The aim of this plugin is to adapt the Confluent schema registry maven plugin for Gradle builds.
As the plugin relies on packages developed by confluent you need to add the https://packages.confluent.io/maven/
repository
to your buildscript
:
Groovy
buildscript {
repositories {
gradlePluginPortal()
maven {
url = "https://packages.confluent.io/maven/"
}
}
}
plugins {
id "com.github.imflog.kafka-schema-registry-gradle-plugin" version "X.X.X"
}
Kotlin
buildscript {
repositories {
gradlePluginPortal()
maven {
url = uri("https://packages.confluent.io/maven/")
}
}
}
plugins {
id("com.github.imflog.kafka-schema-registry-gradle-plugin") version "X.X.X"
}
Where "X.X.X" is the current version, see gradle plugin portal for details.
When you install the plugin, four tasks are added under registry
group:
- downloadSchemasTask
- testSchemasTask
- registerSchemasTask
- configSubjectsTask
What these tasks do and how to configure them is described in the following sections.
schemaRegistry {
url = 'http://registry-url:8081/'
quiet = true
outputDirectory = "/home/kafka/results"
}
url
is where the script can reach the Schema Registry.quiet
is whether you want to disable "INFO" level logs. This can be useful if you test the compatibility of a lot of schema. Could be removed if gradle/gradle#1010 is fixed.outputDirectory
is the directory where action result will be stored as files (only register for now). This is an optional parameter.
Like the name of the task imply, this task is responsible for retrieving schemas from a schema registry.
A DSL is available to configure the task:
// Optional
import com.github.imflog.schema.registry.tasks.download.MetadataExtension
schemaRegistry {
url = 'http://registry-url:8081/'
download {
// Optional
metadata = new MetadataExtension(true, "path/to/metadata/")
// extension of the output file depends on the the schema type
subject('avroSubject', '/absolutPath/src/main/avro')
subject('protoSubject', 'src/main/proto')
subject('jsonSubject', 'src/main/json')
// You can use a regex to download multiple schemas at once
subjectPattern('avro.*', 'src/main/avro')
}
}
Here is the list of all the signatures for the subject
extension:
subject(inputSubject: String, outputPath: String)
subject(inputSubject: String, outputPath: String, outputFileName: String)
subject(inputSubject: String, outputPath: String, version: Int)
subject(inputSubject: String, outputPath: String, version: Int, outputFileName: String)
subjectPattern(inputPattern: String, outputPath: String)
You can configure the metadata extension in order to download the schemas metadata in json files.
It will be saved in files named like the schema file but suffixed by -metadata.json
in the outputPath you specify
and defaults to the same output directory as your schemas.
NB:
- If not provided, the outputFileName is equal to the inputSubject.
- It's not possible to specify the outputFileName for subject pattern as it would override the file for each downloaded schema.
This task test compatibility between local schemas and schemas stored in the Schema Registry.
A DSL is available to specify what to test:
schemaRegistry {
url = 'http://registry-url:8081'
compatibility {
subject('avroWithLocalReferences', '/absolutPath/dependent/path.avsc', "AVRO")
.addLocalReference("localAvroSubject", "/a/local/path.avsc")
subject('avroWithRemoteReferences', '/absolutPath/dependent/path.avsc', "AVRO")
.addReference('avroSubject', 'avroSubjectType', 1)
.addReference('avroSubjectLatestVersion', 'avroSubjectLatestVersionType')
.addReference('avroSubjectLatestVersionExplicit', 'avroSubjectLatestVersionExplicitType', -1)
subject('protoWithReferences', 'dependent/path.proto', "PROTOBUF").addReference('protoSubject', 'protoSubjectType', 1)
subject('jsonWithReferences', 'dependent/path.json', "JSON").addReference('jsonSubject', 'jsonSubjectType', 1)
}
}
You have to list all the (subject, avsc file path) pairs that you want to test.
If you have references with other schemas stored in the registry that are required before the compatibility check,
you can call the addReference("name", "subject", version)
,
this will add a reference to use from the registry.
A convenience method, addReference("name", "subject")
,
uses the latest version of the schema in the registry.
You can also specify -1
explicitly to use the latest version.
The addReference calls can be chained.
If you have local references to add before calling the compatibility in the registry,
you can call the addLocalReference("name", "/a/path")
,
this will add a reference from a local file and inline it in the schema registry call.
The addLocalReference calls can be chained.
Notes:
- If you want to reuse Subjects with the register task you can define a
Subject
object like so:import com.github.imflog.schema.registry.Subject Subject mySubject = Subject("avroSubject", "/path.avsc", "AVRO") schemaRegistry { url = 'http://registry-url:8081' register { subject(mySubject) } compatibility { subject(mySubject) } }
Mixing local and remote references is perfectly fine for Avro without specific configurations.
Mixing local and remote references is perfectly fine for JSON.
If you need to add reference to local schema to a JSON schema, make sure that the local reference contains a $id
attribute.
This id is the value that need to be put on the $ref
part.
For more concrete example, take a look at the json example.
Once again the name speaks for itself. This task register schemas from a local path to a Schema Registry.
A DSL is available to specify what to register:
schemaRegistry {
url = 'http://registry-url:8081'
register {
subject('avroWithLocalReferences', '/absolutPath/dependent/path.avsc', "AVRO")
.addLocalReference("localAvroSubject", "/a/local/path.avsc")
subject('avroWithRemoteReferences', '/absolutPath/dependent/path.avsc', "AVRO")
.addReference('avroSubject', 'avroSubjectType', 1)
.addReference('avroSubjectLatestVersion', 'avroSubjectLatestVersionType')
.addReference('avroSubjectLatestVersionExplicit', 'avroSubjectLatestVersionExplicitType', -1)
subject('protoWithReferences', 'dependent/path.proto', "PROTOBUF").addReference('protoSubject', 'protoSubjectType', 1)
subject('jsonWithReferences', 'dependent/path.json', "JSON").addReference('jsonSubject', 'jsonSubjectType', 1)
}
}
If you have references to other schemas required before the register,
you can call the addReference("name", "subject", version)
,
this will add a reference to use from the registry.
A convenience method, addReference("name", "subject")
,
uses the latest version of the schema in the registry.
You can also specify -1
explicitly to use the latest version.
The addReference calls can be chained.
If you have local references to add before calling the register,
you can call the addLocalReference("name", "/a/path")
,
this will add a reference from a local file and inline it in the schema registry call.
The addLocalReference calls can be chained.
Notes:
- A registered.csv file will be created with the following format
subject, path, id
if you need information about the registered id. - If you want to reuse Subjects with the compatibility task you can define a
Subject
object like so:import com.github.imflog.schema.registry.Subject Subject mySubject = Subject("avroSubject", "/path.avsc", "AVRO") schemaRegistry { url = 'http://registry-url:8081' register { subject(mySubject) } compatibility { subject(mySubject) } }
Mixing local and remote references is perfectly fine for Avro without specific configurations.
Mixing local and remote references is perfectly fine for JSON.
If you need to add reference to local schema to a JSON schema, make sure that the local reference contains a $id
attribute.
This id is the value that need to be put on the $ref
part.
For more concrete example, take a look at the json example.
This task sets the schema compatibility level for registered subjects.
A DSL is available to specify which subjects to configure:
schemaRegistry {
url = 'http://registry-url:8081'
config {
subject('mySubject', 'FULL_TRANSITIVE')
subject('otherSubject', 'FORWARD')
}
}
See the Confluent Schema Registry documentation for more information on valid compatibility levels.
You have to list the (subject, compatibility-level)
According to how your schema registry instance security configuration, you can configure the plugin to access it securely.
An extension allow you to specify the basic authentication like so:
schemaRegistry {
url = 'http://registry-url:8081'
credentials {
username = '$USERNAME'
password = '$PASSWORD'
}
}
If you want to encrypt the traffic in transit (using SSL), use the following extension:
schemaRegistry {
url = 'https://registry-url:8081'
ssl {
configs = [
"ssl.truststore.location": "/path/to/registry.truststore.jks",
"ssl.truststore.password": "truststorePassword",
"ssl.keystore.location": "/path/to/registry.keystore.jks",
"ssl.keystore.password": "keystorePassword"
]
}
}
Valid key values are listed here: org.apache.kafka.common.config.SslConfigs
Detailed examples can be found in the examples directory.
When using the plugin, a default version of the confluent Schema registry is use. The 5.5.X version of the schema-registry introduced changes that made the older version of the plugin obsolete.
It was easier to introduce all the changes in one shot instead of supporting both version. Here is what it implies for users:
- plugin versions above 1.X.X support the confluent version > 5.5.X (Avro / Json / Protobuf)
- plugin versions should support anything below 5.4.X
We are not strictly following confluent version so if you need to change the confluent version for some reason, take a look at examples/override-confluent-version.
In order to customize the Kafka version to run in integration tests, you can specify the ENV VAR KAFKA_VERSION with the version that you want to test upon. The library is tested with the following versions:
- 6.2.6
- 7.2.2
- 7.3.1 (by default if no env_var is passed)
PS: If you are running an ARM computer (like apple M1),
you can add the .arm64
suffix to the version to run ARM container and speed up tests.
KAFKA_VERSION=7.2.0.arm64 ./gradlew integrationTest
In order to build the plugin locally, you can run the following commands:
./gradlew build # To compile and test the code
./gradlew publishToMavenLocal # To push the plugin to your mavenLocal
Once the plugin is pushed into your mavenLocal, you can use it by
adding the mavenLocal
to the buildscript repositories like so:
buildscript {
repositories {
// The new repository to import, you may not want this in your final gradle configuration.
mavenLocal()
maven {
url "http://packages.confluent.io/maven/"
}
}
dependencies {
classpath "com.github.imflog:kafka-schema-registry-gradle-plugin:X.X.X-SNAPSHOT"
}
}
apply plugin: "com.github.imflog.kafka-schema-registry-gradle-plugin"