# Disaster recovery for planned failover **(PREMIUM ONLY)** The primary use-case of Disaster Recovery is to ensure business continuity in the event of unplanned outage, but it can be used in conjunction with a planned failover to migrate your GitLab instance between regions without extended downtime. As replication between Geo nodes is asynchronous, a planned failover requires a maintenance window in which updates to the **primary** node are blocked. The length of this window is determined by your replication capacity - once the **secondary** node is completely synchronized with the **primary** node, the failover can occur without data loss. This document assumes you already have a fully configured, working Geo setup. Please read it and the [Disaster Recovery][disaster-recovery] failover documentation in full before proceeding. Planned failover is a major operation, and if performed incorrectly, there is a high risk of data loss. Consider rehearsing the procedure until you are comfortable with the necessary steps and have a high degree of confidence in being able to perform them accurately. ## Not all data is automatically replicated If you are using any GitLab features that Geo [doesn't support][limitations], you must make separate provisions to ensure that the **secondary** node has an up-to-date copy of any data associated with that feature. This may extend the required scheduled maintenance period significantly. A common strategy for keeping this period as short as possible for data stored in files is to use `rsync` to transfer the data. An initial `rsync` can be performed ahead of the maintenance window; subsequent `rsync`s (including a final transfer inside the maintenance window) will then transfer only the *changes* between the **primary** node and the **secondary** nodes. Repository-centric strategies for using `rsync` effectively can be found in the [moving repositories][moving-repositories] documentation; these strategies can be adapted for use with any other file-based data, such as GitLab Pages (to be found in `/var/opt/gitlab/gitlab-rails/shared/pages` if using Omnibus). ## Pre-flight checks Follow these steps before scheduling a planned failover to ensure the process will go smoothly. ### Object storage Some classes of non-repository data can use object storage in preference to file storage. Geo [does not replicate data in object storage](../replication/object_storage.md), leaving that task up to the object store itself. For a planned failover, this means you can decouple the replication of this data from the failover of the GitLab service. If you're already using object storage, simply verify that your **secondary** node has access to the same data as the **primary** node - they must either they share the same object storage configuration, or the **secondary** node should be configured to access a [geographically-replicated][os-repl] copy provided by the object store itself. If you have a large GitLab installation or cannot tolerate downtime, consider [migrating to Object Storage][os-conf] **before** scheduling a planned failover. Doing so reduces both the length of the maintenance window, and the risk of data loss as a result of a poorly executed planned failover. ### Review the configuration of each **secondary** node Database settings are automatically replicated to the **secondary** node, but the `/etc/gitlab/gitlab.rb` file must be set up manually, and differs between nodes. If features such as Mattermost, OAuth or LDAP integration are enabled on the **primary** node but not the **secondary** node, they will be lost during failover. Review the `/etc/gitlab/gitlab.rb` file for both nodes and ensure the **secondary** node supports everything the **primary** node does **before** scheduling a planned failover. ### Run system checks Run the following on both **primary** and **secondary** nodes: ```sh gitlab-rake gitlab:check gitlab-rake gitlab:geo:check ``` If any failures are reported on either node, they should be resolved **before** scheduling a planned failover. ### Check that secrets match between nodes The SSH host keys and `/etc/gitlab/gitlab-secrets.json` files should be identical on all nodes. Check this by running the following on all nodes and comparing the output: ```sh sudo sha256sum /etc/ssh/ssh_host* /etc/gitlab/gitlab-secrets.json ``` If any files differ, replace the content on the **secondary** node with the content from the **primary** node. ### Ensure Geo replication is up-to-date The maintenance window won't end until Geo replication and verification is completely finished. To keep the window as short as possible, you should ensure these processes are close to 100% as possible during active use. Navigate to the **Admin Area > Geo** dashboard on the **secondary** node to review status. Replicated objects (shown in green) should be close to 100%, and there should be no failures (shown in red). If a large proportion of objects aren't yet replicated (shown in grey), consider giving the node more time to complete ![Replication status](img/replication-status.png) If any objects are failing to replicate, this should be investigated before scheduling the maintenance window. Following a planned failover, anything that failed to replicate will be **lost**. You can use the [Geo status API](../../../api/geo_nodes.md#retrieve-project-sync-or-verification-failures-that-occurred-on-the-current-node) to review failed objects and the reasons for failure. A common cause of replication failures is the data being missing on the **primary** node - you can resolve these failures by restoring the data from backup, or removing references to the missing data. ### Verify the integrity of replicated data This [content was moved to another location][background-verification]. ### Notify users of scheduled maintenance On the **primary** node, navigate to **Admin Area > Messages**, add a broadcast message. You can check under **Admin Area > Geo** to estimate how long it will take to finish syncing. An example message would be: > A scheduled maintenance will take place at XX:XX UTC. We expect it to take > less than 1 hour. ## Prevent updates to the **primary** node Until a [read-only mode][ce-19739] is implemented, updates must be prevented from happening manually. Note that your **secondary** node still needs read-only access to the **primary** node during the maintenance window. 1. At the scheduled time, using your cloud provider or your node's firewall, block all HTTP, HTTPS and SSH traffic to/from the **primary** node, **except** for your IP and the **secondary** node's IP. For instance, you might run the following commands on the server(s) making up your **primary** node: ```sh sudo iptables -A INPUT -p tcp -s --destination-port 22 -j ACCEPT sudo iptables -A INPUT -p tcp -s --destination-port 22 -j ACCEPT sudo iptables -A INPUT --destination-port 22 -j REJECT sudo iptables -A INPUT -p tcp -s --destination-port 80 -j ACCEPT sudo iptables -A INPUT -p tcp -s --destination-port 80 -j ACCEPT sudo iptables -A INPUT --tcp-dport 80 -j REJECT sudo iptables -A INPUT -p tcp -s --destination-port 443 -j ACCEPT sudo iptables -A INPUT -p tcp -s --destination-port 443 -j ACCEPT sudo iptables -A INPUT --tcp-dport 443 -j REJECT ``` From this point, users will be unable to view their data or make changes on the **primary** node. They will also be unable to log in to the **secondary** node. However, existing sessions will work for the remainder of the maintenance period, and public data will be accessible throughout. 1. Verify the **primary** node is blocked to HTTP traffic by visiting it in browser via another IP. The server should refuse connection. 1. Verify the **primary** node is blocked to Git over SSH traffic by attempting to pull an existing Git repository with an SSH remote URL. The server should refuse connection. 1. Disable non-Geo periodic background jobs on the primary node by navigating to **Admin Area > Monitoring > Background Jobs > Cron** , pressing `Disable All`, and then pressing `Enable` for the `geo_sidekiq_cron_config_worker` cron job. This job will re-enable several other cron jobs that are essential for planned failover to complete successfully. ## Finish replicating and verifying all data 1. If you are manually replicating any data not managed by Geo, trigger the final replication process now. 1. On the **primary** node, navigate to **Admin Area > Monitoring > Background Jobs > Queues** and wait for all queues except those with `geo` in the name to drop to 0. These queues contain work that has been submitted by your users; failing over before it is completed will cause the work to be lost. 1. On the **primary** node, navigate to **Admin Area > Geo** and wait for the following conditions to be true of the **secondary** node you are failing over to: - All replication meters to each 100% replicated, 0% failures. - All verification meters reach 100% verified, 0% failures. - Database replication lag is 0ms. - The Geo log cursor is up to date (0 events behind). 1. On the **secondary** node, navigate to **Admin Area > Monitoring > Background Jobs > Queues** and wait for all the `geo` queues to drop to 0 queued and 0 running jobs. 1. On the **secondary** node, use [these instructions][foreground-verification] to verify the integrity of CI artifacts, LFS objects and uploads in file storage. At this point, your **secondary** node will contain an up-to-date copy of everything the **primary** node has, meaning nothing will be lost when you fail over. ## Promote the **secondary** node Finally, follow the [Disaster Recovery docs][disaster-recovery] to promote the **secondary** node to a **primary** node. This process will cause a brief outage on the **secondary** node, and users may need to log in again. Once it is completed, the maintenance window is over! Your new **primary** node will now begin to diverge from the old one. If problems do arise at this point, failing back to the old **primary** node [is possible][bring-primary-back], but likely to result in the loss of any data uploaded to the new primary in the meantime. Don't forget to remove the broadcast message after failover is complete. [bring-primary-back]: bring_primary_back.md [ce-19739]: https://gitlab.com/gitlab-org/gitlab-ce/issues/19739 [container-registry]: ../replication/container_registry.md [disaster-recovery]: index.md [ee-4930]: https://gitlab.com/gitlab-org/gitlab-ee/issues/4930 [ee-5064]: https://gitlab.com/gitlab-org/gitlab-ee/issues/5064 [foreground-verification]: ../../raketasks/check.md [background-verification]: background_verification.md [limitations]: ../replication/index.md#current-limitations [moving-repositories]: ../../operations/moving_repositories.md [os-conf]: ../replication/object_storage.md#configuration [os-repl]: ../replication/object_storage.md#replication