ArangoDB v3.13 is under development and not released yet. This documentation is not final and potentially incomplete.
ArangoDB Production Checklist
Important steps to perform before you go live with ArangoDB deployments
The following checklist can help to understand if important steps have been performed on your production system before you go live.
Operating System
Executed the OS optimization scripts if you run ArangoDB on Linux. See Installing ArangoDB on Linux and its sub pages Linux Operating System Configuration and Linux OS Tuning Script Examples for details.
OS monitoring is in place (most common metrics, e.g. disk, CPU, RAM utilization).
Disk space monitoring is in place. Consider setting up alerting to avoid out-of-disk situations.
ArangoDB
The user root is not used to run any ArangoDB processes (if you run ArangoDB on Linux).
The arangod (server) process and the arangodb (Starter) process (if in use) have some form of logging enabled and logs can easily be located and inspected.
Memory considerations
- If you run multiple processes (e.g. DB-Server and Coordinator) on a single
machine, adjust the
ARANGODB_OVERRIDE_DETECTED_TOTAL_MEMORY
environment variable accordingly. - For versions prior to 3.8, make sure to change the
--query.memory-limit
query option according to the node size and workload. - Disable swap space to avoid slowdown which can result in servers being incorrectly detected as failed.
- If you run multiple processes (e.g. DB-Server and Coordinator) on a single
machine, adjust the
Ensure ArangoDB will be automatically restarted (e.g. by using a systemd service file). Typically you would use the Kubernetes operator or use systemd to launch the Starter.
If you use the Starter to deploy, you stopped - and disabled automated start of - the ArangoDB Single Instance, e.g. on Ubuntu:
service arangodb3 stop update-rc.d -f arangodb3 remove
If you have deployed a Cluster, the replication factor and minimal_replication_factor of your collections are set to a value equal or higher than 2, otherwise you run the risk of losing data in case of a node failure. See cluster startup options.
Disk Performance considerations
Verify that your storage performance is at least 100 IOPS for each volume in production mode. This is the bare minimum and it’s recommended to provide more for performance. It is probably only a concern if you use a cloud infrastructure. Note that IOPS might be allotted based on a volume size, so make sure to check your storage provider for details. Furthermore, you should be careful with burst mode guarantees as ArangoDB requires a sustainable high IOPS rate.
The considerations should be given to an IO bandwidth (especially considering RocksDB write-amplification which can easily be 10x or more).
Whenever possible use block storage. Database data is based on append operations, so filesystem which support this should be used for best performance. We would not recommend to use NFS for performance reasons, furthermore we experienced some issues with hard links required for Hot Backup.
Verify your Backup and restore procedures are working.
Consider enabling Encryption at Rest (Enterprise Edition only). Make sure to safely store any secret keys you create for this.
Monitor the ArangoDB provided metrics (e.g. by using Prometheus/Grafana).
Kubernetes Operator (kube-arangodb)
Check supported versions for Kubernetes, operator and supported Kubernetes distributions.
The ReclaimPolicy of your persistent volumes should be set to
Retain
to prevent volumes from premature deletion.Use native networking whenever possible to reduce delays.