2.0 KiB
afl-transmit
Transfer AFL files over a mesh to fuzz across multiple servers
Features
- Using DEFLATE compression format (see RFC 1951)
- Automatically syncs the main fuzzer to secondary nodes, and all secondary fuzzers back to the main node
- Encrypts traffic between nodes using AES-256, dropping plaintext packets
- Usable on UNIXoid (Linux, OSX) systems and Windows
Usage
You need to specify your AFL output directory with --fuzzer-directory, and your peers with --peers.
Some other options exist to let you fine-tune your afl-transmit experience, have a look at them via --help.
On default, afl-transmit opens port 1337/TCP to wait for incoming connections. If you are not on a private net, make sure to protect this port with a firewall, or anyone on the internet may send you files (although this might become interesting).
As a countermeasure, use the --restrict-to-peers flags to only allow connections from your known peers.
Quickstart
- On your host 10.0.0.1:
./afl-transmit --fuzzer-directory /ram/output --main --peers 10.0.0.2,10.0.0.3 - On your host 10.0.0.2:
./afl-transmit --fuzzer-directory /ram/output --peers 10.0.0.1 - On your host 10.0.0.3:
./afl-transmit --fuzzer-directory /ram/output --peers 10.0.0.1
Crypto
If you want to encrypt your traffic between the nodes - which is advised, as it increases security and there is nearly no argument against it - you can do so by specifying a random key with --key.
To keep afl-transmit simple, the symmetric encryption algorithm AES256-GCM was chosen over an asymmetric variant. This means you need to specify the same key on all nodes.
Key generation is fairly simple, you just need to get 32 random bytes from somewhere (buy them, or use /dev/urandom), and wrap them with base64.
For example like this:
dd if=/dev/urandom bs=32 count=1 2>/dev/null | base64 | tee transmit.key
./afl-transmit --key $(cat transmit.key) --fuzzer-directory ...
As already said, the same key must be used on all nodes.