- Release Notes
- Getting Started
- Setup and Configuration
- Automation Projects
- Dependencies
- Types of Workflows
- Control Flow
- File Comparison
- Automation Best Practices
- Source Control Integration
- Debugging
- Logging
- The Diagnostic Tool
- Workflow Analyzer
- About Workflow Analyzer
- ST-NMG-001 - Variables Naming Convention
- ST-NMG-002 - Arguments Naming Convention
- ST-NMG-004 - Display Name Duplication
- ST-NMG-005 - Variable Overrides Variable
- ST-NMG-006 - Variable Overrides Argument
- ST-NMG-008 - Variable Length Exceeded
- ST-NMG-009 - Prefix Datatable Variables
- ST-NMG-011 - Prefix Datatable Arguments
- ST-NMG-012 - Argument Default Values
- ST-NMG-016 - Argument Length Exceeded
- ST-NMG-017 - Class name matches default namespace
- ST-DBP-002 - High Arguments Count
- ST-DBP-003 - Empty Catch Block
- ST-DBP-007 - Multiple Flowchart Layers
- ST-DPB-010 - Multiple instances of [Workflow] or [Test Case]
- ST-DBP-020 - Undefined Output Properties
- ST-DBP-021 - Hardcoded Timeout
- ST-DBP-023 - Empty Workflow
- ST-DBP-024 - Persistence Activity Check
- ST-DBP-025 - Variables Serialization Prerequisite
- ST-DBP-026 - Delay Activity Usage
- ST-DBP-027 - Persistence Best Practice
- ST-DBP-028 - Arguments Serialization Prerequisite
- ST-USG-005 - Hardcoded Activity Arguments
- ST-USG-009 - Unused Variables
- ST-USG-010 - Unused Dependencies
- ST-USG-014 - Package Restrictions
- ST-USG-020 - Minimum Log Messages
- ST-USG-024 - Unused Saved for Later
- ST-USG-025 - Saved Value Misuse
- ST-USG-026 - Activity Restrictions
- ST-USG-027 - Required Packages
- ST-USG-028 - Restrict Invoke File Templates
- ST-USG-032 - Required Tags
- ST-USG-034 - Automation Hub URL
- Variables
- Arguments
- Imported Namespaces
- Coded automations
- Introduction
- Registering custom services
- Before and After contexts
- Generating code
- Generating coded test case from manual test cases
- Trigger-based Attended Automation
- Recording
- UI Elements
- Selectors
- Object Repository
- Data Scraping
- Image and Text Automation
- Citrix Technologies Automation
- RDP Automation
- VMware Horizon Automation
- Salesforce Automation
- SAP Automation
- macOS UI Automation
- The ScreenScrapeJavaSupport Tool
- The WebDriver Protocol
- Extensions
- About extensions
- SetupExtensions tool
- UiPathRemoteRuntime.exe is not running in the remote session
- UiPath Remote Runtime blocks Citrix session from being closed
- UiPath Remote Runtime causes memory leak
- UiPath.UIAutomation.Activities package and UiPath Remote Runtime versions mismatch
- The required UiPath extension is not installed on the remote machine
- Screen resolution settings
- Group Policies
- Cannot communicate with the browser
- Chrome extension is removed automatically
- The extension may have been corrupted
- Check if the extension for Chrome is installed and enabled
- Check if ChromeNativeMessaging.exe is running
- Check if ComSpec variable is defined correctly
- Enable access to file URLs and Incognito mode
- Multiple browser profiles
- Group Policy conflict
- Known issues specific to MV3 extensions
- List of extensions for Chrome
- Chrome Extension on Mac
- Group Policies
- Cannot communicate with the browser
- Edge extension is removed automatically
- The extension may have been corrupted
- Check if the Extension for Microsoft Edge is installed and enabled
- Check if ChromeNativeMessaging.exe is running
- Check if ComSpec variable is defined correctly
- Enable access to file URLs and InPrivate mode
- Multiple browser profiles
- Group Policy conflict
- Known issues specific to MV3 extensions
- List of extensions for Edge
- Extension for Safari
- Extension for VMware Horizon
- Extension for Amazon WorkSpaces
- SAP Solution Manager plugin
- Excel Add-in
- Test Suite - Studio
- Troubleshooting
Chromium API
Chromium API is a browser automation input method based on Devtools protocol and it provides many benefits when automating a Chromium-based browser.
It can be used with the following Modern activities:
- Use Application/Browser
- Click
- Type Into
- Hover
-
Note: This method only works on web elements. It doesn't work on elements that are not part of the webpage, such as pop-ups.
Here are some insights you might want to consider when designing browser automation with the ChromiumAPI input method.
Reliability
Sending keys/mouse input via hardware events means sending them to the operating system’s mouse/keyboard input stream. From there, the events are forwarded to the target application, the browser in our case, which parses them and sends them further to the web pages.
Sending keys/mouse input via ChromiumAPI means sending them directly to the browser. Therefore, this input method eliminates a communication channel that can fail (as any other communication channel).
Directly communicating with the browser via this new method means fewer communication channels, and thus improved automation reliability.
Works in the background
Hardware events need the elements to be on the screen, focused, in the foreground. ChromiumAPI does not have this requirement as it works while the browser is minimized and another tab is focused (mind that the modern activities tend to activate the working tab).
Improved efficiency
The ChromiumAPI sends trusted events triggers, which are the exact chain of events triggered when a human does the same action. This means that, besides the automation that worked with Simulate, a lot more is available now through ChromiumAPI.
Other benefits
It allows sending hotkeys directly to the browser.
The Clear before typing property is natural with this method, since it does not empty the target element field by default.
The Click with modifiers actions are more efficient and reliable.
When the browser is started with ChromiumAPI, a ribbon shows up stating that the browser started in debug mode (highlighted below in blue). This message does not show up if the extension is installed via policy.