Configuration

Configuration

Basic Configuration (common.properties)

Parameter	Description	Default	Notes
manager.hosts	InLong-Manager http host and port	127.0.0.1:8083	Empty is not allowed, the format is configured according to the format of {ip1:port1}[,{ip2:port2}][,{ip3:port3}]
manager.auth.secretId	InLong-Manager authentic secretId	`blank`	If InLong-Manager doesn’t open authentic service, this parameter can be empty.
manager.auth.secretKey	InLong-Manager authentic secretKey	`blank`
proxy.cluster.tag	The cluster Tag name where the dataproxy is located	default_cluster	A cluster Tag can contain multiple dataproxy and MQ clusters
proxy.cluster.name	The cluster name where dataproxy is located	default_dataproxy	used to distinguish different environments
proxy.cluster.inCharges	The incharge of the cluster where dataproxy is located	admin
configCheckInterval	Configuration file checking and loading interval of the conf directory (unit: ms)	10000
metricDomains	JMX domain name	DataProxy	Obtain the following configuration items of “metricDomains.${metricDomains}.xxx” through this configuration value
metricDomains.DataProxy.domainListeners	The class for indicator monitoring, and the service is started through reflection of the class name	org.apache.inlong.dataproxy.metrics.prometheus.PrometheusMetricListener	If there are multiple indicator monitoring class configurations, separate them by spaces, carriage returns, or line feeds
metricDomains.DataProxy.snapshotInterval	Time interval for periodic reporting of indicators (unit: ms)	60000
prometheusHttpPort	The port when reporting using Prometheus	9081
audit.enable	Whether to enable data reporting InLong-Audit service	true
audit.proxys	The address of the InLong-Audit service	127.0.0.1:10081	The format is configured according to {ip1:port1}[ {ip2:port2}][ {ip3:port3}], and different ip:ports are separated by spaces, carriage returns, or line feeds

Log Output Configuration（log4j2.xml）

DataProxy uses Log4j2 to output logs, and the related configuration is set based on Log4j2. This configuration only mentions common setting items:

Parameter	Description	Default	Notes
basePath	Storage path of log files	${sys:dataproxy.log.path}
every_file_size	The size of each log file	1G
output_log_level	log output level	DEBUG	It is recommended to set to INFO when using online
rolling_max	The number of logs of the same type that can be stored in the same directory	50
debug_max	The number of DEBUG type logs that can be stored in the same directory	7
info_max	The number of INFO type logs that can be stored in the same directory	7
warn_max	The number of WARN type logs that can be stored in the same directory	7
error_max	The number of ERROR type logs that can be stored in the same directory	7

Other Auto-Update Configurations

After DataProxy is started and successfully linked to the Manager, it will automatically synchronize the running configuration from the Manager and update it regularly. The following configuration cannot be modified.

File Name	Description	Notes
mq_cluster.properties	MQ cluster configuration
topics.properties	Mapping configuration of groupId to MQ topic
weight.properties	System Load Weight Configuration

Source-Channel-Sink Configuration（dataproxy-{tube|pulsar}.conf）

DataProxy supports configurable source-channel-sink, which is consistent to flume’s configuration file structure, so it should be modified according to the configuration file definition of Apache flume. The configuration file is placed in the dataproxy-{tube|pulsar}.conf file. Currently, dataproxy-pulsar.conf and dataproxy-tube.conf are supported to distinguish different middleware types. The specific type can be specified at startup. The default (when not specified) ) using dataproxy-pulsar.conf as configuration file. The following is an example for this configuration file:

Source configuration example:

agent1.sources.tcp-source.channels = ch-msg1 ch-msg2 ch-msg3 ch-more1 ch-more2 ch-more3 ch-msg5 ch-msg6 ch-msg7 ch-msg8 ch-msg9 ch-msg10 ch-transfer ch -Back
Define the channel used in the source. Note that if the configuration below this source uses the channel, it needs to be annotated here
agent1.sources.tcp-source.type = org.apache.flume.source.SimpleTcpSource
tcp resolution type definition, here provide the class name for instantiation, SimpleTcpSource is mainly to initialize the configuration and start port monitoring
agent1.sources.tcp-source.msg-factory-name = org.apache.flume.source.ServerMessageFactory
Handler used for message structure analysis, and set read stream handler and write stream handler
agent1.sources.tcp-source.host = 0.0.0.0
tcp ip binding monitoring, binding all network cards by default
agent1.sources.tcp-source.port = 46801
tcp port binding, port 46801 is bound by default
agent1.sources.tcp-source.highWaterMark=2621440
The concept of netty, set the netty high water level value
agent1.sources.tcp-source.enableExceptionReturn=true
The new function of v1.7 version, optional, the default is false, used to open the exception channel, when an exception occurs, the data is written to the exception channel to prevent other normal data transmission (the open source version does not add this function), Details  |  Increase the local disk of abnormal data landing
agent1.sources.tcp-source.max-msg-length = 524288
Limit the size of a single package, here if the compressed package is transmitted, it is the compressed package size, the limit is 512KB
agent1.sources.tcp-source.topic = test_token
The default topic value, if the mapping relationship between groupId and topic cannot be found, it will be sent to this topic
agent1.sources.tcp-source.attr = m=9
The default value of m is set, where the value of m is the version of inlong's internal TdMsg protocol
agent1.sources.tcp-source.connections = 5000
Concurrent connections go online, new connections will be broken when the upper limit is exceeded
agent1.sources.tcp-source.max-threads = 64
Netty thread pool work thread upper limit, generally recommended to choose twice the cpu
agent1.sources.tcp-source.receiveBufferSize = 524288
Netty server tcp tuning parameters
agent1.sources.tcp-source.sendBufferSize = 524288
Netty server tcp tuning parameters
agent1.sources.tcp-source.custom-cp = true
Whether to use the self-developed channel process, the self-developed channel process can select the alternate channel to send when the main channel is blocked
agent1.sources.tcp-source.selector.type = org.apache.flume.channel.FailoverChannelSelector
This channel selector is a self-developed channel selector, which is not much different from the official website, mainly because of the channel master-slave selection logic
agent1.sources.tcp-source.selector.master = ch-msg5 ch-msg6 ch-msg7 ch-msg8 ch-msg9
Specify the master channel, these channels will be preferentially selected for data push. Those channels that are not in the master, transfer, fileMetric, and slaMetric configuration items, but are in
There are defined channels in channels, which are all classified as slave channels. When the master channel is full, the slave channel will be selected. Generally, the file channel type is recommended for the slave channel.
agent1.sources.tcp-source.selector.transfer = ch-msg5 ch-msg6 ch-msg7 ch-msg8 ch-msg9
Specify the transfer channel to accept the transfer type data. The transfer here generally refers to the data pushed to the non-tube cluster, which is only for forwarding, and it is reserved for subsequent functions.
agent1.sources.tcp-source.selector.fileMetric = ch-back
Specify the fileMetric channel to receive the metric data reported by the agent

Channel configuration examples, memory channel:

agent1.channels.ch-more1.type = memory
memory channel type
agent1.channels.ch-more1.capacity = 10000000
Memory channel queue size, the maximum number of messages that can be cached
agent1.channels.ch-more1.keep-alive = 0
agent1.channels.ch-more1.transactionCapacity = 20
The maximum number of batches are processed in atomic operations, and the memory channel needs to be locked when used, so there will be a batch process to increase efficiency

Channel configuration examples, file channel:

agent1.channels.ch-msg5.type = file
file channel type
agent1.channels.ch-msg5.capacity = 100000000
The maximum number of messages that can be cached in a file channel
agent1.channels.ch-msg5.maxFileSize = 1073741824
file channel file maximum limit, the number of bytes
agent1.channels.ch-msg5.minimumRequiredSpace = 1073741824
The minimum free space of the disk where the file channel is located. Setting this value can prevent the disk from being full
agent1.channels.ch-msg5.checkpointDir = /data/work/file/ch-msg5/check
file channel checkpoint path
agent1.channels.ch-msg5.dataDirs = /data/work/file/ch-msg5/data
file channel data path
agent1.channels.ch-msg5.fsyncPerTransaction = false
Whether to synchronize the disk for each atomic operation, it is recommended to change it to false, otherwise it will affect the performance
agent1.channels.ch-msg5.fsyncInterval = 5
The time interval between data flush from memory to disk, in seconds

Sink configuration example:

agent1.sinks.meta-sink-more1.channel = ch-msg1
The upstream channel name of the sink
agent1.sinks.meta-sink-more1.type = org.apache.flume.sink.MetaSink
The sink class is implemented, where the message is implemented to push data to the tube cluster
agent1.sinks.meta-sink-more1.master-host-port-list =
Tube cluster master node list
agent1.sinks.meta-sink-more1.send_timeout = 30000
Timeout limit when sending to tube
agent1.sinks.meta-sink-more1.stat-interval-sec = 60
Sink indicator statistics interval time, in seconds
agent1.sinks.meta-sink-more1.thread-num = 8
Sink class sends messages to the worker thread, 8 means to start 8 concurrent threads
agent1.sinks.meta-sink-more1.client-id-cache = true
agent id cache, used to check the data reported by the agent to remove duplicates
agent1.sinks.meta-sink-more1.max-survived-time = 300000
Maximum cache time
agent1.sinks.meta-sink-more1.max-survived-size = 3000000
Maximum number of caches