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Autorelease

com.palantir.consistent-versions Download

A gradle plugin to ensure your dependency versions are consistent across all subprojects, without requiring you to hunt down and force every single conflicting transitive dependency.

Direct dependencies are specified in a top level versions.props file and then the plugin relies on Gradle constraints to figure out sensible versions for all transitive dependencies - finally the whole transitive graph is captured in a compact versions.lock file.

  1. Apply the plugin (root project only):

    plugins {
        id "com.palantir.consistent-versions" version "<current version>"
    }

    You can find the current version under releases.

  2. In one of your build.gradle files, define a versionless dependency on some jar:

    apply plugin: 'java'
    
    dependencies {
        implementation 'com.squareup.okhttp3:okhttp'
    }
  3. Create a versions.props file and provide a version number for the jar you just added:

    com.squareup.okhttp3:okhttp = 3.12.0
    
  4. Run ./gradlew writeVersionsLocks and see your versions.lock file be automatically created. This file should be checked into your repo:

    # Run ./gradlew writeVersionsLocks to regenerate this file
    com.squareup.okhttp3:okhttp:3.12.0 (1 constraints: 38053b3b)
    com.squareup.okio:okio:1.15.0 (1 constraints: 810cbb09)

Contents

  1. Motivation
    1. An evolution of nebula.dependency-recommender
  2. Concepts
    1. versions.props: lower bounds for dependencies
    2. versions.lock: compact representation of your prod classpath
    3. ./gradlew why
    4. ./gradlew checkUnusedConstraints
    5. ./gradlew checkOverbroadConstraints
    6. getVersion
    7. BOMs
    8. Specifying exact versions
    9. Downgrading things
    10. Common workflow: SLF4J
    11. Common workflow: dependencySubstitution
    12. Common workflow: internal test utility projects
    13. Resolving dependencies at configuration time is banned
    14. Known limitation: root project must have a unique name
    15. Scala
  3. Migration
    1. How to make this work with Baseline
    2. dependencyRecommendations.getRecommendedVersion -> getVersion
  4. Technical explanation
    1. Are these vanilla Gradle lockfiles?
    2. Conflict-safe lock files

Motivation

Many languages have arrived at a similar workflow for dependency management: direct dependencies are specified in some top level file and then the build tool figures out a sensible version for all the transitive dependencies. The whole dependency graph is then written out to some lock file. We asked ourselves, why doesn't this exist for Java?

  • JavaScript repos using yarn define dependencies in a package.json and then yarn auto-generates a yarn.lock file.
  • Rust repos using cargo define direct dependencies in a cargo.toml file and have cargo.lock auto-generated.
  • Go repos using dep define dependencies in a Gopkg.toml file and have Gopkg.lock auto-generated.
  • Ruby repos using bundler define dependencies in a Gemfile file and have Gemfile.lock auto-generated.

Specifically this plugin delivers:

  1. one version per library - When you have many Gradle subprojects, it can be frustrating to have lots of different versions of the same library floating around on your classpath. You usually just want one version of Jackson, one version of Guava etc. (failOnVersionConflict() does the job, but it comes with some significant downsides - see below). With gradle-consistent-versions, dependencies across all your subprojects have a sensible version provided.
  2. better visibility into dependency changes - Small changes to your requested dependencies can have cascading effects on your transitive graph. For example, you might find that a minor bump of some library brings in 30 new jars, or affects the versions of your other dependencies. With gradle-consistent-versions, it's easy to spot these changes in your versions.lock.

An evolution of nebula.dependency-recommender

nebula.dependency-recommender pioneered the idea of 'versionless dependencies', where gradle files just declare dependencies using compile "group:name" and then versions are declared separately (e.g. in a versions.props file). Using failOnVersionConflict() and nebula.dependency-recommender's OverrideTransitives ensures there's only one version of each jar on the classpath.

nebula.dependency-recommender forces all your dependencies, which overrides all version information that libraries themselves provide.

Unfortunately, failOnVersionConflict means developers often pick conflict resolution versions out of thin air, without knowledge of the actual requested ranges. This is dangerous because users may unwittingly pick versions that actually violate dependency constraints and may break at runtime, resulting in runtime errors suchs as ClassNotFoundException, NoSuchMethodException etc

Concepts

versions.props: lower bounds for dependencies

Specify versions for your direct dependencies in a single root-level versions.props file. Think of these versions as the minimum versions your project requires.

com.fasterxml.jackson.*:jackson-* = 2.9.6
com.google.guava:guava = 21.0
com.squareup.okhttp3:okhttp = 3.12.0
junit:junit = 4.12
org.assertj:* = 3.10.0

The * notation ensures that every matching jar will have the same version - they will be aligned1 using a virtual platform.

Note that this does not force okhttp to exactly 3.12.0, it just declares that your project requires at least 3.12.0. If something else in your transitive graph needs a newer version, Gradle will happily select this. See below for how to downgrade something if you really know what you're doing.

[1]: If multiple lines from versions.props match a particular jar, the most specific one will be chosen (the one with the most characters being different from *). This has the side effect that a line referring specifically to a jar is independent, and that jar's version never gets aligned to the versions of other jars, even if there are other lines containing * which would otherwise match that jar.

versions.lock: compact representation of your prod classpath

When you run ./gradlew --write-locks, the plugin will automatically write a new file: versions.lock which contains a version for every single one of your transitive dependencies.

Notably, this lockfile is a compact representation of your dependency graph as it just has one line per dependency (unlike nebula lock files which spanned thousands of lines).

javax.annotation:javax.annotation-api:1.4.0 (3 constraints: 1a310f90)
javax.inject:javax.inject:1 (2 constraints: d614a0ab)
javax.servlet:javax.servlet-api:3.1.0 (1 constraints: 830dcc28)
javax.validation:validation-api:1.1.0.Final (3 constraints: dc393f20)
javax.ws.rs:javax.ws.rs-api:2.0.1 (8 constraints: 7e9ce067)

[Test dependencies]
cglib:cglib-nodep:3.1 (1 constraints: 2a0e1330)
com.github.zafarkhaja:java-semver:0.9.0 (1 constraints: c315c0d2)
com.jayway.awaitility:awaitility:1.6.5 (1 constraints: c615c1d2)

The lockfile sources production dependencies from the compileClasspath and runtimeClasspath configurations, and test dependencies from the compile/runtime classpaths of any source set named jmh or whose name ends in "test" (e.g. test, integrationTest, eteTest).

There is a verifyLocks task (automatically run as part of check) that will ensure versions.lock is still consistent with the current dependencies.

./gradlew why

To understand why a particular version in your lockfile has been chosen, run ./gradlew why --dependency <dependency> to expand the constraints:

> Task :why
com.fasterxml.jackson.core:jackson-databind:2.9.8
        com.fasterxml.jackson.module:jackson-module-jaxb-annotations -> 2.9.8
        com.netflix.feign:feign-jackson -> 2.6.4
        com.palantir.config.crypto:encrypted-config-value -> 2.6.1
        com.palantir.config.crypto:encrypted-config-value-module -> 2.6.1

This is effectively just a more concise version of dependencyInsight:

./gradlew  dependencyInsight --configuration unifiedClasspath --dependency jackson-databind

./gradlew checkUnusedConstraints

checkUnusedConstraints prevents unnecessary constraints from accruing in your versions.props file. Run ./gradlew checkUnusedConstraints --fix to automatically remove any unused constraints from your props file.

./gradlew checkOverbroadConstraints

checkOverbroadConstraints prevents over-broad constants/versions.props pins. Run ./gradlew checkOverbroadConstraints --fix to automatically add the necessary constrains to your props file.

Over-broad constraints are often caused by having a * entry in version.props (or generally a constraint) which is "over-broad" - which is applying to more dependencies than it should.

For example, given this versions.props:

org.junit.*:* = 5.10.2

And in versions.lock you see you have these two dependencies:

org.junit.jupiter:junit-jupiter:5.10.2
org.junit.platform:junit-platform-commons:1.10.2

Since 5.10.2 > 1.10.2, whenever Gradle tries to resolve org.junit.platform:junit-platform-commons, it first tries version 5.10.2 thanks to the versions.props pin. This returns a 404, and it falls back to trying the next constraint 1.10.2, which works.

However, that 404 can be very expensive. In particular, if you are hitting an Artifactory virtual repository, which is backed by many upstream Maven repositories, Artifactory will try each of these upstreams serially until it gets a 200. This can take many seconds. You can see this by appending ?trace to the Artifactory url.

The solution is break up the over-broad versions prop into non-overlapping pieces:

org.junit.jupiter:* = 5.10.2
org.junit.platform:* = 1.10.2

getVersion

If you want to use the resolved version of some dependency elsewhere in your Gradle files, gradle-consistent-versions offers the getVersion(group, name, [configuration]) convenience function. For example:

task demo {
    doLast {
        println "We chose guava " + getVersion('com.google.guava', 'guava')
    }
}

This function may not be invoked at Gradle Configuration time as it involves resolving dependencies. Put it inside a closure or provider to ensure it is only invoked at Execution time.

By default, this function resolve the unifiedClasspath configuration to supply a version, but you can always supply a different configuration if you want to:

task printSparkVersion {
    doLast {
        println "Using spark version: " + getVersion('org.apache.spark', 'spark-sql_2.11', configurations.spark)
    }
}

BOMs

Gradle has first-class support for sourcing version constraints from published BOMs so they work fine with gradle-consistent-versions:

allprojects {
    apply plugin: 'java-base'
    dependencies {
        rootConfiguration platform('com.foo.bar:your-bom')
    }
}

Make sure you apply BOMs within an allprojects closure, as gradle-consistent-versions must be able to unify constraints from all subprojects.

Note: java-base is necessary, even on projects that don't have java source code, otherwise gradle will silently interpret the platform(...) dependency as if it was a normal library dependency, and will not import the constraints from that BOM.

Specifying exact versions

The preferred way to control your dependency graph is using dependency constraints on gradle-consistent-versions' rootConfiguration. For example:

dependencies {
    constraints {
        rootConfiguration 'org.conscrypt:conscrypt-openjdk-uber', {
            version { strictly '1.4.1' }
            because '1.4.2 requires newer glibc than available on Centos6'
        }

        rootConfiguration 'io.dropwizard.metrics:metrics-core', {
            version { strictly '[3, 4[' }
            because "Spark still uses 3.X, which can't co-exist with 4.X"
        }
    }
}

Gradle will fail if something in your dependency graph is unable to satisfy these strictly constraints. This is desirable because nothing is forced in your transitive graph.

Downgrading things

If you discover a bug in some library on your classpath, the recommended approach is to use dependencyInsight to figure out why that version is on your classpath in the first place and then downgrade things until that library is no longer brought in. Once the dependency is gone, you can specify a rootConfiguration constraint to make sure it doesn't come back (see above).

./gradlew dependencyInsight --configuration unifiedClasspath --dependency retrofit

Occasionally however, downgrading things like this is not feasible and you just want to force a particular transitive dependency. This is dangerous because something in your transitive graph clearly compiled against this library and might be relying on methods only present in the newer version, so forcing down may result in NoSuchMethodErrors at runtime on certain codepaths.

allprojects {
    configurations.all {
        resolutionStrategy {
            force 'com.squareup.retrofit2:retrofit:2.4.0'
        }
    }
}

Common workflow: SLF4J

Developers usually want just one SLF4J implementation on the classpath. If some of your dependencies rely on their own logging implementations (e.g. commons-logging or log4j), you can use the following snippet to ensure that all logging will go through SLF4J.

allprojects {
    dependencies {
        modules {
            module('commons-logging:commons-logging') {
                replacedBy('org.slf4j:jcl-over-slf4j', 'slf4j allows us supply our own implementation')
            }
            module('log4j:log4j') {
                replacedBy('org.slf4j:log4j-over-slf4j', 'slf4j allows us supply our own implementation')
            }
        }
    }
}

Common workflow: dependencySubstitution

We've seen the following error when using dependencySubstitution:

> Could not find method module() for arguments [org.glassfish.hk2.external:javax.inject] on configuration ':my-project:subprojectUnifiedClasspathCopy' of type org.gradle.api.internal.artifacts.configurations.DefaultConfiguration.

Adding explicit it calls works around this error:

 configurations.configureEach {
     resolutionStrategy.dependencySubstitution {
-        substitute module('org.glassfish.hk2.external:javax.inject') with module('javax.inject:javax.inject:1')
+        it.substitute it.module('org.glassfish.hk2.external:javax.inject') with it.module('javax.inject:javax.inject:1')
     }
 }

Common workflow: internal test utility projects

Sometimes, devs have multiple test projects (unit tests, integration tests) that use a subset of common test classes.

* :foo
   \--- source set 'test'
         \--- :foo-test-common
* :foo-integration
   \--- source set 'integrationTest'
         \--- :foo-test-common
* :foo-test-common
   \--- source set 'main'

In this case, we'd like to prevent GCV from locking :foo-test-common's main source set to production dependencies, and instead treat the entire project as test dependencies. We can do this via the following snippet:

# foo-test-common/build.gradle
apply plugin: 'java'

versionsLock {
    testProject()
}

Resolving dependencies at configuration time is banned

In order for this plugin to function, we must be able to guarantee that no dependencies are resolved at configuration time. Gradle already recommends this but gradle-consistent-versions enforces it.

In many cases, it's just a matter of using a closure or a provider, for example:

 task copySomething(type: Copy) {
-    from configurations.spark.singleFile // ๐ŸŒถ๐ŸŒถ๐ŸŒถ this downloads spark at configuration time, slowing down every `./gradlew` invocation!
+    from { configurations.spark.singleFile }
     into "$buildDir/foo/bar"
 }

Known limitation: root project must have a unique name

Due to an implementation detail of this plugin, we require settings.gradle to declare a rootProject.name which is unique.

+rootProject.name = 'tracing-root'
-rootProject.name = 'tracing'

 include 'tracing'
 include 'tracing-api'
 include 'tracing-jaxrs'
 include 'tracing-okhttp3'
 include 'tracing-jersey'
 include 'tracing-servlet'
 include 'tracing-undertow'

Scala

By default, this plugin will apply the constraints from versions.props to all configurations. To exclude a configuration from receiving the constraints, you can add it to excludeConfigurations, configurable through the versionRecommendations extension (in the root project):

versionRecommendations {
    excludeConfigurations 'zinc'
}

Migration

Using a combination of automation and some elbow grease, we've migrated ~150 projects from nebula.dependency-recommender to com.palantir.consistent-version:

 plugins {
+    id 'com.palantir.consistent-versions' version '<current version>'
 }

 allprojects {
     dependencies {
+        rootConfiguration platform('com.palantir.witchcraft:witchcraft-core-bom')
     }

-    dependencyRecommendations {
-        mavenBom module: 'com.palantir.witchcraft:witchcraft-core-bom'
-    }

-    configurations.all {
-        resolutionStrategy {
-            failOnVersionConflict()
-        }
-    }
 }

You can also likely delete the 'conflict resolution' section of your versions.props.

How to make this work with Baseline

GCV will just work out of the box with Baseline 3.0.0 and newer.

If still using Baseline 2.x, then you'll need to disable its own versions plugin which conflicts with GCV:

Add the following to your gradle.properties fully turn off nebula.dependency-recommender (only necessary if you use com.palantir.baseline):

 org.gradle.parallel=true
+com.palantir.baseline-versions.disable=true

dependencyRecommendations.getRecommendedVersion -> getVersion

If you rely on this Nebula function, then gradle-consistent-versions has a similar alternative:

-println dependencyRecommendations.getRecommendedVersion('com.google.guava:guava')
+println getVersion('com.google.guava:guava')

Note that you can't invoke this function at configuration time (e.g. in the body of a task declaration), because the plugin needs to resolve dependencies to return the answer and Gradle strongly discourages resolving dependencies at configuration time.

Alternatives:

  • if you rely on this function for sls-packaging productDependencies, use detectConstraints = true or upgrade to 3.X
  • if you rely on this function to configure the from or to parameters of a Copy task, use a closure or move the whole thing into a doLast block.
 task copySomething(type: Copy) {
-    from "$buildDir/foo/bar-${dependencyRecommendations.getRecommendedVersion('group', 'bar')}"
+    from { "$buildDir/foo/bar-${getVersion('group:bar')}" }
     ...

Technical explanation

Are these vanilla Gradle lockfiles?

No. We tried Gradle 4.8's first-class lockfiles, but found a critical usability problem: it allowed semantic merge conflicts. For example:

  • Two PRs might change apparently unrelated dependencies - both changing different lines of gradle's gradle/dependency-locks/x.lockfile
  • One PR merges first, so develop has a few lockfile lines updated
  • Second PR has no git conflicts with develop, so it merges
  • Develop is now broken due to a semantic merge conflict in the gradle lockfile!

Concrete example:

  • PR1
    • before PR: com.palantir.spark.files:file-relation required jaxrs-clients 3.45.0
    • after PR: com.palantir.spark.files:file-relation doesn't pull in jaxrs-clients at all
    • unchanged: com.palantir.witchcraft:witchcraft-core required jaxrs-clients 3.43.0
    • result is: gradle's lockfile therefore picked jaxrs-clients 3.43.0
  • PR2
    • before PR: com.palantir.witchcraft:witchcraft-core required remoting 3.43.0
    • after PR: com.palantir.witchcraft:witchcraft-core required remoting 3.45.0
    • result is: gradle's lockfile line for jaxrs-clients was unchanged (still 3.45.0)

The badness arises when:

  1. user merges PR1 onto develop
  2. PR2 has no conflicts because it didn't change the jaxrs-clients 3.45.0 line that PR1 downgraded to 3.43.0.
  3. user merges PR2 onto develop
  4. develop is now broken, because PR2 required jaxrs-clients 3.45.0 but PR1 had downgraded it on develop to 3.43.0 and git didn't detect this conflict! (This is a semantic merge conflict)

Our format avoids this problem by adding some redundant information about the dependency graph so that changes like these will result in pre-merge git conflicts instead of post-merge semantic conflicts.

Conflict-safe lock files

Our format extends gradle's lockfiles format by writing down who wanted each component (com.google.guava:guava) and which version they requestedm, e.g.

com.google.guava:guava:18.0 (2 constraints 4a440103)

The hash, 4a440103, is derived from Guava's dependents:

com.fasterxml.jackson.datatype:jackson-datatype-guava -> 18.0
com.github.rholder:guava-retrying -> [10.+,)

This ensures that if two PRs affect the set of constraints on guava they will result in a git conflict, which prevents the semantic merge conflicts described above and ensures develop won't break:

com.google.guava:guava:10.0 (1 constraints: 50295fc1)

The hash from one side of the merge confict (f59715c4) came from adding a tracing dependent:

 com.fasterxml.jackson.datatype:jackson-datatype-guava -> 18.0
+com.palantir.tracing:tracing -> 16.0
 com.github.rholder:guava-retrying -> [10.+,)

While the other hash 50295fc1, is derived by deleting jackson, leaving just a single dependent:

-com.fasterxml.jackson.datatype:jackson-datatype-guava -> 18.0
 com.github.rholder:guava-retrying -> [10.+,)

With vanilla Gradle 4.8 lockfiles, this scenario would have merged but then failed on develop due to an inconsistent lockfile.

Comparison to nebula dependency lock plugin

Internally, a few projects started using Nebula's Gradle Dependency Lock Plugin but eventually abandoned it because it introduced too much dev friction. Key problems:

  • PR diffs could be thousands and thousands of lines for small changes
  • Contributors often updated versions.props but forgot to update the lockfiles, leading them to think they'd picked up a new version when they actually hadn't!

Both of these problems are solved by this plugin because the new gradle lock files are extremely compact (one line per dependency) and they can never get out of date because gradle validates their correctness every time you resolve the unifiedClasspath configuration.