flume.source.kafka.KafkaSource client.sources.kafkasource.kafka.topics = topic1,topic2 client.sources.kafkasource.kafka.consumer.group.id = flume client.sources.kafkasource.kafka.bootstrap.servers = 10.69.112.108:21007 client.sources.kafkasource.kafka.security.protocol = SASL_PLAINTEXT client.sources.kafkasource.batchDurationMillis = 1000 client.sources.kafkasource.batchSize = 800 client.sources.kafkasource.channels = channel1 channel2 client.sources.kafkasource.selector.type = replicating client.sources.kafkasource.selector.optional = channel2
Table 1 Parameters in the Replicating configuration example Parameter
Default Value
Description
Selector.type
replicating
Selector type. Set this parameter to replicating.
Selector.optional
-
Optional channel. Configure this parameter as a list.
- Multiplexing configuration example:
client.sources = kafkasource client.channels = channel1 channel2 client.sources.kafkasource.type = org.apache.flume.source.kafka.KafkaSource client.sources.kafkasource.kafka.topics = topic1,topic2 client.sources.kafkasource.kafka.consumer.group.id = flume client.sources.kafkasource.kafka.bootstrap.servers = 10.69.112.108:21007 client.sources.kafkasource.kafka.security.protocol = SASL_PLAINTEXT client.sources.kafkasource.batchDurationMillis = 1000 client.sources.kafkasource.batchSize = 800 client.sources.kafkasource.channels = channel1 channel2 client.sources.kafkasource.selector.type = multiplexing client.sources.kafkasource.selector.header = myheader client.sources.kafkasource.selector.mapping.topic1 = channel1 client.sources.kafkasource.selector.mapping.topic2 = channel2 client.sources.kafkasource.selector.default = channel1
Table 2 Parameters in the Multiplexing configuration example Parameter
Default Value
Description
Selector.type
replicating
Selector type. Set this parameter to multiplexing.
Selector.header
Flume.selector.header
-
Selector.default
-
-
Selector.mapping.*
-
-
In a multiplexing selector example, select a field whose name is topic from the header of the event. When the value of the topic field in the header is topic1, send the event to a channel 1; or when the value of the topic field in the header is topic2, send the event to a channel 2.
Selectors need to use a specific header of an event in a source to select a channel, and need to select a proper header based on a service scenario to distribute data.
SinkGroup
When the performance of a backend single sink is insufficient, and high reliability or heterogeneous output is required, you can use a sink group to connect a specified channel to multiple sinks, thereby meeting use requirements. Currently, Flume provides two types of sink processors to manage sinks in a sink group. The types are load balancing and failover.
Failover: Indicates that there is only one active sink in the sink group each time, and the other sinks are on standby and inactive. When the active sink becomes faulty, one of the inactive sinks is selected based on priorities to take over services, so as to ensure that data is not lost. This is used in high-reliability scenarios.
Load balancing: Indicates that all sinks in the sink group are active. Each sink obtains data from the channel and processes the data. In addition, during running, loads of all sinks in the sink group are balanced. This is used in performance improvement scenarios.
- Load balancing configuration examples:
client.sources = source1 client.sinks = sink1 sink2 client.channels = channel1 client.sinkgroups = g1 client.sinkgroups.g1.sinks = sink1 sink2 client.sinkgroups.g1.processor.type = load_balance client.sinkgroups.g1.processor.backoff = true client.sinkgroups.g1.processor.selector = random client.sinks.sink1.type = logger client.sinks.sink1.channel = channel1 client.sinks.sink2.type = logger client.sinks.sink2.channel = channel1
Table 3 Parameters of Load Balancing configuration examples Parameter
Default Value
Description
sinks
-
Specifies the sink list of the sink group. Multiple sinks are separated by spaces.
processor.type
default
Specifies the type of a processor. Set this parameter to load_balance.
processor.backoff
false
Indicates whether to back off failed sinks exponentially.
processor.selector
round_robin
Specifies the selection mechanism. It must be round_robin, random, or a custom mechanism that inherits AbstractSinkSelector.
processor.selector.maxTimeOut
30000
Specifies the time for masking a faulty sink. The default value is 30,000 ms.
- Failover configuration examples:
client.sources = source1 client.sinks = sink1 sink2 client.channels = channel1 client.sinkgroups = g1 client.sinkgroups.g1.sinks = sink1 sink2 client.sinkgroups.g1.processor.type = failover client.sinkgroups.g1.processor.priority.sink1 = 10 client.sinkgroups.g1.processor.priority.sink2 = 5 client.sinkgroups.g1.processor.maxpenalty = 10000 client.sinks.sink1.type = logger client.sinks.sink1.channel = channel1 client.sinks.sink2.type = logger client.sinks.sink2.channel = channel1
Table 4 Parameters in the failover configuration example Parameter
Default Value
Description
sinks
-
Specifies the sink list of the sink group. Multiple sinks are separated by spaces.
processor.type
default
Specifies the type of a processor. Set this parameter to failover.
processor.priority.<sinkName>
-
Priority. <sinkName> must be defined in description of sinks. A sink having a higher priority is activated earlier. A larger value indicates a higher priority. Note: If there are multiple sinks, their priorities must be different. Otherwise, only one of them takes effect.
processor.maxpenalty
30000
Specifies the maximum backoff time of failed sinks (unit: ms).
Interceptors
The Flume interceptor supports modification or discarding of basic unit events during data transmission. You can specify the class name list of built-in interceptors in Flume or develop customized interceptors to modify or discard events. The following table lists the built-in interceptors in Flume. A complex example is used in this section. Other users can configure and use interceptions as required. For details, visit the following website: http://flume.apache.org/releases/content/1.9.0/FlumeUserGuide.html
- The interceptor is used between the sources and channels of Flume. Most sources provide parameters for configuring interceptors. You can set the parameters as required.
- Flume allows multiple interceptors to be configured for a source. The interceptor names are separated by spaces.
- The specified interceptor sequence is the order in which they are called.
- The contents inserted by the interceptor in the header can be read and used in sink.
Interceptor Type |
Description |
---|---|
Timestamp Interceptor |
The interceptor inserts a timestamp into the header of an event. |
Host Interceptor |
The interceptor inserts the IP address or host name of the node where the agent is located into the Header of an event. |
Remove Header Interceptor |
The interceptor discards the corresponding event based on the strings that matches the regular expression contained in the event header. |
UUID Interceptor |
The interceptor generates a UUID string for the header of each event. |
Search and Replace Interceptor |
The interceptor provides a simple string-based search and replacement function based on Java regular expressions. The rule is the same as that of Java Matcher.replaceAll(). |
Regex Filtering Interceptor |
The interceptor uses the body of an event as a text file and matches the configured regular expression to filter events. The provided regular expression can be used to exclude or include events. |
Regex Extractor Interceptor |
The interceptor extracts content from the original events using a regular expression and adds the content to the header of events. |
Parameter |
Default Value |
Description |
---|---|---|
type |
- |
Specifies the component type name. The value must be regex_filter. |
regex |
- |
Specifies the regular expression used to match events. |
excludeEvents |
false |
By default, the matched events are collected. If this parameter is set to true, the matched events are deleted and the unmatched events are retained. |
#define the source, channel, sink server.sources = r1 server.channels = c1 server.sinks = k1 #config the source server.sources.r1.type = netcat server.sources.r1.bind = ${Host IP address} server.sources.r1.port = 44444 server.sources.r1.interceptors= i1 server.sources.r1.interceptors.i1.type= regex_filter server.sources.r1.interceptors.i1.regex= (flume)|(myflume) server.sources.r1.interceptors.i1.excludeEvents= false server.sources.r1.channels = c1 #config the channel server.channels.c1.type = memory server.channels.c1.capacity = 1000 server.channels.c1.transactionCapacity = 100 #config the sink server.sinks.k1.type = logger server.sinks.k1.channel = c1
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