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---
short-description: Setting up a development environment the modern way
authors:
- name: Nirbheek Chauhan
email: nirbheek@centricular.com
years: [2021]
...
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# Building from source using Cerbero
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**If you just want to use GStreamer, please visit [the download page](https://gstreamer.freedesktop.org/download/).
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
1. Have to build GStreamer packages for distribution or deployment, or
1. 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](installing/building-from-source-using-meson.md).
## 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](#bootstrap-to-setup-environment).
### macOS Setup
On macOS you will need to have install the following software:
* XCode
* Python 3.6+ https://www.python.org/downloads/
Cerbero will build all other required packages during [bootstrap](#bootstrap-to-setup-environment).
### Windows Setup
The initial setup on Windows is somewhat longer since the required packages
must be installed manually. Detailed steps on what you need to install are
**[at the bottom of the page](#installing-minimum-requirements-on-windows)**.
## Download the sources
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To build GStreamer using Cerbero, you first need to download **Cerbero**:
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```sh
$ git clone https://gitlab.freedesktop.org/gstreamer/cerbero
```
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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.
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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.
## Bootstrap to setup environment
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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.
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Note that this will take a while (a couple hours or even more on Windows).
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```sh
$ ./cerbero-uninstalled bootstrap
```
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On Linux and macOS, this will use `sudo` to make changes to the system.
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The bootstrap process will then install or build all packages required to build
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GStreamer.
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## Build GStreamer
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To generate GStreamer binaries, use the following command:
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```sh
$ ./cerbero-uninstalled package gstreamer-1.0
```
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This will fetch and build all required GStreamer components and create packages
for your distribution, then place them in the Cerbero source directory.
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A list of supported packages to build can be retrieved using:
```sh
$ ./cerbero-uninstalled list-packages
```
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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:
```sh
$ ./cerbero-uninstalled list
```
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To build an individual recipe and its dependencies, do the following:
```sh
$ ./cerbero-uninstalled build <recipe_name>
```
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Or to build or force a rebuild of a recipe without building its
dependencies use:
```sh
$ ./cerbero-uninstalled buildone <recipe_name>
```
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To wipe everything and start from scratch:
```sh
$ ./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:
```sh
# 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 |
|-----------------|---------------------------|---------|
| MinGW x86 | `win32.cbc` | |
| MinGW x86_64 | `win64.cbc` | |
| MSVC x86 | `win32.cbc` | visualstudio |
| MSVC x86_64 | `win64.cbc` | visualstudio |
| 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:
```sh
# Target MinGW 32-bit
$ ./cerbero-uninstalled -c config/win32.cbc package gstreamer-1.0
# Target MSVC 64-bit
$ ./cerbero-uninstalled -c config/win64.cbc -v visualstudio 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:
```sh
$ ./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:
```sh
$ ./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](https://gitlab.freedesktop.org/gstreamer/gst-ci).
## 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:
```sh
$ ./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:
```sh
$ ./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:
```sh
$ ./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.
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 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](#enabling-optional-features-with-variants).
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`:
```sh
$ export QMAKE='/path/to/Qt5.12.0/5.12.0/<target>/bin/qmake'
$ ./cerbero-uninstalled -v qt5 [-c ...] package gstreamer-1.0
```
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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.
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**NOTE:** The package outputted will not contain a copy of the Qt5 libraries in
it. You must link to them while building your app yourself.
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## Enabling Hardware Codec Support
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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.
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### Intel Hardware Codecs
For Intel, the [variant to enable](#enabling-optional-features-with-variants)
is `intelmsdk` which will build the `msdk` plugin.
You must set the `INTELMEDIASDKROOT` env var to point to your [Intel Media
SDK](https://software.intel.com/en-us/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.
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For VA-API, the [variant to enable](#enabling-optional-features-with-variants)
is `vaapi` which will build the gstreamer-vaapi plugins with all
options enabled if possible.
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### Nvidia Hardware Codecs
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Since 1.17.1, the `nvcodec` plugin does not need access to the Nvidia Video SDK
or the CUDA SDK. It now loads everything at runtime. Hence, it is now enabled
by default on all platforms.
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## Enabling Visual Studio Support
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Starting with version 1.15.2, Cerbero supports building all GStreamer recipes,
all mandatory dependencies (such as glib, libffi, zlib, etc), and some external
dependencies with Visual Studio. You must explicitly opt-in to this by [enabling
the `visualstudio` variant](#enabling-optional-features-with-variants):
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```sh
$ python ./cerbero-uninstalled -v visualstudio package gstreamer-1.0
```
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If you already have a Cerbero build, it is highly recommended to run the `wipe`
command before switching to building with Visual Studio.
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[Some plugins that require external dependencies will be automatically
disabled](https://gitlab.freedesktop.org/gstreamer/cerbero/issues/121) when
running in this mode.
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Currently, most recipes that use Meson (`btype = BuildType.MESON`) and those
that have the `can_msvc` recipe property set to `True` are built with Visual
Studio.
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## Installing Minimum Requirements on Windows
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**IMPORTANT:** Using cerbero on Windows with the [GCC/MinGW
toolchain](https://gitlab.freedesktop.org/gstreamer/cerbero/-/blob/master/docs/toolchains.md#windows)
requires a 64-bit operating system. The toolchain is only available for 64-bit
and it can produce 32-bit or 64-bit binaries.
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These steps are necessary for using Cerbero on Windows.
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#### Install Python 3.6 or newer (either 32-bit or 64-bit)
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Download the [Windows executable installer](https://www.python.org/downloads/)
and run it.
* On the first page of the installer, select the following:
![Enable Add Python to PATH, then click Customize Installation](images/cerbero/py-installer-page1.png)
* On the second page, the defaults are fine
* Third page, you must select the following options:
![Enable Install for all users, associate files with Python, add Python to environment variables, and customize the install location to not have any spaces in it](images/cerbero/py-installer-page3.png)
* Enabled or Install [.NET 3.5.1 Framework](https://docs.microsoft.com/en-us/dotnet/framework/install/dotnet-35-windows-10)
* On Windows 10, remove the Windows Store path entry from the PATH variable in the system settings. Otherwise, Cerbero will try to use the dummy Windows Store version of Python
#### Install Git for Windows
Download the [Git for Windows installer](https://gitforwindows.org/) and run it.
* First page is the license
* Next page is `Select Components`, the defaults are fine, enable whatever else you prefer
* Next `Choosing the default editor used by Git`, select whatever you prefer
* Next `Adjusting your PATH environment`, you *must* select as shown in the screenshot
![Select "Git from the command line and also from 3rd-party software"](images/cerbero/git-installer-PATH.png)
* Next `Choosing HTTPS transport backend`, default is fine
* Next `Configuring the line ending conversions`, you *must* select as shown in the screenshot
![Select "Git from the command line and also from 3rd-party software"](images/cerbero/git-installer-line-endings.png)
* Next `Configuring the terminal emulator`, default is fine
* Next `Configuring extra options`, defaults are fine
Git will be installed at `C:\Program Files\Git`.
#### Install MSYS/MinGW
Download the [`mingw-get-setup` executable installer](http://sourceforge.net/projects/mingw/files/Installer/mingw-get-setup.exe/download) and run it.
* First page, keep all the options as-is
* Second page will download the latest package catalogue and base packages
* Once done, the MinGW Installation Manager will open, select the following
packages under Basic Setup:
![Under Basic Setup, select mingw-developer-toolkit, mingw32-base, and msys-base](images/cerbero/msys-install-packages.png)
Then, click on the `Installation` menu and select `Apply Changes`. MSYS will be
installed at `C:\MinGW`.
**IMPORTANT:** After installation, you must create a shortcut on the desktop to
`C:\MinGW\msys\1.0\msys.bat` which will run the MinGW shell. **You must run
Cerbero from inside that**.
**NOTE**: Cerbero does not use the MinGW compiler toolchain shipped with MSYS.
We download our own custom [GCC toolchain](https://gitlab.freedesktop.org/gstreamer/cerbero/-/blob/master/docs/toolchains.md#gcc-mingw)
during [bootstrap](#bootstrap-to-setup-environment).
**NOTE**: MSYS is not the same as [MSYS2](https://www.msys2.org/), and the
GStreamer project does not support running Cerbero inside the MSYS2
environment. Things may work or they may break, and you get to keep the pieces.
#### Install Visual Studio 2015 or newer
This is needed for correctly generating import libraries for recipes built with
MinGW. Both the Community build and the Professional build are supported.
You must install the latest Windows 10 SDK when installing Visual Studio as
shown below. You do not need any older Windows SDKs.
![Select the 'Desktop development with C++' workload](images/cerbero/vs2017-installer-workloads.png)
If you want to build for UWP (aka Universal Windows Platform), you have to use
VS 2017 or newer, and you must *also* select the Universal Windows Platform
workload:
![Select both 'Desktop development with C++' and 'Universal Windows Platform development' workloads](images/cerbero/vs-installer-uwp-workload.png)
You can find all versions of Visual Studio at:
https://visualstudio.microsoft.com/vs/older-downloads/
#### Install other tools
* CMake: http://www.cmake.org/cmake/resources/software.html
* WiX 3.11.1 installer: https://github.com/wixtoolset/wix3/releases/tag/wix3111rtm
#### 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.
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Cerbero must be run in the MingGW shell, which is accessible from the main menu
or desktop. If it is not, create a shortcut on the desktop to `C:\MinGW\msys\1.0\msys.bat`
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The path to your `$HOME` must not contain spaces. If your Windows username
contains spaces, you can create a new directory in `/home` and execute:
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If you are using Windows 10, it is also highly recommended to enable "Developer
Mode" in Windows Settings as shown below.
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![Enable Developer Mode in Windows Settings](images/cerbero/windows-settings-developer-mode.png)
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```cmd
$ echo 'export HOME=/home/newdir' > ~/.profile
```
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Then restart your shell and type `cd` to go to the new home directory.
Note that inside the shell, `/` is mapped to `C:\Mingw\msys\1.0\`