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Concurrency limiting

To avoid overwhelming the servers running Gitaly, you can limit concurrency of:

  • RPCs.
  • Pack objects.

These limits can be fixed, or set as adaptive.

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 or workloads.

Limit RPC concurrency

When cloning or pulling repositories, various RPCs run in the background. In particular, the Git pack RPCs:

  • SSHUploadPackWithSidechannel (for Git SSH).
  • PostUploadPackWithSidechannel (for Git HTTP).

These RPCs can consume a large amount of resources, which can have a significant impact in situations such as:

  • Unexpectedly high traffic.
  • Running against large repositories that don't follow best practices.

You can limit these processes from overwhelming your Gitaly server in these scenarios using the concurrency limits in the Gitaly configuration file. For example:

# in /etc/gitlab/gitlab.rb
gitaly['configuration'] = {
   # ...
   concurrency: [
      {
         rpc: '/gitaly.SmartHTTPService/PostUploadPackWithSidechannel',
         max_per_repo: 20,
         max_queue_wait: '1s',
         max_queue_size: 10,
      },
      {
         rpc: '/gitaly.SSHService/SSHUploadPackWithSidechannel',
         max_per_repo: 20,
         max_queue_wait: '1s',
         max_queue_size: 10,
      },
   ],
}
  • rpc is the name of the RPC to set a concurrency limit for per repository.
  • max_per_repo is the maximum number of in-flight RPC calls for the given RPC per repository.
  • max_queue_wait is the maximum amount of time a request can wait in the concurrency queue to be picked up by Gitaly.
  • max_queue_size is the maximum size the concurrency queue (per RPC method) can grow to before requests are rejected by Gitaly.

This limits the number of in-flight RPC calls for the given RPCs. The limit is applied per repository. In the example above:

  • Each repository served by the Gitaly server can have at most 20 simultaneous PostUploadPackWithSidechannel and SSHUploadPackWithSidechannel RPC calls in flight.
  • If another request comes in for a repository that has used up its 20 slots, that request gets queued.
  • If a request waits in the queue for more than 1 second, it is rejected with an error.
  • If the queue grows beyond 10, subsequent requests are rejected with an error.

NOTE: When these limits are reached, users are disconnected.

You can observe the behavior of this queue using the Gitaly logs and Prometheus. For more information, see the relevant documentation.

Limit pack-objects concurrency

  • Introduced in GitLab 15.11 with a flag named gitaly_pack_objects_limiting_remote_ip. Disabled by default.
  • Generally available in GitLab 16.0. Feature flag gitaly_pack_objects_limiting_remote_ip removed.

Gitaly triggers git-pack-objects processes when handling both SSH and HTTPS traffic to clone or pull repositories. These processes generate a pack-file and can consume a significant amount of resources, especially in situations such as unexpectedly high traffic or concurrent pulls from a large repository. On GitLab.com, we also observe problems with clients that have slow internet connections.

You can limit these processes from overwhelming your Gitaly server by setting pack-objects concurrency limits in the Gitaly configuration file. This setting limits the number of in-flight pack-object processes per remote IP address.

WARNING: Only enable these limits on your environment with caution and only in select circumstances, such as to protect against unexpected traffic. When reached, these limits disconnect users. For consistent and stable performance, you should first explore other options such as adjusting node specifications, and reviewing large repositories or workloads.

Example configuration:

# in /etc/gitlab/gitlab.rb
gitaly['pack_objects_limiting'] = {
   'max_concurrency' => 15,
   'max_queue_length' => 200,
   'max_queue_wait' => '60s',
}
  • max_concurrency is the maximum number of in-flight pack-object processes per key.
  • max_queue_length is the maximum size the concurrency queue (per key) can grow to before requests are rejected by Gitaly.
  • max_queue_wait is the maximum amount of time a request can wait in the concurrency queue to be picked up by Gitaly.

In the example above:

  • Each remote IP can have at most 15 simultaneous pack-object processes in flight on a Gitaly node.
  • If another request comes in from an IP that has used up its 15 slots, that request gets queued.
  • If a request waits in the queue for more than 1 minute, it is rejected with an error.
  • If the queue grows beyond 200, subsequent requests are rejected with an error.

When the pack-object cache is enabled, pack-objects limiting kicks in only if the cache is missed. For more, see Pack-objects cache.

You can observe the behavior of this queue using Gitaly logs and Prometheus. For more information, see Monitor Gitaly pack-objects concurrency limiting.

Adaptive concurrency limiting

Gitaly supports two concurrency limits:

  • An RPC concurrency limit, which allow you to configure a maximum number of simultaneous in-flight requests for each Gitaly RPC. The limit is scoped by RPC and repository.
  • A Pack-objects concurrency limit, which restricts the number of concurrent Git data transfer request by IP.

If this limit is exceeded, either:

  • The request is put in a queue.
  • The request is rejected if the queue is full or if the request remains in the queue for too long.

Both of these concurrency limits can be configured statically. Though static limits can yield good protection results, they have some drawbacks:

  • Static limits are not good for all usage patterns. There is no one-size-fits-all value. If the limit is too low, big repositories are negatively impacted. If the limit is too high, the protection is essentially lost.
  • It's tedious to maintain a sane value for the concurrency limit, especially when the workload of each repository changes over time.
  • A request can be rejected even though the server is idle because the rate doesn't factor in the load on the server.

You can overcome all of these drawbacks and keep the benefits of concurrency limiting by configuring adaptive concurrency limits. Adaptive concurrency limits are optional and build on the two concurrency limiting types. It uses Additive Increase/Multiplicative Decrease (AIMD) algorithm. Each adaptive limit:

  • Gradually increases up to a certain upper limit during typical process functioning.
  • Quickly decreases when the host machine has a resource problem.

This mechanism provides some headroom for the machine to "breathe" and speeds up current inflight requests.

Gitaly Adaptive Concurrency Limit

The adaptive limiter calibrates the limits every 30 seconds and:

  • Increases the limits by one until reaching the upper limit.
  • Decreases the limits by half when the top-level cgroup has either memory usage that exceeds 90%, excluding highly-evictable page caches, or CPU throttled for 50% or more of the observation time.

Otherwise, the limits increase by one until reaching the upper bound. For more information about technical implementation of this system, refer to the related design document.

Adaptive limiting is enabled for each RPC or pack-objects cache individually. However, limits are calibrated at the same time.

Enable adaptiveness for RPC concurrency

Prerequisites:

  • Because adaptive limiting depends on control groups, control groups must be enabled before using adaptive limiting.

The following is an example to configure an adaptive limit for RPC concurrency:

# in /etc/gitlab/gitlab.rb
gitaly['configuration'] = {
    # ...
    concurrency: [
        {
            rpc: '/gitaly.SmartHTTPService/PostUploadPackWithSidechannel',
            max_queue_wait: '1s',
            max_queue_size: 10,
            adaptive: true,
            min_limit: 10,
            initial_limit: 20,
            max_limit: 40
        },
        {
            rpc: '/gitaly.SSHService/SSHUploadPackWithSidechannel',
            max_queue_wait: '10s',
            max_queue_size: 20,
            adaptive: true,
            min_limit: 10,
            initial_limit: 50,
            max_limit: 100
        },
   ],
}

In this example:

  • adaptive sets whether the adaptiveness is enabled. If set, the max_per_repo value is ignored in favor of the following configuration.
  • initial_limit is the per-repository concurrency limit to use when Gitaly starts.
  • max_limit is the minimum per-repository concurrency limit of the configured RPC. Gitaly increases the current limit until it reaches this number.
  • min_limit is the is the minimum per-repository concurrency limit of the configured RPC. When the host machine has a resource problem, Gitaly quickly reduces the limit until reaching this value.

For more information, see RPC concurrency.

Enable adaptiveness for pack-objects concurrency

Prerequisites:

  • Because adaptive limiting depends on control groups, control groups must be enabled before using adaptive limiting.

The following is an example to configure an adaptive limit for pack-objects concurrency:

# in /etc/gitlab/gitlab.rb
gitaly['pack_objects_limiting'] = {
   'max_queue_length' => 200,
   'max_queue_wait' => '60s',
   'adaptive' => true,
   'min_limit' => 10,
   'initial_limit' => 20,
   'max_limit' => 40
}

In this example:

  • adaptive sets whether the adaptiveness is enabled. If set, the value of max_concurrency is ignored in favor of the following configuration.
  • initial_limit is the per-IP concurrency limit to use when Gitaly starts.
  • max_limit is the minimum per-IP concurrency limit for pack-objects. Gitaly increases the current limit until it reaches this number.
  • min_limit is the is the minimum per-IP concurrency limit for pack-objects. When the host machine has a resources problem, Gitaly quickly reduces the limit until it reaches this value.

For more information, see pack-objects concurrency.