automation-suite
2.2510
true
- Overview
- Requirements
- Deployment templates
- Manual: Preparing the installation
- Manual: Preparing the installation
- Step 2: Configuring the OCI-compliant registry for offline installations
- Step 3: Configuring the external objectstore
- Step 4: Configuring High Availability Add-on
- Step 5: Configuring SQL databases
- Step 7: Configuring the DNS
- Step 8: Configuring the disks
- Step 9: Configuring kernel and OS level settings
- Step 10: Configuring the node ports
- Step 11: Applying miscellaneous settings
- Step 12: Validating and installing the required RPM packages
- Cluster_config.json Sample
- General configuration
- Profile configuration
- Certificate configuration
- Database configuration
- External Objectstore configuration
- Pre-signed URL configuration
- ArgoCD configuration
- Kerberos authentication configuration
- External OCI-compliant registry configuration
- Disaster recovery: Active/Passive and Active/Active configurations
- High Availability Add-on configuration
- Orchestrator-specific configuration
- Insights-specific configuration
- Process Mining-specific configuration
- Document Understanding-specific configuration
- Automation Suite Robots-specific configuration
- AI Center-specific configuration
- Monitoring configuration
- Optional: Configuring the proxy server
- Optional: Enabling resilience to zonal failures in a multi-node HA-ready production cluster
- Optional: Passing custom resolv.conf
- Optional: Increasing fault tolerance
- Adding a dedicated agent node with GPU support
- Adding a Dedicated Agent Node for Automation Suite Robots
- Step 15: Configuring the temporary Docker registry for offline installations
- Step 16: Validating the prerequisites for the installation
- Manual: Performing the installation
- Post-installation
- Cluster administration
- Managing products
- Getting Started with the Cluster Administration portal
- Migrating Redis from in-cluster to external High Availability Add-on
- Migrating data between objectstores
- Migrating in-cluster objectstore to external objectstore
- Migrating from in-cluster registry to an external OCI-compliant registry
- Switching to the secondary cluster manually in an Active/Passive setup
- Disaster Recovery: Performing post-installation operations
- Converting an existing installation to multi-site setup
- Guidelines on upgrading an Active/Passive or Active/Active deployment
- Guidelines on backing up and restoring an Active/Passive or Active/Active deployment
- Scaling a single-node (evaluation) deployment to a multi-node (HA) deployment
- Monitoring and alerting
- Migration and upgrade
- Migrating between Automation Suite clusters
- Upgrading Automation Suite
- Downloading the installation packages and getting all the files on the first server node
- Retrieving the latest applied configuration from the cluster
- Updating the cluster configuration
- Configuring the OCI-compliant registry for offline installations
- Executing the upgrade
- Performing post-upgrade operations
- Product-specific configuration
- Remapping the organization IDs
- Migrating Looker data to Automation Suite
- Performing Insights database maintenance
- Configuring log rules
- 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 bucket
- 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 disable TX checksum offloading
- How to manually set the ArgoCD log level to Info
- How to expand AI Center storage
- How to generate the encoded pull_secret_value for external registries
- How to address weak ciphers in TLS 1.2
- How to check the TLS version
- How to work with certificates
- How to schedule Ceph backup and restore data
- How to collect DU usage data with in-cluster objectstore (Ceph)
- How to install RKE2 SELinux on air-gapped environments
- How to clean up old differential backups on an NFS server
- Error in downloading the bundle
- Offline installation fails because of missing binary
- Certificate issue in offline installation
- SQL connection string validation error
- 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
- Temporary registry installation fails on RHEL 8.9
- Frequent restart issue in uipath namespace deployments during offline installations
- DNS settings not honored by CoreDNS
- Upgrade fails due to unhealthy Ceph
- RKE2 not getting started due to space issue
- Upgrade fails due to classic objects in the Orchestrator database
- Ceph cluster found in a degraded state after side-by-side upgrade
- Service upgrade fails for Apps
- In-place upgrade timeouts
- Upgrade fails in offline environments
- snapshot-controller-crds pod in CrashLoopBackOff state after upgrade
- Upgrade fails due to overridden Insights PVC sizes
- Setting a timeout interval for the management portals
- 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
- Update the underlying directory connections
- 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
- Missing Ceph-rook metrics from monitoring dashboards
- Mismatch in reported errors during diagnostic health checks
- No healthy upstream issue
- Redis startup blocked by antivirus
- 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
- Automation Suite certificate is not trusted from the server where CData Sync is running
- Running the diagnostics tool
- Using the Automation Suite support bundle
- Exploring Logs
- Exploring summarized telemetry
Automation Suite on Linux installation guide
Last updated Nov 13, 2025
Insights Database works using two tables:
dbo and read. Both tables store data from Orchestrator databases and pass data between each other. Over time, tables store a large amount
of data that can impact database performance. You can free up space by removing data that is not relevant or outdated.
The estimated threshold for storing historical data is set to
- Up to 100 million jobs
- Up to 1 billion job events
- Up to 100 million queue items
- Up to 500 million queue item events
- Up to 1 billion robot logs
Use the following database maintenance SQL scripts to create SQL Stored Procedures, then execute these SQL Stored Procedures
to either delete all data from
[dbo].Jobs, [dbo].JobEvents, [dbo].QueueItems, [dbo].QueueItemEvents, [dbo].RobotLogs tables, or just the [dbo].RobotLogs.
Note: Back up your database before
executing the scripts. Before running the
PROCEDURE
[read].[Delete_Insights_Data_Read] and PROCEDURE
[read].[Delete_Process_Logs_Read] scripts, the Insights module needs to be
disabled.
- Scripts with the
_DBOsuffix are used to delete data from DBO schema tables, - Scripts with the
_Readsuffix are used to delete data from Read schema tables. - Large-sized batches might impact the speed of execution. Consider using the default batch size, which is set to 100000.
Before running the
PROCEDURE [read].[Delete_Insights_Data_Read] and
PROCEDURE [read].[Delete_Process_Logs_Read] scripts, the Insights module
needs to be disabled.
Generate and save the following SQL Stored Procedures to delete all data types (
Jobs, JobEvents, QueueItems, QueueItemEvents, RobotLogs) for a cut-off timestamp.
| SQL Stored Procedures | Parameter | Description |
|---|---|---|
| Delete_Insights_Data_DBO |
| Delete data from [dbo].[Jobs],
[dbo].[JobEvents], [dbo].[QueueItems], [dbo].[QueueItemEvents], [dbo].[RobotLogs] tables based on a cut-off timestamp.
|
| Delete_Insights_Data_Read | N/A | Truncate [read].Jobs, [read].JobEvents,[read].QueueItems, [read].QueueItemEvents, [read].RobotLogs tables.
|
Note:
The Insights Dashboard widgets are available again after SQL Stored Procedure 1 has finished, and the data has been backfilled. Keep in mind that the backfill process may take hours to complete given that you have a large amount of data.
When you first run the
Delete_Insights_Data_DBO SQL Script, it creates a QueueItems.IX_CreationTime nonclustered index with the purpose of making future executions faster.
Generate and save this SQL Stored Procedure to delete RobotsLogs based on ProcessNames and Tenant ID.
| SQL Stored Procedures | Parameter | Description |
|---|---|---|
| Delete_Process_Logs_DBO |
The Orchestrator process name.
Tenant ID is required as two tenants might run processes with identical names.
Delete data in batches of 100000. See Considerations. | Delete data from [dbo].[RobotLogs] table by ProcessName and Tenant ID.
|
| Delete_Process_Logs_Read |
| Truncate [read].RobotLogs table.
|
Note: The Insights Dashboard widgets related to RobotLogs are available again after SQL Stored Procedure 2 has finished, and the
data has been backfilled. Keep in mind that the backfill process may take hours to complete given that you have a large amount
of data.
