The Pharos static binary analysis framework is a project of the Software Engineering Institute at Carnegie Mellon University. The framework is designed to facilitate the automated analysis of binary programs. It uses the ROSE compiler infrastructure developed by Lawrence Livermore National Laboratory for disassembly, control flow analysis, instruction semantics, and more. This software is released under a BSD license.
The current distribution is a substantial update to the previous version, and adds a variety of features including improvements to the OOAnalyzer tool, experimental path analysis code, partitioner improvements, multi-threading, and many other smaller features.
The Pharos framework is a research project, and the code is undergoing active development. No warranties of fitness for any purpose are provided. While this release provides build instructions, unit tests, and some documentation, much work remains to be done. We've tested a few select build configurations, but we have not actively tested the portability of the source code. See the installation instructions for more details.
Since the primary objective for releasing this code is to provide transparency into our research and stimulate conversation with other binary static analysis researchers, please feel free to contact Cory Cohen [email protected] with questions you may have about this work. I may be unable to respond in a timely manner, but I will do my best.
ApiAnalyzer is a tool for finding sequences of API calls with the specified data and control relationships. This capability is intended to be used to detect common operating system interaction paradigms like opening a file, writing to it, and the closing it.
OOAnalyzer is a tool for the analysis and recovery of object oriented constructs. This tool was the subject of a paper titled "Using Logic Programming to Recover C++ Classes and Methods from Compiled Executables" which was published at the ACM Conference on Computer and Communications Security in 2018. The tool identifies object members and methods by tracking object pointers between functions in the program. A previous implementation of this tool was named "Objdigger", but it was renamed to reflect a substantial redesign using Prolog rules to recover the object attributes. The current version of the tool only supports analysis of 32-bit x86 executables compiled by Microsoft Visual C++. For more detailed instructons on how to run OOAnalyzer on very large executables, see these notes.
The Pharos distribution used to include a plugin that imported OO information exported by OOAnalayzer into the Ghidra reverse engineering tool set. To get that functionality now and in the future, install the Kaiju Ghidra plugin, which includes the functionality that was provided by the OOAnalayzer plugin.
CallAnalyzer is a tool for reporting the static parameters to API calls in a binary program. It is largely a demonstration of our current calling convention, parameter analysis, and type detection capabilities, although it also provides useful analysis of the code in a program.
FN2Yara is a tool to generate YARA signatures for matching functions in an executable program. Programs that share significant numbers of functions are are likely to have behavior in common.
FN2Hash is tool for generating a variety of hashes and other descriptive properties for functions in an executable program. Like FN2Yara it can be used to support binary similarity analysis, or provide features for machine learning algorithms.
DumpMASM is a tool for dumping disassembly listings from an executable using the Pharos framework in the same style as the other tools. It has not been actively maintained, and you should consider using ROSE's standard recursiveDisassemble instead http://rosecompiler.org/ROSE_HTML_Reference/rosetools.html.