--- stage: Systems group: Distribution info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#assignments --- # Zero downtime upgrades **(FREE SELF)** It's possible to upgrade to a newer major, minor, or patch version of GitLab without having to take your GitLab instance offline. However, for this to work there are the following requirements: - You can only upgrade one minor release at a time. So from 13.1 to 13.2, not to 13.3. If you skip releases, database modifications may be run in the wrong sequence [and leave the database schema in a broken state](https://gitlab.com/gitlab-org/gitlab/-/issues/321542). - You have to use [post-deployment migrations](../development/database/post_deployment_migrations.md). - You are using PostgreSQL. Starting from GitLab 12.1, MySQL is not supported. - You have set up a multi-node GitLab instance. Single-node instances do not support zero-downtime upgrades. If you want to upgrade multiple releases or do not meet the other requirements: - [Upgrade a single node with downtime](package/index.md). - [Upgrade a multi-node instance with downtime](with_downtime.md). If you meet all the requirements above, follow these instructions in order. There are three sets of steps, depending on your deployment type: | Deployment type | Description | | --------------------------------------------------------------- | ------------------------------------------------ | | [Gitaly or Gitaly Cluster](#gitaly-or-gitaly-cluster) | GitLab CE/EE using HA architecture for Gitaly or Gitaly Cluster | | [Multi-node / PostgreSQL HA](#postgresql) | GitLab CE/EE using HA architecture for PostgreSQL | | [Multi-node / Redis HA](#redis-ha-using-sentinel) | GitLab CE/EE using HA architecture for Redis | | [Geo](#geo-deployment) | GitLab EE with Geo enabled | | [Multi-node / HA with Geo](#multi-node--ha-deployment-with-geo) | GitLab CE/EE on multiple nodes | Each type of deployment requires that you hot reload the `puma` and `sidekiq` processes on all nodes running these services after you've upgraded. The reason for this is that those processes each load the GitLab Rails application which reads and loads the database schema into memory when starting up. Each of these processes must be reloaded (or restarted in the case of `sidekiq`) to re-read any database changes that have been made by post-deployment migrations. Most of the time you can safely upgrade from a patch release to the next minor release if the patch release is not the latest. For example, upgrading from 14.1.1 to 14.2.0 should be safe even if 14.1.2 has been released. We do recommend you check the release posts of any releases between your current and target version just in case they include any migrations that may require you to upgrade one release at a time. We also recommend you verify the [version specific upgrading instructions](index.md#version-specific-upgrading-instructions) relevant to your [upgrade path](index.md#upgrade-paths). Some releases may also include so called "background migrations". These migrations are performed in the background by Sidekiq and are often used for migrating data. Background migrations are only added in the monthly releases. Certain major/minor releases may require a set of background migrations to be finished. To guarantee this, such a release processes any remaining jobs before continuing the upgrading procedure. While this doesn't require downtime (if the above conditions are met) we require that you [wait for background migrations to complete](index.md#checking-for-background-migrations-before-upgrading) between each major/minor release upgrade. The time necessary to complete these migrations can be reduced by increasing the number of Sidekiq workers that can process jobs in the `background_migration` queue. To see the size of this queue, [Check for background migrations before upgrading](index.md#checking-for-background-migrations-before-upgrading). As a guideline, any database smaller than 10 GB doesn't take too much time to upgrade; perhaps an hour at most per minor release. Larger databases however may require more time, but this is highly dependent on the size of the database and the migrations that are being performed. To help explain this, let's look at some examples: **Example 1:** You are running a large GitLab installation using version 13.4.2, which is the latest patch release of 13.4. When GitLab 13.5.0 is released this installation can be safely upgraded to 13.5.0 without requiring downtime if the requirements mentioned above are met. You can also skip 13.5.0 and upgrade to 13.5.1 after it's released, but you **can not** upgrade straight to 13.6.0; you _have_ to first upgrade to a 13.5.Z release. **Example 2:** You are running a large GitLab installation using version 13.4.2, which is the latest patch release of 13.4. GitLab 13.5 includes some background migrations, and 14.0 requires these to be completed (processing any remaining jobs for you). Skipping 13.5 is not possible without downtime, and due to the background migrations would require potentially hours of downtime depending on how long it takes for the background migrations to complete. To work around this you have to upgrade to 13.5.Z first, then wait at least a week before upgrading to 14.0. **Example 3:** You use MySQL as the database for GitLab. Any upgrade to a new major/minor release requires downtime. If a release includes any background migrations this could potentially lead to hours of downtime, depending on the size of your database. To work around this you must use PostgreSQL and meet the other online upgrade requirements mentioned above. ## Multi-node / HA deployment WARNING: You can only upgrade one minor release at a time. So from 13.6 to 13.7, not to 13.8. If you attempt more than one minor release, the upgrade may fail. ### Use a load balancer in front of web (Puma) nodes With Puma, single node zero-downtime updates are no longer possible. To achieve HA with zero-downtime updates, at least two nodes are required to be used with a load balancer which distributes the connections properly across both nodes. The load balancer in front of the application nodes must be configured to check proper health check endpoints to check if the service is accepting traffic or not. For Puma, the `/-/readiness` endpoint should be used, while `/readiness` endpoint can be used for Sidekiq and other services. Upgrades on web (Puma) nodes must be done in a rolling manner, one after another, ensuring at least one node is always up to serve traffic. This is required to ensure zero-downtime. Puma enters a blackout period as part of the upgrade, during which nodes continue to accept connections but mark their respective health check endpoints to be unhealthy. On seeing this, the load balancer should disconnect them gracefully. Puma restarts only after completing all the currently processing requests. This ensures data and service integrity. Once they have restarted, the health check end points are marked healthy. The nodes must be updated in the following order to update an HA instance using load balancer to latest GitLab version. 1. Select one application node as a deploy node and complete the following steps on it: 1. Create an empty file at `/etc/gitlab/skip-auto-reconfigure`. This prevents upgrades from running `gitlab-ctl reconfigure`, which by default automatically stops GitLab, runs all database migrations, and restarts GitLab: ```shell sudo touch /etc/gitlab/skip-auto-reconfigure ``` 1. Update the GitLab package: ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` If you are a Community Edition user, replace `gitlab-ee` with `gitlab-ce` in the above command. 1. Get the regular migrations and latest code in place. Before running this step, the deploy node's `/etc/gitlab/gitlab.rb` configuration file must have `gitlab_rails['auto_migrate'] = true` to permit regular migrations. ```shell sudo SKIP_POST_DEPLOYMENT_MIGRATIONS=true gitlab-ctl reconfigure ``` 1. Ensure services use the latest code: ```shell sudo gitlab-ctl hup puma sudo gitlab-ctl restart sidekiq ``` 1. Complete the following steps on the other Puma/Sidekiq nodes, one after another. Always ensure at least one of such nodes is up and running, and connected to the load balancer before proceeding to the next node. 1. Update the GitLab package and ensure a `reconfigure` is run as part of it. If not (due to `/etc/gitlab/skip-auto-reconfigure` file being present), run `sudo gitlab-ctl reconfigure` manually. 1. Ensure services use latest code: ```shell sudo gitlab-ctl hup puma sudo gitlab-ctl restart sidekiq ``` 1. On the deploy node, run the post-deployment migrations: ```shell sudo gitlab-rake db:migrate ``` ### Gitaly or Gitaly Cluster Gitaly nodes can be located on their own server, either as part of a sharded setup, or as part of [Gitaly Cluster](../administration/gitaly/praefect.md). Before you update the main GitLab application you must (in order): 1. Upgrade the Gitaly nodes that reside on separate servers. 1. Upgrade Praefect if using Gitaly Cluster. #### Upgrade Gitaly nodes Upgrade the Gitaly nodes one at a time to ensure access to Git repositories is maintained: ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` If you are a Community Edition user, replace `gitlab-ee` with `gitlab-ce` in the above command. #### Upgrade Praefect From the Praefect nodes, select one to be your Praefect deploy node. You install the new Omnibus package on the deploy node first and run database migrations. 1. On the **Praefect deploy node**: 1. Create an empty file at `/etc/gitlab/skip-auto-reconfigure`. This prevents upgrades from running `gitlab-ctl reconfigure`, which by default automatically stops GitLab, runs all database migrations, and restarts GitLab: ```shell sudo touch /etc/gitlab/skip-auto-reconfigure ``` 1. Ensure that `praefect['auto_migrate'] = true` is set in `/etc/gitlab/gitlab.rb`. 1. On all **remaining Praefect nodes**, ensure that `praefect['auto_migrate'] = false` is set in `/etc/gitlab/gitlab.rb` to prevent `reconfigure` from automatically running database migrations. 1. On the **Praefect deploy node**: 1. Upgrade the GitLab package: ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` If you are a Community Edition user, replace `gitlab-ee` with `gitlab-ce` in the command above. 1. To apply the Praefect database migrations and restart Praefect, run: ```shell sudo gitlab-ctl reconfigure ``` 1. On all **remaining Praefect nodes**: 1. Upgrade the GitLab package: ```shell sudo apt-get update && sudo apt-get install gitlab-ee ``` If you are a Community Edition user, replace `gitlab-ee` with `gitlab-ce` in the command above. 1. Ensure nodes are running the latest code: ```shell sudo gitlab-ctl reconfigure ``` ### PostgreSQL Pick a node to be the `Deploy Node`. It can be any application node, but it must be the same node throughout the process. **Deploy node** - Create an empty file at `/etc/gitlab/skip-auto-reconfigure`. This prevents upgrades from running `gitlab-ctl reconfigure`, which by default automatically stops GitLab, runs all database migrations, and restarts GitLab. ```shell sudo touch /etc/gitlab/skip-auto-reconfigure ``` **All nodes _including_ the Deploy node** - To prevent `reconfigure` from automatically running database migrations, ensure that `gitlab_rails['auto_migrate'] = false` is set in `/etc/gitlab/gitlab.rb`. **PostgreSQL only nodes** - Update the GitLab package ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` If you are a Community Edition user, replace `gitlab-ee` with `gitlab-ce` in the above command. - Ensure nodes are running the latest code ```shell sudo gitlab-ctl reconfigure ``` **Deploy node** - Update the GitLab package ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` If you are a Community Edition user, replace `gitlab-ee` with `gitlab-ce` in the above command. - If you're using PgBouncer: You must bypass PgBouncer and connect directly to the database leader before running migrations. Rails uses an advisory lock when attempting to run a migration to prevent concurrent migrations from running on the same database. These locks are not shared across transactions, resulting in `ActiveRecord::ConcurrentMigrationError` and other issues when running database migrations using PgBouncer in transaction pooling mode. To find the leader node, run the following on a database node: ```shell sudo gitlab-ctl patroni members ``` Then, in your `gitlab.rb` file on the deploy node, update `gitlab_rails['db_host']` and `gitlab_rails['db_port']` with the database leader's host and port. - To get the regular database migrations and latest code in place, run ```shell sudo gitlab-ctl reconfigure sudo SKIP_POST_DEPLOYMENT_MIGRATIONS=true gitlab-rake db:migrate ``` **All nodes _excluding_ the Deploy node** - Update the GitLab package ```shell sudo apt-get update && sudo apt-get install gitlab-ee ``` If you are a Community Edition user, replace `gitlab-ee` with `gitlab-ce` in the above command. - Ensure nodes are running the latest code ```shell sudo gitlab-ctl reconfigure ``` **Deploy node** - Run post-deployment database migrations on deploy node to complete the migrations with ```shell sudo gitlab-rake db:migrate ``` **For nodes that run Puma or Sidekiq** - Hot reload `puma` and `sidekiq` services ```shell sudo gitlab-ctl hup puma sudo gitlab-ctl restart sidekiq ``` - If you're using PgBouncer: Change your `gitlab.rb` to point back to PgBouncer and run: ```shell sudo gitlab-ctl reconfigure ``` If you do not want to run zero downtime upgrades in the future, make sure you remove `/etc/gitlab/skip-auto-reconfigure` and revert setting `gitlab_rails['auto_migrate'] = false` in `/etc/gitlab/gitlab.rb` after you've completed these steps. ### Redis HA (using Sentinel) **(PREMIUM SELF)** Package upgrades may involve version updates to the bundled Redis service. On instances using [Redis for scaling](../administration/redis/index.md), upgrades must follow a proper order to ensure minimum downtime, as specified below. This doc assumes the official guides are being followed to setup Redis HA. #### In the application node According to [official Redis documentation](https://redis.io/docs/manual/admin/#upgrading-or-restarting-a-redis-instance-without-downtime), the easiest way to update an HA instance using Sentinel is to upgrade the secondaries one after the other, perform a manual failover from current primary (running old version) to a recently upgraded secondary (running a new version), and then upgrade the original primary. For this, we must know the address of the current Redis primary. - If your application node is running GitLab 12.7.0 or later, you can use the following command to get address of current Redis primary ```shell sudo gitlab-ctl get-redis-master ``` - If your application node is running a version older than GitLab 12.7.0, you have to run the underlying `redis-cli` command (which `get-redis-master` command uses) to fetch information about the primary. 1. Get the address of one of the sentinel nodes specified as `gitlab_rails['redis_sentinels']` in `/etc/gitlab/gitlab.rb` 1. Get the Redis main name specified as `redis['master_name']` in `/etc/gitlab/gitlab.rb` 1. Run the following command ```shell sudo /opt/gitlab/embedded/bin/redis-cli -h -p SENTINEL get-master-addr-by-name ``` #### In the Redis secondary nodes 1. Set `gitlab_rails['rake_cache_clear'] = false` in `gitlab.rb` if you haven't already. If not, you might receive the error `Redis::CommandError: READONLY You can't write against a read only replica.` during the reconfigure post installation of new package. 1. Install package for new version. 1. Run `sudo gitlab-ctl reconfigure`, if a reconfigure is not run as part of installation (due to `/etc/gitlab/skip-auto-reconfigure` file being present). 1. If reconfigure warns about a pending Redis/Sentinel restart, restart the corresponding service ```shell sudo gitlab-ctl restart redis sudo gitlab-ctl restart sentinel ``` #### In the Redis primary node Before upgrading the Redis primary node, we must perform a failover so that one of the recently upgraded secondary nodes becomes the new primary. After the failover is complete, we can go ahead and upgrade the original primary node. 1. Stop Redis service in Redis primary node so that it fails over to a secondary node ```shell sudo gitlab-ctl stop redis ``` 1. Wait for failover to be complete. You can verify it by periodically checking details of the current Redis primary node (as mentioned above). If it starts reporting a new IP, failover is complete. 1. Start Redis again in that node, so that it starts following the current primary node. ```shell sudo gitlab-ctl start redis ``` 1. Install package corresponding to new version. 1. Run `sudo gitlab-ctl reconfigure`, if a reconfigure is not run as part of installation (due to `/etc/gitlab/skip-auto-reconfigure` file being present). 1. If reconfigure warns about a pending Redis/Sentinel restart, restart the corresponding service ```shell sudo gitlab-ctl restart redis sudo gitlab-ctl restart sentinel ``` #### Update the application node Install the package for new version and follow regular package upgrade procedure. ## Geo deployment **(PREMIUM SELF)** WARNING: You can only upgrade one minor release at a time. The order of steps is important. While following these steps, make sure you follow them in the right order, on the correct node. ### Update the Geo primary site Log in to your **primary** node, executing the following: 1. Create an empty file at `/etc/gitlab/skip-auto-reconfigure`. This prevents upgrades from running `gitlab-ctl reconfigure`, which by default automatically stops GitLab, runs all database migrations, and restarts GitLab: ```shell sudo touch /etc/gitlab/skip-auto-reconfigure ``` 1. Edit `/etc/gitlab/gitlab.rb` and ensure the following is present: ```ruby gitlab_rails['auto_migrate'] = false ``` 1. Reconfigure GitLab: ```shell sudo gitlab-ctl reconfigure ``` 1. Update the GitLab package: ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` 1. To get the database migrations and latest code in place, run: ```shell sudo SKIP_POST_DEPLOYMENT_MIGRATIONS=true gitlab-ctl reconfigure ``` ### Update the Geo secondary site On each **secondary** node, executing the following: 1. Create an empty file at `/etc/gitlab/skip-auto-reconfigure`. This prevents upgrades from running `gitlab-ctl reconfigure`, which by default automatically stops GitLab, runs all database migrations, and restarts GitLab. ```shell sudo touch /etc/gitlab/skip-auto-reconfigure ``` 1. Edit `/etc/gitlab/gitlab.rb` and ensure the following is present: ```ruby gitlab_rails['auto_migrate'] = false ``` 1. Reconfigure GitLab: ```shell sudo gitlab-ctl reconfigure ``` 1. Update the GitLab package: ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` 1. To get the database migrations and latest code in place, run: ```shell sudo SKIP_POST_DEPLOYMENT_MIGRATIONS=true gitlab-ctl reconfigure ``` 1. Run post-deployment database migrations, specific to the Geo database: ```shell sudo gitlab-rake db:migrate:geo ``` ### Finalize the update After all **secondary** nodes are updated, finalize the update on the **primary** node: - Run post-deployment database migrations ```shell sudo gitlab-rake db:migrate ``` - After the update is finalized on the primary node, hot reload `puma` and restart `sidekiq` and `geo-logcursor` services on **all primary and secondary** nodes: ```shell sudo gitlab-ctl hup puma sudo gitlab-ctl restart sidekiq sudo gitlab-ctl restart geo-logcursor ``` After updating all nodes (both **primary** and all **secondaries**), check their status: - Verify Geo configuration and dependencies ```shell sudo gitlab-rake gitlab:geo:check ``` If you do not want to run zero downtime upgrades in the future, make sure you remove `/etc/gitlab/skip-auto-reconfigure` and revert setting `gitlab_rails['auto_migrate'] = false` in `/etc/gitlab/gitlab.rb` after you've completed these steps. ## Multi-node / HA deployment with Geo **(PREMIUM SELF)** WARNING: You can only upgrade one minor release at a time. This section describes the steps required to upgrade a multi-node / HA deployment with Geo. Some steps must be performed on a particular node. This node is known as the "deploy node" and is noted through the following instructions. Updates must be performed in the following order: 1. Update Geo **primary** multi-node deployment. 1. Update Geo **secondary** multi-node deployments. 1. Post-deployment migrations and checks. ### Step 1: Choose a "deploy node" for each deployment You now must choose: - One instance for use as the **primary** "deploy node" on the Geo **primary** multi-node deployment. - One instance for use as the **secondary** "deploy node" on each Geo **secondary** multi-node deployment. Deploy nodes must be configured to be running Puma or Sidekiq or the `geo-logcursor` daemon. In order to avoid any downtime, they must not be in use during the update: - If running Puma remove the deploy node from the load balancer. - If running Sidekiq, ensure the deploy node is not processing jobs: ```shell sudo gitlab-ctl stop sidekiq ``` - If running `geo-logcursor` daemon, ensure the deploy node is not processing events: ```shell sudo gitlab-ctl stop geo-logcursor ``` For zero-downtime, Puma, Sidekiq, and `geo-logcursor` must be running on other nodes during the update. ### Step 2: Update the Geo primary multi-node deployment **On all primary nodes _including_ the primary "deploy node"** 1. Create an empty file at `/etc/gitlab/skip-auto-reconfigure`. This prevents upgrades from running `gitlab-ctl reconfigure`, which by default automatically stops GitLab, runs all database migrations, and restarts GitLab. ```shell sudo touch /etc/gitlab/skip-auto-reconfigure ``` 1. To prevent `reconfigure` from automatically running database migrations, ensure that `gitlab_rails['auto_migrate'] = false` is set in `/etc/gitlab/gitlab.rb`. 1. Ensure nodes are running the latest code ```shell sudo gitlab-ctl reconfigure ``` **On primary Gitaly only nodes** 1. Update the GitLab package ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` 1. Ensure nodes are running the latest code ```shell sudo gitlab-ctl reconfigure ``` **On the primary "deploy node"** 1. Update the GitLab package ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` 1. If you're using PgBouncer: You must bypass PgBouncer and connect directly to the database leader before running migrations. Rails uses an advisory lock when attempting to run a migration to prevent concurrent migrations from running on the same database. These locks are not shared across transactions, resulting in `ActiveRecord::ConcurrentMigrationError` and other issues when running database migrations using PgBouncer in transaction pooling mode. To find the leader node, run the following on a database node: ```shell sudo gitlab-ctl patroni members ``` Then, in your `gitlab.rb` file on the deploy node, update `gitlab_rails['db_host']` and `gitlab_rails['db_port']` with the database leader's host and port. 1. To get the regular database migrations and latest code in place, run ```shell sudo gitlab-ctl reconfigure sudo SKIP_POST_DEPLOYMENT_MIGRATIONS=true gitlab-rake db:migrate ``` 1. If this deploy node is normally used to serve requests or process jobs, then you may return it to service at this point. - To serve requests, add the deploy node to the load balancer. - To process Sidekiq jobs again, start Sidekiq: ```shell sudo gitlab-ctl start sidekiq ``` **On all primary nodes _excluding_ the primary "deploy node"** 1. Update the GitLab package ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` 1. Ensure nodes are running the latest code ```shell sudo gitlab-ctl reconfigure ``` **For all primary nodes that run Puma or Sidekiq _including_ the primary "deploy node"** Hot reload `puma` and `sidekiq` services: ```shell sudo gitlab-ctl hup puma sudo gitlab-ctl restart sidekiq ``` ### Step 3: Update each Geo secondary multi-node deployment Only proceed if you have successfully completed all steps on the Geo **primary** multi-node deployment. **On all secondary nodes _including_ the secondary "deploy node"** 1. Create an empty file at `/etc/gitlab/skip-auto-reconfigure`. This prevents upgrades from running `gitlab-ctl reconfigure`, which by default automatically stops GitLab, runs all database migrations, and restarts GitLab. ```shell sudo touch /etc/gitlab/skip-auto-reconfigure ``` 1. To prevent `reconfigure` from automatically running database migrations, ensure that `geo_secondary['auto_migrate'] = false` is set in `/etc/gitlab/gitlab.rb`. 1. Ensure nodes are running the latest code ```shell sudo gitlab-ctl reconfigure ``` **On secondary Gitaly only nodes** 1. Update the GitLab package ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` 1. Ensure nodes are running the latest code ```shell sudo gitlab-ctl reconfigure ``` **On the secondary "deploy node"** 1. Update the GitLab package ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` 1. To get the regular database migrations and latest code in place, run ```shell sudo gitlab-ctl reconfigure sudo SKIP_POST_DEPLOYMENT_MIGRATIONS=true gitlab-rake db:migrate:geo ``` 1. If this deploy node is normally used to serve requests or perform background processing, then you may return it to service at this point. - To serve requests, add the deploy node to the load balancer. - To process Sidekiq jobs again, start Sidekiq: ```shell sudo gitlab-ctl start sidekiq ``` - To process Geo events again, start the `geo-logcursor` daemon: ```shell sudo gitlab-ctl start geo-logcursor ``` **On all secondary nodes _excluding_ the secondary "deploy node"** 1. Update the GitLab package ```shell # Debian/Ubuntu sudo apt-get update && sudo apt-get install gitlab-ee # Centos/RHEL sudo yum install gitlab-ee ``` 1. Ensure nodes are running the latest code ```shell sudo gitlab-ctl reconfigure ``` **For all secondary nodes that run Puma, Sidekiq, or the `geo-logcursor` daemon _including_ the secondary "deploy node"** Hot reload `puma`, `sidekiq` and ``geo-logcursor`` services: ```shell sudo gitlab-ctl hup puma sudo gitlab-ctl restart sidekiq sudo gitlab-ctl restart geo-logcursor ``` ### Step 4: Run post-deployment migrations and checks **On the primary "deploy node"** 1. Run post-deployment database migrations: ```shell sudo gitlab-rake db:migrate ``` 1. Verify Geo configuration and dependencies ```shell sudo gitlab-rake gitlab:geo:check ``` 1. If you're using PgBouncer: Change your `gitlab.rb` to point back to PgBouncer and run: ```shell sudo gitlab-ctl reconfigure ``` **On all secondary "deploy nodes"** 1. Run post-deployment database migrations, specific to the Geo database: ```shell sudo gitlab-rake db:migrate:geo ``` 1. Verify Geo configuration and dependencies ```shell sudo gitlab-rake gitlab:geo:check ``` 1. Verify Geo status ```shell sudo gitlab-rake geo:status ```