automation-suite
2024.10
false
- 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 6: Configuring the load balancer
- 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
- Step 13: Generating cluster_config.json
- 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 Task Mining
- Connecting Task Mining application
- 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
- Running uipathctl
- 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
- Configuring the FQDN post-installation
- Setting up Kerberos authentication
- Forwarding logs to external tools
- Forwarding Kubernetes logs to Elasticsearch
- 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 standalone products to Automation Suite
- Step 1: Restoring the standalone product database
- Step 2: Updating the schema of the restored product database
- Step 3: Moving the Identity organization data from standalone to Automation Suite
- Step 4: Backing up the platform database in Automation Suite
- Step 5: Merging organizations in Automation Suite
- Step 6: Updating the migrated product connection strings
- Step 7: Migrating standalone Orchestrator
- Step 8: Migrating standalone Insights
- Step 9: Migrating standalone Test Manager
- Step 10: Deleting the default tenant
- Performing a single tenant migration
- 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
- Orchestrator advanced configuration
- Configuring Orchestrator parameters
- Configuring appSettings
- Configuring the maximum request size
- Overriding cluster-level storage configuration
- Configuring NLog
- Saving robot logs to Elasticsearch
- Configuring credential stores
- Configuring encryption key per tenant
- Cleaning up the Orchestrator database
- Skipping host library creation
- 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 reduce permissions for an NFS backup directory
- How to work with certificates
- How to schedule Ceph backup and restore data
- How to clean up unused Docker images from registry pods
- 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
- How to deploy Insights in a FIPS-enabled cluster
- How to migrate to cgroup v2
- 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
- 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
- Volume unable to mount due to not being ready for workloads
- Support bundle log collection failure
- Temporary registry installation fails on RHEL 8.9
- Frequent restart issue in uipath namespace deployments during offline installations
- DNS settings not honored by CoreDNS
- Unable to install temporary registry
- Data loss when reinstalling or upgrading Insights following Automation Suite upgrade
- Unable to access Automation Hub following upgrade to Automation Suite 2024.10.0
- Upgrade failure during posthook import
- Single-node upgrade fails at the fabric stage
- Upgrade fails due to unhealthy Ceph
- RKE2 not getting started due to space issue
- Volume unable to mount and remains in attach/detach loop state
- Upgrade fails due to classic objects in the Orchestrator database
- Ceph cluster found in a degraded state after side-by-side upgrade
- Unhealthy Insights component causes the migration to fail
- Service upgrade fails for Apps
- In-place upgrade timeouts
- Docker registry migration stuck in PVC deletion stage
- AI Center provisioning failure after upgrading to 2023.10 or later
- Upgrade fails in offline environments
- SQL validation fails during upgrade
- snapshot-controller-crds pod in CrashLoopBackOff state after upgrade
- Upgrade fails due to overridden Insights PVC sizes
- Failure to upgrade to Automation Suite 2024.10.1
- Upgrade fails due to Velero migration issue
- Upgrade stuck on rook-ceph application deletion
- 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
- Robot cannot connect to an Automation Suite Orchestrator instance
- Partial failure to restore backup in Automation Suite 2024.10.0
- Failure to get the sandbox image
- Pods not showing in ArgoCD UI
- Accessing FQDN returns RBAC access denied error
- Redis probe failure
- RKE2 server fails to start
- Secret not found in UiPath namespace
- ArgoCD goes into progressing state after first installation
- Pods stuck in Init:0/X
- Missing Ceph-rook metrics from monitoring dashboards
- Mismatch in reported errors during diagnostic health checks
- No healthy upstream issue
- Log streaming does not work in proxy setups
- Failure to add agent nodes in offline environments
- Node becomes unresponsive (OOM) during large Document Understanding bundle upload
- Backup operations fail with PartiallyFailed status
- Running High Availability with Process Mining
- Process Mining ingestion failed when logged in using Kerberos
- After Disaster Recovery Dapr is not working properly for Process Mining
- 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 Mar 26, 2026
Forwarding Kubernetes logs to Elasticsearch
Automation Suite supports forwarding Kubernetes infrastructure and application logs to external observability platforms.
This section describes how to forward logs to Elasticsearch, explains the available options, and outlines the recommended approach for most scenarios.
Note:
This Section covers forwarding Kubernetes pod logs.
For forwarding Robot logs, refer to Saving robot logs to Elasticsearch.
Selecting a log forwarding option
Elastic provides multiple agents and operators for ingesting logs from Kubernetes. Depending on your Elastic Stack version, you can choose the most suitable mechanism:
- Filebeat (legacy approach) Filebeat was the traditional method for collecting Kubernetes logs and shipping them to Elasticsearch. It is suitable for older Elasticsearch versions (7.x and early 8.x). For more details, refer to the official Elastic documentation.
- Elastic Agent (unified agent) Elastic Agent collects all forms of data from anywhere with a single unified agent per host. It is recommended for Elastic Stack 8.x. For more details, refer to the official Elastic documentation.
- Elastic Distribution of OpenTelemetry (EDOT) EDOT (Elastic Distribution of OpenTelemetry) is recommended for new installations and for environments where you use Elasticsearch 8.16+.
EDOT is the recommended choice for the following reasons:
- Fully OpenTelemetry-compliant
- Developed and supported by Elastic
- Simple to operate (Helm charts and CRDs)
- Future-proof (Elastic has announced an OTel-first strategy)
To install EDOT in your Automation Suite cluster, follow the instructions provided in the official official Elastic documentation.
Customizing the EDOT configuration
You can modify the EDOT values file to match your environment and logging requirements.
Locate the corresponding sections in your EDOT values file and update them as needed. Apply only what is relevant to your setup.
Important:
For full configuration options, refer to the official Elasticsearch and EDOT documentation.
The following examples show common customizations:
-
To exclude noisy or high-volume logs, see the following configuration example:
config: receivers: filelog: exclude: - /var/log/pods/opentelemetry-operator-system_opentelemetry-kube-stack*/*/*.log - /var/log/pods/*/*/istio-proxy/*.log - /var/log/pods/*/*/istio-init/*.log - /var/log/pods/*/*/aicenter-hit-count-update/*.log - /var/log/pods/*/*/istio-configure-executor/*.log - /var/log/pods/*/*/on-prem-tenant-license-update/*.log - /var/log/pods/*/*/curl/*.log - /var/log/pods/*/*/recovery/*.log - /var/log/pods/*/*/aicenter-oob-scheduler/*.log - /var/log/pods/*/*/cert-trustor/*.log - /var/log/pods/default_*/*.log - /var/log/pods/fleet-system_*/*.log - /var/log/pods/gatekeeper_*/*.logconfig: receivers: filelog: exclude: - /var/log/pods/opentelemetry-operator-system_opentelemetry-kube-stack*/*/*.log - /var/log/pods/*/*/istio-proxy/*.log - /var/log/pods/*/*/istio-init/*.log - /var/log/pods/*/*/aicenter-hit-count-update/*.log - /var/log/pods/*/*/istio-configure-executor/*.log - /var/log/pods/*/*/on-prem-tenant-license-update/*.log - /var/log/pods/*/*/curl/*.log - /var/log/pods/*/*/recovery/*.log - /var/log/pods/*/*/aicenter-oob-scheduler/*.log - /var/log/pods/*/*/cert-trustor/*.log - /var/log/pods/default_*/*.log - /var/log/pods/fleet-system_*/*.log - /var/log/pods/gatekeeper_*/*.log -
To configure TLS settings when you use self-signed certificates in a development setup, see the following configuration example:
config: exporters: elasticsearch/otel: tls: insecure_skip_verify: trueconfig: exporters: elasticsearch/otel: tls: insecure_skip_verify: true
Use this only for non-production environments.
-
To disable metrics and traces and use logs-only mode, see the following configuration example:
config: service: pipelines: metrics: null traces: nullconfig: service: pipelines: metrics: null traces: null
Deploying EDOT adds components (such as collectors, processors, and exporters) that run across the cluster. As a result, overall CPU and memory usage increases. Ensure that your cluster has enough available resources to support these components. You can adjust the EDOT resource requests and limits in the values file to meet your cluster's requirements.