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Gradle build integration
Gradle integration is provided as part of pegasus. The gradle integration uses the below java classes, included in pegasus to perform the various codegen and validation tasks. These java classes could be used to integrate with other build tools.
As an example, let's consider a simple rest.li project with three modules:
- An
/api
module containing pegasus schema definitions in thesrc/main/pegasus
directory. Also this is where java client bindings for the service will be generated (the client-bindings are sometimes not a separate project, but are put into the '/api' project along with the .pdsc's). - A
/server
module containing resources defined in java classes in thesrc/main/java
directory under thecom.linkedin.restli.example.impl
namespace (E.g. com.linkedin.restli.example.impl.RestLiExampleBasicServer.java). - An example java client that uses the client-bindings.
/build.gradle:
apply plugin: 'idea'
apply plugin: 'eclipse'
project.ext.externalDependency = [
'pegasusVersion' : '<version>'
]
buildscript {
repositories {
mavenLocal()
mavenCentral()
}
dependencies {
classpath group: 'com.linkedin.pegasus', name: 'gradle-plugins', version: '<version>'
}
}
subprojects {
apply plugin: 'eclipse'
apply plugin: 'maven'
apply plugin: 'idea'
sourceCompatibility = JavaVersion.VERSION_1_6
repositories {
mavenLocal()
mavenCentral()
}
}
/settings.gradle:
include 'api'
include 'server'
include 'client'
/api/build.gradle:
apply plugin: 'java'
apply plugin: 'pegasus'
dependencies {
dataTemplateCompile "com.linkedin.pegasus:data:<version>"
dataTemplateGenerator "com.linkedin.pegasus:generator:<version>"
restTools "com.linkedin.pegasus:restli-tools:<version>"
restClientCompile externalDependency.restliClient
}
In /api
, Pegasus Data Schemas (.pdsc's) should be added under /src/main/pegasus
. E.g. /src/main/pegasus/com/linkedin/restli/example/Hello.pdsc
.
The pegasus plugin will detect the presence of .pdsc files and use the dataTemplateGenerator
to generate java bindings for the .pdsc's. In this example, a Hello.java
class would be generated.
The dataTemplateCompile
adds pegasus schemas that Hello.pdsc depends on, in this case, Hello.pdsc depends only on the core data libraries of pegasus, but projects containing other .pdsc's could be depended on.
Pegasus will detect when a project contains interface definitions (called idl and locaed in .restspec.json files) in it's /src/mainGeneratedRest/idl
directory (usually copied in from an idl extraction task from the server, see below) and will generate java bindings. For example, HelloBuilder.java
is generated from the idl of the hello resource (/src/main/idl/com/linkedin/restli/example/impl/Hello.restspec.json) and it written to the
/src/mainGeneratedRest/java' directory of the /api
project.
restTools
is a required dependency for pegasus.
/server/build.gradle:
apply plugin: 'java'
apply plugin: 'pegasus'
ext.apiProject = project(':api')
pegasus.main.idlOptions.addIdlItem(['com.linkedin.restli.example.impl'])
dependencies {
compile project(path: ':api', configuration: 'dataTemplate')
compile "com.linkedin.pegasus:restli-server:<version>"
restTools "com.linkedin.pegasus:restli-tools:<version>"
// ...
}
In /server
, pegasus "Resource" java classes should be defined and should be in the package(s) referred to by pegasus.main.idlOptions
. E.g. /src/main/java/com/linkedin/restli/example/impl.HelloResource.java
.
Pegasus will extract an interface definition (.restspec.json) from the resource class and write it to /src/mainGeneratedRest/idl
directory.
Once the idl has been generated, it will be copied to the project identified by ext.apiProject
. In this example, it will be copied to /api/src/main/idl
. Before it is copied, api/src/main/idl
is scanned for pre-existing idl. If any is found, it is compared with the replacement idl that will be copied in and a compatibility checker is run that will return errors if the replacement idl is not backward compatible with the existing idl. The compatibility checks can be disabled by setting (but be warned, compatibility errors mean that a server running the new interface definition is now incompatible with clients running older versions, and should not be pushed to production systems). If the compatibility checks pass, the idl is copied into the client directories. Once copied, new 'Client Bindings' may be generated for the client, see below.
The compile dependency on :api
is required if the HelloResource.java depends on Hello.pdsc and it's generated binding Hello.java. Note that the dependency includes a 'configuration' identifying this as a 'dataTemplate' dependency.
Again, restTools
is a required dependency for pegasus.
/client/build.gradle:
apply plugin: 'java'
dependencies {
compile project(path: ':api', configuration: 'restClient')
compile "com.linkedin.pegasus:restli-client:<version>"
}
Once rest client bindings in the api project have been generated, it is trivial for a engineer to depend on the api project and use the generated client bindings to make calls to the new rest.li interface from any remote service.
One must add a compile dependency the 'api' project (or depend on it's published artifacts, more about this below) and be sure to set the dependency configuration to 'restClient'. Once this is done, it's easy to use the HelloBuilder
class to construct a request.
To manage compatibility checking use the rest.model.compatibility flag. There are 4 different options: 'off', 'equivalent', 'backwards' and 'ignore'.
By default the compatibility strategy is 'equivalent'. Meaning that ALL changes to an interface will cause a build failure. If set to 'off' the compatibility check is skipped entirely. Ignore will run the compatibility checker but will not fail for backward incompatible changes (and will print out the incompatibilities). 'backwards' will only fail on backwards incompatible changes.
For example, to run a build ignoring backward incompatable interface changes (WARNING: remember that backward incompatible changes could break your clients):
gradle build -Prest.model.compatibility=ignore
To acknowledge a backwards compatible interface change use:
gradle build -Prest.model.compatibility=backwards
Often, the client bindings need to be accessible to developers outside the project workspace where the service is developed.
To publish rest client bindings to any maven repo first modify the api project's gradle to look like:
/api/build.gradle:
// ... /api/build.gradle code from above ...
artifacts {
archives mainRestClientJar
archives mainDataTemplateJar
}
configure(install.repositories.mavenInstaller) {
addFilter('rest-client') {artifact, file ->
artifact.name == 'api-rest-client'
}.artifactId = 'rest-client'
addFilter('data-template') {artifact, file ->
artifact.name == 'api-data-template'
}.artifactId = 'data-template'
// artifact names for 'data-model', 'avro-schema' and 'rest-model' may be added as well if needed
}
The 'artifacts' section tells gradle to build jar files for the rest client bindings and the data templates.
The configure part instructs gradle to publish both artifacts into maven. Setting names for each (by default gradle names the artifact publish to maven to 'api' and since there are two artifacts, they need to be given distinct names).
Next, update the root build.gradle file to include project information withing the subprojects section:
/build.gradle
// ... /build.gradle code from above ...
subprojects {
// ...
project.group = 'org.example'
project.version = '0.1'
}
Once the api build.gradle is updated. One can publish the maven artifacts. To publish to the maven local repo, simply run:
gradle install
to publish to a remove maven repository follow the gradle documentation
Once published, other projects may import the client bindings by depending on the two maven artifacts, e.g.:
dependencies {
compile "org.example:rest-client:0.1"
compile "org.example:data-template:0.1"
}
The gradle tasks for pegasus are provided by PegasusGeneratorV2Plugin.groovy
in the rest.li source code. This plugin defines custom of gradle SourceDirectorySet
s for the 'idl', 'pegasus' source types and tasks
for the rest.li code generators. It also defines custom published artifact "configurations" and dependencies on between these custom published artifact "configurations".
The below refers to gradle sourceSets
. Common sourceSets are main
and test
.
Where: 'api' modules
Contains data schemas (.pdsc) files. If .pdsc files are present in this directory, the generate{sourceSet}DataTemplate
tasks (e.g. generateMainDataTemplate
) will generate java data templates (RecordTemplate java classes) in the src/{sourceSet}GeneratedDataTemplate
directory.
The .pdsc files are published into a *-data-template.jar
artifact. If ivy is used this artifact is published with the module name and under the 'data-template' classification.
The generated java data templates (RecordTemplate java classes) are are published as a -data-model.jar
artifact. If ivy is used this artifact is published with the module name and under the 'data-model' classification.
Where: 'server' modules
These files are generated by the generateRestModel
task, for modules containing {*Resource.java} files (which must be in a package referenced by pegasus.{sourceSet}.idlOptions.addIdlItem(namespaces)
). One important aspect of idl is that by convention they are generated by a 'server' module (and written to the src/{sourceSet}GeneratedRest/idl
) and then are copied to the /src/{sourceSet}/idl
directory of an api module (via the ext.apiProject
property).
No artifacts are published directly from the server for these files, see src/{sourceSet}/idl
for details on how they are published from the 'api' project.
Where: 'api' modules
Contains published idl (.restspec.json) files. These files represent the interface definition of the rest.li resources provided by some service. They should be checked in to source control. They are copied into the idl directory from server module by the publishRestModel
task. For this copy to happen the server module must contain a ext.apiProject
property referencing this 'api' module. As part of this copy, idl compatibility validation will be run (see above for details).
The idl is published as a *-rest-model.jar
artifact. If ivy is used this artifact is published with the module name and under the 'rest-model' classification.
Where: 'api' modules
Avro schema files (.avsc) generated from pegasus data schema files (.pdsc) by the generateAvroSchema
task.
All the following tasks are automatically added by the 'pegasus' gradle plugin into the gradle task dependency hierarchy. They run automatically and in the correct order run as part of 'gradle build', 'gradle jar' and 'gradle compileJava' when the plugin detects that they are needed.
Generates .restspec.json files and writes them into the src/{sourceSet}GeneratedRest/idl
directory, depended on by publishRestModel task and jar task.
Copies idl (restspec.json) from server to api project (or whatever the ext.apiProject property is set to). This tasks runs compatibility validation (see above). While not strictly a 'generate' task, it is a essential part of the generator flow. It is depended on by the jar task.
Generates java client bindings (*Builders.java
classes) into the src/{sourceSet}GeneratedRest/java
. It depends on the .restspec.json files in src/{sourceSet}/idl
directory and the pegasus schemas (.pdsc files) in src/{sourceSet}/pegasus
as well as from 'dataModel' dependencies (in ivy, these are dependencies from the "data-model" classification). Depended on by compileJava.
Generates java data template bindings (RecordTemplate java classes). It depends on the pegasus schemas (.pdsc files) in src/{sourceSet}/pegasus
as well as from 'dataModel' dependencies (in ivy, these are dependencies from the "data-model" classification). Depended on by compileJava.
Generates avro schemas (.avsc files) from the pegasus schemas (.pdsc files) in src/{sourceSet}/pegasus
. Requires the same 'dataModel' dependencies as required by the pegasus schemas (in ivy, these are dependencies from the "data-model" classification). Depended on by generateDataTemplate task.
TODO: document how classifications work in gradle
Ivy coordinates: use module's group, name and version, use 'data-model' as classification Maven coordinates: use module's group and version. Use whatever name was configured for the mavenInstaller, which by convention should be '{modulename}-data-model' (see above section about publish maven artifacts).
Contains .pdsc files, generated by the generateDataModel
task. This is only generated from a project if it contains one or more .pdsc files in it's src/{sourceSet}/pegasus
directory.
###*-data-template.jar
artifact
Ivy coordinates: use module's group, name and version, use 'data-template' as classification Maven coordinates: use module's group and version. Use whatever name was configured for the mavenInstaller, which by convention should be '{modulename}-data-template' (see above section about publish maven artifacts).
Contains java generated bindings (.class files) for accessing the pegasus schemas (.pdsc files) in the module's src/{sourceSet}/pegasus
directory. This artifact is generated by the generateDataTemplate
task. This artifact is only generated from a project if it contains one or more .pdsc files in it's src/{sourceSet}/pegasus
directory.
This artifact will also define dependencies in it's .pom or .ivy file to data-template artifacts it depends on (these are specified as dataTemplate
dependencies in the module's build.gradle).
Ivy coordinates: use module's group, name and version, use 'avro-schema' as classification Maven coordinates: use module's group and version. Use whatever name was configured for the mavenInstaller, which by convention should be '{modulename}-avro-schema' (see above section about publish maven artifacts).
Contains .avro schema files for the pegasus schemas (.pdsc files) in this module's src/{sourceSet}/pegasus
directory. This .avro files are generated by the generateAvroSchema
task.
This artifact will also define dependencies in it's .pom or .ivy file to avro-schemas artifacts it depends on (these are specified as dataTemplate
dependencies in the module's build.gradle).
Ivy coordinates: use module's group, name and version, use 'rest-model' as classification Maven coordinates: use module's group and version. Use whatever name was configured for the mavenInstaller, which by convention should be '{modulename}-rest-model' (see above section about publish maven artifacts).
Contains .idl (restspec.json) files for the idl in the module's `src/{sourceSet}/idl' directory. These .idl files are generated by the generateRestModel task from a server then copied to an api project by the publishRestModel task (via the ext.apiProject property).
TODO: Any artifact dependencies?
Ivy coordinates: use module's group, name and version, use 'rest-client' as classification Maven coordinates: use module's group and version. Use whatever name was configured for the mavenInstaller, which by convention should be '{modulename}-rest-client' (see above section about publish maven artifacts).
Contains rest client java bindings (*Builders.java classes) generated from the idl of the source module. depends on: ??
This artifact will also define dependencies in it's .pom or .ivy file to java data template binding artifacts (*-data-model.jar
) it requires, including the one for the module itself and for any other pegasus schemas it depends on (these are specified as dataModel
dependencies in the module's build.gradle).
There are two types of pegasus plugin dependency types. The first type is one required by the plugin for running code generators and compiling code. The second type is those developers can use to define different sorts dependencies between the various source languages, such as pegasus schemas (.pdsc files).
restTools
- required by plugin to access ??
dataTemplateCompile
- Required by modules that do data template compilation, must refer to a compatible version of the pegasus-data artifact
dataTemplateGenerator
- Required by modules that do data template generation, must refer to a compatible version of the pegasus-generator artifact
restClientCompile
- Required by modules
dataModel
- ??
dataTemplate
- ??
restClient
- ??
This is provided for reference only. A understanding of these classes is not required to use pegasus. These classes would be useful primarily if one were deeply integrating pegasus with a build system not already supported by pegasus.
Generate Avro avsc files from Pegasus Data Model schemas (.pdsc files).
java [-Dgenerator.resolver.path=<dataSchemaRelativePath>] \
-cp <CLASSPATH> com.linkedin.data.avro.generator.AvroSchemaGenerator \
<outputDir> [<inputFileOrDir> ...]
- dataSchemaRelativePath - Path to .pdsc files. (e.g. /src/main/pegasus).
- CLASSPATH - 'com.linkedin.pegasus:data:[CURRENT_VERSION]' AND 'com.linkedin.pegasus:data-avro:[CURRENT_VERSION]' artifacts and all their dependencies.
- outputDir - output directory for generated avsc files
- inputFileOrDir - file name of a Pegasus data schema file, a directory containing Pegasus data schema files, or a fully qualified schema name
Build integration: for builds requiring avro schemas, assembly (creation of jar) should depend on this task
Generates Java data templates (.java files) from Pegasus Data Model schemas (.pdsc files).
java [-Dgenerator.resolver.path=<dataSchemaRelativePath>] -cp <CLASSPATH> \
com.linkedin.pegasus.generator.PegasusDataTemplateGenerator \
<outputDir> [<inputFileOrDir> ...]
- dataSchemaRelativePath - Path to .pdsc files. (e.g. /src/main/pegasus).
- CLASSPATH - 'com.linkedin.pegasus:generator:[CURRENT_VERSION]' artifact and all it's dependencies.
- outputDir - output directory for generated java source files
- inputFileOrDir - file name of a Pegasus data schema file, a directory containing Pegasus data schema files, or a fully qualified schema name
Serializes a set of resource models to a RESTspec IDL file.
java -cp <CLASSPATH> com.linkedin.restli.tools.idlgen.RestLiResourceModelExporterCmdLineApp \
-outdir <outputDirPath> -sourcepath <sourcePath> -resourcepackages <resourcePackages>
- CLASSPATH - 'com.linkedin.pegasus:restli-tools:[CURRENT_VERSION]' artifact and all it's dependencies. Compiled classes within the java packages referred to by 'resourcePackages'
- outputDirPath - Directory in which to output the generated IDL files (default=current working dir)
- sourcePath - Space-delimited list of directories in which to find resource Java source files
- resourcePackages - Space-delimited list of packages to scan for resource classes
Build integration: assembly (creation of jar) should depend on this task. This task depends on compilation of classes within the java packages referred to by 'resourcePackages'.
Copies IDL (.restspec.json) files to client module and check backwards compatibility between pairs of idl (.restspec.json) files. The check result messages are categorized.
java [-Dgenerator.resolver.path=<dataSchemaRelativePath>] -cp CLASSPATH \
com.linkedin.restli.tools.idlcheck.RestLiResourceModelCompatibilityChecker \
[--compat OFF|IGNORE|BACKWARDS|EQUIVALENT] [pairs of <prevRestspecPath currRestspecPath>]
- dataSchemaRelativePath - Path to .pdsc files required by the interface definition (e.g. /src/main/pegasus).
- CLASSPATH - 'com.linkedin.pegasus:restli-tools:[CURRENT_VERSION]' artifact and all it's dependencies.
- prevRestspecPath -
- currRestspecPath -
Build integration: assembly (creation of jar) should depend on this task. If compatibility checker passes, all .restspec.json files should be copied from the server module to the module where client bindings are generated. This task depends on the 'Generate Rest Model IDL' task. A property named 'rest.model.compatibility' should be overridable by the developer (allowing them to set it to 'ignore' or 'backwards') and should default to 'equivalent' if they do not provide it.
Generates Java request builders from Rest.li idl.
java [-Dgenerator.resolver.path=<dataSchemaRelativePath>] \
[-Dgenerator.rest.generate.datatemplates=<true|false>] \
-cp <CLASSPATH> com.linkedin.restli.tools.clientgen.RestRequestBuilderGenerator \
<targetDirectoryPath> [<sourceFileOrDir> ...]
- dataSchemaRelativePath - Path to .pdsc files required by the interface definition.
- generator.rest.generate.datatemplates - false unless task should also generate java data template bindings
- CLASSPATH - 'com.linkedin.pegasus:restli-tools:[CURRENT_VERSION]' artifact and all it's dependencies.
- targetDirectoryPath - path to target root java source directory
- sourceFileOrDir - paths to IDL files or directories
Build integration: Compilation of java source should depend on this task.
To construct these build tasks, it can help to add a utility task that constructs a list of all the source paths used for 'data template generation', 'avro schema generation', 'rest model generation' and 'rest client generation'.
No java class for this. All directories written to by 'data template generation', 'avro schema generation', 'rest model generation' and 'rest client generation' should be deleted.
Build integration: clean task should depend on this
- Dynamic Discovery (D2)
- Data Schema and Templates
-
Rest.li
- Server
- Client
- Projections
- Tools
- FAQs