Everything you need about Burp Extension Generation
npm install -g yo npm install -g generator-burp-extension
Then generate your new project:
When you generate your plugin project, the generator will ask you what features should be included in your plugin. If you are familiarized with burp extension developing, the names of the features will be descritive enough, but, if you are new in burp extensions, here is a short description of what can be done with each feature.
Custom tab that will be added to Burp's UI. Normally is used to add some functionality (like logger++ extension) or just for enabling the user to config the extension.
Custom message editor tab that will be added to Burp's Message editor UI (Repeter, Intruder...). Normally is used to provide some kind of custom editor/view functionality in request/response payloads. One example is JSON Beutifier extension.
Custom context menu will be added to Burp's UI nearly anywhere, by pressing right click. Burp allows to show context menus in any of this situations:
A simple example of this functionality is copy-as-python-requests extension, that allows to copy a request as python code (just an example).
The listener will be notified of requests and responses being processed by the Proxy tool (Proxy Listener) or made by any Burp tool (HTTP Listener). Extensions can perform custom analysis or modification of these messages.
In other words, a Proxy Listeners intercept the reques coming from the browser to Burp and the response coming from Burp to the browser. A HTTP Listener intercept outgoing request from burp to the web server and incoming responses comming from the web server.
A real life example plugin using this extension's feature is AutoRepeater
Extend Intruder payloads adding custom generator capabilities. One posible use of this functionality could be generate random valid IBAN numbers. One real life example is the extension Intruder file payload generator (I don't use it, it's just an example)
Extend Intruder payloads adding custom processor capabilities, one possible example could be perform an AES encryption based on a static key.
When performing scanning, Burp will ask the check to perform active or passive scanning on the base request, and report any Scanner issues that are identified.
When a request is actively scanned, the Scanner will invoke this, and the provider should provide a list of custom insertion points that will be used in the scan.
Each registered action will be available within the session handling rule UI for the user to select as a rule action. Users can choose to invoke an action directly in its own right, or following execution of a macro.
The listener will be notified when extension is unloaded from Burp. Note: Any extensions that start background threads or open system resources (such as files or database connections) should register a listener and terminate threads / close resources when the extension is unloaded.
The listener will be notified of new issues that are reported by the Scanner tool. Extensions can perform custom analysis or logging of Scanner issues by registering a Scanner listener.
The listener will be notified whenever a change occurs to Burp's suite-wide target scope.
Probably useless because Burp don't allow you to access global scope definition.
This section explain some decisions in the development of the template.
First of all, I'm not a Java fan
As you might know, BurpSuite allows to develop extensions in three main languages: Java, Python and Ruby. Actually this is not entirely true. Burp allows you to develop in Jython and JRuby. The real problem here is that, when you are using Jython or JRuby in a Burp extension you still need to think in Java (because is the main language of Burp), so, at the end, you will be developing in Python and Java, but with a lot of problems to integrate your project with a real IDE, with autocompletion and those kind of modern thins.
Another good reason to use Java instead of Jython is because it is based on python 2.7, and I'm not using JRuby because I don't like Ruby, that's all.
As you might notice, all implementations of a Burp Interface are a following a Singleton pattern the main reason for this is completely subjective.
The thing is that Burp is a great tool, but is a little bit obscure about it's internals and probably a little bit messy. So, for example, Burp allows you tu register multiple IHTTPListeners, but you will loose important decisions like the order of calling for this listeners. This kind of situations, in my humble opinion, might obscure and difficult the understanding of a Burp Extension and code maintainability.
You can see each singleton class as a necessary connection point with Burp, that must be unique. From that point of connection, you can control your code, performing any kind of object oriented design.
MIT © Raul Sampedro