Deploy CockroachDB on Google Cloud Platform GCE

On this page

This page shows you how to manually deploy a secure multi-node CockroachDB cluster on Google Cloud Platform's Compute Engine (GCE), using Google's TCP Proxy Load Balancing service to distribute client traffic.

If you are only testing CockroachDB, or you are not concerned with protecting network communication with TLS encryption, you can use an insecure cluster instead. Select Insecure above for instructions.

Requirements

• You must have CockroachDB installed locally. This is necessary for generating and managing your deployment's certificates.

• You must have SSH access to each machine. This is necessary for distributing and starting CockroachDB binaries.

• Your network configuration must allow TCP communication on the following ports:

  • 26257 for intra-cluster and client-cluster communication
  • 8080 to expose your Admin UI

Recommendations

• If you plan to use CockroachDB in production, carefully review the Production Checklist.

• Decide how you want to access your Admin UI:

  Access Level	Description
  Partially open	Set a firewall rule to allow only specific IP addresses to communicate on port 8080.
  Completely open	Set a firewall rule to allow all IP addresses to communicate on port 8080.
  Completely closed	Set a firewall rule to disallow all communication on port 8080. In this case, a machine with SSH access to a node could use an SSH tunnel to access the Admin UI.

Step 1. Configure your network

CockroachDB requires TCP communication on two ports:

• 26257 (tcp:26257) for inter-node communication (i.e., working as a cluster)
• 8080 (tcp:8080) for exposing your Admin UI

Inter-node communication works by default using your GCE instances' internal IP addresses, which allow communication with other instances on CockroachDB's default port 26257. However, to expose your admin UI and allow traffic from the TCP proxy load balancer and health checker to your instances, you need to create firewall rules for your project.

Creating Firewall Rules

When creating firewall rules, we recommend using Google Cloud Platform's tag feature, which lets you specify that you want to apply the rule only to instance that include the same tag.

Admin UI

Application Data

Applications will not connect directly to your CockroachDB nodes. Instead, they'll connect to GCE's TCP Proxy Load Balancing service, which automatically routes traffic to the instances that are closest to the user. Because this service is implemented at the edge of the Google Cloud, you'll need to create a firewall rule to allow traffic from the load balancer and health checker to your instances. This is covered in Step 4.

Step 2. Create instances

Create an instance for each node you plan to have in your cluster.

• Run at least 3 nodes to ensure survivability.

• Use n1-standard or n1-highcpu predefined VMs, or custom VMs, with Local SSDs or SSD persistent disks. For example, Cockroach Labs has used custom VMs (8 vCPUs and 16 GiB of RAM per VM) for internal testing.

• Do not use f1 or g1 shared-core machines, which limit the load on a single core.

• If you used a tag for your firewall rules, when you create the instance, select Management, disk, networking, SSH keys. Then on the Networking tab, in the Network tags field, enter cockroachdb.

For more details, see Hardware Recommendations and Cluster Topology.

Step 3. Synchronize clocks

CockroachDB requires moderate levels of clock synchronization to preserve data consistency. For this reason, when a node detects that its clock is out of sync with at least half of the other nodes in the cluster by 80% of the maximum offset allowed (500ms by default), it spontaneously shuts down. This avoids the risk of consistency anomalies, but it's best to prevent clocks from drifting too far in the first place by running clock synchronization software on each node.

Compute Engine instances are preconfigured to use NTP, which should keep offsets in the single-digit milliseconds. However, Google can’t predict how external NTP services, such as pool.ntp.org, will handle the leap second. Therefore, you should:

• Configure each GCE instances to use Google's internal NTP service.
• If you plan to run a hybrid cluster across GCE and other cloud providers or environments, configure the non-GCE machines to use Google's external NTP service.

Step 4. Set up TCP Proxy Load Balancing

Each CockroachDB node is an equally suitable SQL gateway to your cluster, but to ensure client performance and reliability, it's important to use load balancing:

• Performance: Load balancers spread client traffic across nodes. This prevents any one node from being overwhelmed by requests and improves overall cluster performance (queries per second).

• Reliability: Load balancers decouple client health from the health of a single CockroachDB node. In cases where a node fails, the load balancer redirects client traffic to available nodes.

GCE offers fully-managed TCP Proxy Load Balancing. This service lets you use a single IP address for all users around the world, automatically routing traffic to the instances that are closest to the user.

To use GCE's TCP Proxy Load Balancing service:

1. For each zone in which you're running an instance, create a distinct instance group.
   • To ensure that the load balancer knows where to direct traffic, specify a port name mapping, with tcp26257 as the Port name and 26257 as the Port number.
2. Add the relevant instances to each instance group.
3. Configure TCP Proxy Load Balancing.
   • During backend configuration, create a health check, setting the Protocol to HTTPS, the Port to 8080, and the Request path to /health. If you want to maintain long-lived SQL connections that may be idle for more than tens of seconds, increase the backend timeout setting accordingly.
   • During frontend configuration, reserve a static IP address and note the IP address and the port you select. You'll use this address and port for all client connections.
4. Create a firewall rule to allow traffic from the load balancer and health checker to your instances. This is necessary because TCP Proxy Load Balancing is implemented at the edge of the Google Cloud.
   • Be sure to set Source IP ranges to 130.211.0.0/22 and 35.191.0.0/16 and set Target tags to cockroachdb (not to the value specified in the linked instructions).

Step 5. Generate certificates

You can use either cockroach cert commands or openssl commands to generate security certificates. This section features the cockroach cert commands.

Locally, you'll need to create the following certificates and keys:

• A certificate authority (CA) key pair (ca.crt and ca.key).
• A node key pair for each node, issued to its IP addresses and any common names the machine uses, as well as to the IP addresses and common names for machines running load balancers.
• A client key pair for the root user. You'll use this to run a sample workload against the cluster as well as some cockroach client commands from your local machine.

1. Install CockroachDB on your local machine, if you haven't already.

2. Create two directories:

   $ mkdir certs
   

   $ mkdir my-safe-directory
   

   • certs: You'll generate your CA certificate and all node and client certificates and keys in this directory and then upload some of the files to your nodes.
   • my-safe-directory: You'll generate your CA key in this directory and then reference the key when generating node and client certificates. After that, you'll keep the key safe and secret; you will not upload it to your nodes.

3. Create the CA certificate and key:

   $ cockroach cert create-ca \
   --certs-dir=certs \
   --ca-key=my-safe-directory/ca.key
   

4. Create the certificate and key for the first node, issued to all common names you might use to refer to the node as well as to the load balancer instances:

   $ cockroach cert create-node \
   <node1 internal IP address> \
   <node1 external IP address> \
   <node1 hostname>  \
   <other common names for node1> \
   localhost \
   127.0.0.1 \
   <load balancer IP address> \
   <load balancer hostname>  \
   <other common names for load balancer instances> \
   --certs-dir=certs \
   --ca-key=my-safe-directory/ca.key
   

5. Upload certificates to the first node:

   # Create the certs directory:
   $ ssh <username>@<node1 address> "mkdir certs"
   

   # Upload the CA certificate and node certificate and key:
   $ scp certs/ca.crt \
   certs/node.crt \
   certs/node.key \
   <username>@<node1 address>:~/certs
   

6. Delete the local copy of the node certificate and key:

   $ rm certs/node.crt certs/node.key
   

   Note:

   This is necessary because the certificates and keys for additional nodes will also be named node.crt and node.key As an alternative to deleting these files, you can run the next cockroach cert create-node commands with the --overwrite flag.

7. Create the certificate and key for the second node, issued to all common names you might use to refer to the node as well as to the load balancer instances:

   $ cockroach cert create-node \
   <node2 internal IP address> \
   <node2 external IP address> \
   <node2 hostname>  \
   <other common names for node2> \
   localhost \
   127.0.0.1 \
   <load balancer IP address> \
   <load balancer hostname>  \
   <other common names for load balancer instances> \
   --certs-dir=certs \
   --ca-key=my-safe-directory/ca.key
   

8. Upload certificates to the second node:

   # Create the certs directory:
   $ ssh <username>@<node2 address> "mkdir certs"
   

   # Upload the CA certificate and node certificate and key:
   $ scp certs/ca.crt \
   certs/node.crt \
   certs/node.key \
   <username>@<node2 address>:~/certs
   

9. Repeat steps 6 - 8 for each additional node.

10. Create a client certificate and key for the root user:

    $ cockroach cert create-client \
    root \
    --certs-dir=certs \
    --ca-key=my-safe-directory/ca.key
    

11. Upload certificates to the machine where you will run a sample workload:

    # Create the certs directory:
    $ ssh <username>@<workload address> "mkdir certs"
    

    # Upload the CA certificate and client certificate and key:
    $ scp certs/ca.crt \
    certs/client.root.crt \
    certs/client.root.key \
    <username>@<workload address>:~/certs
    

    In later steps, you'll also use the root user's certificate to run cockroach client commands from your local machine. If you might also want to run cockroach client commands directly on a node (e.g., for local debugging), you'll need to copy the root user's certificate and key to that node as well.

Step 6. Start nodes

You can start the nodes manually or automate the process using systemd.

Step 7. Initialize the cluster

On your local machine, run the cockroach init command to complete the node startup process and have them join together as a cluster:

$ cockroach init --certs-dir=certs --host=<address of any node>

This command requires the following flags:

After running this command, each node prints helpful details to the standard output, such as the CockroachDB version, the URL for the admin UI, and the SQL URL for clients.

Step 8. Test the cluster

CockroachDB replicates and distributes data for you behind-the-scenes and uses a Gossip protocol to enable each node to locate data across the cluster.

To test this, use the built-in SQL client locally as follows:

1. On your local machine, launch the built-in SQL client:

   $ cockroach sql --certs-dir=certs --host=<address of any node>
   

   This command requires the following flags:

   Flag	Description
   --certs-dir	Specifies the directory where you placed the ca.crt file and the client.root.crt and client.root.key files for the root user.
   --host	Specifies the address of any node in the cluster.

2. Create a securenodetest database:

   > CREATE DATABASE securenodetest;
   

3. Use \q or CTRL-C to exit the SQL shell.

4. Launch the built-in SQL client against a different node:

   $ cockroach sql --certs-dir=certs --host=<address of different node>
   

5. View the cluster's databases, which will include securenodetest:

   > SHOW DATABASES;
   

   +--------------------+
   |      Database      |
   +--------------------+
   | crdb_internal      |
   | information_schema |
   | securenodetest     |
   | pg_catalog         |
   | system             |
   +--------------------+
   (5 rows)
   

6. Use \q or CTRL-C to exit the SQL shell.

Step 9. Set up monitoring and alerting

Despite CockroachDB's various built-in safeguards against failure, it is critical to actively monitor the overall health and performance of a cluster running in production and to create alerting rules that promptly send notifications when there are events that require investigation or intervention.

For details about available monitoring options and the most important events and metrics to alert on, see Monitoring and Alerting.

Step 10. Scale the cluster

You can start the nodes manually or automate the process using systemd.

Step 11. Use the database

Now that your deployment is working, you can:

1. Implement your data model.
2. Create users and grant them privileges.
3. Connect your application. Be sure to connect your application to the load balancer, not to a CockroachDB node.

You may also want to adjust the way the cluster replicates data. For example, by default, a multi-node cluster replicates all data 3 times; you can change this replication factor or create additional rules for replicating individual databases and tables differently. For more information, see Configure Replication Zones.

See Also

• Production Checklist
• Manual Deployment
• Orchestrated Deployment
• Monitoring and Alerting
• Local Deployment

Was this helpful?