Skip to content

How to set up Consul

DETAILS: Tier: Premium, Ultimate Offering: Self-managed

A Consul cluster consists of both server and client agents. The servers run on their own nodes and the clients run on other nodes that in turn communicate with the servers.

GitLab Premium includes a bundled version of Consul a service networking solution that you can manage by using /etc/gitlab/gitlab.rb.

Prerequisites

Before configuring Consul:

  1. Review the reference architecture documentation to determine the number of Consul server nodes you should have.
  2. If necessary, ensure the appropriate ports are open in your firewall.

Configure the Consul nodes

On each Consul server node:

  1. Follow the instructions to install GitLab by choosing your preferred platform, but do not supply the EXTERNAL_URL value when asked.

  2. Edit /etc/gitlab/gitlab.rb, and add the following by replacing the values noted in the retry_join section. In the example below, there are three nodes, two denoted with their IP, and one with its FQDN, you can use either notation:

    # Disable all components except Consul
    roles ['consul_role']
    
    # Consul nodes: can be FQDN or IP, separated by a whitespace
    consul['configuration'] = {
      server: true,
      retry_join: %w(10.10.10.1 consul1.gitlab.example.com 10.10.10.2)
    }
    
    # Disable auto migrations
    gitlab_rails['auto_migrate'] = false
  3. Reconfigure GitLab for the changes to take effect.

  4. Run the following command to ensure Consul is both configured correctly and to verify that all server nodes are communicating:

    sudo /opt/gitlab/embedded/bin/consul members

    The output should be similar to:

    Node                 Address               Status  Type    Build  Protocol  DC
    CONSUL_NODE_ONE      XXX.XXX.XXX.YYY:8301  alive   server  0.9.2  2         gitlab_consul
    CONSUL_NODE_TWO      XXX.XXX.XXX.YYY:8301  alive   server  0.9.2  2         gitlab_consul
    CONSUL_NODE_THREE    XXX.XXX.XXX.YYY:8301  alive   server  0.9.2  2         gitlab_consul

    If the results display any nodes with a status that isn't alive, or if any of the three nodes are missing, see the Troubleshooting section.

Securing the Consul nodes

There are two ways you can secure the communication between the Consul nodes, using either TLS or gossip encryption.

TLS encryption

By default TLS is not enabled for the Consul cluster, the default configuration options and their defaults are:

consul['use_tls'] = false
consul['tls_ca_file'] = nil
consul['tls_certificate_file'] = nil
consul['tls_key_file'] = nil
consul['tls_verify_client'] = nil

These configuration options apply to both client and server nodes.

To enable TLS on a Consul node start with consul['use_tls'] = true. Depending on the role of the node (server or client) and your TLS preferences you need to provide further configuration:

  • On a server node you must at least specify tls_ca_file, tls_certificate_file, and tls_key_file.
  • On a client node, when client TLS authentication is disabled on the server (enabled by default) you must at least specify tls_ca_file, otherwise you have to pass the client TLS certificate and key using tls_certificate_file, tls_key_file.

When TLS is enabled, by default the server uses mTLS and listens on both HTTPS and HTTP (and TLS and non-TLS RPC). It expects clients to use TLS authentication. You can disable client TLS authentication by setting consul['tls_verify_client'] = false.

On the other hand, clients only use TLS for outgoing connection to server nodes and only listen on HTTP (and non-TLS RPC) for incoming requests. You can enforce client Consul agents to use TLS for incoming connections by setting consul['https_port'] to a non-negative integer (8501 is the Consul's default HTTPS port). You must also pass tls_certificate_file and tls_key_file for this to work. When server nodes use client TLS authentication, the client TLS certificate and key is used for both TLS authentication and incoming HTTPS connections.

Consul client nodes do not use TLS client authentication by default (as opposed to servers) and you need to explicitly instruct them to do it by setting consul['tls_verify_client'] = true.

Below are some examples of TLS encryption.

Minimal TLS support

In the following example, the server uses TLS for incoming connections (without client TLS authentication).

::Tabs

:::TabTitle Consul server node

  1. Edit /etc/gitlab/gitlab.rb:

    consul['enable'] = true
    consul['configuration'] = {
      'server' => true
    }
    
    consul['use_tls'] = true
    consul['tls_ca_file'] = '/path/to/ca.crt.pem'
    consul['tls_certificate_file'] = '/path/to/server.crt.pem'
    consul['tls_key_file'] = '/path/to/server.key.pem'
    consul['tls_verify_client'] = false
  2. Reconfigure GitLab:

    sudo gitlab-ctl reconfigure

:::TabTitle Consul client node

The following can be configured on a Patroni node for example.

  1. Edit /etc/gitlab/gitlab.rb:

    consul['enable'] = true
    consul['use_tls'] = true
    consul['tls_ca_file'] = '/path/to/ca.crt.pem'
    patroni['consul']['url'] = 'http://localhost:8500'
  2. Reconfigure GitLab:

    sudo gitlab-ctl reconfigure

Patroni talks to the local Consul agent which does not use TLS for incoming connections. Hence the HTTP URL for patroni['consul']['url'].

::EndTabs

Default TLS support

In the following example, the server uses mutual TLS authentication.

::Tabs

:::TabTitle Consul server node

  1. Edit /etc/gitlab/gitlab.rb:

    consul['enable'] = true
    consul['configuration'] = {
      'server' => true
    }
    
    consul['use_tls'] = true
    consul['tls_ca_file'] = '/path/to/ca.crt.pem'
    consul['tls_certificate_file'] = '/path/to/server.crt.pem'
    consul['tls_key_file'] = '/path/to/server.key.pem'
  2. Reconfigure GitLab:

    sudo gitlab-ctl reconfigure

:::TabTitle Consul client node

The following can be configured on a Patroni node for example.

  1. Edit /etc/gitlab/gitlab.rb:

    consul['enable'] = true
    consul['use_tls'] = true
    consul['tls_ca_file'] = '/path/to/ca.crt.pem'
    consul['tls_certificate_file'] = '/path/to/client.crt.pem'
    consul['tls_key_file'] = '/path/to/client.key.pem'
    patroni['consul']['url'] = 'http://localhost:8500'
  2. Reconfigure GitLab:

    sudo gitlab-ctl reconfigure

Patroni talks to the local Consul agent which does not use TLS for incoming connections, even though it uses TLS authentication to Consul server nodes. Hence the HTTP URL for patroni['consul']['url'].

::EndTabs

Full TLS support

In the following example, both client and server use mutual TLS authentication.

The Consul server, client, and Patroni client certificates must be issued by the same CA for mutual TLS authentication to work.

::Tabs

:::TabTitle Consul server node

  1. Edit /etc/gitlab/gitlab.rb:

    consul['enable'] = true
    consul['configuration'] = {
      'server' => true
    }
    
    consul['use_tls'] = true
    consul['tls_ca_file'] = '/path/to/ca.crt.pem'
    consul['tls_certificate_file'] = '/path/to/server.crt.pem'
    consul['tls_key_file'] = '/path/to/server.key.pem'
  2. Reconfigure GitLab:

    sudo gitlab-ctl reconfigure

:::TabTitle Consul client node

The following can be configured on a Patroni node for example.

  1. Edit /etc/gitlab/gitlab.rb:

    consul['enable'] = true
    consul['use_tls'] = true
    consul['tls_verify_client'] = true
    consul['tls_ca_file'] = '/path/to/ca.crt.pem'
    consul['tls_certificate_file'] = '/path/to/client.crt.pem'
    consul['tls_key_file'] = '/path/to/client.key.pem'
    consul['https_port'] = 8501
    
    patroni['consul']['url'] = 'https://localhost:8501'
    patroni['consul']['cacert'] = '/path/to/ca.crt.pem'
    patroni['consul']['cert'] = '/opt/tls/patroni.crt.pem'
    patroni['consul']['key'] = '/opt/tls/patroni.key.pem'
    patroni['consul']['verify'] = true
  2. Reconfigure GitLab:

    sudo gitlab-ctl reconfigure

::EndTabs

Gossip encryption

The Gossip protocol can be encrypted to secure communication between Consul agents. By default encryption is not enabled, to enable encryption a shared encryption key is required. For convenience, the key can be generated by using the gitlab-ctl consul keygen command. The key must be 32 bytes long, Base 64 encoded and shared on all agents.

The following options work on both client and server nodes.

To enable the gossip protocol:

  1. Edit /etc/gitlab/gitlab.rb:

    consul['encryption_key'] = <base-64-key>
    consul['encryption_verify_incoming'] = true
    consul['encryption_verify_outgoing'] = true
  2. Reconfigure GitLab:

    sudo gitlab-ctl reconfigure

To enable encryption in an existing datacenter, manually set these options for a rolling update.

Upgrade the Consul nodes

To upgrade your Consul nodes, upgrade the GitLab package.

Nodes should be:

  • Members of a healthy cluster prior to upgrading the Linux package.
  • Upgraded one node at a time.

Identify any existing health issues in the cluster by running the following command in each node. The command returns an empty array if the cluster is healthy:

curl "http://127.0.0.1:8500/v1/health/state/critical"

If the Consul version has changed, you see a notice at the end of gitlab-ctl reconfigure informing you that Consul must be restarted for the new version to be used.

Restart Consul one node at a time:

sudo gitlab-ctl restart consul

Consul nodes communicate using the raft protocol. If the current leader goes offline, there must be a leader election. A leader node must exist to facilitate synchronization across the cluster. If too many nodes go offline at the same time, the cluster loses quorum and doesn't elect a leader due to broken consensus.

Consult the troubleshooting section if the cluster is not able to recover after the upgrade. The outage recovery may be of particular interest.

GitLab uses Consul to store only easily regenerated, transient data. If the bundled Consul wasn't used by any process other than GitLab itself, you can rebuild the cluster from scratch.

Troubleshooting Consul

Below are some operations should you debug any issues. You can see any error logs by running:

sudo gitlab-ctl tail consul

Check the cluster membership

To determine which nodes are part of the cluster, run the following on any member in the cluster:

sudo /opt/gitlab/embedded/bin/consul members

The output should be similar to:

Node            Address               Status  Type    Build  Protocol  DC
consul-b        XX.XX.X.Y:8301        alive   server  0.9.0  2         gitlab_consul
consul-c        XX.XX.X.Y:8301        alive   server  0.9.0  2         gitlab_consul
consul-c        XX.XX.X.Y:8301        alive   server  0.9.0  2         gitlab_consul
db-a            XX.XX.X.Y:8301        alive   client  0.9.0  2         gitlab_consul
db-b            XX.XX.X.Y:8301        alive   client  0.9.0  2         gitlab_consul

Ideally all nodes have a Status of alive.

Restart Consul

If it is necessary to restart Consul, it is important to do this in a controlled manner to maintain quorum. If quorum is lost, to recover the cluster, you follow the Consul outage recovery process.

To be safe, it's recommended that you only restart Consul in one node at a time to ensure the cluster remains intact. For larger clusters, it is possible to restart multiple nodes at a time. See the Consul consensus document for the number of failures it can tolerate. This is the number of simultaneous restarts it can sustain.

To restart Consul:

sudo gitlab-ctl restart consul

Consul nodes unable to communicate

By default, Consul attempts to bind to 0.0.0.0, but it advertises the first private IP address on the node for other Consul nodes to communicate with it. If the other nodes cannot communicate with a node on this address, then the cluster has a failed status.

If you run into this issue, then messages like the following are output in gitlab-ctl tail consul:

2017-09-25_19:53:39.90821     2017/09/25 19:53:39 [WARN] raft: no known peers, aborting election
2017-09-25_19:53:41.74356     2017/09/25 19:53:41 [ERR] agent: failed to sync remote state: No cluster leader

To fix this:

  1. Pick an address on each node that all of the other nodes can reach this node through.

  2. Update your /etc/gitlab/gitlab.rb

    consul['configuration'] = {
      ...
      bind_addr: 'IP ADDRESS'
    }
  3. Reconfigure GitLab;

    gitlab-ctl reconfigure

If you still see the errors, you may have to erase the Consul database and reinitialize on the affected node.

Consul does not start - multiple private IPs

If a node has multiple private IPs, Consul doesn't know about which of the private addresses to advertise, and then it immediately exits on start.

Messages like the following are output in gitlab-ctl tail consul:

2017-11-09_17:41:45.52876 ==> Starting Consul agent...
2017-11-09_17:41:45.53057 ==> Error creating agent: Failed to get advertise address: Multiple private IPs found. Please configure one.

To fix this:

  1. Pick an address on the node that all of the other nodes can reach this node through.

  2. Update your /etc/gitlab/gitlab.rb

    consul['configuration'] = {
      ...
      bind_addr: 'IP ADDRESS'
    }
  3. Reconfigure GitLab;

    gitlab-ctl reconfigure

Outage recovery

If you have lost enough Consul nodes in the cluster to break quorum, then the cluster is considered to have failed and cannot function without manual intervention. In that case, you can either recreate the nodes from scratch or attempt a recover.

Recreate from scratch

By default, GitLab does not store anything in the Consul node that cannot be recreated. To erase the Consul database and reinitialize:

sudo gitlab-ctl stop consul
sudo rm -rf /var/opt/gitlab/consul/data
sudo gitlab-ctl start consul

After this, the node should start back up, and the rest of the server agents rejoin. Shortly after that, the client agents should rejoin as well.

If they do not join, you might also need to erase the Consul data on the client:

sudo rm -rf /var/opt/gitlab/consul/data

Recover a failed node

If you have taken advantage of Consul to store other data and want to restore the failed node, follow the Consul guide to recover a failed cluster.