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133 lines
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ReStructuredText
133 lines
5.6 KiB
ReStructuredText
Windows Support
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===============
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Starting with ``v0.4.0a1``, pwncat supports multiple platform targets. Specifically,
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we have implemented Windows support. Windows support is complicated, as a majority
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of interaction cannot be simply executed from a shell, and parsed. As a result, we
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implemented a very minimal C2 framework, and had pwncat automatically upload and
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execute this framework for you. **You only need to provide pwncat a cmd or
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powershell prompt**.
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Goals
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-----
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When building out Windows support, there were a lot of options. We had to filter out
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these options based on the goals for the C2. We whittled these goals down to the
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following:
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- Automatically Bypass AMSI
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- Automatically Bypass AppLocker
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- Undetected by Defender
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- Automatically Bypass PowerShell Constrained Language Mode
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- Provide the user with an interactive shell
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- Support structured interaction for automation
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- Touch disk as little as possible
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This was a tall order, and doing so generically was difficult. I'll talk about our
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solution to each of those problems. Firstly, AMSI was easy. Once everything was set
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in place, we could use the standard .Net reflection to bypass AMSI relatively easily.
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This brought up another issue: Constrained Language Mode. In PowerShell, if constrained
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language mode is active, we effectively have no access to .Net. This presents serious
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problems. The only way we could find to bypass Constrained Language Mode without
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depending on PowerShell v2 was to execute .Net code. From within .Net, we can reflectively
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modify the PowerShell implementation, and spawn an interactive session in Full Language
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Mode regardless of environment or Group Policy settings.
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With the need to execute .Net without reflective loading from PowerShell (due to CLM),
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we now break one of our rules. We have to upload a file to disk to execute, and with
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that we run into both Defender and AppLocker. For AppLocker, there is a list of safe
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directories where we can place a binary, and load it with the .Net ``InstallUtil``
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tool. This provides a way around AppLocker. Further, we implemented a small stager
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which simply waits and downloads more .Net code to be reflectively loaded. This
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mitigates the files on disk by making the only on-disk file a simple stager with low
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equity. It also makes the file on disk less likely to trigger Defender.
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At this point, we can load stage two which implements the required structured
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interaction and interactive shell as needed, and have met all goals listed above
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with a slight compromise on files touching disk. To make things as smooth as possible,
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pwncat will automatically remove the stageone DLL when exiting.
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Communication Protocol
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----------------------
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After initializing stage two, pwncat communicates over Base64-encoded GZip blobs.
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Each command sent is a JSON-encoded argument array specifying the type name,
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method name, and subsequent arguments for a static method within stage two. The
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JSON data is deserialized so you can pass any serializable type to a method natively
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from pwncat.
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Responses are formatted in the same way as requests, except are returned as a dictionary.
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The dictionary looks like this:
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.. code-block:: json
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{
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"error": 0,
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"result": {},
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"message": ""
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}
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If a method fails, the error property will be non-zero, and the ``message`` property
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will be present containing a description of the failure. If the method succeeds, the
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``result`` property will contain the return value of the method. This value could be
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any JSON serializable type (the example above shows an empty dictionary but it could
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just as easily be a bare integer).
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The Windows platform provides a helper method to call methods which seamlessly translates
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Python calls to method calls. The return value is the ``result`` property, and a
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:class:`pwncat.platform.windows.Windows.ProtocolError` will be raised if there was an error.
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.. code-block:: python
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result = session.platform.run_method("PowerShell", "run", "[PSCustomObject]@{ thing = 5; }", 1)
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# Prints "5"
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print(result[0]["thing"])
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There are also other abstractions within the framework for common operations like executing
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PowerShell. For more information on the API of the Windows platform, please see the
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API Documentation.
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Plugin API
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----------
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You can utilize the pwncat API to load third-party .Net assemblies from the attacker machine
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and easily execute their methods. The stage two C2 provides the ability to load an assembly
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and retrieve a unique identifier for the loaded assembly. You can then use this identifier
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to execute methods from the assembly in a similar way to the ``run_method`` method above.
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The plugins themselves must implement a specific API in order to be compatible. A basic
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plugin looks like this:
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.. code-block:: csharp
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using System.Reflection;
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class Plugin
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{
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public static void entry(Assembly stagetwo)
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{
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// Optional method; executing while loading the plugin
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}
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public static string test(string arg1, int arg2)
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{
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// A method that can be called from the C2
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return "Hello " + arg1 + " " + arg2.ToString();
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}
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}
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If you had compiled this plugin to a dll named ``example.dll``, you could load and execute it
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with the following from pwncat:
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.. code-block:: python
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example = session.platform.dotnet_load("example.dll")
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# this prints "Hello Plugin 42"
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print(example.test("Plugin", 42))
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The Windows platform will deduplicate plugins by name and by file hash to ensure individual
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assemblies are only loaded once. If a given assembly has already been loaded, the existing
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:class:`pwncat.platform.windows.Windows.DotNetPlugin` instance will be returned instead of
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reloading the existing assembly.
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