debian-mirror-gitlab/doc/administration/geo/replication/database_source.md

Geo database replication (source) [PREMIUM ONLY]

NOTE: Note: This documentation applies to GitLab source installations. In GitLab 11.5, this documentation was deprecated and will be removed in a future release. Please consider migrating to GitLab Omnibus install. For installations using the Omnibus GitLab packages, follow the database replication for Omnibus GitLab guide.

NOTE: Note: The stages of the setup process must be completed in the documented order. Before attempting the steps in this stage, complete all prior stages.

This document describes the minimal steps you have to take in order to replicate your primary GitLab database to a secondary node's database. You may have to change some values according to your database setup, how big it is, etc.

You are encouraged to first read through all the steps before executing them in your testing/production environment.

PostgreSQL replication

The GitLab primary node where the write operations happen will connect to primary database server, and the secondary ones which are read-only will connect to secondary database servers (which are read-only too).

NOTE: Note: In many databases' documentation, you will see "primary" being referenced as "master" and "secondary" as either "slave" or "standby" server (read-only).

We recommend using PostgreSQL replication slots to ensure the primary node retains all the data necessary for the secondaries to recover. See below for more details.

The following guide assumes that:

• You are using PostgreSQL 9.6 or later which includes the pg_basebackup tool and improved Foreign Data Wrapper support.
• You have a primary node already set up (the GitLab server you are replicating from), running PostgreSQL 9.6 or later, and you have a new secondary server set up with the same versions of the OS, PostgreSQL, and GitLab on all nodes.
• The IP of the primary server for our examples is 198.51.100.1, whereas the secondary node's IP is 198.51.100.2. Note that the primary and secondary servers must be able to communicate over these addresses. These IP addresses can either be public or private.

CAUTION: Warning: Geo works with streaming replication. Logical replication is not supported at this time. There is an issue where support is being discussed.

Step 1. Configure the primary server

1. SSH into your GitLab primary server and login as root:

   sudo -i
   

2. Add this node as the Geo primary by running:

   bundle exec rake geo:set_primary_node
   

3. Create a replication user named gitlab_replicator:

   --- Create a new user 'replicator'
   CREATE USER gitlab_replicator;
   
   --- Set/change a password and grants replication privilege
   ALTER USER gitlab_replicator WITH REPLICATION ENCRYPTED PASSWORD '<replication_password>';
   

4. Make sure your the gitlab database user has a password defined:

   sudo \
      -u postgres psql \
      -d template1 \
      -c "ALTER USER gitlab WITH ENCRYPTED PASSWORD '<database_password>';"
   

5. Edit the content of database.yml in production: and add the password like the example below:

   #
   # PRODUCTION
   #
   production:
     adapter: postgresql
     encoding: unicode
     database: gitlabhq_production
     pool: 10
     username: gitlab
     password: <database_password>
     host: /var/opt/gitlab/geo-postgresql
   

6. Set up TLS support for the PostgreSQL primary server:

   CAUTION: Warning: Only skip this step if you know that PostgreSQL traffic between the primary and secondary nodes will be secured through some other means, e.g., a known-safe physical network path or a site-to-site VPN that you have configured.

   If you are replicating your database across the open Internet, it is essential that the connection is TLS-secured. Correctly configured, this provides protection against both passive eavesdroppers and active "man-in-the-middle" attackers.

   To generate a self-signed certificate and key, run this command:

   openssl req \
      -nodes \
      -batch \
      -x509 \
      -newkey rsa:4096 \
      -keyout server.key \
      -out server.crt \
      -days 3650
   

   This will create two files - server.key and server.crt - that you can use for authentication.

   Copy them to the correct location for your PostgreSQL installation:

   # Copying a self-signed certificate and key
   install -o postgres -g postgres -m 0400 -T server.crt ~postgres/9.x/main/data/server.crt
   install -o postgres -g postgres -m 0400 -T server.key ~postgres/9.x/main/data/server.key
   

   Add this configuration to postgresql.conf, removing any existing configuration for ssl_cert_file or ssl_key_file:

   ssl = on
   ssl_cert_file='server.crt'
   ssl_key_file='server.key'
   

7. Edit postgresql.conf to configure the primary server for streaming replication (for Debian/Ubuntu that would be /etc/postgresql/9.x/main/postgresql.conf):

   listen_address = '<primary_node_ip>'
   wal_level = hot_standby
   max_wal_senders = 5
   min_wal_size = 80MB
   max_wal_size = 1GB
   max_replicaton_slots = 1 # Number of Geo secondary nodes
   wal_keep_segments = 10
   hot_standby = on
   

   NOTE: Note: Be sure to set max_replication_slots to the number of Geo secondary nodes that you may potentially have (at least 1).

   For security reasons, PostgreSQL by default only listens on the local interface (e.g. 127.0.0.1). However, Geo needs to communicate between the primary and secondary nodes over a common network, such as a corporate LAN or the public Internet. For this reason, we need to configure PostgreSQL to listen on more interfaces.

   The listen_address option opens PostgreSQL up to external connections with the interface corresponding to the given IP. See the PostgreSQL documentation for more details.

   You may also want to edit the wal_keep_segments and max_wal_senders to match your database replication requirements. Consult the PostgreSQL - Replication documentation for more information.

8. Set the access control on the primary node to allow TCP connections using the server's public IP and set the connection from the secondary node to require a password. Edit pg_hba.conf (for Debian/Ubuntu that would be /etc/postgresql/9.x/main/pg_hba.conf):

   host    all             all                      <primary_node_ip>/32      md5
   host    replication     gitlab_replicator        <secondary_node_ip>/32      md5
   

   If you want to add another secondary, add one more row like the replication one and change the IP address:

   host    all             all                      <primary_node_ip>/32      md5
   host    replication     gitlab_replicator        <secondary_node_ip>/32      md5
   host    replication     gitlab_replicator        <another_secondary_node_ip>/32  md5
   

9. Restart PostgreSQL for the changes to take effect.

10. Choose a database-friendly name to use for your secondary to use as the replication slot name. For example, if your domain is secondary.geo.example.com, you may use secondary_example as the slot name.

11. Create the replication slot on the primary node:

    $ sudo -u postgres psql -c "SELECT * FROM pg_create_physical_replication_slot('secondary_example');"
      slot_name         | xlog_position
      ------------------+---------------
      secondary_example |
      (1 row)
    

12. Now that the PostgreSQL server is set up to accept remote connections, run netstat -plnt to make sure that PostgreSQL is listening to the server's public IP.

Step 2. Configure the secondary server

Follow the first steps in "configure the secondary server" and note that since you are installing from source, the username and group listed as gitlab-psql in those steps should be replaced by postgres instead. After completing the "Test that the gitlab-psql user can connect to the primary node's database" step, continue here:

1. Edit postgresql.conf to configure the secondary for streaming replication (for Debian/Ubuntu that would be /etc/postgresql/9.*/main/postgresql.conf):

   wal_level = hot_standby
   max_wal_senders = 5
   checkpoint_segments = 10
   wal_keep_segments = 10
   hot_standby = on
   

2. Restart PostgreSQL for the changes to take effect.

Enable tracking database on the secondary server

Geo secondary nodes use a tracking database to keep track of replication status and recover automatically from some replication issues. Follow the steps below to create the tracking database.

1. On the secondary node, run the following command to create database_geo.yml with the information of your secondary PostgreSQL instance:

   sudo cp /home/git/gitlab/config/database_geo.yml.postgresql /home/git/gitlab/config/database_geo.yml
   

2. Edit the content of database_geo.yml in production: as in the example below:

   #
   # PRODUCTION
   #
   production:
     adapter: postgresql
     encoding: unicode
     database: gitlabhq_geo_production
     pool: 10
     username: gitlab_geo
     # password:
     host: /var/opt/gitlab/geo-postgresql
   

3. Create the database gitlabhq_geo_production on the PostgreSQL instance of the secondary node.

4. Set up the Geo tracking database:

   bundle exec rake geo:db:migrate
   

5. Configure the PostgreSQL FDW connection and credentials:

   Save the script below in a file, ex. /tmp/geo_fdw.sh and modify the connection params to match your environment. Execute it to set up the FDW connection.

   #!/bin/bash
   
   # Secondary Database connection params:
   DB_HOST="/var/opt/gitlab/postgresql" # change to the public IP or VPC private IP if its an external server
   DB_NAME="gitlabhq_production"
   DB_USER="gitlab"
   DB_PORT="5432"
   
   # Tracking Database connection params:
   GEO_DB_HOST="/var/opt/gitlab/geo-postgresql" # change to the public IP or VPC private IP if its an external server
   GEO_DB_NAME="gitlabhq_geo_production"
   GEO_DB_USER="gitlab_geo"
   GEO_DB_PORT="5432"
   
   query_exec () {
     gitlab-psql -h $GEO_DB_HOST -d $GEO_DB_NAME -p $GEO_DB_PORT -c "${1}"
   }
   
   query_exec "CREATE EXTENSION postgres_fdw;"
   query_exec "CREATE SERVER gitlab_secondary FOREIGN DATA WRAPPER postgres_fdw OPTIONS (host '${DB_HOST}', dbname '${DB_NAME}', port '${DB_PORT}');"
   query_exec "CREATE USER MAPPING FOR ${GEO_DB_USER} SERVER gitlab_secondary OPTIONS (user '${DB_USER}');"
   query_exec "CREATE SCHEMA gitlab_secondary;"
   query_exec "GRANT USAGE ON FOREIGN SERVER gitlab_secondary TO ${GEO_DB_USER};"
   

   And edit the content of database_geo.yml and to add fdw: true to the production: block.

Step 3. Initiate the replication process

Below we provide a script that connects the database on the secondary node to the database on the primary node, replicates the database, and creates the needed files for streaming replication.

The directories used are the defaults for Debian/Ubuntu. If you have changed any defaults, configure it as you see fit replacing the directories and paths.

CAUTION: Warning: Make sure to run this on the secondary server as it removes all PostgreSQL's data before running pg_basebackup.

1. SSH into your GitLab secondary server and login as root:

   sudo -i
   

2. Save the snippet below in a file, let's say /tmp/replica.sh. Modify the embedded paths if necessary:

   #!/bin/bash
   
   PORT="5432"
   USER="gitlab_replicator"
   echo ---------------------------------------------------------------
   echo WARNING: Make sure this script is run from the secondary server
   echo ---------------------------------------------------------------
   echo
   echo Enter the IP or FQDN of the primary PostgreSQL server
   read HOST
   echo Enter the password for $USER@$HOST
   read -s PASSWORD
   echo Enter the required sslmode
   read SSLMODE
   
   echo Stopping PostgreSQL and all GitLab services
   sudo service gitlab stop
   sudo service postgresql stop
   
   echo Backing up postgresql.conf
   sudo -u postgres mv /var/opt/gitlab/postgresql/data/postgresql.conf /var/opt/gitlab/postgresql/
   
   echo Cleaning up old cluster directory
   sudo -u postgres rm -rf /var/opt/gitlab/postgresql/data
   
   echo Starting base backup as the replicator user
   echo Enter the password for $USER@$HOST
   sudo -u postgres /opt/gitlab/embedded/bin/pg_basebackup -h $HOST -D /var/opt/gitlab/postgresql/data -U gitlab_replicator -v -x -P
   
   echo Writing recovery.conf file
   sudo -u postgres bash -c "cat > /var/opt/gitlab/postgresql/data/recovery.conf <<- _EOF1_
     standby_mode = 'on'
     primary_conninfo = 'host=$HOST port=$PORT user=$USER password=$PASSWORD sslmode=$SSLMODE'
   _EOF1_
   "
   
   echo Restoring postgresql.conf
   sudo -u postgres mv /var/opt/gitlab/postgresql/postgresql.conf /var/opt/gitlab/postgresql/data/
   
   echo Starting PostgreSQL
   sudo service postgresql start
   

3. Run it with:

   bash /tmp/replica.sh
   

   When prompted, enter the IP/FQDN of the primary node, and the password you set up for the gitlab_replicator user in the first step.

   You should use verify-ca for the sslmode. You can use disable if you are happy to skip PostgreSQL TLS authentication altogether (e.g., you know the network path is secure, or you are using a site-to-site VPN). This is not safe over the public Internet!

   You can read more details about each sslmode in the PostgreSQL documentation; the instructions above are carefully written to ensure protection against both passive eavesdroppers and active "man-in-the-middle" attackers.

The replication process is now over.

PGBouncer support (optional)

1. First, enter the PostgreSQL console as an admin user.

2. Then create the read-only user:

   -- NOTE: Use the password defined earlier
   CREATE USER gitlab_geo_fdw WITH password '<your_password_here>';
   GRANT CONNECT ON DATABASE gitlabhq_production to gitlab_geo_fdw;
   GRANT USAGE ON SCHEMA public TO gitlab_geo_fdw;
   GRANT SELECT ON ALL TABLES IN SCHEMA public TO gitlab_geo_fdw;
   GRANT SELECT ON ALL SEQUENCES IN SCHEMA public TO gitlab_geo_fdw;
   
   -- Tables created by "gitlab" should be made read-only for "gitlab_geo_fdw"
   -- automatically.
   ALTER DEFAULT PRIVILEGES FOR USER gitlab IN SCHEMA public GRANT SELECT ON TABLES TO gitlab_geo_fdw;
   ALTER DEFAULT PRIVILEGES FOR USER gitlab IN SCHEMA public GRANT SELECT ON SEQUENCES TO gitlab_geo_fdw;
   

3. Enter the PostgreSQL console on the secondary tracking database and change the user mapping to this new user:

   ALTER USER MAPPING FOR gitlab_geo SERVER gitlab_secondary OPTIONS (SET user 'gitlab_geo_fdw')
   

MySQL replication

MySQL replication is not supported for Geo.

Troubleshooting

Read the troubleshooting document.