--- stage: Systems group: Gitaly info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://handbook.gitlab.com/handbook/product/ux/technical-writing/#assignments --- # Configure Gitaly **(FREE SELF)** Configure Gitaly in one of two ways: ::Tabs :::TabTitle Linux package (Omnibus) 1. Edit `/etc/gitlab/gitlab.rb` and add or change the [Gitaly settings](https://gitlab.com/gitlab-org/gitaly/-/blob/master/config.toml.example). 1. Save the file and [reconfigure GitLab](../restart_gitlab.md#reconfigure-a-linux-package-installation). :::TabTitle Self-compiled (source) 1. Edit `/home/git/gitaly/config.toml` and add or change the [Gitaly settings](https://gitlab.com/gitlab-org/gitaly/blob/master/config.toml.example). 1. Save the file and [restart GitLab](../restart_gitlab.md#self-compiled-installations). ::EndTabs The following configuration options are also available: - Enabling [TLS support](tls_support.md). - Limiting [RPC concurrency](concurrency_limiting.md#limit-rpc-concurrency). - Limiting [pack-objects concurrency](concurrency_limiting.md#limit-pack-objects-concurrency). ## About the Gitaly token The token referred to throughout the Gitaly documentation is just an arbitrary password selected by the administrator. It is unrelated to tokens created for the GitLab API or other similar web API tokens. ## Run Gitaly on its own server By default, Gitaly is run on the same server as Gitaly clients and is [configured as above](#configure-gitaly). Single-server installations are best served by this default configuration used by: - [Linux package installations](https://docs.gitlab.com/omnibus/). - [Self-compiled installations](../../install/installation.md). However, Gitaly can be deployed to its own server, which can benefit GitLab installations that span multiple machines. NOTE: When configured to run on their own servers, Gitaly servers must be [upgraded](../../update/package/index.md) before Gitaly clients in your cluster. NOTE: [Disk requirements](index.md#disk-requirements) apply to Gitaly nodes. The process for setting up Gitaly on its own server is: 1. [Install Gitaly](#install-gitaly). 1. [Configure authentication](#configure-authentication). 1. [Configure Gitaly servers](#configure-gitaly-servers). 1. [Configure Gitaly clients](#configure-gitaly-clients). 1. [Disable Gitaly where not required](#disable-gitaly-where-not-required-optional) (optional). ### Network architecture The following list depicts the network architecture of Gitaly: - GitLab Rails shards repositories into [repository storages](../repository_storage_paths.md). - `/config/gitlab.yml` contains a map from storage names to `(Gitaly address, Gitaly token)` pairs. - The `storage name` -\> `(Gitaly address, Gitaly token)` map in `/config/gitlab.yml` is the single source of truth for the Gitaly network topology. - A `(Gitaly address, Gitaly token)` corresponds to a Gitaly server. - A Gitaly server hosts one or more storages. - A Gitaly client can use one or more Gitaly servers. - Gitaly addresses must be specified in such a way that they resolve correctly for **all** Gitaly clients. - Gitaly clients are: - Puma. - Sidekiq. - GitLab Workhorse. - GitLab Shell. - Elasticsearch indexer. - Gitaly itself. - A Gitaly server must be able to make RPC calls **to itself** by using its own `(Gitaly address, Gitaly token)` pair as specified in `/config/gitlab.yml`. - Authentication is done through a static token which is shared among the Gitaly and GitLab Rails nodes. The following digraph illustrates communication between Gitaly servers and GitLab Rails showing the default ports for HTTP and HTTPs communication. ![Gitaly network architecture diagram](img/gitaly_network_13_9.png) WARNING: Gitaly servers must not be exposed to the public internet as Gitaly network traffic is unencrypted by default. The use of firewall is highly recommended to restrict access to the Gitaly server. Another option is to [use TLS](tls_support.md). In the following sections, we describe how to configure two Gitaly servers with secret token `abc123secret`: - `gitaly1.internal`. - `gitaly2.internal`. We assume your GitLab installation has three repository storages: - `default`. - `storage1`. - `storage2`. You can use as few as one server with one repository storage if desired. ### Install Gitaly Install Gitaly on each Gitaly server using either: - A Linux package installation. [Download and install](https://about.gitlab.com/install/) the Linux package you want but **do not** provide the `EXTERNAL_URL=` value. - A self-compiled installation. Follow the steps at [Install Gitaly](../../install/installation.md#install-gitaly). ### Configure Gitaly servers To configure Gitaly servers, you must: - Configure authentication. - Configure storage paths. - Enable the network listener. The `git` user must be able to read, write, and set permissions on the configured storage path. To avoid downtime while rotating the Gitaly token, you can temporarily disable authentication using the `gitaly['auth_transitioning']` setting. For more information, see the documentation on [enabling "auth transitioning mode"](#enable-auth-transitioning-mode). #### Configure authentication Gitaly and GitLab use two shared secrets for authentication: - _Gitaly token_: used to authenticate gRPC requests to Gitaly - _GitLab Shell token_: used for authentication callbacks from GitLab Shell to the GitLab internal API Configure authentication in one of two ways: ::Tabs :::TabTitle Linux package (Omnibus) To configure the _Gitaly token_, edit `/etc/gitlab/gitlab.rb`: ```ruby gitaly['configuration'] = { # ... auth: { # ... token: 'abc123secret', }, } ``` Configure the _GitLab Shell token_ in one of two ways. Method 1 (recommended): Copy `/etc/gitlab/gitlab-secrets.json` from the Gitaly client to same path on the Gitaly servers (and any other Gitaly clients). Method 2: Edit `/etc/gitlab/gitlab.rb`: ```ruby gitlab_shell['secret_token'] = 'shellsecret' ``` :::TabTitle Self-compiled (source) 1. Copy `/home/git/gitlab/.gitlab_shell_secret` from the Gitaly client to the same path on the Gitaly servers (and any other Gitaly clients). 1. On the Gitaly clients, edit `/home/git/gitlab/config/gitlab.yml`: ```yaml gitlab: gitaly: token: 'abc123secret' ``` 1. Save the file and [restart GitLab](../restart_gitlab.md#self-compiled-installations). 1. On the Gitaly servers, edit `/home/git/gitaly/config.toml`: ```toml [auth] token = 'abc123secret' ``` 1. Save the file and [restart GitLab](../restart_gitlab.md#self-compiled-installations). ::EndTabs #### Configure Gitaly server Configure Gitaly server in one of two ways: ::Tabs :::TabTitle Linux package (Omnibus) 1. Edit `/etc/gitlab/gitlab.rb`: ```ruby # Avoid running unnecessary services on the Gitaly server postgresql['enable'] = false redis['enable'] = false nginx['enable'] = false puma['enable'] = false sidekiq['enable'] = false gitlab_workhorse['enable'] = false grafana['enable'] = false gitlab_exporter['enable'] = false gitlab_kas['enable'] = false # If you run a separate monitoring node you can disable these services prometheus['enable'] = false alertmanager['enable'] = false # If you don't run a separate monitoring node you can # enable Prometheus access & disable these extra services. # This makes Prometheus listen on all interfaces. You must use firewalls to restrict access to this address/port. # prometheus['listen_address'] = '0.0.0.0:9090' # prometheus['monitor_kubernetes'] = false # If you don't want to run monitoring services uncomment the following (not recommended) # node_exporter['enable'] = false # Prevent database connections during 'gitlab-ctl reconfigure' gitlab_rails['auto_migrate'] = false # Configure the gitlab-shell API callback URL. Without this, `git push` will # fail. This can be your 'front door' GitLab URL or an internal load # balancer. # Don't forget to copy `/etc/gitlab/gitlab-secrets.json` from Gitaly client to Gitaly server. gitlab_rails['internal_api_url'] = 'https://gitlab.example.com' gitaly['configuration'] = { # ... # # Make Gitaly accept connections on all network interfaces. You must use # firewalls to restrict access to this address/port. # Comment out following line if you only want to support TLS connections listen_addr: '0.0.0.0:8075', auth: { # ... # # Authentication token to ensure only authorized servers can communicate with # Gitaly server token: 'AUTH_TOKEN', }, } ``` 1. Append the following to `/etc/gitlab/gitlab.rb` for each respective Gitaly server: On `gitaly1.internal`: ```ruby gitaly['configuration'] = { # ... storage: [ { name: 'default', path: '/var/opt/gitlab/git-data/repositories', }, { name: 'storage1', path: '/mnt/gitlab/git-data/repositories', }, ], } ``` On `gitaly2.internal`: ```ruby gitaly['configuration'] = { # ... storage: [ { name: 'storage2', path: '/srv/gitlab/git-data/repositories', }, ], } ``` 1. Save the file and [reconfigure GitLab](../restart_gitlab.md#reconfigure-a-linux-package-installation). 1. Confirm that Gitaly can perform callbacks to the GitLab internal API: - For GitLab 15.3 and later, run `sudo /opt/gitlab/embedded/bin/gitaly check /var/opt/gitlab/gitaly/config.toml`. - For GitLab 15.2 and earlier, run `sudo /opt/gitlab/embedded/bin/gitaly-hooks check /var/opt/gitlab/gitaly/config.toml`. :::TabTitle Self-compiled (source) 1. Edit `/home/git/gitaly/config.toml`: ```toml listen_addr = '0.0.0.0:8075' runtime_dir = '/var/opt/gitlab/gitaly' [logging] format = 'json' level = 'info' dir = '/var/log/gitaly' ``` For GitLab 14.9 and earlier, set `internal_socket_dir = '/var/opt/gitlab/gitaly'` instead of `runtime_dir`. 1. Append the following to `/home/git/gitaly/config.toml` for each respective Gitaly server: On `gitaly1.internal`: ```toml [[storage]] name = 'default' path = '/var/opt/gitlab/git-data/repositories' [[storage]] name = 'storage1' path = '/mnt/gitlab/git-data/repositories' ``` On `gitaly2.internal`: ```toml [[storage]] name = 'storage2' path = '/srv/gitlab/git-data/repositories' ``` 1. Edit `/home/git/gitlab-shell/config.yml`: ```yaml gitlab_url: https://gitlab.example.com ``` 1. Save the files and [restart GitLab](../restart_gitlab.md#self-compiled-installations). 1. Confirm that Gitaly can perform callbacks to the GitLab internal API: - For GitLab 15.3 and later, run `sudo /opt/gitlab/embedded/bin/gitaly check /var/opt/gitlab/gitaly/config.toml`. - For GitLab 15.2 and earlier, run `sudo /opt/gitlab/embedded/bin/gitaly-hooks check /var/opt/gitlab/gitaly/config.toml`. ::EndTabs WARNING: If directly copying repository data from a GitLab server to Gitaly, ensure that the metadata file, default path `/var/opt/gitlab/git-data/repositories/.gitaly-metadata`, is not included in the transfer. Copying this file causes GitLab to use the direct disk access to repositories hosted on the Gitaly server, leading to `Error creating pipeline` and `Commit not found` errors, or stale data. ### Configure Gitaly clients As the final step, you must update Gitaly clients to switch from using local Gitaly service to use the Gitaly servers you just configured. NOTE: GitLab requires a `default` repository storage to be configured. [Read more about this limitation](#gitlab-requires-a-default-repository-storage). This can be risky because anything that prevents your Gitaly clients from reaching the Gitaly servers causes all Gitaly requests to fail. For example, any sort of network, firewall, or name resolution problems. Gitaly makes the following assumptions: - Your `gitaly1.internal` Gitaly server can be reached at `gitaly1.internal:8075` from your Gitaly clients, and that Gitaly server can read, write, and set permissions on `/var/opt/gitlab/git-data` and `/mnt/gitlab/git-data`. - Your `gitaly2.internal` Gitaly server can be reached at `gitaly2.internal:8075` from your Gitaly clients, and that Gitaly server can read, write, and set permissions on `/srv/gitlab/git-data`. - Your `gitaly1.internal` and `gitaly2.internal` Gitaly servers can reach each other. You can't define Gitaly servers with some as a local Gitaly server (without `gitaly_address`) and some as remote server (with `gitaly_address`) unless you use [mixed configuration](#mixed-configuration). Configure Gitaly clients in one of two ways: ::Tabs :::TabTitle Linux package (Omnibus) 1. Edit `/etc/gitlab/gitlab.rb`: ```ruby # Use the same token value configured on all Gitaly servers gitlab_rails['gitaly_token'] = '' git_data_dirs({ 'default' => { 'gitaly_address' => 'tcp://gitaly1.internal:8075' }, 'storage1' => { 'gitaly_address' => 'tcp://gitaly1.internal:8075' }, 'storage2' => { 'gitaly_address' => 'tcp://gitaly2.internal:8075' }, }) ``` Alternatively, if each Gitaly server is configured to use a different authentication token: ```ruby git_data_dirs({ 'default' => { 'gitaly_address' => 'tcp://gitaly1.internal:8075', 'gitaly_token' => '' }, 'storage1' => { 'gitaly_address' => 'tcp://gitaly1.internal:8075', 'gitaly_token' => '' }, 'storage2' => { 'gitaly_address' => 'tcp://gitaly2.internal:8075', 'gitaly_token' => '' }, }) ``` 1. Save the file and [reconfigure GitLab](../restart_gitlab.md#reconfigure-a-linux-package-installation). 1. Run `sudo gitlab-rake gitlab:gitaly:check` on the Gitaly client (for example, the Rails application) to confirm it can connect to Gitaly servers. 1. Tail the logs to see the requests: ```shell sudo gitlab-ctl tail gitaly ``` :::TabTitle Self-compiled (source) 1. Edit `/home/git/gitlab/config/gitlab.yml`: ```yaml gitlab: repositories: storages: default: gitaly_address: tcp://gitaly1.internal:8075 gitaly_token: AUTH_TOKEN_1 storage1: gitaly_address: tcp://gitaly1.internal:8075 gitaly_token: AUTH_TOKEN_1 storage2: gitaly_address: tcp://gitaly2.internal:8075 gitaly_token: AUTH_TOKEN_2 ``` 1. Save the file and [restart GitLab](../restart_gitlab.md#self-compiled-installations). 1. Run `sudo -u git -H bundle exec rake gitlab:gitaly:check RAILS_ENV=production` to confirm the Gitaly client can connect to Gitaly servers. 1. Tail the logs to see the requests: ```shell tail -f /home/git/gitlab/log/gitaly.log ``` ::EndTabs When you tail the Gitaly logs on your Gitaly server, you should see requests coming in. One sure way to trigger a Gitaly request is to clone a repository from GitLab over HTTP or HTTPS. WARNING: If you have [server hooks](../server_hooks.md) configured, either per repository or globally, you must move these to the Gitaly servers. If you have multiple Gitaly servers, copy your server hooks to all Gitaly servers. #### Mixed configuration GitLab can reside on the same server as one of many Gitaly servers, but doesn't support configuration that mixes local and remote configuration. The following setup is incorrect, because: - All addresses must be reachable from the other Gitaly servers. - `storage1` is assigned a Unix socket for `gitaly_address` which is invalid for some of the Gitaly servers. ```ruby git_data_dirs({ 'default' => { 'gitaly_address' => 'tcp://gitaly1.internal:8075' }, 'storage1' => { 'path' => '/mnt/gitlab/git-data' }, 'storage2' => { 'gitaly_address' => 'tcp://gitaly2.internal:8075' }, }) ``` To combine local and remote Gitaly servers, use an external address for the local Gitaly server. For example: ```ruby git_data_dirs({ 'default' => { 'gitaly_address' => 'tcp://gitaly1.internal:8075' }, # Address of the GitLab server that also has Gitaly running on it 'storage1' => { 'gitaly_address' => 'tcp://gitlab.internal:8075' }, 'storage2' => { 'gitaly_address' => 'tcp://gitaly2.internal:8075' }, }) gitaly['configuration'] = { # ... # # Make Gitaly accept connections on all network interfaces listen_addr: '0.0.0.0:8075', # Or for TLS tls_listen_addr: '0.0.0.0:9999', tls: { certificate_path: '/etc/gitlab/ssl/cert.pem', key_path: '/etc/gitlab/ssl/key.pem', }, storage: [ { name: 'storage1', path: '/mnt/gitlab/git-data/repositories', }, ], } ``` `path` can be included only for storage shards on the local Gitaly server. If it's excluded, default Git storage directory is used for that storage shard. ### GitLab requires a default repository storage When adding Gitaly servers to an environment, you might want to replace the original `default` Gitaly service. However, you can't reconfigure the GitLab application servers to remove the `default` entry from `git_data_dirs` because GitLab requires a `git_data_dirs` entry called `default`. [Read more](https://gitlab.com/gitlab-org/gitlab/-/issues/36175) about this limitation. To work around the limitation: 1. Define an additional storage location on the new Gitaly service and configure the additional storage to be `default`. 1. In the [Admin Area](../repository_storage_paths.md#configure-where-new-repositories-are-stored), set `default` to a weight of zero to prevent repositories being stored there. ### Disable Gitaly where not required (optional) If you run Gitaly [as a remote service](#run-gitaly-on-its-own-server), consider disabling the local Gitaly service that runs on your GitLab server by default, and run it only where required. Disabling Gitaly on the GitLab instance makes sense only when you run GitLab in a custom cluster configuration, where Gitaly runs on a separate machine from the GitLab instance. Disabling Gitaly on all machines in the cluster is not a valid configuration (some machines much act as Gitaly servers). Disable Gitaly on a GitLab server in one of two ways: ::Tabs :::TabTitle Linux package (Omnibus) 1. Edit `/etc/gitlab/gitlab.rb`: ```ruby gitaly['enable'] = false ``` 1. Save the file and [reconfigure GitLab](../restart_gitlab.md#reconfigure-a-linux-package-installation). :::TabTitle Self-compiled (source) 1. Edit `/etc/default/gitlab`: ```shell gitaly_enabled=false ``` 1. Save the file and [restart GitLab](../restart_gitlab.md#self-compiled-installations). ::EndTabs ## Control groups WARNING: Enabling limits on your environment should be done with caution and only in select circumstances, such as to protect against unexpected traffic. When reached, limits _do_ result in disconnects that negatively impact users. For consistent and stable performance, you should first explore other options such as adjusting node specifications, and [reviewing large repositories](../../user/project/repository/monorepos/index.md) or workloads. When enabling cgroups for memory, you should ensure that no swap is configured on the Gitaly nodes as processes may switch to using that instead of being terminated. This situation could lead to notably compromised performance. You can use control groups (cgroups) in Linux to impose limits on how much memory and CPU can be consumed by Gitaly processes. See the [`cgroups` Linux man page](https://man7.org/linux/man-pages/man7/cgroups.7.html) for more information. cgroups can help protect the system against unexpected resource exhaustion because of over consumption of memory and CPU. Some Git operations can consume notable resources up to the point of exhaustion in situations such as: - Unexpectedly high traffic. - Operations running against large repositories that don't follow best practices. As a hard protection, it's possible to use cgroups that configure the kernel to terminate these operations before they hog up all system resources and cause instability. Gitaly has built-in cgroups control. When configured, Gitaly assigns Git processes to a cgroup based on the repository the Git command is operating in. These cgroups are called repository cgroups. Each repository cgroup: - Has a memory and CPU limit. - Contains the Git processes for a single repository. - Uses a consistent hash to ensure a Git process for a given repository always ends up in the same cgroup. When a repository cgroup reaches its: - Memory limit, the kernel looks through the processes for a candidate to kill. - CPU limit, processes are not killed, but the processes are prevented from consuming more CPU than allowed. NOTE: When these limits are reached, performance may be reduced and users may be disconnected. ### Configure repository cgroups (new method) > - This method of configuring repository cgroups was introduced in GitLab 15.1. > - `cpu_quota_us`[introduced](https://gitlab.com/gitlab-org/gitaly/-/merge_requests/5422) in GitLab 15.10. To configure repository cgroups in Gitaly using the new method, use the following settings for the new configuration method to `gitaly['configuration'][:cgroups]` in `/etc/gitlab/gitlab.rb`: - `mountpoint` is where the parent cgroup directory is mounted. Defaults to `/sys/fs/cgroup`. - `hierarchy_root` is the parent cgroup under which Gitaly creates groups, and is expected to be owned by the user and group Gitaly runs as. A Linux package installation creates the set of directories `mountpoint//hierarchy_root` when Gitaly starts. - `memory_bytes` is the total memory limit that is imposed collectively on all Git processes that Gitaly spawns. 0 implies no limit. - `cpu_shares` is the CPU limit that is imposed collectively on all Git processes that Gitaly spawns. 0 implies no limit. The maximum is 1024 shares, which represents 100% of CPU. - `cpu_quota_us` is the [`cfs_quota_us`](https://docs.kernel.org/scheduler/sched-bwc.html#management) to throttle the cgroups' processes if they exceed this quota value. We set `cfs_period_us` to `100ms` so 1 core is `100000`. 0 implies no limit. - `repositories.count` is the number of cgroups in the cgroups pool. Each time a new Git command is spawned, Gitaly assigns it to one of these cgroups based on the repository the command is for. A circular hashing algorithm assigns Git commands to these cgroups, so a Git command for a repository is always assigned to the same cgroup. - `repositories.memory_bytes` is the total memory limit imposed on all Git processes contained in a repository cgroup. 0 implies no limit. This value cannot exceed that of the top level `memory_bytes`. - `repositories.cpu_shares` is the CPU limit that is imposed on all Git processes contained in a repository cgroup. 0 implies no limit. The maximum is 1024 shares, which represents 100% of CPU. This value cannot exceed that of the top level`cpu_shares`. - `repositories.cpu_quota_us` is the [`cfs_quota_us`](https://docs.kernel.org/scheduler/sched-bwc.html#management) that is imposed on all Git processes contained in a repository cgroup. A Git process can't use more then the given quota. We set `cfs_period_us` to `100ms` so 1 core is `100000`. 0 implies no limit. For example: ```ruby # in /etc/gitlab/gitlab.rb gitaly['configuration'] = { # ... cgroups: { mountpoint: '/sys/fs/cgroup', hierarchy_root: 'gitaly', memory_bytes: 64424509440, # 60gb cpu_shares: 1024, cpu_quota_us: 400000 # 4 cores repositories: { count: 1000, memory_bytes: 32212254720, # 20gb cpu_shares: 512, cpu_quota_us: 200000 # 2 cores }, }, } ``` ### Configure repository cgroups (legacy method) To configure repository cgroups in Gitaly using the legacy method, use the following settings in `/etc/gitlab/gitlab.rb`: - `cgroups_count` is the number of cgroups created. Each time a new command is spawned, Gitaly assigns it to one of these cgroups based on the command line arguments of the command. A circular hashing algorithm assigns commands to these cgroups. - `cgroups_mountpoint` is where the parent cgroup directory is mounted. Defaults to `/sys/fs/cgroup`. - `cgroups_hierarchy_root` is the parent cgroup under which Gitaly creates groups, and is expected to be owned by the user and group Gitaly runs as. A Linux package installation creates the set of directories `mountpoint//hierarchy_root` when Gitaly starts. - `cgroups_memory_enabled` enables or disables the memory limit on cgroups. - `cgroups_memory_bytes` is the total memory limit each cgroup imposes on the processes added to it. - `cgroups_cpu_enabled` enables or disables the CPU limit on cgroups. - `cgroups_cpu_shares` is the CPU limit each cgroup imposes on the processes added to it. The maximum is 1024 shares, which represents 100% of CPU. For example: ```ruby # in /etc/gitlab/gitlab.rb gitaly['cgroups_count'] = 1000 gitaly['cgroups_mountpoint'] = "/sys/fs/cgroup" gitaly['cgroups_hierarchy_root'] = "gitaly" gitaly['cgroups_memory_limit'] = 32212254720 gitaly['cgroups_memory_enabled'] = true gitaly['cgroups_cpu_shares'] = 1024 gitaly['cgroups_cpu_enabled'] = true ``` ### Configuring oversubscription In the previous example using the new configuration method: - The top level memory limit is capped at 60 GB. - Each of the 1000 cgroups in the repositories pool is capped at 20 GB. This configuration leads to "oversubscription". Each cgroup in the pool has a much larger capacity than 1/1000th of the top-level memory limit. This strategy has two main benefits: - It gives the host protection from overall memory starvation (OOM), because the memory limit of the top-level cgroup can be set to a threshold smaller than the host's capacity. Processes outside of that cgroup are not at risk of OOM. - It allows each individual cgroup in the pool to burst up to a generous upper bound (in this example 20 GB) that is smaller than the limit of the parent cgroup, but substantially larger than 1/N of the parent's limit. In this example, up to 3 child cgroups can concurrently burst up to their max. In general, all 1000 cgroups would use much less than the 20 GB. ## Background repository optimization Empty directories and unneeded configuration settings may accumulate in a repository and slow down Git operations. Gitaly can schedule a daily background task with a maximum duration to clean up these items and improve performance. WARNING: Background repository optimization is an experimental feature and may place significant load on the host while running. Make sure to schedule this during off-peak hours and keep the duration short (for example, 30-60 minutes). Configure background repository optimization in one of two ways: ::Tabs :::TabTitle Linux package (Omnibus) Edit `/etc/gitlab/gitlab.rb` and add: ```ruby gitaly['configuration'] = { # ... daily_maintenance: { # ... start_hour: 4, start_minute: 30, duration: '30m', storages: ['default'], }, } ``` :::TabTitle Self-compiled (source) Edit `/home/git/gitaly/config.toml` and add: ```toml [daily_maintenance] start_hour = 4 start_minute = 30 duration = '30m' storages = ["default"] ``` ::EndTabs ## Rotate Gitaly authentication token Rotating credentials in a production environment often requires downtime, causes outages, or both. However, you can rotate Gitaly credentials without a service interruption. Rotating a Gitaly authentication token involves: - [Verifying authentication monitoring](#verify-authentication-monitoring). - [Enabling "auth transitioning" mode](#enable-auth-transitioning-mode). - [Updating Gitaly authentication tokens](#update-gitaly-authentication-token). - [Ensuring there are no authentication failures](#ensure-there-are-no-authentication-failures). - [Disabling "auth transitioning" mode](#disable-auth-transitioning-mode). - [Verifying authentication is enforced](#verify-authentication-is-enforced). This procedure also works if you are running GitLab on a single server. In that case, "Gitaly server" and "Gitaly client" refers to the same machine. ### Verify authentication monitoring Before rotating a Gitaly authentication token, verify that you can [monitor the authentication behavior](monitoring.md#queries) of your GitLab installation using Prometheus. You can then continue the rest of the procedure. ### Enable "auth transitioning" mode Temporarily disable Gitaly authentication on the Gitaly servers by putting them into "auth transitioning" mode as follows: ```ruby # in /etc/gitlab/gitlab.rb gitaly['configuration'] = { # ... auth: { # ... transitioning: true, }, } ``` After you have made this change, your [Prometheus query](#verify-authentication-monitoring) should return something like: ```prometheus {enforced="false",status="would be ok"} 4424.985419441742 ``` Because `enforced="false"`, it is safe to start rolling out the new token. ### Update Gitaly authentication token To update to a new Gitaly authentication token, on each Gitaly client **and** Gitaly server: 1. Update the configuration: ```ruby # in /etc/gitlab/gitlab.rb gitaly['configuration'] = { # ... auth: { # ... token: '', }, } ``` 1. Restart Gitaly: ```shell gitlab-ctl restart gitaly ``` If you run your [Prometheus query](#verify-authentication-monitoring) while this change is being rolled out, you see non-zero values for the `enforced="false",status="denied"` counter. ### Ensure there are no authentication failures After the new token is set, and all services involved have been restarted, you will [temporarily see](#verify-authentication-monitoring) a mix of: - `status="would be ok"`. - `status="denied"`. After the new token is picked up by all Gitaly clients and Gitaly servers, the **only non-zero rate** should be `enforced="false",status="would be ok"`. ### Disable "auth transitioning" mode To re-enable Gitaly authentication, disable "auth transitioning" mode. Update the configuration on your Gitaly servers as follows: ```ruby # in /etc/gitlab/gitlab.rb gitaly['configuration'] = { # ... auth: { # ... transitioning: false, }, } ``` WARNING: Without completing this step, you have **no Gitaly authentication**. ### Verify authentication is enforced Refresh your [Prometheus query](#verify-authentication-monitoring). You should now see a similar result as you did at the start. For example: ```prometheus {enforced="true",status="ok"} 4424.985419441742 ``` `enforced="true"` means that authentication is being enforced. ## Pack-objects cache **(FREE SELF)** [Gitaly](index.md), the service that provides storage for Git repositories, can be configured to cache a short rolling window of Git fetch responses. This can reduce server load when your server receives lots of CI fetch traffic. The pack-objects cache wraps `git pack-objects`, an internal part of Git that gets invoked indirectly via the PostUploadPack and SSHUploadPack Gitaly RPCs. Gitaly runs PostUploadPack when a user does a Git fetch via HTTP, or SSHUploadPack when a user does a Git fetch via SSH. When the cache is enabled, anything that uses PostUploadPack or SSHUploadPack can benefit from it. It is orthogonal to: - The transport (HTTP or SSH). - Git protocol version (v0 or v2). - The type of fetch, such as full clones, incremental fetches, shallow clones, or partial clones. The strength of this cache is its ability to deduplicate concurrent identical fetches. It: - Can benefit GitLab instances where your users run CI/CD pipelines with many concurrent jobs. There should be a noticeable reduction in server CPU utilization. - Does not benefit unique fetches at all. For example, if you run a spot check by cloning a repository to your local computer, you are unlikely to see a benefit from this cache because your fetch is probably unique. The pack-objects cache is a local cache. It: - Stores its metadata in the memory of the Gitaly process it is enabled in. - Stores the actual Git data it is caching in files on local storage. Using local files has the benefit that the operating system may automatically keep parts of the pack-objects cache files in RAM, making it faster. Because the pack-objects cache can lead to a significant increase in disk write IO, it is off by default. In GitLab 15.11 and later, the write workload is approximately 50% lower, but the cache is still disabled by default. ### Configure the cache These configuration settings are available for the pack-objects cache. Each setting is discussed in greater detail below. | Setting | Default | Description | |:----------|:---------------------------------------------------|:---------------------------------------------------------------------------------------------------| | `enabled` | `false` | Turns on the cache. When off, Gitaly runs a dedicated `git pack-objects` process for each request. | | `dir` | `/+gitaly/PackObjectsCache` | Local directory where cache files get stored. | | `max_age` | `5m` (5 minutes) | Cache entries older than this get evicted and removed from disk. | | `min_occurrences` | 1 | Minimum times a key must occur before a cache entry is created. | In `/etc/gitlab/gitlab.rb`, set: ```ruby gitaly['configuration'] = { # ... pack_objects_cache: { # ... enabled: true, # dir: '/var/opt/gitlab/git-data/repositories/+gitaly/PackObjectsCache', # max_age: '5m', # min_occurrences: 1, }, } ``` #### `enabled` defaults to `false` The cache is disabled by default because in some cases, it can create an [extreme increase](https://gitlab.com/gitlab-com/gl-infra/production/-/issues/4010#note_534564684) in the number of bytes written to disk. On GitLab.com, we have verified that our repository storage disks can handle this extra workload, but we felt we cannot assume this is true everywhere. #### Cache storage directory `dir` The cache needs a directory to store its files in. This directory should be: - In a file system with enough space. If the cache file system runs out of space, all fetches start failing. - On a disk with enough IO bandwidth. If the cache disk runs out of IO bandwidth, all fetches, and probably the entire server, slows down. By default, the cache storage directory is set to a subdirectory of the first Gitaly storage defined in the configuration file. Multiple Gitaly processes can use the same directory for cache storage. Each Gitaly process uses a unique random string as part of the cache file names it creates. This means: - They do not collide. - They do not reuse another process's files. While the default directory puts the cache files in the same file system as your repository data, this is not requirement. You can put the cache files on a different file system if that works better for your infrastructure. The amount of IO bandwidth required from the disk depends on: - The size and shape of the repositories on your Gitaly server. - The kind of traffic your users generate. You can use the `gitaly_pack_objects_generated_bytes_total` metric as a pessimistic estimate, pretending your cache hit ratio is 0%. The amount of space required depends on: - The bytes per second that your users pull from the cache. - The size of the `max_age` cache eviction window. If your users pull 100 MB/s and you use a 5 minute window, then on average you have `5*60*100MB = 30GB` of data in your cache directory. This average is an expected average, not a guarantee. Peak size may exceed this average. #### Cache eviction window `max_age` The `max_age` configuration setting lets you control the chance of a cache hit and the average amount of storage used by cache files. Entries older than `max_age` get deleted from the disk. Eviction does not interfere with ongoing requests. It is OK for `max_age` to be less than the time it takes to do a fetch over a slow connection because Unix filesystems do not truly delete a file until all processes that are reading the deleted file have closed it. #### Minimum key occurrences `min_occurrences` > [Introduced](https://gitlab.com/gitlab-com/gl-infra/scalability/-/issues/2222) in GitLab 15.11. The `min_occurrences` setting controls how often an identical request must occur before we create a new cache entry. The default value is `1`, meaning that unique requests do not get written into the cache. If you: - Increase this number, your cache hit rate goes down and the cache uses less disk space. - Decrease this number, your cache hit rate goes up and the cache uses more disk space. You should set `min_occurrences` to `1`. On GitLab.com, going from 0 to 1 saved us 50% cache disk space while barely affecting the cache hit rate. ### Observe the cache > Logs for pack-objects caching was [changed](https://gitlab.com/gitlab-org/gitaly/-/merge_requests/5719) in GitLab 16.0. You can observe the cache [using metrics](monitoring.md#pack-objects-cache) and in the following logged information. These logs are part of the gRPC logs and can be discovered when a call is executed. | Field | Description | |:---|:---| | `pack_objects_cache.hit` | Indicates whether the current pack-objects cache was hit (`true` or `false`) | | `pack_objects_cache.key` | Cache key used for the pack-objects cache | | `pack_objects_cache.generated_bytes` | Size (in bytes) of the new cache being written | | `pack_objects_cache.served_bytes` | Size (in bytes) of the cache being served | | `pack_objects.compression_statistics` | Statistics regarding pack-objects generation | | `pack_objects.enumerate_objects_ms` | Total time (in ms) spent enumerating objects sent by clients | | `pack_objects.prepare_pack_ms` | Total time (in ms) spent preparing the packfile before sending it back to the client | | `pack_objects.write_pack_file_ms` | Total time (in ms) spent sending back the packfile to the client. Highly dependent on the client's internet connection | | `pack_objects.written_object_count` | Total number of objects Gitaly sends back to the client | In the case of a: - Cache miss, Gitaly logs both a `pack_objects_cache.generated_bytes` and `pack_objects_cache.served_bytes` message. Gitaly also logs some more detailed statistics of pack-object generation. - Cache hit, Gitaly logs only a `pack_objects_cache.served_bytes` message. Example: ```json { "bytes":26186490, "correlation_id":"01F1MY8JXC3FZN14JBG1H42G9F", "grpc.meta.deadline_type":"none", "grpc.method":"PackObjectsHook", "grpc.request.fullMethod":"/gitaly.HookService/PackObjectsHook", "grpc.request.glProjectPath":"root/gitlab-workhorse", "grpc.request.glRepository":"project-2", "grpc.request.repoPath":"@hashed/d4/73/d4735e3a265e16eee03f59718b9b5d03019c07d8b6c51f90da3a666eec13ab35.git", "grpc.request.repoStorage":"default", "grpc.request.topLevelGroup":"@hashed", "grpc.service":"gitaly.HookService", "grpc.start_time":"2021-03-25T14:57:52.747Z", "level":"info", "msg":"finished unary call with code OK", "peer.address":"@", "pid":20961, "span.kind":"server", "system":"grpc", "time":"2021-03-25T14:57:53.543Z", "pack_objects.compression_statistics": "Total 145991 (delta 68), reused 6 (delta 2), pack-reused 145911", "pack_objects.enumerate_objects_ms": 170, "pack_objects.prepare_pack_ms": 7, "pack_objects.write_pack_file_ms": 786, "pack_objects.written_object_count": 145991, "pack_objects_cache.generated_bytes": 49533030, "pack_objects_cache.hit": "false", "pack_objects_cache.key": "123456789", "pack_objects_cache.served_bytes": 49533030, "peer.address": "127.0.0.1", "pid": 8813, } ``` ## `cat-file` cache A lot of Gitaly RPCs need to look up Git objects from repositories. Most of the time we use `git cat-file --batch` processes for that. For better performance, Gitaly can re-use these `git cat-file` processes across RPC calls. Previously used processes are kept around in a ["Git cat-file cache"](https://about.gitlab.com/blog/2019/07/08/git-performance-on-nfs/#enter-cat-file-cache). To control how much system resources this uses, we have a maximum number of cat-file processes that can go into the cache. The default limit is 100 `cat-file`s, which constitute a pair of `git cat-file --batch` and `git cat-file --batch-check` processes. If you see errors about "too many open files", or an inability to create new processes, you may want to lower this limit. Ideally, the number should be large enough to handle standard traffic. If you raise the limit, you should measure the cache hit ratio before and after. If the hit ratio does not improve, the higher limit is probably not making a meaningful difference. Here is an example Prometheus query to see the hit rate: ```plaintext sum(rate(gitaly_catfile_cache_total{type="hit"}[5m])) / sum(rate(gitaly_catfile_cache_total{type=~"(hit)|(miss)"}[5m])) ``` Configure the `cat-file` cache in the [Gitaly configuration file](reference.md). ## Repository consistency checks Gitaly runs repository consistency checks: - When triggering a repository check. - When changes are fetched from a mirrored repository. - When users push changes into repository. These consistency checks verify that a repository has all required objects and that these objects are valid objects. They can be categorized as: - Basic checks that assert that a repository doesn't become corrupt. This includes connectivity checks and checks that objects can be parsed. - Security checks that recognize objects that are suitable to exploit past security-related bugs in Git. - Cosmetic checks that verify that all object metadata is valid. Older Git versions and other Git implementations may have produced objects with invalid metadata, but newer versions can interpret these malformed objects. Removing malformed objects that fail the consistency checks requires a rewrite of the repository's history, which often can't be done. Therefore, Gitaly by default disables consistency checks for a range of cosmetic issues that don't negatively impact repository consistency. By default, Gitaly doesn't disable basic or security-related checks so to not distribute objects that can trigger known vulnerabilities in Git clients. This also limits the ability to import repositories containing such objects even if the project doesn't have malicious intent. ### Override repository consistency checks Instance administrators can override consistency checks if they must process repositories that do not pass consistency checks. For Linux package installations, edit `/etc/gitlab/gitlab.rb` and set the following keys (in this example, to disable the `hasDotgit` consistency check): - In [GitLab 15.10](https://gitlab.com/gitlab-org/gitaly/-/issues/4754) and later: ```ruby ignored_blobs = "/etc/gitlab/instance_wide_ignored_git_blobs.txt" gitaly['configuration'] = { # ... git: { # ... config: [ # Populate a file with one unabbreviated SHA-1 per line. # See https://git-scm.com/docs/git-config#Documentation/git-config.txt-fsckskipList { key: "fsck.skipList", value: ignored_blobs }, { key: "fetch.fsck.skipList", value: ignored_blobs }, { key: "receive.fsck.skipList", value: ignored_blobs }, { key: "fsck.hasDotgit", value: "ignore" }, { key: "fetch.fsck.hasDotgit", value: "ignore" }, { key: "receive.fsck.hasDotgit", value: "ignore" }, { key: "fsck.missingSpaceBeforeEmail", value: "ignore" }, ], }, } ``` - In [GitLab 15.3](https://gitlab.com/gitlab-org/omnibus-gitlab/-/issues/6800) to GitLab 15.9: ```ruby ignored_blobs = "/etc/gitlab/instance_wide_ignored_git_blobs.txt" gitaly['gitconfig'] = [ # Populate a file with one unabbreviated SHA-1 per line. # See https://git-scm.com/docs/git-config#Documentation/git-config.txt-fsckskipList { key: "fsck.skipList", value: ignored_blobs }, { key: "fetch.fsck.skipList", value: ignored_blobs }, { key: "receive.fsck.skipList", value: ignored_blobs }, { key: "fsck.hasDotgit", value: "ignore" }, { key: "fetch.fsck.hasDotgit", value: "ignore" }, { key: "receive.fsck.hasDotgit", value: "ignore" }, { key: "fsck.missingSpaceBeforeEmail", value: "ignore" }, ] ``` - In GitLab 15.2 and earlier (legacy method): ```ruby ignored_git_errors = [ "hasDotgit = ignore", "missingSpaceBeforeEmail = ignore", ] omnibus_gitconfig['system'] = { # Populate a file with one unabbreviated SHA-1 per line. # See https://git-scm.com/docs/git-config#Documentation/git-config.txt-fsckskipList "fsck.skipList" => ignored_blobs "fetch.fsck.skipList" => ignored_blobs, "receive.fsck.skipList" => ignored_blobs, "fsck" => ignored_git_errors, "fetch.fsck" => ignored_git_errors, "receive.fsck" => ignored_git_errors, } ``` For self-compiled installations, edit the Gitaly configuration (`gitaly.toml`) to do the equivalent: ```toml [[git.config]] key = "fsck.hasDotgit" value = "ignore" [[git.config]] key = "fetch.fsck.hasDotgit" value = "ignore" [[git.config]] key = "receive.fsck.hasDotgit" value = "ignore" [[git.config]] key = "fsck.missingSpaceBeforeEmail" value = "ignore" [[git.config]] key = "fetch.fsck.missingSpaceBeforeEmail" value = "ignore" [[git.config]] key = "receive.fsck.missingSpaceBeforeEmail" value = "ignore" [[git.config]] key = "fsck.skipList" value = "/etc/gitlab/instance_wide_ignored_git_blobs.txt" [[git.config]] key = "fetch.fsck.skipList" value = "/etc/gitlab/instance_wide_ignored_git_blobs.txt" [[git.config]] key = "receive.fsck.skipList" value = "/etc/gitlab/instance_wide_ignored_git_blobs.txt" ``` ## Configure commit signing for GitLab UI commits > - [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/19185) in GitLab 15.4. > - Displaying **Verified** badge for signed GitLab UI commits [introduced](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/124218) in GitLab 16.3 [with a flag](../feature_flags.md) named `gitaly_gpg_signing`. Disabled by default. FLAG: On self-managed GitLab, by default this feature is not available. To make it available, an administrator can [enable the feature flag](../feature_flags.md) named `gitaly_gpg_signing`. On GitLab.com, this feature is not available. By default, Gitaly doesn't sign commits made using GitLab UI. For example, commits made using: - Web editor. - Web IDE. - Merge requests. You can configure Gitaly to sign commits made with the GitLab UI. By default, Gitaly sets the author of a commit as the committer. In this case, it is harder to [Verify commits locally](../../user/project/repository/signed_commits/ssh.md#verify-commits-locally) because the signature belongs to neither the author nor the committer of the commit. You can configure Gitaly to reflect that a commit has been committed by your instance by setting `committer_email` and `committer_name`. For example, on GitLab.com these configuration options are set to `noreply@gitlab.com` and `GitLab`. Configure Gitaly to sign commits made with the GitLab UI in one of two ways: ::Tabs :::TabTitle Linux package (Omnibus) 1. [Create a GPG key](../../user/project/repository/signed_commits/gpg.md#create-a-gpg-key) and export it, or [create an SSH key](../../user/ssh.md#generate-an-ssh-key-pair). For optimal performance, use an EdDSA key. Export GPG key: ```shell gpg --export-secret-keys > signing_key.gpg ``` Or create an SSH key (with no passphrase): ```shell ssh-keygen -t ed25519 -f signing_key.ssh ``` 1. On the Gitaly nodes, copy the key into `/etc/gitlab/gitaly/`. 1. Edit `/etc/gitlab/gitlab.rb` and configure `gitaly['gpg_signing_key_path']`: ```ruby gitaly['configuration'] = { # ... git: { # ... committer_name: 'Your Instance', committer_email: 'noreply@yourinstance.com', signing_key: '/etc/gitlab/gitaly/signing_key.gpg', # ... }, } ``` 1. Save the file and [reconfigure GitLab](../restart_gitlab.md#reconfigure-a-linux-package-installation). :::TabTitle Self-compiled (source) 1. [Create a GPG key](../../user/project/repository/signed_commits/gpg.md#create-a-gpg-key) and export it, or [create an SSH key](../../user/ssh.md#generate-an-ssh-key-pair). For optimal performance, use an EdDSA key. Export GPG key: ```shell gpg --export-secret-keys > signing_key.gpg ``` Or create an SSH key (with no passphrase): ```shell ssh-keygen -t ed25519 -f signing_key.ssh ``` 1. On the Gitaly nodes, copy the key into `/etc/gitlab`. 1. Edit `/home/git/gitaly/config.toml` and configure `signing_key`: ```toml [git] committer_name = "Your Instance" committer_email = "noreply@yourinstance.com" signing_key = "/etc/gitlab/gitaly/signing_key.gpg" ``` 1. Save the file and [restart GitLab](../restart_gitlab.md#self-compiled-installations). ::EndTabs ## Generate configuration using an external command > [Introduced](https://gitlab.com/gitlab-org/gitaly/-/issues/4828) in GitLab 15.11. You can generate parts of the Gitaly configuration using an external command. You might do this: - To configure nodes without having to distribute the full configuration to each of them. - To configure using auto-discovery of the node's settings. For example, using DNS entries. - To configure secrets at startup of the node, so that don't need to be visible in plain text. To generate configuration using an external command, you must provide a script that dumps the desired configuration of the Gitaly node in JSON format to its standard output. For example, the following command configures the HTTP password used to connect to the GitLab internal API using an AWS secret: ```ruby #!/usr/bin/env ruby require 'json' JSON.generate({"gitlab": {"http_settings": {"password": `aws get-secret-value --secret-id ...`}}}) ``` You must then make the script path known to Gitaly in one of two ways: ::Tabs :::TabTitle Linux package (Omnibus) Edit `/etc/gitlab/gitlab.rb` and configure the `config_command`: ```ruby gitaly['configuration'] = { config_command: '/path/to/config_command', } ``` :::TabTitle Self-compiled (source) Edit `/home/git/gitaly/config.toml` and configure `config_command`: ```toml config_command = "/path/to/config_command" ``` ::EndTabs After configuration, Gitaly executes the command on startup and parses its standard output as JSON. The resulting configuration is then merged back into the other Gitaly configuration. Gitaly fails to start up if either: - The configuration command fails. - The output produced by the command cannot be parsed as valid JSON. ## Configure server-side backups > - [Introduced](https://gitlab.com/gitlab-org/gitaly/-/issues/4941) in GitLab 16.3. > - Server-side support for restoring a specified backup instead of the latest backup [introduced](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/132188) in GitLab 16.6. > - Server-side support for creating incremental backups [introduced](https://gitlab.com/gitlab-org/gitaly/-/merge_requests/6475) in GitLab 16.6. Repository backups can be configured so that the Gitaly node that hosts each repository is responsible for creating the backup and streaming it to object storage. This helps reduce the network resources required to create and restore a backup. Each Gitaly node must be configured to connect to object storage for backups. After configuring server-side backups, you can [create a server-side repository backup](../backup_restore/backup_gitlab.md#create-server-side-repository-backups). ### Configure Azure Blob storage How you configure Azure Blob storage for backups depends on the type of installation you have. For self-compiled installations, you must set the `AZURE_STORAGE_ACCOUNT` and `AZURE_STORAGE_KEY` environment variables outside of GitLab. ::Tabs :::TabTitle Linux package (Omnibus) Edit `/etc/gitlab/gitlab.rb` and configure the `go_cloud_url`: ```ruby gitaly['env'] = { 'AZURE_STORAGE_ACCOUNT' => 'azure_storage_account', 'AZURE_STORAGE_KEY' => 'azure_storage_key' # or 'AZURE_STORAGE_SAS_TOKEN' } gitaly['configuration'] = { backup: { go_cloud_url: 'azblob://gitaly-backups' } } ``` :::TabTitle Self-compiled (source) Edit `/home/git/gitaly/config.toml` and configure `go_cloud_url`: ```toml [backup] go_cloud_url = "azblob://gitaly-backups" ``` ::EndTabs ### Configure Google Cloud storage Google Cloud storage (GCP) authenticates using Application Default Credentials. Set up Application Default Credentials on each Gitaly server using either: - The [`gcloud auth application-default login`](https://cloud.google.com/sdk/gcloud/reference/auth/application-default/login) command. - The `GOOGLE_APPLICATION_CREDENTIALS` environment variable. For self-compiled installations, set the environment variable outside of GitLab. For more information, see [Application Default Credentials](https://cloud.google.com/docs/authentication/provide-credentials-adc). The destination bucket is configured using the `go_cloud_url` option. ::Tabs :::TabTitle Linux package (Omnibus) Edit `/etc/gitlab/gitlab.rb` and configure the `go_cloud_url`: ```ruby gitaly['env'] = { 'GOOGLE_APPLICATION_CREDENTIALS' => '/path/to/service.json' } gitaly['configuration'] = { backup: { go_cloud_url: 'gs://gitaly-backups' } } ``` :::TabTitle Self-compiled (source) Edit `/home/git/gitaly/config.toml` and configure `go_cloud_url`: ```toml [backup] go_cloud_url = "gs://gitaly-backups" ``` ::EndTabs ### Configure S3 storage To configure S3 storage authentication: - If you authenticate with the AWS CLI, you can use the default AWS session. - Otherwise, you can use the `AWS_ACCESS_KEY_ID` and `AWS_SECRET_ACCESS_KEY` environment variables. For self-compiled installations, set the environment variables outside of GitLab. For more information, see [AWS Session documentation](https://docs.aws.amazon.com/sdk-for-go/api/aws/session/). The destination bucket and region are configured using the `go_cloud_url` option. ::Tabs :::TabTitle Linux package (Omnibus) Edit `/etc/gitlab/gitlab.rb` and configure the `go_cloud_url`: ```ruby gitaly['env'] = { 'AWS_ACCESS_KEY_ID' => 'aws_access_key_id', 'AWS_SECRET_ACCESS_KEY' => 'aws_secret_access_key' } gitaly['configuration'] = { backup: { go_cloud_url: 's3://gitaly-backups?region=us-west-1' } } ``` :::TabTitle Self-compiled (source) Edit `/home/git/gitaly/config.toml` and configure `go_cloud_url`: ```toml [backup] go_cloud_url = "s3://gitaly-backups?region=us-west-1" ``` ::EndTabs #### Configure S3-compatible servers S3-compatible servers such as MinIO are configured similarly to S3 with the addition of the `endpoint` parameter. The following parameters are supported: - `region`: The AWS region. - `endpoint`: The endpoint URL. - `disabledSSL`: A value of `true` disables SSL. - `s3ForcePathStyle`: A value of `true` forces path-style addressing. ::Tabs :::TabTitle Linux package (Omnibus) Edit `/etc/gitlab/gitlab.rb` and configure the `go_cloud_url`: ```ruby gitaly['env'] = { 'AWS_ACCESS_KEY_ID' => 'minio_access_key_id', 'AWS_SECRET_ACCESS_KEY' => 'minio_secret_access_key' } gitaly['configuration'] = { backup: { go_cloud_url: 's3://gitaly-backups?region=minio&endpoint=my.minio.local:8080&disableSSL=true&s3ForcePathStyle=true' } } ``` :::TabTitle Self-compiled (source) Edit `/home/git/gitaly/config.toml` and configure `go_cloud_url`: ```toml [backup] go_cloud_url = "s3://gitaly-backups?region=minio&endpoint=my.minio.local:8080&disableSSL=true&s3ForcePathStyle=true" ``` ::EndTabs