- Overview
- UI Automation
- Applications and technologies automated with UI Automation
- Project compatibility
- UI-ANA-016 - Pull Open Browser URL
- UI-ANA-017 - ContinueOnError True
- UI-ANA-018 - List OCR/Image Activities
- UI-DBP-006 - Container Usage
- UI-DBP-013 - Excel Automation Misuse
- UI-DBP-030 - Forbidden Variables Usage In Selectors
- UI-PRR-001 - Simulate Click
- UI-PRR-002 - Simulate Type
- UI-PRR-003 - Open Application Misuse
- UI-PRR-004 - Hardcoded Delays
- UI-REL-001 - Large Idx in Selectors
- UI-SEC-004 - Selector Email Data
- UI-SEC-010 - App/Url Restrictions
- UI-USG-011 - Non Allowed Attributes
- UX-SEC-010 - App/Url Restrictions
- UX-DBP-029 - Insecure Password Use
- UI-PST-001 - Audit Log Level in Project Settings
- UiPath Browser Migration Tool
- Clipping region
- Computer Vision Recorder
- Activate
- Anchor Base
- Attach Browser
- Attach Window
- Block User Input
- Callout
- Check
- Click
- Click Image
- Click Image Trigger
- Click OCR Text
- Click Text
- Click Trigger
- Close Application
- Close Tab
- Close Window
- Context Aware Anchor
- Copy Selected Text
- Element Attribute Change Trigger
- Element Exists
- Element Scope
- Element State Change Trigger
- Export UI Tree
- Extract Structured Data
- Find Children
- Find Element
- Find Image
- Find Image Matches
- Find OCR Text Position
- Find Relative Element
- Find Text Position
- Get Active Window
- Get Ancestor
- Get Attribute
- Get Event Info
- Get From Clipboard
- Get Full Text
- Get OCR Text
- Get Password
- Get Position
- Get Source Element
- Get Text
- Get Visible Text
- Go Back
- Go Forward
- Go Home
- Google Cloud Vision OCR
- Hide Window
- Highlight
- Hotkey Trigger
- Hover
- Hover Image
- Hover OCR Text
- Hover Text
- Image Exists
- Indicate On Screen
- Inject .NET Code
- Inject Js Script
- Invoke ActiveX Method
- Key Press Trigger
- Load Image
- Maximize Window
- Microsoft Azure Computer Vision OCR
- Microsoft OCR
- Microsoft Project Oxford Online OCR
- Minimize Window
- Monitor Events
- Mouse Trigger
- Move Window
- Navigate To
- OCR Text Exists
- On Element Appear
- On Element Vanish
- On Image Appear
- On Image Vanish
- Open Application
- Open Browser
- Refresh Browser
- Replay User Event
- Restore Window
- Save Image
- Select Item
- Select Multiple Items
- Send Hotkey
- Set Clipping Region
- Set Focus
- Set Text
- Set To Clipboard
- Set Web Attribute
- Show Window
- Start Process
- System Trigger
- Take Screenshot
- Tesseract OCR
- Text Exists
- Tooltip
- Type Into
- Type Secure Text
- Use Foreground
- Wait Attribute
- Wait Element Vanish
- Wait Image Vanish
- Application Event Trigger
- Check/Uncheck
- Check App State
- Check Element
- Click
- Click Event Trigger
- Drag and Drop
- Extract Table Data
- For Each UI Element
- Get Attribute
- Get Browser Data
- Get Text
- Get URL
- Go to URL
- Highlight
- Hover
- Inject Js Script
- Keyboard Shortcuts
- Keypress Event Trigger
- Mouse Scroll
- Navigate Browser
- Select Item
- Set Browser Data
- Set Runtime Browser
- Set Text
- Take Screenshot
- Type Into
- Use Application/Browser
- Perform browser search and retrieve results using UI Automation APIs
- Web Browsing
- Find Images
- Click Images
- Trigger and Monitor Events
- Create and Override Files
- HTML Pages: Extract and Manipulate Information
- Window Manipulation
- Automated List Selection
- Find and Manipulate Window Elements
- Manage Text Automation
- Load and Process Images
- Manage Mouse Activated Actions
- Automate Application Runtime
- Automated Run of a Local Application
- Browser Navigation
- Web Automation
- Trigger Scope Example
- Enable UI Automation support in DevExpress
- Computer Vision Local Server
- Mobile Automation
- Release notes
- Project compatibility
- Get Log Types
- Get Logs
- Get Page Source
- Get Device Orientation
- Get Session Identifier
- Install App
- Manage Current App
- Manage Other App
- Open DeepLink
- Open URL
- Mobile Device Connection
- Directional Swipe
- Draw Pattern
- Positional Swipe
- Press Hardware Button
- Set Device Orientation
- Take Screenshot
- Take Screenshot Part
- Element Exists
- Execute Command
- Get Attribute
- Get Selected Item
- Get Text
- Set Selected Item
- Set Text
- Swipe
- Tap
- Type Text
- Terminal
Linux Robots
The Robot Linux image allows you to run cross-platform automations in docker containers.
mcr.microsoft.com/dotnet/runtime
. All files required by the application are placed in the /application/
directory.
- Docker Environment.
- Network connection to Orchestrator.
- Machine Template Client Credentials.
To use robots in a Linux environment, create an unattended robot in orchestrator, save ClientID and ClientSecret to be used later, then follow the steps below on the robot machine:
- Open a command line terminal and get the docker image using the following command:
docker pull registry.uipath.com/robot/uiautomation-runtime:<tag>
docker pull registry.uipath.com/robot/uiautomation-runtime:<tag>Note: Not using a specific tag retrieves the most recent enterprise patch for the latest enterprise version. To retrieve or start a specific version of the robot, replace the <tag> parameter with the actual version from the Docker Image Tags column in the table below:Robot Version Docker Image Tags 2023.10 23.10.69.35238-robot23.10.0 - Based on the connection type, you can start the downloaded image and connect the robot to Orchestrator using one of the commands
below:
Important: To successfully start the robot, you must accept the license agreement by adding the
-e LICENSE_AGREEMENT=accept
parameter in the command.- Client ID and Client Secret:
docker run -e LICENSE_AGREEMENT=accept -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_"-e CLIENT_ID="$Client_ID" -e CLIENT_SECRET="$Client_secret" -tid registry.uipath.com/robot/uiautomation-runtime:<tag>
docker run -e LICENSE_AGREEMENT=accept -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_"-e CLIENT_ID="$Client_ID" -e CLIENT_SECRET="$Client_secret" -tid registry.uipath.com/robot/uiautomation-runtime:<tag> - Machine Key:
docker run -e LICENSE_AGREEMENT=accept -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_" -e MACHINE_KEY="$KEY" -tid registry.uipath.com/robot/uiautomation-runtime:<tag>
docker run -e LICENSE_AGREEMENT=accept -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_" -e MACHINE_KEY="$KEY" -tid registry.uipath.com/robot/uiautomation-runtime:<tag>
- Client ID and Client Secret:
DNS configuration example:
docker run --dns="1.1.1.1" -e LICENSE_AGREEMENT=accept -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_" -e CLIENT_ID="$Client_ID" -e CLIENT_SECRET="$Client_secret" -tid registry.uipath.com/robot/uiautomation-runtime:<tag>
docker run --dns="1.1.1.1" -e LICENSE_AGREEMENT=accept -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_" -e CLIENT_ID="$Client_ID" -e CLIENT_SECRET="$Client_secret" -tid registry.uipath.com/robot/uiautomation-runtime:<tag>
1.1.1.1
refers to the public DNS resolver from Cloudflare. This can be any DNS resolver that can resolve the SignalR Hub.
docker start {container_id}
command to start an already created container.
- To see the status of your robots on the machine use the following command:
docker ps -a
docker ps -a - To disconnect a robot use the command below:
docker stop {container_id}
docker stop {container_id}Important: Usingdocker kill container_id
stops the robot on the machine but does not disconnect it from Orchestrator. - To reconnect a specific robot use the command below:
docker start {container_id}
docker start {container_id}
The Linux robot can run both background and foreground (using Google Chrome) automations.
If you want to create a web automation compatible with Linux robots, follow the steps below:
- When creating a new process, choose the cross-platform project type in Studio.
- In Studio, from the Package Manager, update the UI Automation activity package to the latest version. This feature is only available starting with the v21.11.0-preview package. Since you are using a Cross-platform project, only the activity packs that support cross-platform projects are displayed.
- To create a web automation, you also need the latest Chrome extension. You can easily install it in the following ways:
Note: You must have Chrome extension v21.10.4 or newer installed before you start designing the automation.
When designing the UI Automation project for Linux robots, you can use the following input methods for activities:
- ChromiumAPI (default)
- SimulateClick/SimulateType
Additionally, the following wizards are supported:
- Web Recorder
- Table Extraction
The procedure for running an unattended job on Linux robots is identical to the one for Windows.
5900
default port. To connect to it during process execution, you need to publish the VNC port when starting the image, by adding
-p {localVncPort}:5900 --env VNC_ENABLED=true
parameters to the Docker Run
command.
docker run -e LICENSE_AGREEMENT=accept -e
ORCHESTRATOR_URL="{orchestrator url}" -e MACHINE_KEY="{machine_key}" -p 50000:5900 --env VNC_ENABLED=true registry.uipath.com/robot/uiautomation-runtime:<tag>
docker run -e LICENSE_AGREEMENT=accept -e
ORCHESTRATOR_URL="{orchestrator url}" -e MACHINE_KEY="{machine_key}" -p 50000:5900 --env VNC_ENABLED=true registry.uipath.com/robot/uiautomation-runtime:<tag>
50000 port
. After this, you can use any VNC client to follow the robot’s execution live.
You can debug an already started robot container through the unattended robot connection feature.
/home/robotuser/.local/share/UiPath/Logs
folder on the docker image.
To extract Logs from the container, use the following command:
docker cp <ContainerId>:/home/robotuser/.local/share/UiPath/Logs <TargetPath>
/application/Packages/
directory on the docker container. This can be configured by mounting the directory which contains the NuGet libraries using
the following command:
docker run -e LICENSE_AGREEMENT=accept -e MACHINE_KEY="{machine_key}" -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_" -v <path to packages on the host machine>:/application/Packages/ -ti registry.uipath.com/robot/uiautomation-runtimedocker run -e LICENSE_AGREEMENT=accept -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_" -e CLIENT_ID="$Client_ID" -e CLIENT_SECRET="$Client_secret" -v <path to packages on the host machine>:/application/Packages/ -ti registry.uipath.com/robot/uiautomation-runtime:<tag>
docker run -e LICENSE_AGREEMENT=accept -e MACHINE_KEY="{machine_key}" -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_" -v <path to packages on the host machine>:/application/Packages/ -ti registry.uipath.com/robot/uiautomation-runtimedocker run -e LICENSE_AGREEMENT=accept -e ORCHESTRATOR_URL="https://cloud.uipath.com/organization/tentant/orchestrator_" -e CLIENT_ID="$Client_ID" -e CLIENT_SECRET="$Client_secret" -v <path to packages on the host machine>:/application/Packages/ -ti registry.uipath.com/robot/uiautomation-runtime:<tag>
<path to packages>
refers to the location on the host machine .
Make sure that the robot user (UID 1000 user) has read access to the mounted path to the package feeds.