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esthertrigo edited this page Feb 4, 2022 · 14 revisions

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KLoadGen is kafka load generator plugin for jmeter designed to work with AVRO and JSON schema. It allows sending kafka messages with a structure defined as an AVRO Schema or a Json Schema. It connects to the Scheme Registry Server, retrieve the subject to send and generate a random message every time.

Table of contents

Getting Started

KLoadGen includes eight main components

  • Kafka Schema Sampler : This jmeter java sampler sends messages to kafka, it uses the value and key configuration and generate a data matching that definition.

  • Kafka Consumer Sampler : This jmeter java sampler reads messages from kafka, it uses the value and key configuration to deserialize read messages.

  • Kafka Headers Config : This jmeter config element generates serialized object messages based on input class and its property configurations.

  • Value Serialized Config : This jmeter config element generates plaintext messages based on input schema template designed.

  • Value File Serialized Config : This jmeter config element allows to upload a value schema file instead to get it from the Schema Registry.

  • Value Deserialized Config : This jmeter config element allows you to define how the value of a message is deserialized.

  • Value Deserialized Config : This jmeter config element allows to upload a value schema file to deserialize messages.

  • Schema Registry Config : This jmeter config element allows to configure the connection to a Schema Registry, security access,....

  • Key Serialized Config : This jmeter config allows to configure a Key Schema from a Schema Registry

  • Key File Serialized Config : This jmeter config allows to upload a key schema file instead to get it from the Schema Registry

  • Key Deserialized Config : This jmeter config element allows you to define how the key of a message is deserialized.

  • Key File Deserialized Config : This jmeter config allows to upload a key schema to deserialize message key.

  • Key Simple Config : This jmeter config allows to define a simple basic key to send into de message.

Setup

Requirement

KLoadGen uses Java, hence on JMeter machine JRE 8 or superior:

Install openjdk on Debian, Ubuntu, etc.,

 sudo apt-get install openjdk-8-jdk

Install openjdk on Fedora, Oracle Linux, Red Hat Enterprise Linux, etc.,

 su -c "yum install java-1.8.0-openjdk-devel"

For Windows and Mac you can:

 brew tap adoptopenjdk/openjdk
 brew cask install adoptopenjdk11

Build Project

In order to build the project we have 2 profiles based on how you are going to use it; as a standalone jar or as a JMeter library under the lib/ext folder. By default the build process will generate the JMeter plugin jar file; if you want to switch to standalone mode you can pass the standalone flag:

 mvn clean install -P standalone

Specifying the plugin profile would be something like:

 mvn clean install -P plugin

or just

 mvn clean install

Once the build is completed, copy target/kloadgen-plugin-<version>.jar file to JMETER_HOME/lib/ext directory.

Producer setup

KLoadGenSampler

  • bootstrap.servers : broker-ip-1:port, broker-ip-2:port, broker-ip-3:port
  • zookeeper.servers : zookeeper-ip-1:port, zookeeper-ip-2:port, zookeeper-ip-3:port. Optional
  • kafka.topic.name : Topic on which messages will be sent
  • keyed.message : Enable adding a Key to the messages
  • compression.type : kafka producer compression type(none/gzip/snappy/lz4)
  • batch.size : messages batch size(increased batch size with compression like lz4 gives better throughput)
  • linger.ms : How much maximum time producer should wait till batch becomes full(should be 5-10 when increased batch size and compression is enabled)
  • buffer.memory : Total buffer memory for producer.
  • acks : Message sent acknowledgement, value can be (0/1/-1).
  • send.buffer.bytes : The size of the TCP send buffer (SO_SNDBUF) to use when sending data. If the value is -1, the OS default will be used.
  • receive.buffer.bytes : The size of the TCP receive buffer (SO_RCVBUF) to use when reading data. If the value is -1, the OS default will be used.
  • security.protocol : kafka producer protocol. Valid values are: PLAINTEXT, SSL, SASL_PLAINTEXT, SASL_SSL.
  • message.placeholder.key : Config element message variable name. This name should be same as message placeholder key in serialized/plaintext config element.
  • kerberos.auth.enabled : YES/NO if it is disabled all below properties will be ignored
  • java.security.auth.login.config : jaas.conf of kafka Kerberos
  • java.security.krb5.conf : Kerberos server krb5.conf file
  • sasl.kerberos.service.name : Kafka Kerberos service name
  • sasl.mechanism : Configure SASL mechanism to use to connect to the kafka cluster. GSSAPI by default
  • ssl.enabled : SSL Flag enabled/disabled use of SSL. NO as Default.
  • ssl.key.password : SSL password
  • ssl.keystore.location : SSL Keystore location
  • ssl.keystore.password : SSL Keystore password
  • ssl.truststore.location : SSL Trust Store location
  • ssl.truststore.password : SSL Trust Store password
  • client.id : Kafka producer Client ID
  • security.providers :
  • ssl.enabled.protocols : SSL Enabled protocols TLSv1.2, TLSv1.3
  • ssl.endpoint.identification.algorithm : SSL endpoint Identification algorithm. Leave default value is you don't want to sent it.
  • auto.register.schemas : Allow or disallow SchemaRegistry Client to register the schema if missing

Kafka Producer Configuration

Schema Registry Configuration

This screen will allow to configure the connection to the Schema Registry and retrieve the list of subjects hold there. Server URL will be introduced and properties will be set in the table below. Only the actual set of properties are supported.

Property Values Description
schema.registry.auth.enabled YES/NO Enable/Disable security configuration
schema.registry.auth.method BASIC/BEARER Authentication method type
schema.registry.username String The username
schema.registry.password String The password
schema.registry.bearer String The bearer for Token authentication

The Test Registry button will test the connection properties and retrieve the subjects list from the Schema Registry.

Schema Registy Config

Subject list will be used when configure the AVRO schema to download.

Schema Registy Config Success

A confirmation message will be show with the number of subjects retrieved from the Registry.

Value Schema Configuration

This screen will allow to choose a subject and download it schema. AVRO structure will be flattened and show in the table. We will see 4 columns where we will configure the Random Generator system.

  • Field Name : Flattened field name compose by all the properties from the root class. Ex: PropClass1.PropClass2.PropClass3 Note: In case to be an array [] will appear at the end. If you want to define a specific size for the array just type the number. In case to be a map [:] will appear at the end. If you want to define a specific size for the map just type the number to the left of the colon.
  • Field Type : Field type, like String, Int, Double, Array Note : if the field is an array of basic types it will be show as string-array, int-array,...
  • Field Length : Field length configuration for the Random Tool. In case of a String mean the number of characters, in case of a Number the number of digits.
  • Field Values List : Field possibles values which will be used by the Random Tool to generate values.

Load Generator Table

Value File Load Generator Configuration

This screen will allow to choose a schema from file(.avsc or.json).

File Generator Table

AVRO or Json structure will be flattened and show in the table.

Note: If there are embedded schemas, then the last of the schema's definition will be taken as the main one, and it'll be expected than the uppers are related to it. If there are unrelated schemas, they will be ignored.

We will see 4 columns where we will configure the Random Generator system.

  • Field Name : Flattened field name compose by all the properties from the root class. Ex: PropClass1.PropClass2.ProrpClass3 Note: In case to be an array "[]" will appear at the end. If you want to define a specific size for the array just type the number inside "[5]".

  • Field Type : Field type, like String, Int, Double, Map,Array Note: if the field is an array of basic types it will be showed as string-array, int-array... If the field is a map of basic types it will be showed as string-map, int-map...

  • Field Length : Field length configuration for the Random Tool. In case of an String mean the number of characters, in case of a Number the number of digits.

  • Field Values List : Field possibles values which will be used by the Random Tool to generate values

    Note: In "Field Name" if the field type is an array or a map you can define a specific number of random values (metadata.extensions.flows[].correlation[2]) for arrays or (metadata.extensions.flows[].correlation[2:]) for maps. In "Field Values List" if the field type is an array or a map you can define a specific list of values ( [1,2,3,4,5] or [ key1:value1, key2:value2, key3:value3] ).

Key Schema Configuration

Similar to the Value Schema configuration element, but focus to configure a Key Schema. Whatever schema define and configure here will be used as a Key Message.

Key File Load Generator Configuration

Similar to the Value File Schema configuration element, but focus to configure a Key Schema. Whatever schema define and configure here will be used as a Key Message.

Key Simple Generator Configuration

Similar to the Value Schema configuration element, but focus to configure a Key Schema. Whatever schema define and configure here will be used as a Key Message.

Key Plain Load Generator Config

Schema Template Functions

KLoadGen provides an easy way for random data generation base on the field type.

Data Types

Type Details Returns
string Field of String type Random string with a longitude of 20 characters
int Field of Int type Random Integer
short Field of short type Random Short
long Field of long type Random Long
double Field of double type Random Double
float Field of float type Random Float
enum Field of enum type Random enum value bases on the AVRO enum type definition
stringTimestmap Field of type String but coding a Timestamp Localdatetime.now formatted as string
longTimestmap Field of type Long but coding a Timestamp Localdatetime.now formatted as long
boolean Field of Boolean type Random bool value

Logical Types

Type Details Returns
bytes_decimal Field of bytes type Random decimal with given precision and scale
fixed_decimal Field of fixed type Random decimal with given precision and scale
string_uuid Field of string type Random UUID string
int_date Field of int type Random number of days representing a date between 1-1-1900 and 1-1-2100
int_time-millis Field of int type Random number of milliseconds representing an hour
long_time-micros Field of type long Random number of microseconds representing an hour
long_timestamp-millis Field of type long Random number of milliseconds representing a timestamp between 1-1-1900 and 1-1-2100
long_timestamp-micros Field of type long Random number of microseconds representing a timestamp between 1-1-1900 and 1-1-2100
long_local-timestamp-millis Field of type long Random number of milliseconds representing a timestamp between 1-1-1900 and 1-1-2100 in a local timezone
long_local-timestamp-micros Field fo type long Random number of microseconds representing a timestamp between 1-1-1900 and 1-1-2100 in a local timezone

Special Data Types

Type Details Returns
string-array Field of type Array of String Random size array of random generated String
int-array Field of type Array of Int Random size array of random generated Integers
long-array Field of type Array of Long Random size array of Random generated Longs
short-array Field of type Array of Short Random size array of Random generated Shorts
double-array Field of type Array of Double Random size array of Random generated Double
float-array Field of type Array of Float Random size array of Random generated Float
uuid-array Field of type Array of UUIDs Random size array of Random generated Uuid
boolean-array Field of type Array of Boolean Random size array of Random generated Boolean
string-map Field of type Map of String, String Random size map of random generated String, String
int-map Field of type Map of String, inter Random size map of random generated String, Integers
long-map Field of type Map of String, Long Random size map of Random generated String, Longs
short-map Field of type Map of String, Short Random size map of Random generated String, Shorts
double-map Field of type Map of String, Double Random size map of Random generated String, Double
uuid-map Field of type Map of String, UUIDs Random size map of Random generated String, Uuid
boolean-map Field of type Map of String, Boolean Random size map of Random generated String, Boolean
Fixed Field of type fixed Random fixed Type
Bytes Field of type bytes Random size of Random generated bytes

In case of ( * )-array the data introduced in "Field Values List" will be used to generate example data. Format will be comma separated value list. In case of ( * )-map the data introduces in "Field Values List" will be used to generate example data. Format will be comma separated value list. Those values can be a set of pairs Key:value or a list of Keys. Example:

  • key1:value, key2:value, key3:value -- Will generate a map with data in between (key1:value, key2:value, key3:value)

  • key1, key2, key3 -- Will generate a map with keys in between (key1,key2,key3) and value random generated

Special types

There are two special types, first, a mix of map and array, ( * )-map-array which will generate an array of maps. This special type have a way to specify the size of both collections. The size of the array will be placed in braces that do not have colon "[8]", the size of the map will be located to the left of the colon "[8:]" in the braces that have it. The resulting structure follows this pattern: ArrayOfMap[ArraySize][MapSize:]. Secondly, the other special type is the (*)-array-map which will generate a map of arrays, it follows this pattern: MapOfArray[MapSize:][ArraySize].

Special functions

Type Details Returns
seq Generate a Numeric sequence starting in 1. Will cast to the AVRO Field Type Returns a sequence starting in 1

In the sequence generator you can specify an starting value just put it in the Field Values List. It will only take the first value there, others will be not consider. Other values will be considered Constants for this field and will be converted to the Field Type. Keep that in mind to avoid Cast Exceptions

Since 3.6.3 version KloadGen will require to Type both "seq" in Field Type and "{" the FieldValueList if you want to create a custom sequence of values. In future versions typing "{" in Field Value List will not be required and supported.

Here we have an example of how KloadGen generates Sequences:

Sequence Generator

The field name will be generated as sequences from 1 to 5.

Kafka Headers Configuration

This configuration component allow to specify a list of header which will be included in the producer. Headers specified here will be included in every message after be serialized. Values will follow the same rules and the message body, if specify a type (basic type) it will generate a random value. If a value is set will be treated as String and serialize in the same way.

Kafka Header Config

Consumer setup

KLoadGenConsumerSampler

  • bootstrap.servers : broker-ip-1:port, broker-ip-2:port, broker-ip-3:port
  • zookeeper.servers : zookeeper-ip-1:port, zookeeper-ip-2:port, zookeeper-ip-3:port. Optional
  • kafka.topic.name : Topic on which messages will be sent
  • send.buffer.bytes : The size of the TCP send buffer (SO_SNDBUF) to use when sending data. If the value is -1, the OS default will be used.
  • receive.buffer.bytes : The size of the TCP receive buffer (SO_RCVBUF) to use when reading data. If the value is -1, the OS default will be used.
  • auto.offset.reset : The initial position for each assigned partition when the group is first created before consuming any message. This value can be: earliest or latest.
  • security.protocol : kafka producer protocol. Valid values are: PLAINTEXT, SSL, SASL_PLAINTEXT, SASL_SSL.
  • message.key.type : Default message key type.
  • kerberos.auth.enabled : YES/NO if it is disabled all below properties will be ignored
  • java.security.auth.login.config : jaas.conf of kafka Kerberos
  • java.security.krb5.conf : Kerberos server krb5.conf file
  • sasl.kerberos.service.name : Kafka Kerberos service name
  • sasl.mechanism : Configure SASL mechanism to use to connect to the kafka cluster. GSSAPI by default
  • value.subject.name.strategy : Default value name strategy.
  • key.subject.name.strategy : Default key name strategy.
  • ssl.enabled : SSL Flag enabled/disabled use of SSL. NO as Default.
  • ssl.key.password : SSL password
  • ssl.keystore.location : SSL Keystore location
  • ssl.keystore.password : SSL Keystore password
  • ssl.truststore.location : SSL Trust Store location
  • ssl.truststore.password : SSL Trust Store password
  • client.id : Kafka producer Client ID
  • security.providers :
  • ssl.enabled.protocols : SSL Enabled protocols TLSv1.2, TLSv1.3
  • ssl.endpoint.identification.algorithm : SSL endpoint Identification algorithm. Leave default value is you don't want to sent it.
  • ssl.keymanager.algorithm : The algorithm used by key manager factory for SSL connections.
  • ssl.protocol : The SSL protocol used to generate the SSLContext.
  • ssl.keystore.type : Type of the repository of security certificates.
  • ssl.provider : The name of the security provider used for SSL connections.
  • timeout.millis : Max time trying to poll before considering current partitions empty.
  • max.poll.interval.ms : The maximum delay between invocations of poll(). If poll() is not called before expiration of this timeout, then the consumer is considered failed and the group will rebalance. This value should be less than timeout.millis.
  • group.id : Specifies the name of the consumer group the consumers will belong to.

Kafka Consumer Configuration

KLoadGen Consumer Sampler is compatible with JSON and AVRO messages. If JSON is being used, no extra configuration is needed, sampler will work with default deserialization settings. If AVRO is being used, some of the following components must to be configured in order to define how messages will be deserialized.

Value Schema Deserialization Configuration

This configuration component allows to specify a Name Strategy to get the correct schema from registry and use it to deserialize read messages. It also allows to select a deserializer, if Avro is being used, KafkaAvroDeserializer must be chosen. (io.confluent.kafka.serializers.KafkaAvroDeserializer)

Value Schema Deserialization Configuration

Value Schema File Deserialization Configuration

This configuration component will allow you to select a schema from a file (.avsc)

AVRO structure will be flattened and shown in the table. You can see 2 columns:

  • Field Name : Flattened field name compose by all the properties from the root class. Ex: PropClass1. PropClass2.PropClass3 Note In case to be an array [] will appear at the end.
  • Field Type : Field type, like String, Int, Double, Map, Array... Note : if the field is an array of basic types it will be shown as string-array, int-array...

In this configuration screen you can also choose a deserializer. Make sure to chose our custom deserializer when you are using a schema loaded from a file. (net.coru.kloadgen.serializer.AvroDeserializer)

Value Schema File Deserialization Configuration

Key Schema Deserialization Configuration

Similar to Value Schema Deserialization Configuration, but focus to configure Key Schema deserialization. Whatever settings selected here will be used to deserialize message Keys.

Key Schema File Deserialization Configuration

Similar to Value Schema File Deserialization Configuration, but focus to configure Key Schema deserialization. Whatever settings selected here will be used to deserialize message Keys.

Example Test Plan

Here you can find an example of a JMeter Test Plan using the elements defined in this plugin. This test plan will only inject messages in a Kafka Cluster. Before execute it you should add your Schema Registry to retrieve the Schema in order to extract the Entity structure. In a future we will include support to read AVRO files.

StandAlone execution

This plugin also support an StandAlone execution. Only requires a JMeter installation in order to read some configuration files:

  • jmeter.properties
  • saveservice.properties
  • upgrade.properties

Building

Build process required specify the standalone profile

$ mvn -P standalone clean install

Execution

Execution in standalone mode is quite easy :

$ java -jar target/kloadgen-standalone-1.5.1.jar  -h ../JMeter/apache-jmeter-5.2\ 2 -l ../logs/results.log -t ../Example-Test-Plan.jmx -r ../logs

Configuration Options

There are some mandatory configuration options:

  • "h" or "jmeterHome" : Folder where reside a JMeter installation
  • "t" or "testPlan" : Test plan file

And some optional ones who will let us configura the JMeter Engine and the test itself

  • "o" or "optionalPros" : Optional properties file to pass to JMeter
  • "r" or "reportOutput" : Report Output Folder
  • "l" or "logFileName" : Jtl File where logs will be dump

Special Thanks

  • We would like to special thanks to pepper-box for give us the base to create this plugin and the main ideas about how to face it.