Building from source using Cerbero

If you just want to use GStreamer, please visit the download page. We provide pre-built binaries for Windows, macOS, Android, and iOS.

Cerbero is a cross-platform build aggregator for Open Source projects that builds and creates native packages for different platforms, architectures and distributions. It supports both native compilation and cross compilation and can run on macOS, Linux, and Windows.

You should use Cerbero to build GStreamer if you:

1. Want to do GStreamer development for Android, iOS, or UWP, or
2. Have to build GStreamer packages for distribution or deployment, or
3. Need plugins with external dependencies without Meson ports

However, if you are a developer who wants to work on the GStreamer code itself on Linux, Windows, or macOS, it is much more convenient to use gst-build. Please refer to Building using Meson.

Minimum Requirements

Cerbero provides bootstrapping facilities for all platforms, but it still needs a minimum base to bootstrap on top of.

Linux Setup

On Linux, you will only need a distribution with python >= 3.6. Cerbero will use your package manager to install all other required packages during bootstrap.

macOS Setup

On macOS we use the Python 3 that ships with Xcode, so you only need to install Xcode Command Line Tools.

Cerbero will build all other required packages during bootstrap. You do not need anything from Homebrew or MacPorts, and in fact having too many packages installed in either of those can cause problems.

Windows Setup

The initial setup on Windows is automated with an in-tree PowerShell script. It will auto-detect and installs the necessary tools with Chocolatey:

• Visual Studio 2019 or newer Build Tools
• CMake
• MSYS2
• Git
• Python 3.11 or newer
• WiX 5.0.1 or higher

Start an admin PowerShell and run:

# Enable running scripts
$ Set-ExecutionPolicy -ExecutionPolicy Unrestricted

# Run the bootstrap script
$ .\tools\bootstrap-windows.ps1

You may specify the Visual Studio version to install by passing the -VSVersion parameter with either 2019 or 2022. If not specified, you will be prompted to choose one during the bootstrap process.

# Run the bootstrap script specifying Visual Studio 2022
$ .\tools\bootstrap-windows.ps1 -VSVersion '2022'

IMPORTANT: Using cerbero on Windows with the GCC/MinGW toolchain requires a 64-bit operating system. The toolchain is only available for 64-bit and it can produce 32-bit or 64-bit binaries.

Important Windows-specific Notes

• You should add the cerbero git directory to the list of excluded folders in your anti-virus, or you will get random build failures when Autotools does file operations such as renames and deletions. It will also slow your build by about 3-4x.

• If you are using Windows 10, it is also highly recommended to enable "Developer Mode" in Windows Settings as shown below.

  

Download the sources

To build GStreamer using Cerbero, you first need to download Cerbero:

$ git clone https://gitlab.freedesktop.org/gstreamer/cerbero

This will build the latest unreleased GStreamer code.

Despite the presence of setup.py this tool does not need installation. It is invoked via the cerbero-uninstalled script, which should be invoked as ./cerbero-uninstalled, or you can create an alias to it in your .bashrc file.

You can build a specific release by checking out that tag, for example git checkout 1.18.4. Building a release tag will cause Cerbero to use the release tarballs instead of git repositories when fetching gstreamer recipes for building.

You can also build the latest unreleased 'stable branch' code, for instance for 1.18 you'd do: git checkout 1.18, or git clone -b 1.18 [...], which will fetch the corresponding stable branches when building gstreamer recipes.

You can also use git worktrees, which may be more convenient when building several different versions of gstreamer since the build artefacts always go into the build directory inside the git repository.

Running Cerbero

Despite the presence of setup.py this tool does not need installation. It is invoked via the cerbero-uninstalled script, which should be invoked as ./cerbero-uninstalled, or you can add the cerbero directory in your path and invoke it as cerbero-uninstalled.

On Windows, Cerbero supports running from CMD.EXE, Powershell, or an MSYS2 UCRT64 shell.

Bootstrap to setup environment

Before using cerbero for the first time, you will need to run the bootstrap command. This command installs the missing parts of the build system using the packages manager when available, and also downloads the necessary toolchains when building for Windows/MinGW or Android.

Note that this will take a while (a couple hours or even more on Windows).

$ ./cerbero-uninstalled bootstrap

On Linux and macOS, this will use sudo to make changes to the system.

The bootstrap process will then install or build all packages required to build GStreamer.

Build GStreamer

To generate GStreamer binaries, use the following command:

$ ./cerbero-uninstalled package gstreamer-1.0

This will fetch and build all required GStreamer components and create packages for your distribution, then place them in the Cerbero source directory.

A list of supported packages to build can be retrieved using:

$ ./cerbero-uninstalled list-packages

Packages are composed of 0 (in case of a meta package) or more components that can be built separately if desired. The components are defined as individual recipes and can be listed with:

$ ./cerbero-uninstalled list

To build an individual recipe and its dependencies, do the following:

$ ./cerbero-uninstalled build <recipe_name>

Or to build or force a rebuild of a recipe without building its dependencies use:

$ ./cerbero-uninstalled buildone <recipe_name>

To wipe everything and start from scratch:

$ ./cerbero-uninstalled wipe

Once built, the binaries built by all the recipes will be installed inside a auto-detected prefix inside the build directory in the Cerbero source tree.

Cross Compilation

If you're using Cerbero to cross-compile to iOS, Android, Cross-MinGW, or UWP, you must select the appropriate config file and pass it to all steps: bootstrap, build, package, etc.

For example if you're on Linux and you want to build for Android Universal, you must run:

# Bootstrap for Android Universal on Linux
$ ./cerbero-uninstalled -c config/cross-android-universal.cbc bootstrap

# Build everything and package for Android Universal
$ ./cerbero-uninstalled -c config/cross-android-universal.cbc package gstreamer-1.0

Here's a list of config files for each target machine:

Linux Targets

Target	Config file
MinGW 32-bit	cross-win32.cbc
MinGW 64-bit	cross-win64.cbc
Android Universal	cross-android-universal.cbc
Android ARM64	cross-android-arm64.cbc
Android ARMv7	cross-android-armv7.cbc
Android x86	cross-android-x86.cbc
Android x86_64	cross-android-x86-64.cbc

macOS Targets

Target	Config file
macOS System Framework	osx-x86-64.cbc
iOS Universal	cross-ios-universal.cbc
iOS ARM64	cross-ios-arm64.cbc
iOS ARMv7	cross-ios-armv7.cbc
iOS x86	cross-ios-x86.cbc
iOS x86_64	cross-ios-x86-64.cbc

Windows Targets

On Windows, config files are used to select the architecture and variants are used to select the toolchain (MinGW, MSVC, UWP):

Target | Config file | Variant :---------------|:--------------------------|:------- MSVC x86 | win32.cbc | MSVC x86_64 | win64.cbc | MinGW x86 | win32.cbc | mingw MinGW x86_64 | win64.cbc | mingw UWP x86 | win32.cbc | uwp UWP x86_64 | win64.cbc | uwp UWP ARM64 | cross-win-arm64.cbc | uwp UWP Universal | cross-uwp-universal.cbc | (implicitly uwp)

Example usage:

# Target MSVC 64-bit
$ ./cerbero-uninstalled -c config/win64.cbc package gstreamer-1.0

# Target MinGW 32-bit
$ ./cerbero-uninstalled -c config/win32.cbc -v mingw package gstreamer-1.0

# Target UWP, x86_64
$ ./cerbero-uninstalled -c config/win64.cbc -v uwp package gstreamer-1.0

# Target UWP, Cross ARM64
$ ./cerbero-uninstalled -c config/cross-win-arm64.cbc -v uwp package gstreamer-1.0

# Target UWP, All Supported Arches
$ ./cerbero-uninstalled -c config/cross-uwp-universal.cbc package gstreamer-1.0

Tips for CI setup

Cerbero can split its bootstrap and package commands into stages which can be useful for CI setups. For example, you might want to do any system setup (such as installing packages) and also fetch all sources to cache them when building your CI image:

$ ./cerbero-uninstalled fetch-bootstrap
$ ./cerbero-uninstalled fetch-package gstreamer-1.0
# This will use "sudo"
$ ./cerbero-uninstalled bootstrap --system=yes --toolchains=no --build-tools=no --offline

Then inside your CI job, you will not need root for the remaining steps:

$ ./cerbero-uninstalled bootstrap --system=no --toolchains=yes --build-tools=yes --offline
# When building a non-tagged commit, this will update the git repos for all gstreamer recipes
$ ./cerbero-uninstalled fetch-package gstreamer-1.0
$ ./cerbero-uninstalled package gstreamer-1.0 --offline

For more inspiration, see GStreamer's GitLab CI setup.

Artifact Types

Starting with the 1.28 release, Cerbero supports outputting various kinds of artifact types:

• Tarballs
  • Default for Android and Linux, available for all targets
  • Prior to 1.28, this could be selected with the -t/--tarball option
• Windows Installer Packages
  • Default for, and only available for Windows and cross-Windows targets
• macOS Installer Packages
  • Default for, and only available for macOS and iOS targets
• Python 3 Wheels
  • Available for macOS and Windows
  • The minimum supported Python version for the wheel will be whatever Python version you build the wheel with. The oldest supported by Cerbero is 3.9.

The artifact to output can be controlled with the --artifact option. Valid choices are: tarball msi pkg wheel.

Enabling Optional Features with Variants

Cerbero controls optional and platform-specific features with variants. You can see a full list of available variants by running:

$ ./cerbero-uninstalled --list-variants

Some variants are enabled by default while others are not. You can enable a particular variant by doing one of the following:

• Either invoke cerbero-uninstalled with the -v argument, for example:

$ ./cerbero-uninstalled -v variantname [-c ...] package gstreamer-1.0

• Or, edit ~/.cerbero/cerbero.cbc and add variants = ['variantname'] at the bottom. Create the file if it doesn't exist.

Multiple variants can either be separated by a comma or with multiple -v arguments, for example the following are equivalent:

$ ./cerbero-uninstalled -v variantname1,variantname2 [-c ...] package gstreamer-1.0
$ ./cerbero-uninstalled -v variantname1 -v variantname2 [-c ...] package gstreamer-1.0

To explicitly disable a variant, use novariantname instead, e.g. -v norust to disable Rust support and building of the Rust plugins.

In the case of multiple enabling/disable of the same variant, then the last condition on the command line will take effect. e.g. if novariantname is last then variantname is disabled.

Enabling Qt5 or Qt6 Support

Starting with version 1.15.2, Cerbero has built-in support for building the Qt5 QML GStreamer plugin. You can toggle that on by enabling the qt5 variant.

You must also tell Cerbero where your Qt5 installation prefix is. You can do it by setting the QMAKE environment variable to point to the qmake that you want to use, f.ex. /path/to/Qt5.12.0/5.12.0/ios/bin/qmake

When building for Android Universal with Qt < 5.14, instead of QMAKE, you must set the QT5_PREFIX environment variable pointed to the directory inside your prefix which contains all the android targets, f.ex. /path/to/Qt5.12.0/5.12.0.

Next, run package:

$ export QMAKE='/path/to/Qt5.12.0/5.12.0/<target>/bin/qmake'
$ ./cerbero-uninstalled -v qt5 [-c ...] package gstreamer-1.0

This will try to build the Qt5 QML plugin and error out if Qt5 could not be found or if the plugin could not be built. The plugin will be automatically added to the package outputted.

Similarly, if you set QMAKE6 and enable the qt6 variant, the same will be done for Qt6.

NOTE: The package outputted will not contain a copy of the Qt libraries in it. You must link to them while building your app yourself.

Enabling or Disabling Rust / Cargo Support

Starting with version 1.22, Cerbero supports bootstrapping Rust toolchains, and can build Rust gstreamer plugins.

This is enabled by default for the following configurations: native-linux, cross-macos-universal, native-win64 (msvc), native-win32 (msvc).

More targets will be enabled in the future. If you want to force-enable the feature, you can use the rust variant by invoking cerbero as follows:

$ ./cerbero-uninstalled -v rust <command>

To explicitly disable Rust support and building of the Rust plugins, pass -v norust.

Enabling Hardware Codec Support

Starting with version 1.15.2, Cerbero has built-in support for building and packaging hardware codecs for Intel and Nvidia. If the appropriate variant is enabled, the plugin will either be built or Cerbero will error out if that's not possible.

Intel Hardware Codecs

For Intel, the variant to enable is intelmsdk which will build the msdk plugin.

You must set the INTELMEDIASDKROOT env var to point to your Intel Media SDK prefix, or you must have the SDK's pkgconfig prefix in PKG_CONFIG_PATH

On Windows, INTELMEDIASDKROOT automatically set by the installer. On Linux, if you need to set this, you must set it to point to the directory that contains the mediasdk include and lib64 dirs.

For VA-API, the variant to enable is vaapi which will build the va plugins from gst-plugins-bad.

Customising Cerbero

How to build a custom GStreamer repository or branch

Create a localconf.cbc file and add the following:

# Set custom remote and branch for all gstreamer recipes
recipes_remotes = {'gstreamer-1.0': {'custom-remote': '<YOUR_GIT_REPO>'}}
recipes_commits = {'gstreamer-1.0': 'custom-remote/<YOUR_GIT_BRANCH>'}

You can then run Cerbero with e.g.:

./cerbero-uninstalled -c localconf.cbc -c config/win64.cbc -v visualstudio package gstreamer-1.0

This works for all builds of course, not only the Windows one.

How to force a specific Visual Studio version

Create a localconf.cbc file and add the following:

# Specify Visual Studio install path and version
vs_install_path = 'C:/Path/To/Install'

# This is the Visual Studio Compiler toolset version, vs16 is for Visual Studio 2019. vs15 is 2017, and so on
vs_install_version = 'vs16'

You can then run Cerbero with e.g.:

./cerbero-uninstalled -c localconf.cbc -c config/win64.cbc -v visualstudio package gstreamer-1.0