The HUMAN enforcer can be configured within the JavaScript code via the ConfigurationParams object.
An object of configuration values that dictate the behavior of the Enforcer. This object is needed when creating a new Enforcer instance.
Required values:
It’s safest to store tokens and secrets as environment variables in the Azure Function App Settings rather than hardcoding them into the JavaScript code.
The application ID. Required to initialize the Enforcer.
The token used for authorization with the HUMAN backend. Required to initialize the Enforcer.
The secret used to encrypt and decrypt the risk cookie. Required to initialize the Enforcer.
This boolean serves as an on/off switch for the entire module, providing a way to enable and disable all Enforcer capabilities quickly and easily.
Default: true
This feature controls the behavior of the enforcer by changing how it executes certain parts of the workflow. Most notably, different modes allow for analysis and fine-tuning of the enforcer behavior without serving block pages that affect end users.
Possible values:
"monitor" - the enforcer will perform all functions without returning block responses
"active_blocking" - the enforcer will return block responses when needed
Default: "monitor"
The verbosity of the logs generated by the enforcer.
Possible values:
"none" - No logs will be generated
"error" - Sparse logs will be generated only when errors occur
"debug" - Detailed logs will always be generated (not advisable for production environments)
Default: "error"
The maximum time in milliseconds to wait for the risk API request. If this timeout is reached, the original request will be allowed to pass (fail open).
Default: 1000
By default, the IP is taken from the X-Azure-ClientIP header. However, if this header is inaccurate, the enforcer can extract the IP from the headers configured here. The headers are traversed in the order they are listed. The first header value that exists will be used as the client IP.
Default: []
In specific cases (e.g., XHR post requests), a full captcha page render might not be an option. In such cases the advanced blocking response returns a JSON object containing all the information needed to render a customized captcha challenge implementation - be it a popup modal, a section on the page, etc. This allows for flexibility and customizability in terms
of how the captcha pages are displayed.
Default: true
To prevent suspicious or unwanted behavior on the client side, some browsers or extensions (e.g., adblockers) may deny the frontend JavaScript code from making requests to other domains. This prevents the HUMAN sensor from making requests to the HUMAN backends, which greatly limits HUMAN’s detection capabilities. To avoid this problem, first party enables the enforcer to be used as a proxy for HUMAN servers, and to serve content to the browser from a first party endpoint (i.e., an endpoint on the customer’s domain).
Default: true
By default, first party endpoints always begin with the application ID without the initial “PX”. For example, if the application ID is PX12345678, then all first party routes will take the form /12345678/*. This configuration sets a custom prefix for first party routes to use in addition to the default prefix. When configured, the enforcer will respond to first party requests with endpoints matching the patterns /<px_custom_first_party_prefix>/init.js, /<px_custom_first_party_prefix>/xhr/*, and /<px_custom_first_party_prefix>/captcha/*.
Default: "" (when empty, will use the default as described above)
For an application with ID PX12345678, the first party sensor endpoint is /12345678/init.js by default. This configuration customizes the entire first party sensor script endpoint. Note that in addition to responding to requests that match this configured route, the enforcer will also proxy first party requests that match the default pattern (/12345678/init.js) and patterns according to the custom prefix (/<px_custom_first_party_prefix>/init.js) if one is configured.
Default: ""
For an application with ID PX12345678, the first party XHR endpoint is /12345678/xhr by default. This configuration customizes the first party XHR endpoint. Note that in addition to responding to requests that match this configured route, the enforcer will also proxy first party requests that match the default pattern (/12345678/xhr/*) and patterns according to the custom prefix (/<px_custom_first_party_prefix>/xhr/*) if one is configured.
Default: ""
For an application with ID PX12345678, the first party captcha endpoint is /12345678/captcha by default. This configuration customizes the first party captcha endpoint. Note that in addition to responding to requests that match this configured route, the enforcer will also proxy first party requests that match the default pattern (/12345678/captcha/*) and patterns according to the custom prefix (/<px_custom_first_party_prefix>/captcha/*) if one is configured.
Default: ""
The maximum time in milliseconds to wait for first party requests.
This configuration will not take effect if first party requests are redirected to HUMAN origins via the Azure Front Door rule sets. This configuration will only take effect if first party requests are directed to the Azure Function App enforcer.
Default: 4000
When enabling the enforcer for the first time, it is recommended to do so in monitor mode to collect data before actually starting to block user requests. Prior to switching the module mode to active_blocking entirely, it’s also crucial to verify that the full blocking flow works as expected. This feature activates the full blocking flow even while in monitor mode if a particular header is present on the request.
Default: ""
Customers may want certain, but not all, endpoints to be enforced by HUMAN, even when the Enforcer is in monitor mode. These routes will go through the full enforcer workflow, including blocking requests when necessary. That is, even when the enforcer is in monitor mode, these defined routes will behave as if in active blocking mode.
Default: []
Enables certain endpoints to be monitored rather than enforced by HUMAN, even when the enforcer is in active blocking mode.
Default: []
The HUMAN detector requires information about the HTTP request as part of its bot detections. Certain headers may contain information that should not be forwarded to other servers, including the HUMAN backend. Configuring these header names as sensitive headers will remove these headers from requests sent to other backends by HUMAN.
Default: ["cookie", "cookies"]
Certain endpoints may require more stringent protection from bot attacks (e.g., endpoints that execute payments or handle personal information). In these cases, routes can be configured as sensitive routes, meaning risk API calls will be made even if the request contains a valid, unexpired cookie.
Default: []
HUMAN does not enforce static assets such as images and documents. To prevent unnecessary API calls to HUMAN servers and needless computation, the enforcer filters all requests with a valid static file extension. Filtering by extension only applies to HTTP requests with methods GET and HEAD.
Default: [ '.css', '.bmp', '.tif', '.ttf', '.docx', '.woff2', '.js', '.pict', '.tiff', '.eot', '.xlsx', '.jpg', '.csv', '.eps', '.woff', '.xls', '.jpeg', '.doc', '.ejs', '.otf', '.pptx', '.gif', '.pdf', '.swf', '.svg', '.ps', '.ico', '.pls', '.midi', '.svgz', '.class', '.png', '.ppt', '.mid', '.webp', '.jar', '.json', '.xml' ]
Filters out requests according to their HTTP method, avoiding unnecessary traffic in the enforcer verification flow and reducing operating costs.
Default: []
Filters out requests according to their IP address, avoiding unnecessary traffic in the enforcer verification flow and reducing operation costs.
Default: []
Route prefixes or regular expressions (endpoints) specified here will not be blocked, regardless of the score they receive. A request to a filtered route will not generate any risk or async activities.
Default: []
Filters out requests according to their user agent value, avoiding unnecessary traffic in the enforcer verification flow and reducing operation costs.
Default: []
Provides a way to include an additional custom .css file to add to the block page.
Default: ""
Provides a way to include a custom JS script to add to the block page. This script will run after the default JS scripts.
Default: ""
Adds a custom logo to the block page that will be shown to users. This aligns the block page with the customer’s brand.
Default: ""
The Enforcer attempts to extract the HUMAN cookies from the ‘Cookie’ header. If the HUMAN cookies are transferred on a header other than ‘Cookies’, the header name should be configured here.
Default: "x-px-cookies"
The maximum length of the User-Agent header. If the user agent header value exceeds this length, it will be truncated to this length prior to processing.
Default: 8528
CORS (Cross-Origin Resource Sharing) is a mechanism that enables the server to indicate when a request contains cross-origin resources. It does so by adding special HTTP headers to the request, which permits the browser to load these resources. Without these headers, the browser may block requests to these resources for security reasons.
In most cases, CORS employs a two-stage procedure with a preliminary “preflight” request followed by the actual request. The preflight request checks if the actual request will be responded to. To learn more about different request types, see these examples.
In the Enforcer, CORS behavior must be configured to address both simple requests (without preflight) and more complex ones (with preflight). Enabling CORS support via this configuration will have the following effects:
px_cors_create_custom_block_response_headers configuration, which will allow for customizing the block response headers via a custom function.px_cors_preflight_request_filter_enabled and px_cors_custom_preflight_handler configurations, which allow for filtering and custom handling of preflight requests.Default: false
If the default CORS response headers are not sufficient, this configuration can be used to completely customize the headers that should be added to all block responses resulting from CORS requests. If this function is defined, the default headers will not be added; only those headers specified in the returned object will be added to the block response.
Default: null
This configuration disables enforcement for CORS preflight requests. When this configuration is set to true, CORS preflight requests will be filtered from the enforcer flow. That is, they will pass through the enforcer flow without triggering detection or block responses.
Default: false
If a more customized approach is needed for handling CORS preflight requests, this custom function can be set to define the desired behavior. The custom function should receive the original HTTP request and return an object representing the HTTP response to be returned. If null or any other falsy value is returned from the function, the Enforcer will continue processing the preflight request.
The px_cors_custom_preflight_handler will be invoked prior to determining whether or not to filter the request based on the px_cors_preflight_request_filter_enabled configuration. This allows for returning customized responses for preflight requests that meet certain conditions and filtering those that don’t meet these conditions.
IMinimalResponse interface (defined below). It is also possible to return a Promise resolving to one of these types.Default: null
The additional activity handler is a custom function passed to the enforcer. The enforcer runs this callback after sending page_requested or block activity to the collector, and before forwarding the request to the next step in the pipeline. A common use case of the additional activity handler is to set the score as a variable or header. Then the application can read the score and do what is defined within the application’s logic.
void | Promise<void>Default: null
This custom function enriches activities sent from the enforcer to HUMAN with additional custom data. This data can include user information, session IDs, or other data that HUMAN should have access to. These custom parameters are defined by a configurable function that must return an object that contains these custom parameters. There is a limit of 10 custom parameters.
CustomParameters | Promise<CustomParameters>Default: null
This custom function enriches async activities (page requested, additional s2s and simulated block) sent from the enforcer to HUMAN with additional custom data derived from the HTTP response. These custom parameters can include information from the response body, status, or other response metadata that HUMAN should have access to. The function must return an object containing these custom parameters. There is a limit of 10 response custom parameters (custom_param11–custom_param20).
ResponseCustomParameters | Promise<ResponseCustomParameters>Default: null
Whether the enforcer should attempt to parse and report information about GraphQL operations on incoming requests.
Default: true
A list of prefixes or regular expressions for all routes that should be considered GraphQL routes. If px_graphql_enabled is true, all POST requests with routes that match the prefixes configured here will have their bodies parsed for GraphQL operations.
Default: ["/graphql"]
A list of operation types (query, mutation, or subscription) that should be considered sensitive. If one or more GraphQL operations on an HTTP request is found to have a type matching the list configured here, it will trigger a Risk API call even if the request contains a valid, unexpired cookie.
Default: []
A list of operation names that should be considered sensitive. If one or more GraphQL operations on an HTTP request is found to have a name matching the list configured here, it will trigger a Risk API call even if the request contains a valid, unexpired cookie.
Default: []
Whether the PXHD cookie set on the HTTP response should include the Secure attribute.
Default: false
The token used to authenticate with HUMAN’s enforcer logging services. This value is required for setting up the header-based logger feature.
Default: ""
The name of the cookie that contains the JWT token from which user identifiers should be extracted.
Default: ""
The field name in the JWT object, extracted from the JWT cookie, that contains the user ID to be extracted and reported.
Default: ""
The field names in the JWT object, extracted from the JWT cookie, that should be extracted and reported in addition to the user ID.
Default: []
The name of the header that contains the JWT token from which user identifiers should be extracted.
Default: ""
The field name in the JWT object, extracted from the JWT header, that contains the user ID to be extracted and reported.
Default: ""
The field names in the JWT object, extracted from the JWT header, that should be extracted and reported in addition to the user ID.
Default: []
This enables the extraction and reporting of credentials from the Enforcer. This must be set to true to enable the Credential Intelligence product.
Default: false
An array of configurations for each credential endpoint. Each element in the array is an object representing a distinct endpoint to which credentials are sent, and includes information about how to identify these credential-bearing requests, how to extract the credentials from the request, and how to determine if the request operation (login, signup, etc.) was successful based on the returned HTTP response.
Default: []
Each credential endpoint configuration object contains the following fields:
Required. The path of the request that contains the credentials. It can be either an exact path or a string in the form of a regular expression.
Optional. Whether the incoming request path should be evaluated against the configured path as a regular expression or as an exact match.
Possible values:
"exact" - The value set in path must match the request path exactly as is."regex" - The value set in path represents a regular expression to be matched against the request path.Default: "exact"
Required. The HTTP method of the request that contains the credentials. This can be set to any string representing an HTTP method (e.g., "GET", "POST", "PUT").
Required. Whether the credentials should be extracted from the request headers, query parameters, body, or via a defined custom callback.
Possible values:
"body" - The credentials will be extracted according to the configured user_field and pass_field values from the request body."header" - The credentials will be extracted from the request headers according to the configured user_field and pass_field."query-param" - The credentials will be extracted from the query parameters according to the configured user_field and pass_field."custom" - The credentials will be extracted by invoking the extract_credentials_callback.If "body" is configured as the sent_through value, the Enforcer must read and parse the incoming request body. The Enforcer parses the request body based on the Content-Type request header.
Supported content types are listed below:
application/jsonapplication/x-www-form-urlencodedmultipart/form-dataRequired only if sent_through is set to "body", "header", or "query-param".
The name of the field, header name, or query parameter where the username can be found.
Required only if sent_through is set to "body", "header", or "query-param".
The name of the field, header name, or query parameter where the password can be found.
The user_field and pass_field configurations support subfields in cases of Content-Type: application/json bodies with nested objects. The subfields can be separated with periods.
For example, the credential endpoint configuration object can include a user_field with the value "user_info.username" and a pass_field with the value "authentication.password" to support extracting the credentials from the following JSON body:
Required only if sent_through is set to "custom".
A custom credential extraction callback that returns the raw credentials from the request. It receives the HTTP request as a parameter and should return a Credentials object of the following type.
If neither the username nor the password can be extracted from the request, the function should return null.
Optional. Whether to process credentials as part of single or multiple HTTP requests. By default, the module tries to process requests depending on which credential fields were extracted.
Possible values:
"v2" - Both username and password are present on the same HTTP request and must be extracted successfully to trigger Credential Intelligence."multistep_sso" - The username and password are delivered on different HTTP requests. Either the username or password, but not both, must be extracted successfully to trigger Credential Intelligence."both" - The username and password may be present on the same HTTP request or on different HTTP requests. If either username or password is successfully extracted, the Enforcer will send the credentials according to the multistep_sso protocol. If both username and password are successfully extracted, the Enforcer will send the credentials according to the v2 protocol.Default: "both"
Required. The method by which the Enforcer will determine whether the login request was successful.
Possible values:
"status" - The Enforcer will determine if the login request was successful by evaluating the response status code against the login_successful_statuses configuration."body" - The Enforcer will determine if the login request was successful by evaluating the response body content against the login_successful_body_regex configuration."header" - The Enforcer will determine if the login request was successful by evaluating the response headers against the login_successful_header_name and login_successful_header_value configurations."custom" - The Enforcer will determine if the login request was successful by invoking the login_successful_callback.Default: "status"
Optional. An array of HTTP statuses signifying a successful login. All other status codes will be treated as unsuccessful login attempts. Takes effect only when the login_successful_reporting_method is set to "status".
Default: [200]
Required only if login_successful_reporting_method is set to "body". A regular expression (or string representing a regular expression) to against which the response body will be evaluated. A match indicates a successful login.
Default: ""
Required only if login_successful_reporting_method is set to "header". A response header name signifying a successful login response. If the login_successful_header_value field is empty or not configured, any response containing this header name will be considered a successful login. If the login_successful_header_value is configured, the response header value must be an exact match.
Default: ""
Optional. If this value is configured, a login attempt will be considered successful only if the response contains a header name matching the login_successful_header_name, and whose value is exactly equal to this configuration value. Takes effect only when the login_successful_reporting_method is set to "header".
Default: ""
Required only if login_successful_reporting_method is set to "custom". A custom callback that accepts the HTTP response and returns a boolean or Promise resolving to a boolean that indicates whether the login attempt was successful.
Default: null
The header name to be set on the incoming request if the credentials are compromised. If this header is added, its value will always be 1. If credentials have not been identified as compromised, the header will not be added to the request.
Default: "px-compromised-credentials"
Whether to report the raw username on the additional_s2s activity. When set to false, the raw username will never be reported. When set to true, the raw username will only be reported if (1) the credentials are compromised, and (2) the login request was successful.
Default: false
Whether to send the additional_s2s activity, which reports on whether the login was successful, automatically in the postEnforce function. This should only be set to false if it is not possible to determine whether the login was successful based on the HTTP response. This means the additional_s2s activity must be sent in some other way.
Default: true
Whether to attach the additional_s2s payload and URL as headers to the original request. This is done so that the additional_s2s activity can be enriched with the proper login_successful value and sent to the provided URL at a later stage. This should only be enabled if the px_automatic_additional_s2s_activity_enabled is set to false.
When set to true, the following headers are added to the origin request:
px-additional-activity - A JSON object containing the payload of the additional_s2s activity. The login_successful and http_status_code fields should be set prior to sending the activity.px-additional-activity-url - The URL to which the additional_s2s payload should be sent as an HTTP POST request.Default: false
Below is an example of JavaScript code at the origin server to handle parsing, enrichment, and sending of the additional_s2s activities that arrive on request headers.
The enforcer will serve a Hype Sale Challenge for any request that is marked as a hype sale. To mark a request as hype sale, add a custom parameter with the key is_hype_sale and a boolean value of true in the configurable custom parameters function.
The following configuration will initiate a Hype Sale Challenge for any request that contains the query param id with the value 123 (e.g., https://www.example.com/product?id=123).
This configuration was added in version 1.4.0
When set, this will add a header to the incoming request with the configured header name and the JSON-stringified data enrichment object as the value. If empty or if data enrichment has not been enabled for your policy, no header will be set.
See here for instructions on enabling data enrichment in the HUMAN console.
Default: ""
Allows traffic to pass through a http proxy server.
Default: Empty