- Overview
- Requirements
- Installation
- Q&A: Deployment templates
- Configuring the machines
- Configuring the external objectstore
- Configuring an external Docker registry
- Configuring the load balancer
- Configuring the DNS
- Configuring Microsoft SQL Server
- Configuring the certificates
- Online multi-node HA-ready production installation
- Offline multi-node HA-ready production installation
- Disaster recovery - Installing the secondary cluster
- Downloading the installation packages
- install-uipath.sh parameters
- Enabling Redis High Availability Add-On for the cluster
- Document Understanding configuration file
- Adding a dedicated agent node with GPU support
- Adding a dedicated agent Node for Task Mining
- Connecting Task Mining application
- Adding a Dedicated Agent Node for Automation Suite Robots
- Post-installation
- Cluster administration
- Monitoring and alerting
- Migration and upgrade
- Migration options
- Step 1: Moving the Identity organization data from standalone to Automation Suite
- Step 2: Restoring the standalone product database
- Step 3: Backing up the platform database in Automation Suite
- Step 4: Merging organizations in Automation Suite
- Step 5: Updating the migrated product connection strings
- Step 6: Migrating standalone Insights
- Step 7: Deleting the default tenant
- B) Single tenant migration
- Product-specific configuration
- Best practices and maintenance
- Troubleshooting
- How to troubleshoot services during installation
- How to uninstall the cluster
- How to clean up offline artifacts to improve disk space
- How to clear Redis data
- How to enable Istio logging
- How to manually clean up logs
- How to clean up old logs stored in the sf-logs bundle
- How to disable streaming logs for AI Center
- How to debug failed Automation Suite installations
- How to delete images from the old installer after upgrade
- How to automatically clean up Longhorn snapshots
- How to disable TX checksum offloading
- How to manually set the ArgoCD log level to Info
- How to generate the encoded pull_secret_value for external registries
- How to address weak ciphers in TLS 1.2
- Unable to run an offline installation on RHEL 8.4 OS
- Error in downloading the bundle
- Offline installation fails because of missing binary
- Certificate issue in offline installation
- First installation fails during Longhorn setup
- SQL connection string validation error
- Prerequisite check for selinux iscsid module fails
- Azure disk not marked as SSD
- Failure after certificate update
- Antivirus causes installation issues
- Automation Suite not working after OS upgrade
- Automation Suite requires backlog_wait_time to be set to 0
- GPU node affected by resource unavailability
- Volume unable to mount due to not being ready for workloads
- Support bundle log collection failure
- Failure to upload or download data in objectstore
- PVC resize does not heal Ceph
- Failure to resize PVC
- Failure to resize objectstore PVC
- Rook Ceph or Looker pod stuck in Init state
- StatefulSet volume attachment error
- Failure to create persistent volumes
- Storage reclamation patch
- Backup failed due to TooManySnapshots error
- All Longhorn replicas are faulted
- Setting a timeout interval for the management portals
- Update the underlying directory connections
- Authentication not working after migration
- Kinit: Cannot find KDC for realm <AD Domain> while getting initial credentials
- Kinit: Keytab contains no suitable keys for *** while getting initial credentials
- GSSAPI operation failed due to invalid status code
- Alarm received for failed Kerberos-tgt-update job
- SSPI provider: Server not found in Kerberos database
- Login failed for AD user due to disabled account
- ArgoCD login failed
- Failure to get the sandbox image
- Pods not showing in ArgoCD UI
- Redis probe failure
- RKE2 server fails to start
- Secret not found in UiPath namespace
- ArgoCD goes into progressing state after first installation
- Issues accessing the ArgoCD read-only account
- MongoDB pods in CrashLoopBackOff or pending PVC provisioning after deletion
- Unhealthy services after cluster restore or rollback
- Pods stuck in Init:0/X
- Prometheus in CrashloopBackoff state with out-of-memory (OOM) error
- Missing Ceph-rook metrics from monitoring dashboards
- Running High Availability with Process Mining
- Process Mining ingestion failed when logged in using Kerberos
- Unable to connect to AutomationSuite_ProcessMining_Warehouse database using a pyodbc format connection string
- Airflow installation fails with sqlalchemy.exc.ArgumentError: Could not parse rfc1738 URL from string ''
- How to add an IP table rule to use SQL Server port 1433
- Using the Automation Suite Diagnostics Tool
- Using the Automation Suite Support Bundle Tool
- Exploring Logs
Backing up and restoring the cluster
Automation Suite supports the backup and restore functionality to prevent data loss in various scenarios. You can configure a backup any time post-installation.
To use the backup and restore functionality, you must enable an NFS server, backup cluster, and restore cluster. These concepts are defined in the following section.
NFS Server – The server that stores the backup data and facilitates the restoration. You can set up the NFS server on any machine or a PaaS service offered by cloud providers. Note that we do not support Windows-based NFS and Azure blob-based NFS.
Backup Cluster – The cluster you set up to install Automation Suite. This is the cluster where you will enable the backup.
Restore Cluster – The cluster where you restore all the data from the backup cluster. This becomes the new cluster where you run Automation Suite once the restore process is complete.
- This setup will only enable a backup of the cluster, including cluster configuration and data stored as part of the in-cluster
block storage in
/datadisk
and objectstore data disks attached to server machines.However, this will not enable the backup of any external data sources, such as the SQL database and external objectstore. You must enable the external data source backup separately.
- If you want to add new server nodes after enabling the backup, make sure you configure the NFS server to allow access to the new node.
To set up the backup and restore functionality, you must meet the following requirements:
-
You must use NFSv4 on Linux.
- You must set up the NFS server on a separate machine hosted outside of the backup and restore cluster.
- There must not be more than 10-millisecond Round Trip Time (RTT) latency between the NFS server and the backup and restore cluster.
- The cluster you want to back up and the NFS server must be in the same region.
-
The NFS server must meet the following hardware requirements:
CPU
RAM
Disk
4(v-) CPU
8 GiB
2 TiB SSD (1100 IOPS)
- The NFS server must be reachable from all the cluster nodes.
-
You must enable the following ports on the NFS server and all the nodes in the backup cluster. When restoring the cluster, the same ports must be open on all the nodes in the restore cluster.
Port
Protocol
Purpose
2049
TCP
Bidirectional communication between the NFS server and the backup and restore cluster.
This is the port on which the NFS server will run.
111
TCP
Bidirectional communication between the NFS server and the backup and restore cluster.
This port is used for rpcbind between the NFS server and the backup and restore cluster.