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semantic-release-react-native

npm version

A Semantic Release plugin for versioning React Native applications.

Step Description
verifyConditions Validate configuration.
prepare Version native iOS and Android files.

Installation

npm install semantic-release-react-native -D

Usage

The plugin can be configured in the Semantic Release configuration file:

{
  "plugins": [
    "@semantic-release/commit-analyzer",
    "semantic-release-react-native",
    [
      "@semantic-release/git",
      {
        "assets": [
          "ios/**/Info.plist",
          "ios/**/*.pbxproj",
          "android/app/build.gradle",
        ],
      },
    ],
  ]
}

The example configuration above will version and git commit your native files.

Configuration

Property Description Default
androidPath Path to your "android/app/build.gradle" file. android/app/build.gradle
iosPath Path to your "ios/" folder. ios
skipBuildNumber Do not increment the build number for either platform. false
skipAndroid Skip Android versioning. false
skipIos Skip iOS versioning. false
iosPackageName Only update iOS projects that have the given name. null
noPrerelease Skip pre-release versions entirely for both platforms. false
versionStrategy Specifies the versioning strategies for each platform (see below). {"android": {"buildNumber": "increment", "preRelease": true}, "ios": {"buildNumber": "strict", "preRelease": true}}

Versioning strategies

By default this plugin will set the vesionName for Android and the CFBundleShortVersionString for iOS to the version defined as the next semantic release.

Setting the vesionCode for Android and the CFBundleVersion for iOS becomes a little more complicated due to differences between how the platforms use these properties.

This plugin uses sensible defaults for each platform. However, these defaults may not work for you if introducing this plugin to a project that was already versioned in an entirely different way, or if you just have a different personal preference. In order to provide suitable flexibility various alternative strategies are available for each platform.

Example (defaults shown)

{
  "plugins": [
    ["semantic-release-react-native", {
      "versionStrategy": {
        "android": { "buildNumber": "increment" },
        "ios": { "buildNumber": "strict" }
      }
    }],
  ]
}

Android

For Android, the versionCode is an integer that must be incremented in some way with every version of the app. The maximum value currently allowed by the Google Play Store is 2100000000. The available strategies for achieving this are described below.

increment

This is the default strategy for this platform.

It auto-increments the current versionCode by one for every release.

relative

Update the versionCode in-line with the next semantic version. For example, v1.25.3 becomes 12503, with each number in the semantic release version converted to two digits and the start of each number padded with zeros as necessary. Any leading zeros are then stripped to avoid Android encoding as an octal number.

The downside to this approach is that it effectively breaks when we hit MINOR or PATCH versions greater than 99. When we get to version v1.100.1, for example, we would have to make a decision about whether or not we allow three digits, in which case this becomes 110001 and will break when we release version 2.0.0 (as 1010001 > 20000). Or we could choose to only allow two digits and strip the last, in which case this will break when we release version v1.101.1 (as in both cases the versionCode would equal 11001).

If you think you are unlikely to have 100 MINOR or PATCH versions then go ahead and use this strategy.

relative-extended

This is similar to the semantic strategy described above, yet with the addition of the minumum API level as the first two digits, followed by a zero. It also faces the same downsides as the semantic strategy.

env

Read versionCode from environment variable ANDROID_BUILD_NUMBER.

none

Disable updates of the versionCode.

iOS

The strategies for iOS are perhaps even more confusing due to the amount of conflicting information out there about what constitutes a technically correct CFBundleVersion, with Apple's own documentation suggesting different restrictions in different places.

The general consensus seems to be that it should be a string comprised of three non-negative, period-separated integers. There also seem to be plenty of projects that have used just a single integer, apparently without issue. However, just because these projects haven't encountered issues it doesn't mean they never will. For example, the documentation states that it may be impossible to restore In App Purchases if the CFBundleVersion does not follow the guidelines for build numbers.

With all that said, the available strategies are described below.

strict

This is the default strategy for this platform.

It aims to comply fully with Apple's CFBundleVersion documentation, which states that the version number should be a string comprised of three non-negative, period-separated integers.

So, it may seem that using the semantic version here would make sense. However, there are additional restrictions applied to this version number in that the second and third digits can only be two digits long. This could be quite restrictive for projects that do not generate a lot of breaking changes (i.e. v1.100.1 would be invalid).

Therefore, in order to allow as many increments as possible during the lifecycle of a project this strategy will auto-increment the CFBundleVersion in the format xxxx.xx.xx, for example:

  • 1000.1.1 > 1000.1.2
  • 1000.1.99 > 1000.2.1
  • 1000.99.99 > 1001.1.1

Note that if your current CFBundleVersion is already greater that 9999 then according to the documentation above it is already invalid, as the documentation also states that the first number can only be four digits long. So, in this case we will just keep incrementing it following the pattern described above and hopefully Apple won't complain!

increment

This strategy behaves the same as the increment strategy for Android.

relative

This strategy behaves the same as the relative strategy for Android.

semantic

Use the semantic version number directly.

env

Use the version from environment variable IOS_BUILD_NUMBER.

none

Disable updates of the CFBundleVersion.

Pre-releases

Pre-release versions present no major challenges for Android, but iOS again gets a little more complicated. We provide a versioning strategy that will work for each platform, or you can choose to ignore pre-releases entirely for a particular platform by setting versionStrategy.<platform>.preRelease to false.

Example (defaults shown)

{
  "plugins": [
    ["semantic-release-react-native", {
      "versionStrategy": {
        "android": { "preRelease": true },
        "ios": { "preRelease": true }
      }
    }],
  ]
}

Android

For Android, it is fine to use pre-release versions such as 1.2.3-beta.1 as the vesionName, so this is what we do.

iOS

For iOS, the CFBundleShortVersionString and CFBundleVersion do not support pre-release versions.

To get around this limitation for pre-releases we generate a patch version by multiplying the current patch by 10,000 and adding the pre-release version. For example, if the current version is 1.1.1 and the next release version is 1.2.2-beta.42 resulting iOS version and build number will be 1.1.20042. This should help avoid clashes that may otherwise happen if you are pushing pre-releases to TestFlight.

Note that this feature only works when using the strict versioning strategy for iOS (which is the default).

Xcode project files

To help accommodate projects that use Xcode to manage their versioning this plugin will update the CURRENT_PROJECT_VERSION in the same way as the CFBundleVersion and the MARKETING_VERSION in the same was as the CFBundleShortVersionString. If these variables are not present in the first place then nothing will be added.

Whether or not you choose to commit these updates is up to you. If you are not actually using these variables in your Info.plist files then they are probably redundant anyway.