robot
2022.4
false
- Release Notes
- Getting Started
- UiPath Assistant
- Installation and Upgrade
- Robot Types
- Robot Components
- Licensing
- Connecting Robots to Orchestrator
- Processes and Activities
- Logging
- Robot JavaScript SDK
- Specific Scenarios
- Windows Sessions
- Login Using Thales Luna Credential System
- Login Using NShield Key Storage Provider
- Redirecting Robots Through a Proxy Server
- Executing Tasks in a Minimized RDP Window
- Using Mapped Network Drives
- Stopping a Process
- Disable Stop Button
- Custom Package Folders and Network Paths
- CrowdStrike Integration
- Restarting Robot Components
- Troubleshooting
- About Troubleshooting
- Unresponsive Robot Over RDP
- Duplicate Execution Logs
- Frequently Encountered Robot Errors
- Increased Process Execution Duration
- Enforced Package Signature Verification
- Message Too Large to Process
- Errors When Running as Administrator
- NuGet Packages Not Accessible After Migration
- User Access Control Prompt and UI Automation Activities
SDK Specifications
Robot User Guide
Last updated Oct 25, 2024
SDK Specifications
You can include the following methods and properties in your custom application or web page.
The
init
method is optional. It returns the IRobotSDK instance, which enables you to store it as a variable for later use.
const robot = UiPathRobot.init();
const robot = UiPathRobot.init();
The
settings
property of type Settings allows you to change the default port number, the poll interval time in milliseconds, or to disable sending telemetry data.
const robot = UiPathRobot.init();
robot.settings.portNumber = 1234;
robot.settings.pollTimeInterval = 1000;
robot.settings.disableTelemetry = true;
const robot = UiPathRobot.init();
robot.settings.portNumber = 1234;
robot.settings.pollTimeInterval = 1000;
robot.settings.disableTelemetry = true;
The
on
method is used to attach event handlers to the SDK.
The available SDK events are
consent-prompt
and missing-components
.
The UiPath JavaScript SDK comes with a built-in consent overlay displayed every time your custom application or web page needs to connect to the Robot.
This consent overlay can be overridden with a custom handler.
const robot = UiPathRobot.init();
robot.on('consent-prompt', consentCode => console.log(consentCode));
const robot = UiPathRobot.init();
robot.on('consent-prompt', consentCode => console.log(consentCode));
The
missing-components
event is raised when the Robot JS Service is not running. In this case, the SDK displays an error, which can be overridden
with a custom handler.
const robot = UiPathRobot.init();
robot.on('missing-components', () => console.log('Missing Components'));
const robot = UiPathRobot.init();
robot.on('missing-components', () => console.log('Missing Components'));
The
getProcesses
method retrieves the list of available processes. Returns a Promise to an array of RobotProcess objects. If the Robot is connected to Orchestrator, it retrieves the processes from the environment and folder the Robot
is a part of. Otherwise, local processes are retrieved.
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
for(let i=0; i<processes.length; i++){
console.log(processes[i].name + " (" + processes[i].description + ") - Id=" + processes[i].id);
}
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
for(let i=0; i<processes.length; i++){
console.log(processes[i].name + " (" + processes[i].description + ") - Id=" + processes[i].id);
}
Using the
inputArgumentsSchema
property of an installed process, you can retrieve the input arguments of a process. Before using the inputArgumentsSchema
property, you need to first install the process.
The
installProcess
method installs a process and returns a Promise to an object of type InstallProcessResult, which contains an array of InputArgumentSchema objects.
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const installedProcess = await robot.installProcess(processes[0].id);
for(let i=0; i<installedProcess.inputArgumentsSchema.length; i++){
console.log("Argument " + i + ":");
console.log(" name: " + installedProcess.inputArgumentsSchema[i].name)
console.log(" type: " + installedProcess.inputArgumentsSchema[i].type)
console.log(" isRequired: " + installedProcess.inputArgumentsSchema[i].isRequired)
console.log(" hasDefault: " + installedProcess.inputArgumentsSchema[i].hasDefault)
}
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const installedProcess = await robot.installProcess(processes[0].id);
for(let i=0; i<installedProcess.inputArgumentsSchema.length; i++){
console.log("Argument " + i + ":");
console.log(" name: " + installedProcess.inputArgumentsSchema[i].name)
console.log(" type: " + installedProcess.inputArgumentsSchema[i].type)
console.log(" isRequired: " + installedProcess.inputArgumentsSchema[i].isRequired)
console.log(" hasDefault: " + installedProcess.inputArgumentsSchema[i].hasDefault)
}
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const installedProcess = await myProcess.install();
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const installedProcess = await myProcess.install();
The
startJob
method receives an already created Job
and starts it. It returns a Promise to an object of type JobResult, which contains the output arguments.
The
createJob
method creates a robot Job using the Process Id. It can optionally receive the job input arguments. It returns a Job object.
Note: Starting with v2022.10, the process list is refreshed in parallel with the process execution, prior to this, the process
list was refreshed before the process started. This means that when running a process for which an update is available, the
job might run with the older version of the process.
robot = UiPathRobot.init();
processes = await robot.getProcesses();
const calculatorProcess = processes.find(p => p.name.includes('Calculator'));
const arguments = {
"input1" : 23,
"input2" : 42,
"operation" : "add"
};
const job = robot.createJob(calculatorProcess.id, arguments);
const result = await robot.startJob(job);
console.log(result.Sum);
robot = UiPathRobot.init();
processes = await robot.getProcesses();
const calculatorProcess = processes.find(p => p.name.includes('Calculator'));
const arguments = {
"input1" : 23,
"input2" : 42,
"operation" : "add"
};
const job = robot.createJob(calculatorProcess.id, arguments);
const result = await robot.startJob(job);
console.log(result.Sum);
Note: In TypeScript, a Job can be created by using the Job class constructor.
robot = UiPathRobot.init();
processes = await robot.getProcesses();
const calculatorProcess = processes.find(p => p.name.includes('Calculator'));
const arguments = {
"input1" : 23,
"input2" : 42,
"operation" : "add"
};
const job = new Job(calculatorProcess.id, arguments);
const result = await robot.startJob(job);
console.log(result.Sum);
robot = UiPathRobot.init();
processes = await robot.getProcesses();
const calculatorProcess = processes.find(p => p.name.includes('Calculator'));
const arguments = {
"input1" : 23,
"input2" : 42,
"operation" : "add"
};
const job = new Job(calculatorProcess.id, arguments);
const result = await robot.startJob(job);
console.log(result.Sum);
The
on
method of the Job
object is used to attach event handlers to the job . The events available are status
and workflow-event
.
The
status
event is raised during the job execution each time the status of the job has changed.
This event is also raised each time the ReportStatus activity is executed.
const robot = UiPathRobot.init();
const job = robot.createJob('processId');
job.on('status', robotStatus => console.log(robotStatus));
await robot.startJob(job);
const robot = UiPathRobot.init();
const job = robot.createJob('processId');
job.on('status', robotStatus => console.log(robotStatus));
await robot.startJob(job);
The
workflow-event
event is raised during the job execution each time an activity that sends a workflow event is executed. It is the support
for implementing partial results with the help of send interim results activity. The event handler has an argument of type WorkflowEventData.
const robot = UiPathRobot.init();
const job = robot.createJob('processId');
job.on('workflow-event', e => console.log(e.name));
await robot.startJob(job);
const robot = UiPathRobot.init();
const job = robot.createJob('processId');
job.on('workflow-event', e => console.log(e.name));
await robot.startJob(job);
The method
start
of the object RobotProcess is used to start a process by passing it input arguments, if available.
It returns an object of type JobPromise.
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const arguments = {
"a" : 41,
"b" " 27
};
const result = await myProcess.start(arguments);
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const arguments = {
"a" : 41,
"b" " 27
};
const result = await myProcess.start(arguments);
The
onStatus
method is used to attach an event handler to the 'status' event of the Job.
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const result = await myProcess.start().onStatus(status => console.log(status));
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const result = await myProcess.start().onStatus(status => console.log(status));
The
onWorkflowEvent
method is used to attach an event handler to the 'workflow-event' event of the Job.
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const result = await myProcess.start().onWorkflowEvent(e => console.log(e.name));
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const result = await myProcess.start().onWorkflowEvent(e => console.log(e.name));
The
stopProcess
method is used to stop an executing robot process.
It returns a promise which is resolved on successful cancellation of the running robot process.
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const result = await myProcess.start();
await robot.stopProcess(myProcess);
const robot = UiPathRobot.init();
const processes = await robot.getProcesses();
const myProcess = processes.find(p => p.name === "MyProcess");
const result = await myProcess.start();
await robot.stopProcess(myProcess);
interface IRobotSDK {
settings: Settings;
getProcesses(): Promise<Array<RobotProcess>>;
init(): IRobotSDK;
on(eventName: string, callback: (argument?: any) => void): void;
startJob(job: Job): Promise<JobResult>;
stopProcess(process: RobotProcess): Promise<void>;
installProcess(processId: string): Promise<InstallProcessResult>;
}
interface IRobotSDK {
settings: Settings;
getProcesses(): Promise<Array<RobotProcess>>;
init(): IRobotSDK;
on(eventName: string, callback: (argument?: any) => void): void;
startJob(job: Job): Promise<JobResult>;
stopProcess(process: RobotProcess): Promise<void>;
installProcess(processId: string): Promise<InstallProcessResult>;
}
class Settings {
portNumber: number;
pollTimeInterval: number;
disableTelemetry: boolean;
}
class Settings {
portNumber: number;
pollTimeInterval: number;
disableTelemetry: boolean;
}
class RobotProcess {
id: string;
name: string;
description?: string;
start: (inArguments?: any) => JobPromise;
install: () => Promise<InstallProcessResult>;
}
class RobotProcess {
id: string;
name: string;
description?: string;
start: (inArguments?: any) => JobPromise;
install: () => Promise<InstallProcessResult>;
}
class InstallProcessResult {
inputArgumentsSchema: InputArgumentSchema[]
}
class InstallProcessResult {
inputArgumentsSchema: InputArgumentSchema[]
}
class InputArgumentSchema {
name: string;
type: string;
isRequired: boolean;
hasDefault: boolean;
}
class InputArgumentSchema {
name: string;
type: string;
isRequired: boolean;
hasDefault: boolean;
}
class JobPromise {
onStatus(eventHanlder: (argument?: any) => void): JobPromise;
onWorkflowEvent(eventHanlder: (argument?: any) => void): JobPromise;
}
class JobPromise {
onStatus(eventHanlder: (argument?: any) => void): JobPromise;
onWorkflowEvent(eventHanlder: (argument?: any) => void): JobPromise;
}
class Job {
processId: string;
argument?: any;
jobId: string;
on(eventName: string, eventHanlder: (argument?: any) => void): void;
}
class Job {
processId: string;
argument?: any;
jobId: string;
on(eventName: string, eventHanlder: (argument?: any) => void): void;
}
- Methods and properties
- Init
- Settings
- On
- consent-prompt
- missing-components
- Get Processes
- Get Input Arguments Schema
- Start Job
- Job On
- status
- workflow-event
- Start Process
- Process On Status
- Process On Workflow Event
- Stop Process
- Model Definitions
- IRobotSDK
- Settings
- RobotProcess
- InstallProcessResult
- InputArgumentSchema
- JobPromise
- Job
- JobResult
- WorkflowEventData