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title | license |
---|---|
Forgejo Actions administrator guide | CC-BY-SA-4.0 |
Forgejo Actions
provides continuous integration driven from the files in the .forgejo/workflows
directory of a repository. It is still in beta and disabled by default. It can be activated by adding the following to app.ini
:
[actions]
ENABLED = true
Forgejo
itself does not run the jobs, it relies on the Forgejo runner to do so.
Default Actions URL
When uses:
does not specify an absolution URL for the Action
, the
value of DEFAULT_ACTIONS_URL
is prepended to it.
[actions]
ENABLED = true
DEFAULT_ACTIONS_URL = https://code.forgejo.org
The actions found at https://code.forgejo.org are:
- known to work with Forgejo Actions
- published under a Free Software license
They can be found in the following organizations:
When setting DEFAULT_ACTIONS_URL
to a Forgejo instance with an open
registration, care must be taken to avoid name conflicts. For
instance if an action has uses: foo/bar@main
it will clone and try
to run the action found at DEFAULT_ACTIONS_URL/foo/bar
if it exists,
even if it provides something different than what is expected.
Forgejo runner
Installation
Download the latest binary release and verify their signature:
$ wget -O forgejo-runner https://code.forgejo.org/forgejo/runner/releases/download/v2.5.0/forgejo-runner-amd64
$ chmod +x forgejo-runner
$ wget -O forgejo-runner.asc https://code.forgejo.org/forgejo/runner/releases/download/v2.5.0/forgejo-runner-amd64.asc
$ gpg --keyserver keys.openpgp.org --recv EB114F5E6C0DC2BCDD183550A4B61A2DC5923710
$ gpg --verify forgejo-runner.asc forgejo-runner
Good signature from "Forgejo <contact@forgejo.org>"
aka "Forgejo Releases <release@forgejo.org>"
Docker
For jobs to run in containers, the Forgejo runner
needs access to Docker.
Podman
While Podman is generally compatible to Docker, it does not run socket for managing containers by default (because it doesn't usually need one).
If the Forgejo runner complains about "daemon Docker Engine socket not found", or "cannot ping the docker daemon", you can use podman to provide a Docker compatible socket from an unprivileged user and pass that socket on to the runner, e.g. by executing:
$ podman system service -t 0 &
$ DOCKER_HOST=unix://${XDG_RUNTIME_DIR}/podman/podman.sock ./forgejo-runner daemon
LXC
For jobs to run in LXC containers, the Forgejo runner
needs passwordless sudo access for all lxc-*
commands on a Debian GNU/Linux bookworm
system where LXC is installed. The LXC helpers can be used as follows to create a suitable container:
$ git clone https://code.forgejo.org/forgejo/lxc-helpers
$ sudo cp -a lxc-helpers/lxc-helpers{,-lib}.sh /usr/local/bin
$ lxc-helpers.sh lxc_container_create myrunner
$ lxc-helpers.sh lxc_container_start myrunner
$ lxc-helpers.sh lxc_container_user_install forgejo-runners 1000 debian
NOTE: Multiarch Go builds and binfmt need
bookworm
to produce and test binaries on a single machine for people who do not have access to dedicated hardware. If this is not needed, installing theForgejo runner
onbullseye
will also work.
The Forgejo runner
can then be installed and run within the myrunner
container.
$ lxc-helpers.sh lxc_container_run forgejo-runners -- sudo --user debian bash
$ sudo apt-get install docker.io wget gnupg2
$ wget -O forgejo-runner https://code.forgejo.org/forgejo/runner/releases/download/v2.3.0/forgejo-runner-amd64
...
Warning: LXC containers do not provide a level of security that makes them safe for potentially malicious users to run jobs. They provide an excellent isolation for jobs that may accidentally damage the system they run on.
Registration
The Forgejo runner
needs to connect to a Forgejo
instance and must be registered before doing so. It will give it permission to read the repositories and send back information to Forgejo
such as the logs or its status.
Online registration
A special kind of token is needed and can be obtained from the Create new runner
button:
- in
/admin/runners
to gain access to all repositories. - in
/org/{org}/settings/actions/runners
to gain access to all repositories within the organization. - in
/user/settings/actions/runners
to gain access to all repositories of the logged in user - in
/{owner}/{repository}/settings/actions/runners
to gain access to a single repository.
For instance, using a token obtained for a test repository from next.forgejo.org
:
forgejo-runner register --no-interactive --token {TOKEN} --name runner --instance https://next.forgejo.org --labels docker:docker://node:16-bullseye,self-hosted
INFO Registering runner, arch=amd64, os=linux, version=2.3.0.
INFO Runner registered successfully.
It will create a .runner
file that looks like:
{
"WARNING": "This file is automatically generated. Do not edit.",
"id": 6,
"uuid": "fcd0095a-291c-420c-9de7-965e2ebaa3e8",
"name": "runner",
"token": "{TOKEN}",
"address": "https://next.forgejo.org",
"labels": ["docker:docker://node:16-bullseye", "self-hosted"]
}
Offline registration
When Infrastructure as Code (Ansible, kubernetes, etc.) is used to deploy and configure both Forgejo and the Forgejo runner, it may be more convenient for it to generate a secret and share it with both.
The forgejo forgejo-cli actions register --secret <secret>
subcommand can be
used to register the runner with the Forgejo instance and the
forgejo-runner create-runner-file --secret <secret>
subcommand can
be used to configure the Forgejo runner with the credentials that will
allow it to start picking up tasks from the Forgejo instances as soon
as it comes online.
For instance, on the machine running Forgejo:
$ forgejo forgejo-cli actions register --name runner-name --scope myorganization \
--labels docker \
--secret 7c31591e8b67225a116d4a4519ea8e507e08f71f
and on the machine on which the Forgejo runner is installed:
$ forgejo-runner create-runner-file --instance https://example.conf \
--secret 7c31591e8b67225a116d4a4519ea8e507e08f71f
NOTE: the labels known to the runner are defined in the
config.yml
and MUST match the labels provided to theforgejo-cli actions register
command above. In this example,labels: ['docker:docker://node:16-bullseye']
will tell the Forgejo runner that when a job specifiesruns-on: docker
, it will run in a container created from thenode:16-bullseye
image by default.
Configuration
The default configuration for the runner can be
displayed with forgejo-runner generate-config
, stored in a
config.yml
file, modified and used instead of the default with the
--config
flag.
$ forgejo-runner generate-config > config.yml
# Example configuration file, it's safe to copy this as the default config file without any modification.
log:
# The level of logging, can be trace, debug, info, warn, error, fatal
level: info
runner:
# Where to store the registration result.
file: .runner
# Execute how many tasks concurrently at the same time.
capacity: 1
# Extra environment variables to run jobs.
envs:
A_TEST_ENV_NAME_1: a_test_env_value_1
A_TEST_ENV_NAME_2: a_test_env_value_2
# Extra environment variables to run jobs from a file.
# It will be ignored if it's empty or the file doesn't exist.
env_file: .env
# The timeout for a job to be finished.
# Please note that the Forgejo instance also has a timeout (3h by default) for the job.
# So the job could be stopped by the Forgejo instance if it's timeout is shorter than this.
timeout: 3h
# Whether skip verifying the TLS certificate of the Forgejo instance.
insecure: false
# The timeout for fetching the job from the Forgejo instance.
fetch_timeout: 5s
# The interval for fetching the job from the Forgejo instance.
fetch_interval: 2s
# The labels of a runner are used to determine which jobs the runner can run, and how to run them.
# Like: ["macos-arm64:host", "ubuntu-latest:docker://node:16-bullseye", "ubuntu-22.04:docker://node:16-bullseye"]
# If it's empty when registering, it will ask for inputting labels.
# If it's empty when execute `deamon`, will use labels in `.runner` file.
labels: []
cache:
# Enable cache server to use actions/cache.
enabled: true
# The directory to store the cache data.
# If it's empty, the cache data will be stored in $HOME/.cache/actcache.
dir: ""
# The host of the cache server.
# It's not for the address to listen, but the address to connect from job containers.
# So 0.0.0.0 is a bad choice, leave it empty to detect automatically.
host: ""
# The port of the cache server.
# 0 means to use a random available port.
port: 0
container:
# Specifies the network to which the container will connect.
# Could be host, bridge or the name of a custom network.
# If it's empty, create a network automatically.
network: ""
# Whether to use privileged mode or not when launching task containers (privileged mode is required for Docker-in-Docker).
privileged: false
# And other options to be used when the container is started (eg, --add-host=my.forgejo.url:host-gateway).
options:
# The parent directory of a job's working directory.
# If it's empty, /workspace will be used.
workdir_parent:
# Volumes (including bind mounts) can be mounted to containers. Glob syntax is supported, see https://github.com/gobwas/glob
# You can specify multiple volumes. If the sequence is empty, no volumes can be mounted.
# For example, if you only allow containers to mount the `data` volume and all the json files in `/src`, you should change the config to:
# valid_volumes:
# - data
# - /src/*.json
# If you want to allow any volume, please use the following configuration:
# valid_volumes:
# - '**'
valid_volumes: []
# overrides the docker client host with the specified one.
# If it's empty, act_runner will find an available docker host automatically.
# If it's "-", act_runner will find an available docker host automatically, but the docker host won't be mounted to the job containers and service containers.
# If it's not empty or "-", the specified docker host will be used. An error will be returned if it doesn't work.
docker_host: ""
host:
# The parent directory of a job's working directory.
# If it's empty, $HOME/.cache/act/ will be used.
workdir_parent:
Cache configuration
Some actions such as https://code.forgejo.org/actions/cache or
https://code.forgejo.org/actions/setup-go can communicate with the
Forgejo runner
to save and restore commonly used files such as
compilation dependencies. They are stored as compressed tar archives,
fetched when a job starts and saved when it completes.
If the machine has a fast disk, uploading the cache when the job starts may significantly reduce the bandwidth required to download and rebuild dependencies.
If the machine on which the Forgejo runner
is running has a slow
disk and plenty of CPU and bandwidth, it may be better to not activate
the cache as it can slow down the execution time.
Running the daemon
Once the Forgejo runner
is successfully registered, it can be run from the directory in which the .runner
file is found with:
$ forgejo-runner daemon
INFO[0000] Starting runner daemon
To verify it is actually available for the targeted repository, go to /{owner}/{repository}/settings/actions/runners
. It will show the runners:
- dedicated to the repository with the repo type
- available to all repositories within an organization or a user
- available to all repositories, with the Global type
Adding the .forgejo/workflows/demo.yaml
file to the test repository:
on: [push]
jobs:
test:
runs-on: docker
steps:
- run: echo All Good
Will send a job request to the Forgejo runner
that will display logs such as:
...
INFO[2023-05-28T18:54:53+02:00] task 29 repo is earl-warren/test https://code.forgejo.org https://next.forgejo.org
...
[/test] [DEBUG] Working directory '/workspace/earl-warren/test'
| All Good
[/test] ✅ Success - Main echo All Good
It will also show a similar output in the Actions
tab of the repository.
If no Forgejo runner
is available, Forgejo
will wait for one to connect and submit the job as soon as it is available.
Labels and runs-on
The workflows / tasks defined in the files found in .forgejo/workflows
must specify the environment they need to run with runs-on
. Each Forgejo runner
declares with labels which one they support so Forgejo
knows sends them tasks accordingly. For instance if a job within a workflow has:
runs-on: docker
it will be submitted to a runner that registered with a docker
label (for instance with --labels docker:docker://node:16-bullseye
).
Docker
If runs-on
is matched to a label that contains docker://
, the rest of it is interpreted as the default container image to use if no other is specified. The runner will execute all the steps, as root, within a container created from that image.
LXC
If runs-on
is self-hosted
, the runner will execute all the steps, as root, within a Debian GNU/Linux bullseye
LXC container.
Host environment
Certain hosts may require specific configurations for runners to work smoothly. Anything specific to these host environments can be found below.
NixOS
The gitea-actions-runner
recipe was released in NixOS 23.05. It can be configured via services.gitea-actions-runner
.
Please note that the services.gitea-actions-runner.instances.<name>.labels
key may be set to []
(an empty list) to use the packaged Forgejo instance list. One of virtualisation.docker.enable
or virtualisation.podman.enable
will need to be set. The default Forgejo image list is populated with docker images.
IPv6 on docker
IPv6 support is not enabled by default in docker. The following snippet enables this.
virtualisation.docker = {
daemon.settings = {
fixed-cidr-v6 = "fd00::/80";
ipv6 = true;
};
};
Other runners
It is possible to use other runners instead of Forgejo runner
. As long as they can connect to a Forgejo
instance using the same protocol, they will be given tasks to run.