CFG explorer is a simple utility which can be used to explore control flow graphs of binary programs.
It uses angr binary analysis framework, for CFG recovery, and renders the CFG to SVGs, with the help of bingraphvis.
The generated SVGs can be navigated by clicking on the function or the callsite nodes.
Besides, now it can also export multiple formats of static CFG files to your local machine, including:
- .canon
- .cmap
- .cmapx
- .cmapx_np
- .dot
- .fig
- .gd
- .gd2
- .gif
- .imap
- .imap_np
- .ismap
- .jpe
- .jpeg
- .jpg
- .mp
- .plain
- .plain-ext
- .png
- .ps
- .ps2
- .svg
- .svgz
- .vml
- .vmlz
- .vrml
- .wbmp
- .xdot
- .raw
CFGs starting from multiple start addresses or for multiple functions can also be automatically exported to multiple files at once with different suffixes in their filenames.
- build the docker image
docker build -t cfg-explorer .- run the docker container, mount the directory containing the binary to be analyzed to
/datain the container
For example, use examples/specrand_base.i386 as the binary and output the CFG to ./output/cfg.pdf:
docker run -v $(pwd)/examples/specrand_base.i386:/data/binary \
-v $(pwd)/output:/output cfg-explorer /data/binary -o /output/cfg.pdfOr let it start a web server and open the browser to view the CFG:
docker run -p 5000:5000 -v $(pwd)/examples/specrand_base.i386:/data/binary \
cfg-explorer /data/binaryYou can view the CFG in your browser by visiting http://localhost:5000/api/cfg/0x[entry_address] according to the output of the command.
Or you can use the quick run image (available as yangzhou301/cfg-explorer-quickrun) if you don't want to build the binary
docker build -t cfg-explorer-quickrun -f Dockerfile.quickrun .Mount the directory you want to build to app/input and set its output as target. You can refer to 'examples/helloworld' for a simple example.
docker run -p 5000:5000 -v $(pwd)/examples/helloworld:/app/input cfg-explorer-quickrunThis project is in its very early stage!
$ pip install cfg-explorer
After installation, cfg_explorer can be easily called in command lines as:
$ cfgexplorer --help
usage: cfgexplorer [-h] [-v] [-s [STARTS [STARTS ...]]] [-P PORT] [-p] [-l]
[-o OUTFILE]
binary
positional arguments:
binary the binary to explore
optional arguments:
-h, --help show this help message and exit
-v, --verbose increase output verbosity
-s [STARTS [STARTS ...]], --start [STARTS [STARTS ...]]
start addresses
-P PORT, --port PORT server port
-p, --pie is position independent
-l, --launch launch browser
-o OUTFILE, --output OUTFILE
output file path, only support for ['canon', 'cmap',
'cmapx', 'cmapx_np', 'dot', 'fig', 'gd', 'gd2', 'gif',
'imap', 'imap_np', 'ismap', 'jpe', 'jpeg', 'jpg',
'mp', 'pdf', 'plain', 'plain-ext', 'png', 'ps', 'ps2',
'svg', 'svgz', 'vml', 'vmlz', 'vrml', 'wbmp', 'xdot',
'raw']
For example:
$ cfgexplorer /your/binary -l
The command above will build the CFG, spawn a web server, and open it in your browser.
You can also utilize cfg_explore function in it as other common modules in Python:
from cfgexplorer import cfg_explore
cfg_explore(binary=r'/your/binary', launch=True)The codes will do what the cfgexplorer does in the previous example. If you want to shut down the app, you need to interrupt your Python interpreter as well. So the function is more often used by specifying output to generate output files in a Python program like:
cfg_explore(binary=r'/your/binary', output='./cfg_output.svg')The code above exports CFG as svg format to file path ./cfg_output.svg
The function is defined as follow:
cfg_explore(binary, starts=[], port=5000, pie=False, launch=False, output='')- binary(str): the path of the binary file to analysis
- starts(list): the start points (address) in CFGs, if none, the CFG will start with main func entry address
- port(int): server port to host the web app. make sure the port is idle now.
- pie(bool): whether the analysis position-independent
- launch(bool): Whether launch a browser to view CFG immediately
- output(str): the output file path. only support certain formats. If you leave it an empty string, no output will be generated and the interactive web app will start. Otherwise, no app will be launched and the CFGs will be exported to specified files.
Detailed usages of this function are available in examples/demo.ipynb.
Edges:
| Edge class | Color | Style |
|---|---|---|
| Conditional True | Green | |
| Conditional False | Red | |
| Unconditional | Blue | |
| Next | Blue | Dashed |
| Call | Black | |
| Return | Gray | |
| Fake Return | Gray | Dotted |
| Unknown | Orange |
- works on Linux only
- at the moment, the result is simply an SVG file, i plan to add a small frontend around it
