Snapcraft builds on top of tools like autotools, make, and cmake to create snaps for people to install on Linux.
Why are snaps good for C/C++ projects?
Snapcraft bundles necessary libraries required by the application, and can configure the environment for confinement of applications for end user peace of mind. Developers can ensure their application is delivered pre-packaged with libraries which will not be replaced or superseded by a distribution vendor.
Here are some snap advantages that will benefit many C/C++ projects:
Snaps are easy to discover and install
Millions of users can browse and install snaps graphically in the Snap Store or from the command-line.
Snaps install and run the same across Linux
They bundle the exact version of whatever is required, along with all of your app’s dependencies, be they binaries or system libraries.
Snaps automatically update to the latest version
Four times a day, users’ systems will check for new versions and upgrade in the background.
Upgrades are not disruptive
Because upgrades are not in-place, users can keep your app open as it’s upgraded in the background.
Upgrades are safe
If your app fails to upgrade, users automatically roll back to the previous revision.
Build a snap in 20 minutes
Typically this guide will take around 20 minutes and will result in a working C++ application in a snap. Once complete, you’ll understand how to package C/C++ applications as snaps and deliver them to millions of Linux users. After making the snap available in the store, you’ll get access to installation metrics and tools to directly manage the delivery of updates to Linux users.
For a brief overview of the snap creation process, including how to install snapcraft and how it’s used, see Snapcraft overview. For a more comprehensive breakdown of the steps involved, take a look at Creating a snap.
Snaps are defined in a single YAML file placed in the root folder of your project. The following example shows the entire snapcraft.yaml file for an existing project, DOSBox. Don’t worry, we’ll break this down.
Snaps are defined in a single yaml file placed in the root of your project. The DOSBox example shows the entire snapcraft.yaml for an existing project. We’ll break this down.
snapcraft.yaml for DOSBox
name: test-dosbox version: "0.74-svn" summary: DOS emulator description: | DOSBox is a x86 emulator with Tandy/Hercules/ CGA/EGA/VGA/SVGA graphics sound and DOS. It's been designed to run old DOS games under platforms that don't support it. base: core18 confinement: devmode parts: test-dosbox: plugin: autotools source-type: tar source: http://source.dosbox.com/dosboxsvn.tgz build-packages: - g++ - make - libsdl1.2-dev - libpng-dev - libsdl-net1.2-dev - libsdl-sound1.2-dev - libasound2-dev stage-packages: - libsdl-sound1.2 - libsdl-net1.2 - libxcursor1 - libxi6 - libxinerama1 - libxrandr2 - libxrender1 - libopenal1 - libsndio6.1 - libspeex1 - libvorbisfile3 - libwayland-client0 - libwayland-cursor0 - libwayland-egl1-mesa - libxkbcommon0 - libglu1-mesa - libasound2 - libasyncns0 - libbsd0 - libcaca0 - libdbus-1-3 - libflac8 - libgcc1 - libgcrypt20 - libgl1 - libglvnd0 - libglx0 - libgpg-error0 - liblz4-1 - liblzma5 - libncursesw5 - libogg0 - libpng16-16 - libpulse0 - libsdl1.2debian - libslang2 - libsndfile1 - libstdc++6 - libsystemd0 - libtinfo5 - libvorbis0a - libvorbisenc2 - libwrap0 - libx11-6 - libxau6 - libxcb1 - libxdmcp6 - libxext6 - zlib1g apps: test-dosbox: command: dosbox environment: "LD_LIBRARY_PATH": "$SNAP/usr/lib/$SNAPCRAFT_ARCH_TRIPLET/pulseaudio" "DISABLE_WAYLAND": "1"
snapcraft.yaml file starts with a small amount of human-readable metadata, which usually can be lifted from the GitHub description or project README.md. This data is used in the presentation of your app in the Snap Store.
name: test-dosbox version: "0.74-svn" summary: DOS emulator description: | DOSBox is a x86 emulator with Tandy/Hercules/ CGA/EGA/VGA/SVGA graphics sound and DOS. It's been designed to run old DOS games under platforms that don't support it.
name must be unique in the Snap Store. Valid snap names consist of lower-case alphanumeric characters and hyphens. They cannot be all numbers and they also cannot start or end with a hyphen.
git for the version, the current git tag or commit will be used as the version string. Versions carry no semantic meaning in snaps.
summary can not exceed 79 characters. You can use a chevron ‘>’ in the
description key to declare a multi-line description.
The base keyword defines a special kind of snap that provides a run-time environment with a minimal set of libraries that are common to most applications. They’re transparent to users, but they need to be considered, and specified, when building a snap.
To get started, we won’t confine this application. Unconfined applications, specified with
devmode, can only be released to the hidden “edge” channel where you and other developers can install them.
Parts define how to build your app. Parts can be anything: programs, libraries, or other assets needed to create and run your application. In this case we have one: the DOSBox source release tarball. In other cases these can point to local directories, remote git repositories or other revision control systems.
Before building the part, the dependencies listed as
build-packages are installed. The autotools plugin uses the standard tools,
make to build the part.
parts: test-dosbox: plugin: autotools source-type: tar source: http://source.dosbox.com/dosboxsvn.tgz build-packages: - g++ - make - libsdl1.2-dev - libpng-dev - libsdl-net1.2-dev - libsdl-sound1.2-dev - libasound2-dev
There’s also a large
stage-packages: - libsdl-sound1.2 - libsdl-net1.2 [...] - libxext6 - zlib1g
These are the packages required by DOSBox to run, and mirror the same packages required by the binary on a standard distribution installation.
For more details on autotools-specific metadata, see The autotools plugin.
Apps are the commands and services exposed to end users. If your command name matches the snap
name, users will be able run the command directly. If the names differ, then apps are prefixed with the snap
dosbox.command-name, for example). This is to avoid conflicting with apps defined by other installed snaps.
If you don’t want your command prefixed you can request an alias for it on the Snapcraft forum. These are set up automatically when your snap is installed from the Snap Store.
apps: test-dosbox: command: dosbox environment: "LD_LIBRARY_PATH": "$SNAP/usr/lib/$SNAPCRAFT_ARCH_TRIPLET/pulseaudio" "DISABLE_WAYLAND": "1"
You can see we also make two adjustments to the run time environment for DOSBox, the first to work around a PulseAudio issue and the second to disable Wayland. These kinds of requirements are usually figured out through trial and error after an initial build.
If your application is intended to run as a service you simply add the line
daemon: simple after the command keyword. This will automatically keep the service running on install, update, and reboot.
Building the snap
You can download the example repository with the following command:
$ git clone https://github.com/snapcraft-docs/dosbox
After you’ve created the snapcraft.yaml, you can build the snap by simply executing the snapcraft command in the project directory:
$ snapcraft Using 'snapcraft.yaml': Project assets will be searched for from the 'snap' directory. Launching a VM. [...] Snapped test-dosbox_0.74-svn_amd64.snap
The resulting snap can be installed locally. This requires the
--dangerous flag because the snap is not signed by the Snap Store. The
--devmode flag acknowledges that you are installing an unconfined application:
$ sudo snap install test-dosbox_*.snap --devmode --dangerous
You can then try it out:
Removing the snap is simple too:
$ sudo snap remove test-dosbox
You can clean up the build environment with the following command:
$ snapcraft clean
By default, when you make a change to snapcraft.yaml, snapcraft only builds the parts that have changed. Cleaning a build, however, forces your snap to be rebuilt in a clean environment and will take longer.
Publishing your snap
To share your snaps you need to publish them in the Snap Store. First, create an account on the dashboard. Here you can customise how your snaps are presented, review your uploads and control publishing.
You’ll need to choose a unique “developer namespace” as part of the account creation process. This name will be visible by users and associated with your published snaps.
Make sure the
snapcraft command is authenticated using the email address attached to your Snap Store account:
$ snapcraft login
Reserve a name for your snap
You can publish your own version of a snap, provided you do so under a name you have rights to. You can register a name on dashboard.snapcraft.io, or by running the following command:
$ snapcraft register mysnap
Be sure to update the
name: in your
snapcraft.yaml to match this registered name, then run
Upload your snap
Use snapcraft to push the snap to the Snap Store.
$ snapcraft push --release=edge mysnap_*.snap
If you’re happy with the result, you can commit the snapcraft.yaml to your GitHub repo and turn on automatic builds so any further commits automatically get released to edge, without requiring you to manually build locally.
Congratulations! You’ve just built and published your first Go snap. For a more in-depth overview of the snap building process, see Creating a snap.
Last updated 10 days ago. Help improve this document in the forum.