Metadata-Version: 2.1 Name: pyhidra Version: 1.1.0 Summary: Native CPython for Ghidra Home-page: https://github.com/Defense-Cyber-Crime-Center/pyhidra Author: DC3 Author-email: dcci@dc3.mil License: MIT Keywords: ghidra Platform: any Classifier: Development Status :: 5 - Production/Stable Classifier: Intended Audience :: Developers Classifier: License :: OSI Approved :: MIT License Classifier: Programming Language :: Python :: 3 Classifier: Programming Language :: Python :: 3.9 Classifier: Programming Language :: Python :: 3.10 Classifier: Programming Language :: Python :: 3.11 Classifier: Programming Language :: Python :: 3.12 Requires-Python: >=3.9 Description-Content-Type: text/markdown License-File: LICENSE Requires-Dist: Jpype1 >=1.3.0 ; python_version < "3.12" Requires-Dist: Jpype1 >=1.5.0 ; python_version >= "3.12" Requires-Dist: pyobjc ; sys_platform == "darwin" Provides-Extra: testing Requires-Dist: pytest ; extra == 'testing' Requires-Dist: pytest-datadir ; extra == 'testing' # pyhidra Pyhidra is a Python library that provides direct access to the Ghidra API within a native CPython interpreter using [jpype](https://jpype.readthedocs.io/en/latest). As well, Pyhidra contains some conveniences for setting up analysis on a given sample and running a Ghidra script locally. It also contains a Ghidra plugin to allow the use of CPython from the Ghidra user interface. Pyhidra was initially developed for use with Dragodis and is designed to be installable without requiring Java or Ghidra. Due to this restriction, the Java plugin for Pyhidra is compiled and installed automatically during first use. The Java plugin is managed by Pyhidra and will automatically be rebuilt as necessary. ## Install 1. Download and install [Ghidra](https://github.com/NationalSecurityAgency/ghidra/releases) to a desired location. 1. Set the `GHIDRA_INSTALL_DIR` environment variable to point to the directory where Ghidra is installed. 1. Install pyhidra. ```console pip install pyhidra ``` ### Enabling the Ghidra User Interface Plugin 1. Run `pyhidraw` from a terminal of your choice. 2. Open the Code Browser Tool. 3. From the `File` toolbar menu, select `Configure...`. 4. From the menu in the image below select `configure` under `Experimental`. ![](https://raw.githubusercontent.com/Defense-Cyber-Crime-Center/pyhidra/master/images/image-20220111154029764.png) 5. Check and enable Pyhidra as seen in the image below. ![](https://raw.githubusercontent.com/Defense-Cyber-Crime-Center/pyhidra/master/images/image-20220111154120531.png) ### Desktop Entry If on linux or windows, a desktop entry can be created to launch an instance of Ghidra with pyhidra attached. ```console python -m pyhidra.install_desktop ``` On windows, this will install a shortcut file on the user's desktop. On linux, this will create an entry that can be found in the applications launcher. To remove, run the following: ```console python -m pyhidra.uninstall_desktop ``` ### Manual Plugin Installation If pyhidra is planned to be used in a multiprocessing deployed server, the following must be run to allow the Ghidra plugins to be compiled and installed before use. ```console python -m pyhidra.install_plugins ``` ### Manual Plugin Uninstallation If a plugin is misbehaving, the plugin can be manually uninstalled to allow recompilation on the next startup of pyhidra's launcher. ```console python -m pyhidra.uninstall_plugin pyhidra ``` ## Usage ### Raw Connection To get just a raw connection to Ghidra use the `start()` function. This will setup a Jpype connection and initialize Ghidra in headless mode, which will allow you to directly import `ghidra` and `java`. *NOTE: No projects or programs get setup in this mode.* ```python import pyhidra pyhidra.start() import ghidra from ghidra.app.util.headless import HeadlessAnalyzer from ghidra.program.flatapi import FlatProgramAPI from ghidra.base.project import GhidraProject from java.lang import String # do things ``` ### Customizing Java and Ghidra initialization JVM configuration for the classpath and vmargs may be done through a `PyhidraLauncher`. ```python from pyhidra.launcher import HeadlessPyhidraLauncher launcher = HeadlessPyhidraLauncher() launcher.add_classpaths("log4j-core-2.17.1.jar", "log4j-api-2.17.1.jar") launcher.add_vmargs("-Dlog4j2.formatMsgNoLookups=true") launcher.start() ``` ### Registering an Entry Point The `PyhidraLauncher` can also be configured through the use of a registered entry point on your own python project. This is useful for installing your own Ghidra plugin which uses pyhidra and self-compiles. First create an [entry_point](https://setuptools.pypa.io/en/latest/userguide/entry_point.html) for `pyhidra.setup` pointing to a single argument function which accepts the launcher instance. ```python # setup.py from setuptools import setup setup( # ..., entry_points={ 'pyhidra.setup': [ 'acme_plugin = acme.ghidra_plugin.install:setup', ] } ) ``` Then we create the target function. This function will be called every time a user starts a pyhidra launcher. In the same fashion, another entry point `pyhidra.pre_launch` may be registered and will be called after Ghidra and all plugins have been loaded. ```python # acme/ghidra_plugin/install.py from pathlib import Path import pyhidra def setup(launcher): """ Run by pyhidra launcher to install our plugin. """ launcher.add_classpaths("log4j-core-2.17.1.jar", "log4j-api-2.17.1.jar") launcher.add_vmargs("-Dlog4j2.formatMsgNoLookups=true") # Install our plugin. source_path = Path(__file__).parent / "java" / "plugin" # path to uncompiled .java code details = pyhidra.ExtensionDetails( name="acme_plugin", description="My Cool Plugin", author="acme", plugin_version="1.2", ) launcher.install_plugin(source_path, details) # install plugin (if not already) ``` ### Analyze a File To have pyhidra setup a binary file for you, use the `open_program()` function. This will setup a Ghidra project and import the given binary file as a program for you. Again, this will also allow you to import `ghidra` and `java` to perform more advanced processing. ```python import pyhidra with pyhidra.open_program("binary_file.exe") as flat_api: program = flat_api.getCurrentProgram() listing = program.getListing() print(listing.getCodeUnitAt(flat_api.toAddr(0x1234))) # We are also free to import ghidra while in this context to do more advanced things. from ghidra.app.decompiler.flatapi import FlatDecompilerAPI decomp_api = FlatDecompilerAPI(flat_api) # ... decomp_api.dispose() ``` By default, pyhidra will run analysis for you. If you would like to do this yourself, set `analyze` to `False`. ```python import pyhidra with pyhidra.open_program("binary_file.exe", analyze=False) as flat_api: from ghidra.program.util import GhidraProgramUtilities program = flat_api.getCurrentProgram() if GhidraProgramUtilities.shouldAskToAnalyze(program): flat_api.analyzeAll(program) ``` The `open_program()` function can also accept optional arguments to control the project name and location that gets created. (Helpful for opening up a sample in an already existing project.) ```python import pyhidra with pyhidra.open_program("binary_file.exe", project_name="EXAM_231", project_location=r"C:\exams\231") as flat_api: ... ``` ### Run a Script Pyhidra can also be used to run an existing Ghidra Python script directly in your native python interpreter using the `run_script()` command. However, while you can technically run an existing Ghidra script unmodified, you may run into issues due to differences between Jython 2 and CPython 3. Therefore, some modification to the script may be needed. ```python import pyhidra pyhidra.run_script(r"C:\input.exe", r"C:\some_ghidra_script.py") ``` This can also be done on the command line using `pyhidra`. ```console > pyhidra C:\input.exe C:\some_ghidra_script.py ``` ### Ghidra User Interface Ghidra **must** be started via `pyhidraw` and the plugin must be enabled for the user interface features to be present. Once these prerequisites are met the `pyhidra` menu item will be available in the `Window` toolbar menu and all Python scripts outside of the Ghidra installation will automatically be run with CPython. Any Python script found within the Ghidra installation will be run using Jython to prevent causing issues with any analyzers or Ghidra internals that use them. Below is a screenshot of the standard Python interpreter in Ghidra which is using CPython instead of Jython. It will appear when `pyhidra` is opened from the `Window` toolbar menu. ![](https://raw.githubusercontent.com/Defense-Cyber-Crime-Center/pyhidra/master/images/image-20220111152440065.png) ### Handling Package Name Conflicts There may be some Python modules and Java packages with the same import path. When this occurs the Python module takes precedence. While jpype has its own mechanism for handling this situation, pyhidra automatically makes the Java package accessible by allowing it to be imported with an underscore appended to the package name. ```python import pdb # imports Python's pdb import pdb_ # imports Ghidra's pdb ```