# pwncat [![asciicast](https://asciinema.org/a/417930.svg)](https://asciinema.org/a/417930) pwncat is a post-exploitation platform ~~for Linux targets~~. It started out as a wrapper around basic bind and reverse shells and has grown from there. It streamlines common red team operations while staging code from your attacker machine, not the target. pwncat used to only support Linux, but there has been a lot of work recently to support multiple platforms. Currently, there is alpha support for Windows targets. Please see the latest [documentation] for details on how to use pwncat with a Windows target. pwncat intercepts the raw communication with a remote shell and allows the user to perform automated actions on the remote host including enumeration, implant installation and even privilege escalation. After receiving a connection, pwncat will setup some common configurations for working with remote shells. - Disable history in the remote shell - Normalize shell prompt - Locate useful binaries (using `which`) - Attempt to spawn a pseudo-terminal (pty) for a full interactive session `pwncat` knows how to spawn pty's with a few different methods and will cross-reference the methods with the executables previously enumerated. After spawning a pty, it will setup the controlling terminal in raw mode, so you can interact in a similar fashion to `ssh`. `pwncat` will also synchronize the remote pty settings (such as rows, columns, `TERM` environment variable) with your local settings to ensure the shell behaves correctly with interactive applications such as `vim` or `nano`. John Hammond and I presented `pwncat` at GRIMMCon. Our presentation, which can be found on YouTube [here](https://www.youtube.com/watch?v=CISzI9klRkw). This video demonstrates an early version of the API and interface. Please refer to the documentation for up to date usage and API documentation! pwncat [documentation] is being built out on Read the Docs. Head there for the latest usage and development documentation! **pwncat requires Python 3.9+ on Linux** ## Installation `pwncat` only depends on a working Python development environment running on Linux. In order to install some of the packages required with `pip`, you will likely need your distribution's "Python Development" package. On Debian based systems, this is `python-dev`. For Arch, the development files are shipped with the main Python repository. For Enterprise Linux, the package is named `python-devel`. `pwncat` is pushed to PyPI under the name `pwncat-cs`, and can be installed with `pip` like so: ``` shell pip install pwncat-cs ``` However, it is recommended to install pwncat from a virtual environment. ```shell script python3 -m venv pwncat-env source pwncat-env/bin/activate pip install pwncat-cs ``` For a development environment, `pwncat` usage Python Poetry. You can clone the repository locally and use poetry to setup a development environment. ``` shell # Setup pwncat inside a poetry-managed virtual environment git clone git@github.com:calebstewart/pwncat.git cd pwncat poetry install # Enter the virtual environment poetry shell ``` ## Naming Changes Due to the naming conflict with [Cytopia's pwncat](https://pwncat.org/), I have decided to rename the package to `pwncat-cs`. This includes renaming the entrypoint so that there are no direct conflicts with Cytopia's project. If you are updating from `v0.4.*`, the command name will now have changed, and the `pcat` and `pc` varianst have been removed. See the most recent release notes for more details. The added benefit of this move is that the project is now pushed to PyPI for easier installation/updating in the future. ## Windows Support `pwncat` now supports connections from Windows targets starting at `v0.4.0a1`. The Windows platform utilizes a .Net-based C2 library which is loaded automatically. Windows targets should connect with either a `cmd.exe` or `powershell.exe` shell, and pwncat will take care of the rest. The libraries implementing the C2 are implemented at [pwncat-windows-c2]. The DLLs for the C2 will be automatically downloaded from the targeted release for you. If you do not have internet connectivity on your target machine, you can tell pwncat to pre-stage the DLLs using the `--download-plugins` argument. If you are running a release version of pwncat, you can also download a tarball of all built-in plugins from the releases page. The plugins are stored by default in `~/.local/share/pwncat`, however this is configurable with the `plugin_path` configuration. If you download the packaged set of plugins from the releases page, you should extract it to the path pointed to by `plugin_path`. Aside from the main C2 DLLs, other plugins may also be available. Currently, the only provided default plugins are the C2 and an implementation of [BadPotato]. pwncat can reflectively load .Net binaries to be used a plugins for the C2. For more information on Windows C2 plugins, please see the [documentation]. ## Modules Recently, the architecture of the pwncat framework was redesigned to incorporate a generic "module" structure. All functionality is now implemented as modules. This includes enumeration, persistence and privilege escalation. Interacting with modules is similar to most other post-exploitation platforms. You can utilize the familiar `run`, `search` and `info` commands and enter module contexts with the `use` command. Refer to the documentation for more information. ## BlackArch Packaging [![Packaging status](https://repology.org/badge/vertical-allrepos/pwncat-caleb.svg)](https://repology.org/project/pwncat-caleb/versions) Installation on BlackArch is as simple as: ``` shell pacman -Syu pwncat-caleb ``` ### Connecting to a Victim The command line parameters for pwncat attempt to be flexible and accept a variety of common connection syntax. Specifically, it will try to accept common netcat and ssh like syntax. The following are all valid: ```sh # Connect to a bind shell pwncat-cs connect://10.10.10.10:4444 pwncat-cs 10.10.10.10:4444 pwncat-cs 10.10.10.10 4444 # Listen for reverse shell pwncat-cs bind://0.0.0.0:4444 pwncat-cs 0.0.0.0:4444 pwncat-cs :4444 pwncat-cs -lp 4444 # Connect via ssh pwncat-cs ssh://user:password@10.10.10.10 pwncat-cs user@10.10.10.10 pwncat-cs user:password@10.10.10.10 pwncat-cs -i id_rsa user@10.10.10.10 # SSH w/ non-standard port pwncat-cs -p 2222 user@10.10.10.10 pwncat-cs user@10.10.10.10:2222 # Reconnect utilizing installed persistence # If reconnection fails and no protocol is specified, # SSH is used as a fallback. pwncat-cs reconnect://user@10.10.10.10 pwncat-cs reconnect://user@c228fc49e515628a0c13bdc4759a12bf pwncat-cs user@10.10.10.10 pwncat-cs c228fc49e515628a0c13bdc4759a12bf pwncat-cs 10.10.10.10 ``` By default, pwncat **assumes the target platform is Linux**. In order to connect to a Windows reverse or bind shell, you must pass the `--platform/-m` argument: ``` shell pwncat-cs -m windows 10.10.10.10 4444 pwncat-cs -m windows -lp 4444 ``` For more information on the syntax and argument handling, see the help information with ``pwncat-cs --help`` or visit the [documentation]. ## Docker Image The recommended installation method is a Python virtual environment. This provides the easiest day-to-day usage of `pwncat`. However, there has been interest in using `pwncat` from a docker image, so I have provided a Dockerfile which provides a working `pwncat` installation. To build the image use: ``` shell docker build -t pwncat . ``` This will build the `pwncat` docker image with the tag "pwncat". The working directory within the container is `/work`. The entrypoint for the container is the `pwncat` binary. It can be used like so: ``` shell # Connect to a bind shell at 10.0.0.1:4444 docker run -v "/some/directory":/work -t pwncat 10.0.0.1 4444 ``` In this example, only the files in `/some/directory` are exposed to the container. Obviously, for upload/download, the container will only be able to see the files exposed through any mounted directories. ## Features and Functionality `pwncat` provides two main features. At it's core, it's goal is to automatically setup a remote PseudoTerminal (pty) which allows interaction with the remote host much like a full SSH session. When operating in a pty, you can use common features of your remote shell such as history, line editing, and graphical terminal applications. The other half of `pwncat` is a framework which utilizes your remote shell to perform automated enumeration, persistence and privilege escalation tasks. The local `pwncat` prompt provides a number of useful features for standard penetration tests including: * File upload and download * Automated privilege escalation enumeration * Automated privilege escalation execution * Automated persistence installation/removal * Automated tracking of modified/created files * `pwncat` also offers the ability to revert these remote "tampers" automatically The underlying framework for interacting with the remote host aims to abstract away the underlying shell and connection method as much as possible, allowing commands and plugins to interact seamlessly with the remote host. You can learn more about interacting with `pwncat` and about the underlying framework in the [documentation]. If you have an idea for a new privilege escalation method or persistence method, please take a look at the API documentation specifically. Pull requests are welcome! ## Planned Features **pwncat** would like to be come a red team swiss army knife. Hopefully soon, more features will be added. * More privilege escalation methods (sudo -u#-1 CVE, LXD containers, etc.) * Persistence methods (bind shell, cronjobs, SSH access, PAM abuse, etc.) * Aggression methods (spam randomness to terminals, flush firewall, etc.) * Meme methods (terminal-parrot, cowsay, wall, etc.) * Network methods (port forward, internet access through host, etc.) ## Known Issues Because `pwncat` is trying to abstractly interact with any shell with minimal remote system dependencies, there are some edge cases we have found. Where we find them, we do everything we can to account for them and hide them from the user. However, some have slipped through the cracks and been observed in the wild. When this happens, `pwncat` will do whatever it can to preserve your terminal, but you may be greeted with some peculiar output or command failures. ### BSD Support While BSD is a Unix-based kernel, in practice it's userland tools are noticeably different from their Linux counterparts. Due to this, many of the automated features of `pwncat` will not work or outright fail when running against a BSD based target. I have tried to catch all errors or edge cases, however there are likely some hiccups which haven't been fully tested against BSD. In any case, the stabilized shell should function within a BSD environment, but I don't provide any guarantees. If I find some time later down the road, I may try to stabilize `pwncat` on BSD, but for now my focus is on Linux-based distributions. If you'd like to contribute to making `pwncat` behave better on BSD, you are more then welcome to reach out or just fork the repo. As always, pull requests are welcome! [documentation]: https://pwncat.readthedocs.io/en/latest [pwncat-windows-c2]: https://github.com/calebstewart/pwncat-windows-c2 [BadPotato]: https://github.com/calebstewart/pwncat-badpotato