PANDA is an open-source Platform for Architecture-Neutral Dynamic Analysis. It is built upon the QEMU whole system emulator, and so analyses have access to all code executing in the guest and all data. PANDA adds the ability to record and replay executions, enabling iterative, deep, whole system analyses. Further, the replay log files are compact and shareable, allowing for repeatable experiments. A nine billion instruction boot of FreeBSD, e.g., is represented by only a few hundred MB. PANDA leverages QEMU's support of thirteen different CPU architectures to make analyses of those diverse instruction sets possible within the LLVM IR. In this way, PANDA can have a single dynamic taint analysis, for example, that precisely supports many CPUs. PANDA analyses are written in a simple plugin architecture which includes a mechanism to share functionality between plugins, increasing analysis code re-use and simplifying complex analysis development.
It is currently being developed in collaboration with MIT Lincoln Laboratory, Georgia Tech, and Northeastern University.
Instructions for building PANDA can be found in docs/compile.md.
If you are looking for a (perhaps) quicker start, the panda_install.bash script should
be able to install PANDA + all of its dependencies.
It is basically compile.md
translated into a script.
Two caveats.
- You will have to have first compiled and installed llvm-3.3 in ~/llvm.
- We only vouch for build on Debian 7 system.
If you need help with PANDA, or want to discuss the project, you can join our IRC channel at #panda-re on Freenode, or join the PANDA mailing list.
Details about the architecture-neutral plugin interface can be found in docs/PANDA.md. Existing plugins and tools can be found in qemu/panda_plugins and qemu/panda_tools.
PANDA currently supports whole-system record/replay execution of x86, x86_64, and ARM guests. Documentation can be found in docs/record_replay.md.
PANDA supports ARMv7 Android guests, running on the Goldfish emulated platform. Documentation can be found in docs/Android.md.
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[1] B. Dolan-Gavitt, T. Leek, J. Hodosh, W. Lee. Tappan Zee (North) Bridge: Mining Memory Accesses for Introspection. 20th ACM Conference on Computer and Communications Security (CCS), Berlin, Germany, November 2013.
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[2] R. Whelan, T. Leek, D. Kaeli. Architecture-Independent Dynamic Information Flow Tracking. 22nd International Conference on Compiler Construction (CC), Rome, Italy, March 2013.
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[3] B. Dolan-Gavitt, J. Hodosh, P. Hulin, T. Leek, R. Whelan.
Repeatable Reverse Engineering for the Greater Good with PANDA. TR CUCS-023-14
GPLv2.
This work was sponsored by the Assistant Secretary of Defense for Research and Engineering under Air Force Contract #FA8721-05-C-0002.