/mima

A tool for catching binary incompatibility in Scala

Primary LanguageScalaOtherNOASSERTION

MiMa

MiMa (previously "The Migration Manager for Scala") is a tool for diagnosing binary incompatibilities for Scala libraries.

What it is?

MiMa can report binary modifications that may lead the JVM throwing a java.lang.LinkageError (or one of its subtypes, like AbstractMethodError) at runtime. Linkage errors are usually the consequence of modifications in classes/members signature.

MiMa compares all classfiles of two released libraries and reports all source of incompatibilities that may lead to a linkage error. MiMa provides you, the library maintainer, with a tool that can greatly automates and simplifies the process of ensuring the release-to-release binary compatibility of your libraries.

A key aspect of MiMa to be aware of is that it only looks for syntactic binary incompatibilities. The semantic binary incompatibilities (such as adding or removing a method invocation) are not considered. This is a pragmatic approach as it is up to you, the library maintainer, to make sure that no semantic changes have occurred between two binary compatible releases. If a semantic change occurred, then you should make sure to provide this information as part of the new release's change list.

In addition, it is worth mentioning that binary compatibility does not imply source compatibility, i.e., some of the changes that are considered compatible at the bytecode level may still break a codebase that depends on it. Interestingly, this is not an issue intrinsic to the Scala language. In the Java language binary compatibility does not imply source compatibility as well. MiMa focuses on binary compatibility and currently provides no insight into source compatibility.

Usage

MiMa's sbt plugin supports sbt 1.x only. Use v0.3.0 for sbt 0.13.x.

To use it add the following to your project/plugins.sbt file:

addSbtPlugin("com.typesafe" % "sbt-mima-plugin" % "0.7.0")

Add the following to your build.sbt file:

mimaPreviousArtifacts := Set("com.example" %% "my-library" % "1.2.3")

and run mimaReportBinaryIssues to see something like the following:

[info] Found 4 potential binary incompatibilities
[error]  * method rollbackTransactionResource()resource.Resource in object resource.Resource does not have a   correspondent in new version
[error]  * method now()scala.util.continuations.ControlContext in trait resource.ManagedResourceOperations does not    have a correspondent in old version
[error]  * abstract method now()scala.util.continuations.ControlContext in interface resource.ManagedResource does not have a correspondent in old version
[error]  * method rollbackTransactionResource()resource.Resource in trait resource.MediumPriorityResourceImplicits does not have a correspondent in new version
[error] {file:/home/jsuereth/project/personal/scala-arm/}scala-arm/*:mima-report-binary-issues: Binary compatibility check failed!
[error] Total time: 15 s, completed May 18, 2012 11:32:29 AM

Filtering binary incompatibilities

When MiMa reports a binary incompatibility that you consider acceptable, such as a change in an internal package, you need to use the mimaBinaryIssueFilters setting to filter it out and get mimaReportBinaryIssues to pass, like so:

import com.typesafe.tools.mima.core._

mimaBinaryIssueFilters ++= Seq(
  ProblemFilters.exclude[MissingClassProblem]("com.example.mylibrary.internal.Foo"),
)

You may also use wildcards in the package and/or the top Problem parent type for such situations:

mimaBinaryIssueFilters ++= Seq(
  ProblemFilters.exclude[Problem]("com.example.mylibrary.internal.*"),
)

IncompatibleSignatureProblem

Most MiMa checks (DirectMissingMethod, IncompatibleResultType, IncompatibleMethType, etc) are against the method descriptor, which is the "raw" type signature, without any information about generic parameters.

The IncompatibleSignature check compares the Signature, which includes the full signature including generic parameters. This can catch real incompatibilities, but also sometimes triggers for a change in generics that would not in fact cause problems at run time. Notably, it will warn when updating your project to scala 2.12.9+ or 2.13.1+, see this issue for details.

You can opt-in to this check by setting:

import com.typesafe.tools.mima.plugin.MimaKeys._

ThisBuild / mimaReportSignatureProblems := true

Setting different mimaPreviousArtifacts

From time to time you may need to set mimaPreviousArtifacts according to some conditions. For instance, if you have already ported your project to Scala 2.13 and set it up for cross-building to Scala 2.13, but still haven't cut a release, you may want to define mimaPreviousArtifacts according to the Scala version, with something like:

mimaPreviousArtifacts := {
  if (CrossVersion.partialVersion(scalaVersion.scala) == Some((2, 13))) Set.empty else {
    Set("com.example" %% "my-library" % "1.2.3")
  }
}

or perhaps using some of sbt 1.2's new API:

import sbt.librarymanagement.{ SemanticSelector, VersionNumber }

mimaPreviousArtifacts := {
  if (VersionNumber(scalaVersion.value).matchesSemVer(SemanticSelector(">=2.13"))) Set.empty else {
    Set("com.example" %% "my-library" % "1.2.3")
  }
}

Make mimaReportBinaryIssues not fail

The setting mimaFailOnNoPrevious (introduced in v0.4.0) defaults to true and will make mimaReportBinaryIssues fail if mimaPreviousArtifacts hasn't been set.

To make mimaReportBinaryIssues not fail you may want to do one of the following:

  • set mimaPreviousArtifacts on all the projects that should be checking their binary compatibility
  • avoid calling mimaPreviousArtifacts when binary compatibility checking isn't needed
  • set mimaFailOnNoPrevious := false on specific projects that want to opt-out (alternatively disablePlugins(MimaPlugin))
  • set mimaFailOnNoPrevious in ThisBuild := false, which disables it build-wide, effectively reverting back to the previous behaviour