Geo with external PostgreSQL instances (PREMIUM SELF)
This document is relevant if you are using a PostgreSQL instance that is not managed by Omnibus. This includes cloud-managed instances like Amazon RDS, or manually installed and configured PostgreSQL instances.
NOTE: We strongly recommend running Omnibus-managed instances as they are actively developed and tested. We aim to be compatible with most external (not managed by Omnibus) databases but we do not guarantee compatibility.
Primary node
-
SSH into a GitLab primary application server and login as root:
sudo -i
-
Edit
/etc/gitlab/gitlab.rb
and add:## ## Geo Primary role ## - configure dependent flags automatically to enable Geo ## roles ['geo_primary_role'] ## ## The unique identifier for the Geo site. See ## https://docs.gitlab.com/ee/user/admin_area/geo_nodes.html#common-settings ## gitlab_rails['geo_node_name'] = '<site_name_here>'
-
Reconfigure the primary node for the change to take effect:
gitlab-ctl reconfigure
-
Execute the command below to define the node as primary node:
gitlab-ctl set-geo-primary-node
This command will use your defined
external_url
in/etc/gitlab/gitlab.rb
.
Configure the external database to be replicated
To set up an external database, you can either:
- Set up streaming replication yourself (for example Amazon RDS, bare metal not managed by Omnibus, and so on).
- Perform the Omnibus configuration manually as follows.
Leverage your cloud provider's tools to replicate the primary database
Given you have a primary node set up on AWS EC2 that uses RDS. You can now just create a read-only replica in a different region and the replication process will be managed by AWS. Make sure you've set Network ACL, Subnet, and Security Group according to your needs, so the secondary application node can access the database.
The following instructions detail how to create a read-only replica for common cloud providers:
- Amazon RDS - Creating a Read Replica
- Azure Database for PostgreSQL - Create and manage read replicas in Azure Database for PostgreSQL
- Google Cloud SQL - Creating read replicas
Once your read-only replica is set up, you can skip to configure your secondary application node.
Manually configure the primary database for replication
The geo_primary_role
configures the primary node's database to be replicated by making changes to
pg_hba.conf
and postgresql.conf
. Make the following configuration changes
manually to your external database configuration and ensure that you restart PostgreSQL
afterwards for the changes to take effect:
##
## Geo Primary Role
## - pg_hba.conf
##
host all all <trusted primary IP>/32 md5
host replication gitlab_replicator <trusted primary IP>/32 md5
host all all <trusted secondary IP>/32 md5
host replication gitlab_replicator <trusted secondary IP>/32 md5
##
## Geo Primary Role
## - postgresql.conf
##
wal_level = hot_standby
max_wal_senders = 10
wal_keep_segments = 50
max_replication_slots = 1 # number of secondary instances
hot_standby = on
Secondary nodes
Manually configure the replica database
Make the following configuration changes manually to your pg_hba.conf
and postgresql.conf
of your external replica database and ensure that you restart PostgreSQL afterwards
for the changes to take effect:
##
## Geo Secondary Role
## - pg_hba.conf
##
host all all <trusted secondary IP>/32 md5
host replication gitlab_replicator <trusted secondary IP>/32 md5
host all all <trusted primary IP>/24 md5
##
## Geo Secondary Role
## - postgresql.conf
##
wal_level = hot_standby
max_wal_senders = 10
wal_keep_segments = 10
hot_standby = on
Configure secondary application nodes to use the external read-replica
With Omnibus, the
geo_secondary_role
has three main functions:
- Configure the replica database.
- Configure the tracking database.
- Enable the Geo Log Cursor (not covered in this section).
To configure the connection to the external read-replica database and enable Log Cursor:
-
SSH into a GitLab secondary application server and login as root:
sudo -i
-
Edit
/etc/gitlab/gitlab.rb
and add the following## ## Geo Secondary role ## - configure dependent flags automatically to enable Geo ## roles ['geo_secondary_role'] # note this is shared between both databases, # make sure you define the same password in both gitlab_rails['db_password'] = '<your_password_here>' gitlab_rails['db_username'] = 'gitlab' gitlab_rails['db_host'] = '<database_read_replica_host>' # Disable the bundled Omnibus PostgreSQL, since we are # using an external PostgreSQL postgresql['enable'] = false
-
Save the file and reconfigure GitLab
Configure the tracking database
Secondary nodes use a separate PostgreSQL installation as a tracking
database to keep track of replication status and automatically recover from
potential replication issues. Omnibus automatically configures a tracking database
when roles ['geo_secondary_role']
is set.
If you want to run this database external to Omnibus GitLab, use the following instructions.
If you are using a cloud-managed service for the tracking database, you may need
to grant additional roles to your tracking database user (by default, this is
gitlab_geo
):
- Amazon RDS requires the
rds_superuser
role. - Azure Database for PostgreSQL requires the
azure_pg_admin
role. - Google Cloud SQL requires the
cloudsqlsuperuser
role.
This is for the installation of extensions during installation and upgrades. As an alternative, ensure the extensions are installed manually, and read about the problems that may arise during future GitLab upgrades.
To setup an external tracking database, follow the instructions below:
NOTE: If you want to use Amazon RDS as a tracking database, make sure it has access to the secondary database. Unfortunately, just assigning the same security group is not enough as outbound rules do not apply to RDS PostgreSQL databases. Therefore, you need to explicitly add an inbound rule to the read-replica's security group allowing any TCP traffic from the tracking database on port 5432.
-
Set up PostgreSQL according to the database requirements document.
-
Set up a
gitlab_geo
user with a password of your choice, create thegitlabhq_geo_production
database, and make the user an owner of the database. You can see an example of this setup in the installation from source documentation. -
If you are not using a cloud-managed PostgreSQL database, ensure that your secondary node can communicate with your tracking database by manually changing the
pg_hba.conf
that is associated with your tracking database. Remember to restart PostgreSQL afterwards for the changes to take effect:## ## Geo Tracking Database Role ## - pg_hba.conf ## host all all <trusted tracking IP>/32 md5 host all all <trusted secondary IP>/32 md5
-
SSH into a GitLab secondary server and login as root:
sudo -i
-
Edit
/etc/gitlab/gitlab.rb
with the connection parameters and credentials for the machine with the PostgreSQL instance:geo_secondary['db_username'] = 'gitlab_geo' geo_secondary['db_password'] = '<your_password_here>' geo_secondary['db_host'] = '<tracking_database_host>' geo_secondary['db_port'] = <tracking_database_port> # change to the correct port geo_postgresql['enable'] = false # don't use internal managed instance
-
Save the file and reconfigure GitLab
-
The reconfigure should automatically create the database. If needed, you can perform this task manually. This task (whether run by itself or during reconfigure) requires the database user to be a superuser.
gitlab-rake geo:db:create
-
The reconfigure should automatically migrate the database. You can migrate the database manually if needed, for example if
geo_secondary['auto_migrate'] = false
:gitlab-rake geo:db:migrate