The tool allows dumping binary API of a JVM part of a Kotlin library that is public in the sense of Kotlin visibilities and ensures that the public binary API wasn't changed in a way that makes this change binary incompatible.
Note
This fork adds additional regex filtering support, simplifying the setup. The aim for this fork is only to exist until the original project adds this feature. See Kotlin#121 for more details.
All credits goes to the official project located at: https://github.com/Kotlin/binary-compatibility-validator
- Requirements
- Setup
- What constitutes the public API
- What makes an incompatible change to the public binary API
- Building locally
Binary compatibility validator plugin requires Gradle 6.1.1
or newer.
Kotlin version 1.6.20
or newer.
Binary compatibility validator is a Gradle plugin that can be added to your build in the following way:
- in
build.gradle.kts
plugins {
id("com.mikepenz.kotlinx.binary-compatibility-validator") version "0.16.3"
}
- in
build.gradle
plugins {
id 'com.mikepenz.kotlinx.binary-compatibility-validator' version '0.16.3'
}
It is enough to apply the plugin only to the root project build file; all sub-projects will be configured automatically.
The plugin provides two tasks:
apiDump
— builds the project and dumps its public API in projectapi
subfolder. API is dumped in a human-readable format. If API dump already exists, it will be overwritten.apiCheck
— builds the project and checks that project's public API is the same as golden value in projectapi
subfolder. This task is automatically inserted intocheck
pipeline, so bothbuild
andcheck
tasks will start checking public API upon their execution.
For projects with multiple JVM targets, multiple subfolders will be created, e.g.
api/jvm
andapi/android
Binary compatibility validator can be additionally configured with the following DSL:
Groovy
apiValidation {
/**
* Packages that are excluded from public API dumps even if they
* contain public API.
*/
ignoredPackages += ["kotlinx.coroutines.internal"]
/**
* Sub-projects that are excluded from API validation
*/
ignoredProjects += ["benchmarks", "examples"]
/**
* Classes (fully qualified) that are excluded from public API dumps even if they
* contain public API.
*/
ignoredClasses += ["com.company.BuildConfig"]
/**
* Defines a regex pattern used to define classes and packages that are ignored by the API check.
*/
ignored += [".+\\/internal\\/.+"]
/**
* Set of annotations that exclude API from being public.
* Typically, it is all kinds of `@InternalApi` annotations that mark
* effectively private API that cannot be actually private for technical reasons.
*/
nonPublicMarkers += ["my.package.MyInternalApiAnnotation"]
/**
* Flag to programmatically disable compatibility validator
*/
validationDisabled = true
/**
* A path to a subdirectory inside the project root directory where dumps should be stored.
*/
apiDumpDirectory = "api"
}
Kotlin
apiValidation {
/**
* Packages that are excluded from public API dumps even if they
* contain public API.
*/
ignoredPackages.add("kotlinx.coroutines.internal")
/**
* Sub-projects that are excluded from API validation
*/
ignoredProjects.addAll(listOf("benchmarks", "examples"))
/**
* Classes (fully qualified) that are excluded from public API dumps even if they
* contain public API.
*/
ignoredClasses.add("com.company.BuildConfig")
/**
* Defines a regex pattern used to define classes and packages that are ignored by the API check.
*/
ignored.add(".+\\/internal\\/.+")
/**
* Set of annotations that exclude API from being public.
* Typically, it is all kinds of `@InternalApi` annotations that mark
* effectively private API that cannot be actually private for technical reasons.
*/
nonPublicMarkers.add("my.package.MyInternalApiAnnotation")
/**
* Flag to programmatically disable compatibility validator
*/
validationDisabled = false
/**
* A path to a subdirectory inside the project root directory where dumps should be stored.
*/
apiDumpDirectory = "aux/validation"
}
By default, binary compatibility validator analyzes project output class files from build/classes
directory when building an API dump.
If you pack these classes into an output jar not in a regular way, for example, by excluding certain classes, applying shadow
plugin, and so on,
the API dump built from the original class files may no longer reflect the resulting jar contents accurately.
In that case, it makes sense to use the resulting jar as an input of the apiBuild
task:
Kotlin
tasks {
apiBuild {
// "jar" here is the name of the default Jar task producing the resulting jar file
// in a multiplatform project it can be named "jvmJar"
// if you applied the shadow plugin, it creates the "shadowJar" task that produces the transformed jar
inputJar.value(jar.flatMap { it.archiveFile })
}
}
When starting to validate your library public API, we recommend the following workflow:
-
Preparation phase (one-time action):
- As the first step, apply the plugin, configure it and execute
apiDump
. - Validate your public API manually.
- Commit
.api
files to your VCS. - At this moment, default
check
task will validate public API along with test run and will fail the build if API differs.
- As the first step, apply the plugin, configure it and execute
-
Regular workflow
- When doing code changes that do not imply any changes in public API, no additional
actions should be performed.
check
task on your CI will validate everything. - When doing code changes that imply changes in public API, whether it is a new API or
adjustments in existing one,
check
task will start to fail.apiDump
should be executed manually, the resulting diff in.api
file should be verified: only signatures you expected to change should be changed. - Commit the resulting
.api
diff along with code changes.
- When doing code changes that do not imply any changes in public API, no additional
actions should be performed.
The KLib validation support is experimental and is a subject to change (applies to both an API and the ABI dump format). A project has to use Kotlin 1.9.20 or newer to use this feature.
To validate public ABI of a Kotlin library (KLib) corresponding option should be enabled explicitly:
apiValidation {
@OptIn(kotlinx.validation.ExperimentalBCVApi::class)
klib {
enabled = true
}
}
When enabled, KLib support adds additional dependencies to existing apiDump
and apiCheck
tasks.
Generate KLib ABI dumps are places alongside JVM dumps (in api
subfolder, by default)
in files named <project name>.klib.api
.
The dump file combines all dumps generated for individual targets with declarations specific to some targets being
annotated with corresponding target names.
During the validation phase, that file is compared to the dump extracted from the latest version of the library,
and any differences between these two files are reported as errors.
Currently, all options described in Optional parameters section are supported for klibs too.
The only caveat here is that all class names should be specified in the JVM-format,
like package.name.ClassName$SubclassName
.
Please refer to a design document for details on the format and rationale behind the current implementation.
Currently, compilation to Apple-specific targets (like iosArm64
or watchosX86
) supported only on Apple hosts.
To ease the development on Windows and Linux hosts, binary compatibility validator does not validate ABI for targets
not supported on the current host, even if .klib.api
file contains declarations for these targets.
This behavior could be altered to force an error when klibs for some targets could not be compiled:
apiValidation {
@OptIn(kotlinx.validation.ExperimentalBCVApi::class)
klib {
enabled = true
// treat a target being unsupported on a host as an error
strictValidation = true
}
}
When it comes to dump generation (apiDump
task) on non-Apple hosts, binary compatibility validator attempts
to infer an ABI from dumps generated for supported targets and an old dump from project's api
folder (if any).
Inferred dump may not match an actual dump,
and it is recommended to update a dump on hosts supporting all required targets, if possible.
A class is considered to be effectively public if all the following conditions are met:
- it has public or protected JVM access (
ACC_PUBLIC
orACC_PROTECTED
) - it has one of the following visibilities in Kotlin:
- no visibility (means no Kotlin declaration corresponds to this compiled class)
- public
- protected
- internal, only in case if the class is annotated with
PublishedApi
- it isn't a local class
- it isn't a synthetic class with mappings for
when
tableswitches ($WhenMappings
) - it contains at least one effectively public member, in case if the class corresponds to a kotlin file with top-level members or a multifile facade
- in case if the class is a member in another class, it is contained in the effectively public class
- in case if the class is a protected member in another class, it is contained in the non-final class
A member of the class (i.e. a field or a method) is considered to be effectively public if all the following conditions are met:
-
it has public or protected JVM access (
ACC_PUBLIC
orACC_PROTECTED
) -
it has one of the following visibilities in Kotlin:
- no visibility (means no Kotlin declaration corresponds to this class member)
- public
- protected
- internal, only in case if the class is annotated with
PublishedApi
Note that Kotlin visibility of a field exposed by
lateinit
property is the visibility of its setter. -
in case if the member is protected, it is contained in non-final class
-
it isn't a synthetic access method for a private field
For a class a binary incompatible change is:
- changing the full class name (including package and containing classes)
- changing the superclass, so that the class no longer has the previous superclass in the inheritance chain
- changing the set of implemented interfaces so that the class no longer implements interfaces it had implemented before
- changing one of the following access flags:
ACC_PUBLIC
,ACC_PROTECTED
,ACC_PRIVATE
— lessening the class visibilityACC_FINAL
— making non-final class finalACC_ABSTRACT
— making non-abstract class abstractACC_INTERFACE
— changing class to interface and vice versaACC_ANNOTATION
— changing annotation to interface and vice versa
For a class member a binary incompatible change is:
- changing its name
- changing its descriptor (erased return type and parameter types for methods); this includes changing field to method and vice versa
- changing one of the following access flags:
ACC_PUBLIC
,ACC_PROTECTED
,ACC_PRIVATE
— lessening the member visibilityACC_FINAL
— making non-final field or method finalACC_ABSTRACT
— making non-abstract method abstractACC_STATIC
— changing instance member to static and vice versa
In order to build and run tests in the project in IDE, two prerequisites are required:
- Java 11 or above in order to use the latest ASM
- All build actions in the IDE should be delegated to Gradle
Read the Contributing Guidelines.