PcapViz draws networks as device topologies and as information flows using the packet information in pcap files captured from a network device using tcpcap or other capture software. It filters and optionally displays the captured packets at any one of 3 "layers". These are:
- device level traffic topology,
- ip communication and
- tcp/udp communication
Each yields a distinct network graph from the same set of network packets. This separation makies it much easier to see the data flows at each level rather than mixing them up as many other visualisation packages do. It should be possible to determine key topological nodes or to spot patterns of data exfiltration attempts more easily.
- Network topology graphs - 2 = device; conversation information flow graphs: 3 = ip, 4 = tcp/udp
- Communication graph node labels show country information and connection stats
- Lists the most frequently contacted and frequently sending machines
- Node labels include the host domain name if available from a reverse DNS lookup.
- command line choice of Graphviz graph layout engine such as dot or sfdp.
usage: main.py [-h] [-i [PCAPS [PCAPS ...]]] [-o OUT] [-g GRAPHVIZ] [--layer2]
[--layer3] [--layer4] [-fi] [-fo] [-G GEOPATH] [-l GEOLANG]
[-E LAYOUTENGINE] [-s SHAPE]
pcap topology and message mapper
optional arguments:
-h, --help show this help message and exit
-i [PCAPS [PCAPS ...]], --pcaps [PCAPS [PCAPS ...]]
space delimited list of capture files to be analyzed
-o OUT, --out OUT topology will be stored in the specified file
-g GRAPHVIZ, --graphviz GRAPHVIZ
graph will be exported to the specified file (dot
format)
--layer2 device topology network graph
--layer3 ip message graph. Default
--layer4 tcp/udp message graph
-fi, --frequent-in print frequently contacted nodes to stdout
-fo, --frequent-out print frequent source nodes to stdout
-G GEOPATH, --geopath GEOPATH
path to maxmind geodb data
-l GEOLANG, --geolang GEOLANG
Language to use for geoIP names
-E LAYOUTENGINE, --layoutengine LAYOUTENGINE
Graph layout method - dot, sfdp etc.
-s SHAPE, --shape SHAPE
Graphviz node shape - circle, diamond, box etc.
Drawing a communication graph (layer 2), segment
python main.py -i tests/test.pcap -o test2.png --layer2
Layer3 with default sfdp layout
Layer4 with default sfdp layout
Return hosts with largest numbers of incoming packets:
python3 main.py -i tests/test.pcap -fi --layer3
4 172.16.11.12
1 74.125.19.17
1 216.34.181.45 slashdot.org
1 172.16.11.1
1 96.17.211.172 a96-17-211-172.deploy.static.akamaitechnologies.com
Required:
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GraphViz See system notes below
-
Pip package requirements The Maxmind Python API and other dependencies will be installed when you run:
pip3 install -r requirements.txt
so of course, please run that! You are using a python virtual environment aren't you?
For Debian-based distros you have to install GraphViz with some additional dependencies:
apt-get install python3-dev
apt-get install graphviz libgraphviz-dev pkg-config
Scapy does not work out-of-the-box on OSX. Follow the platform specific instruction from the scapy website
brew install graphviz
brew install --with-python libdnet
brew install https://raw.githubusercontent.com/secdev/scapy/master/.travis/pylibpcap.rb
Unit tests can be run from the tests directory:
python3 core.py
The sample images above are the test output graphs.
Note that there are at present 2 warnings about deprecated features in graphviz and for tests to work, you may need to adjust the fake args to point to your copy of the geoIP data file. Without access to the geoIP data, two of the tests will always fail.