Endpoints
Endpoint configuration for Universal APIs.
Last updated
Endpoint configuration for Universal APIs.
Last updated
Copyright 2024 Ironman Software
Endpoints are defined by their URI and HTTP method. Calls made to the Universal server that match the API endpoint and method that you define will execute the API endpoint script.
To invoke the above method, you could use Invoke-RestMethod.
When defining endpoints in the management API, you can skip the New-PSUEndpoint call as it will be defined by the admin console.
The only contents that you need to provide in the editor will be the script you wish to call.
URLs can contain variable segments. You can denote a variable segment using a colon (:). For example, the following URL would provide a variable for the ID of the user. The $Id variable will be defined within the endpoint when it is executed. Variables must be unique in the same endpoint URL.
To call this API and specify the ID, you would do the following.
Query string parameters are automatically passed into endpoints as variables that you can then access. For example, if you had an endpoint that expected an $Id variable, it could be provided via the query string.
The resulting Invoke-RestMethod call must then include the query string parameter.
When accepting input via Query String parameters you may be vulnerable to CWE-914: Improper Control of Dynamically-Identified Variables. Consider using a param block to ensure that only valid parameters are provided to the endpoint.
Below is an example of CWE-914. A $IsChallengePassed query string parameter could be included to bypass the challenge.
In order to avoid this particular issue, you can use a param block.
Request headers are available in APIs using the $Headers variable. The variable is a hashtable. To access a header, use the following syntax.
Request cookies are available in APIs using the $Cookies variable. The variable is a hashtable. To access a cookie, use the following syntax.
Request cookies can be sent back using the New-PSUApiResponse cmdlet. Use the -Cookies parameter with a supplied hashtable.
To access a request body, you will simply access the $Body variable. Universal $Body variable will be a string. If you expect JSON, you should use ConvertFrom-Json.
To call the above endpoint, you would have to specify the body of Invoke-RestMethod.
You can view the live log information for any endpoint by clicking the log tab. Live logs include URL, HTTP method, source IP address, PowerShell streams, status code, return Content Type and HTTP content length.
You can pass data to an endpoint as form data. Form data will be passed into your endpoint as parameters.
You can then use a hashtable with Invoke-RestMethod to pass form data.
You can pass JSON data to an endpoint and it will automatically bind to a param block.
You can then send JSON data to the endpoint.
You can use a param block within your script to enforce mandatory parameters and provide default values for optional parameters such as query string parameters. Variables such as $Body, $Headers and $User are provided automatically.
In the below example, the $Name parameter is mandatory and the $Role parameter has a default value of Default.
Data returned from endpoints will be assumed to be JSON data. If you return an object from the endpoint script block, it will be automatically serialized to JSON. If you want to return another type of data, you can return a string formatted however you chose.
You can process uploaded files by using the $Data parameter to access the byte array of data uploaded to the endpoint.
You could also save the file into a directory.
You can send files down using the New-PSUApiResponse cmdlet.
You can return custom responses from endpoints by using the New-PSUApiResponse cmdlet in your endpoint. This cmdlet allows you to set the status code, content type and even specify the byte[] data for the content to be returned.
You can also return custom body data by using the -Body parameter of New-PSUApiResponse.
Invoking the REST method will return the custom error code.
You can control the content type of the data that is returned by using the -ContentType parameter.
API documentation can be produced for your endpoints by creating a new OpenAPI definition and assigning endpoints to it. To create an OpenAPI definition, click APIs \ Documentation and then Create new Endpoint Documentation. You can set the name, URL, description and authentication details for the documentation.
Once created, you can assign endpoints to the documentation by editing the endpoint.
The documentation for your endpoint will appear within the Swagger dashboard. Select the definition with the Select a definition dropdown.
All your custom endpoints will be listed.
You can specify help text for your APIs using comment-based help. Including a synopsis, description and parameter descriptions will result in each of those pieces being documented in the OpenAPI documentation and Swagger page.
For example, with a simple /get/:id endpoint, we could have comment-based help such as this.
The resulting Swagger page will show each of these descriptions.
Types can be defined within an endpoint documentation scriptblock. Click the Edit Details button on the API documentation record.
APIs can also be documented using input and output types by creating a PowerShell class and referencing it within your comment-based help. PowerShell Universal takes advantage of the .INPUTS and .OUTPUTS sections to specify accepted formats and define status code return values.
Within the .INPUTS and .OUTPUTS , you will define a YAML block to provide this information. You can create types in the read-only section of the PowerShell Universal configuration file.
Persistent runspaces allow you to maintain runspace state between API calls. This is important for users that perform some sort of initialization within their endpoints that they do not want to execute on subsequent API calls.
By default, runspaces will be reset after each execution. This will cause variables, modules and functions defined during the execution of the API to be removed.
To enable persistent runspaces, you will need to configure an environment for your API. Set the -PersistentRunspace parameter to enable this feature. This is configured in the environments.ps1 script.
You can then assign the API environment in the settings.ps1 script.
By default, endpoints will not time out. To set a timeout for your endpoints, you can use the New-PSUEndpoint -Timeout parameter. The timeout is set in the number of seconds.
You can define the path to an external endpoint content file by using the -Path parameter of New-PSUEndpoint. The path is relative to the .universal directory in Repository.
The content of the endpoints.ps1 file is then this.
As of PowerShell Universal 3.5.0, you can now enable C# APIs as an experimental feature. To learn more about enabling experimental features, click here. C# APIs are significantly faster than PowerShell APIs (5 - 20 times faster).
There is no UI for creating a C# API and you will need to do so using configuration files. First, you will need to create a .cs file that will run your API.
You will have access to a request parameter that includes all the data about the API request.
You will also have access to a ServiceProvider property that will allow you to access services within PowerShell Universal. These are currently not well documented but below is an example of restarting a dashboard.
Some other useful services may include:
IDatabase
IApiService
IConfigurationService
IJobService
You can choose to return an ApiResponse from your endpoint.
Once you have defined your C# endpoint file, you can add it by editing endpoints.ps1.
C# endpoints are compiled and run directly in the PowerShell Universal service.
