- Overview
- Module Description - What the module does and why it is useful
- Setup - The basics of getting started with gitlab
- Usage - Configuration options and additional functionality
- Reference - An under-the-hood peek at what the module is doing and how
- Limitations - OS compatibility, etc.
- Development - Guide for contributing to the module
This Puppet module installs and manages Gitlab. It makes use of the provided Omnibus packages and the packagecloud package repositories.
Please note: The module vshn/gitlab has been deprecated and is now available under Vox Pupuli puppet/gitlab.
The module installs the Gitlab package from the provided repositories and creates the configuration file
which is then used by gitlab-ctl reconfigure
to configure all the services. Fun fact: This really uses
Chef to configure all the services.
Supported are Debian based (Ubuntu, Debian) and RedHat based (CentOS, RHEL) operating systems.
Beaker acceptance tests are run in Travis for supported versions of CentOS and Ubuntu.
This module is designed to support the most recent versions of the gitlab-omnibus package (both ce and ee). Gitlab will support and release patches for the last 3 releases. This module can typically support the most recent major version, as well as the previous major version, but is currently only tested in the gitlab-supported versions of the module.
If you find configurations or features in gitlab-omnibus that are not supported by this module, please open an issue or submit a pull request.
Current Support Status
gitlab-omnibus version | support of gitlab.rb configurations |
---|---|
11.x | Mostly implemented, supported configs are stable |
10.x | All configs implemented and stable |
For older versions of gitlab, you may find an older version of this module to work better for you, as this module changes over time to support the valid configuration of versions of the gitlab-omnibus supported by the gitlab engineering team. The oldest versions of this puppet module were designed to support gitlab-omnibus 7.10, and may be unstable even then.
- Package repository (APT or YUM)
- Omnibus gitlab package, typically
gitlab-ce
orgitlab-ee
- Configuration file
/etc/gitlab/gitlab.rb
- System service
gitlab-runsvdir
- Gitlab configuration using
gitlab-ctl reconfigure
Have a look at the official download page for the required prerequisits (f.e. Postfix). This module doesn't handle them, that's the job of the specific modules.
It requires only the puppetlabs-apt module when using it under
a Debian based OS and the parameter manage_package_repo
is not false. Furthermore the stdlib
module is required.
At least on RedHat based OS versions, it's required that Puppet is configured with
the stringify_facts
setting set to false
(Puppet < 4.0), otherwise
the $::os
fact used in install.pp
doesn't work as expected.
Just include the class and specify at least external_url
. If external_url
is not specified it will default to the FQDN fact of the system.
class { 'gitlab':
external_url => 'http://gitlab.mydomain.tld',
}
The module also supports Hiera, here comes an example:
gitlab::external_url: 'http://gitlab.mydomain.tld'
gitlab::gitlab_rails:
time_zone: 'UTC'
gitlab_email_enabled: false
gitlab_default_theme: 4
gitlab_email_display_name: 'Gitlab'
gitlab::sidekiq:
shutdown_timeout: 5
If one wants to install Gitlab Enterprise Edition, just define the parameter manage_upstream_edition
with the value ee
:
class { 'gitlab':
external_url => 'http://gitlab.mydomain.tld',
manage_upstream_edition => 'ee',
}
Note: This works only for Gitlab version 7.11 and greater. See this blog entry: GitLab 7.11 released with Two-factor Authentication and a publicly viewable Enterprise Edition
The main class (init.pp
) exposes the configuration sections from the gitlab.rb
configuration file
as hashes. So if there are any parameter changes in future versions of Gitlab, the module should support
them right out of the box. Only if there would be bigger changes to sections, the module would need
some updates.
All possible parameters for gitlab.rb
can be found here: gitlab.rb.template
Some examples:
class { 'gitlab':
external_url => 'http://gitlab.mydomain.tld',
gitlab_rails => {
'webhook_timeout' => 10,
'gitlab_default_theme' => 2,
},
logging => {
'svlogd_size' => '200 * 1024 * 1024',
},
}
GitLab Omnibus is designed to manage it's own services internally. The gitlab-runsvdir
service isn't a typical service that you would manage with puppet, it is a
monitoring service for the other services gitlab will create based on your selected configuration. Starting, stopping and restarting the gitlab-runsvdir
service
should only be done by gitlab-ctl
commands. Service restart is also handled implicitly during installation and upgrades, and does not normally need to be triggered
by puppet.
If you find yourself needing to modify this behavior, you can set service_manage => true
to have puppet ensure the service is running.
Setting service_provider_restart => true
will cause puppet to trigger a gitlab-ctl restart
command to be issued following any configuration change managed by
puppet.
This module allows you a great range of options when configuring the repository and package sources on your host. By default,
the gitlab repository will be configured to use the upstream source from https://packages.gitlab.com. However, if you wish
to use a different repository source, you can provide your own yumrepo
, apt
or any other package/repository configuration you wish.
This module does this by iterating through configurations provided to gitlab::omnibus_package_repository::repository_configuration
. You
can provide any number of repository resource types and configurations you want, as long as the dependent modules are installed on your basemodulepath.
This approach provides the following advantages:
- means any and all parameters supported by your repository manager module are inherently supported by the
gitlab
module - you aren't required to use a version of a dependency we specify, supporting a wide range of versions for modules like
apt
- you can easily add more required repositories and packages as needed by your infrastructure, and ensure ordering is managed within the gitlab module before any gitlab related packages are installed
In order to provide your own repository configurations, you are required to set manage_upstream_edition => disabled
, and provide a hash
of repository resource type configurations in the following format:
gitlab::repository_configuration:
repository_resource_type: #ex... 'apt::source` or `apt::pin` or `yumrepo`
repository_resource_title:
repository_resource_attribute1: 'value'
repository_resource_attribute2: 'value'
Examples/defaults for yumrepo
can be found at data/RedHat.yaml
, and for apt
at data/Debian.yaml
.
You could also do things like:
- add an additional repository at the same level as
internal_mirror_of_gitlab_official_ce
(for example if you wanted to use your own packagenginx
instead of the one provided in omnibus-gitlab) - add any other high level resource types from the
apt
module at the level ofapt:source
. (apt::pin
,apt::key
, etc...)
Each unique resource provided to the repository_configuration
setup:
- gets tagged with
gitlab_omnibus_package_resource
- gets the
before => Class['gitlab::install']
metaparameter.
You can use these tags to further customize ordering within your own catalogs.
The package_ensure
parameter is used to control which version of the package installed. It expects either a version string, or one of the ensure
values for the Package
resource type. Default is installed
. This value works with the package_name
parameter to install the correct package.
If you are using upstream package source, the package name automatically switches between gitlab-ce
and gitlab-ee
depending on the value you have
provided to manage_upstream_edition
. If manage_upstream_edition
is set to disabled
, you will need to provide the appropriate value to package_name
yourself.
This approach of package management has the following advantages:
- more easily adaptable if gitlab changes package naming based on editions (won't require you to install new puppet-gitlab module if you're not ready)
- allows you to install custom built packages for gitlab-omnibus that have different package name on your host
As an expanded example of repository and package configuration, let's assume you're:
- using a private mirror of the upstream gitlab package channel
- hosted inside your organizations firewall
- installing gitlab-omnibus enterprise edition
class { 'gitlab':
external_url => 'http://gitlab.mydomain.tld',
manage_upstream_edition => 'disabled',
package_name => 'gitlab-ee',
repository_configuration => {
'apt::source' => {
'internal_mirror_of_gitlab_official_ce' => {
'comment' => 'Internal mirror of upstream gitlab package repository',
'location' => 'https://my.internal.url/repository/packages.gitlab.com/gitlab/gitlab-ce/debian',
'key' => {
'id' => '1A4C919DB987D435939638B914219A96E15E78F4',
'source' => 'https://my.internal.url/repository/package.gitlab.com/gpg.key'
}
},
}
}
}
Note: gitlab::secrets
parameter was removed in v3.0.0. See: Issues#213 - Remove support for setting content of gitlab-secrets.json
When using HA role application_role
, make sure to add the appropriate shared secrets to your gitlab_rails
and gitlab_shell
hashes to ensure front-end nodes
are configured to access all backend data-sources and repositories. If you receive 500 errors on your HA setup, this is one of the primary causes.
Here is an example how to configure LDAP using Hiera:
gitlab::gitlab_rails:
ldap_enabled: true
ldap_servers:
myldapserver:
label: 'Company LDAP'
host: 'ldap.company.tld'
port: 389
uid: 'uid'
method: 'plain' # "tls" or "ssl" or "plain"
bind_dn: 'MYBINDDN'
password: 'MYBINDPW'
active_directory: false
allow_username_or_email_login: false
block_auto_created_users: false
base: 'MYBASEDN'
group_base: 'MYGROUPBASE'
user_filter: ''
Configuration of the embedded NGINX instance is handled by the /etc/gitlab/gitlab.rb
file. Details on available configuration options are available at http://doc.gitlab.com/omnibus/settings/nginx.html. Options listed here can be passed in to the nginx
parameter as a hash. For example, to enable ssh redirection:
class { 'gitlab':
external_url => 'https://gitlab.mydomain.tld',
nginx => {
redirect_http_to_https => true,
},
}
Similarly, the certificate and key location can be configured as follows:
class { 'gitlab':
external_url => 'https://gitlab.mydomain.tld',
nginx => {
ssl_certificate => '/etc/gitlab/ssl/gitlab.example.com.crt',
ssl_certificate_key => '/etc/gitlab/ssl/gitlab.example.com.key'
},
}
In order to achieve Zero Downtime Upgrades
of your GitLab instance, GitLab will need to skip the post-install step of the omnibus package that automatically calls
gitlab-ctl reconfigure
for you. In GitLab < 10.5, GitLab check for the presence of a file at /etc/gitlab/skip-auto-migrations
.
As of GitLab 10.6
, this is deprecated, and you are warned to use /etc/gitlab/skip-auto-reconfigure
going forward.
Both of these are currently supported in this module, and you should be aware of which option is right for you based on the version of GitLab Omnibus you are running. You will be presented with a deprecation notice in you puppet client if using the deprecated form.
# use 'absent' or 'present' for the skip_auto_reconfigure param
class { 'gitlab':
skip_auto_reconfigure => 'present'
}
# use true/false for the skip_auto_migrations param
class { 'gitlab':
skip_auto_migrations => true
}
Manage custom hook files within a GitLab project. Custom hooks can be created as a pre-receive, post-receive, or update hook. It's possible to create different custom hook types for the same project - one each for pre-receive, post-receive and update.
gitlab::custom_hook { 'my_custom_hook':
namespace => 'my_group',
project => 'my_project',
type => 'post-receive',
source => 'puppet:///modules/my_module/post-receive',
}
or via hiera
gitlab::custom_hooks:
my_custom_hook:
namespace: my_group
project: my_project
type: post-receive
source: 'puppet:///modules/my_module/post-receive'
Since GitLab Shell 4.1.0 and GitLab 8.15 Chained hooks are supported. You can create global hooks which will run for each repository on your server. Global hooks can be created as a pre-receive, post-receive, or update hook.
gitlab::global_hook { 'my_custom_hook':
type => 'post-receive',
source => 'puppet:///modules/my_module/post-receive',
}
or via hiera
gitlab::global_hooks:
my_custom_hook:
type: post-receive
source: 'puppet:///modules/my_module/post-receive'
GitLab instances with a large number of users may notice slowdowns when making initial connections for ssh operations.
GitLab has created a feature that allows authorized ssh keys to be stored in the db (instead of the authorized_keys
file for the git
user)
You can enable this feature in GitLab using the store_git_keys_in_db
parameter.
Please note, managing the sshd service and openssh is outside the scope of this module.
You will need to configure the AuthorizedKeysCommand for the git
user in sshd.server yourself.
Instructions for this are provided by GitLab at
Fast lookup of authorized SSH keys in the databasse
For use in HA configurations, or when using postgres replication in a single-node setup, this module supports automated configuration
of pgbouncer authentication. To set this up, set pgpass_file_ensure => 'present'
and provide a valid value for pgbouncer_password
.
class {'gitlab':
pgpass_file_ensure => 'present',
pgbouncer_password => 'YourPassword'
}
By default, this creates a file at /home/gitlab-consul/.pgpass
, which gitlab uses to authenticate to the pgbouncer database as the
gitlab-consul
database user. This does not refer to the gitlab-consul
system user. The location of the .pgpass
file can
be changed based on how you manage homedirs or based on your utilization of NFS. This location should be set to be the home
directory you have configured for the gitlab-consul
system user.
class {'gitlab':
pgpass_file_location => '/homedir/for/gitlab-consul-system-user/.pgpass'
}
The Gitlab module has a task that allows a user to upgrade the pgsql database Gitlab uses if upgrading from version 9.2.18, which is required to upgrade Gitlab past 10. When running the tasks on the command line, you will need to use the --sudo
, --run-as-root
, and --tty
flags to execute the commands as needed for your environment.
Please refer to to the PE documentation or Bolt documentation on how to execute a task.
- Fork it (https://github.com/voxpupuli/puppet-gitlab/fork)
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create a new Pull Request
Make sure your PR passes the Rspec tests.
Have a look at Github contributors to see a list of all the awesome contributors to this Puppet module. <3 This module was created and maintained by VSHN AG until the end of 2017. It was then donated to Voxpupuli so that a broader community is able to maintain the module.