By: OpenGarages agent.craig@gmail.com
You will need:
- SDL2
- SDL2_Image
- can-utils
You can get can-utils from github or on Ubuntu you may run the follwoing
sudo apt-get install libsdl2-dev libsdl2-image-dev can-utils
You can run the following commands to setup a virtual can interface
sudo modprobe can
sudo modprobe vcan
sudo ip link add dev vcan0 type vcan
sudo ip link set up vcan0
If you type ifconfig vcan0 you should see a vcan0 interface. A setup_vcan.sh file has also been provided with this repo.
Default operations:
Start the Instrument Cluster (IC) simulator:
./icsim vcan0
Then startup the controls
./controls vcan0
The hard coded defaults should be in sync and the controls should control the IC. Ideally use a controller similar to an XBox controller to interact with the controls interface. The controls app will generate corrosponding CAN packets based on the buttons you press. The IC Sim sniffs the CAN and looks for relevant CAN packets that would change the display.
- If you get an error about canplayer then you may not have can-utils properly installed and in your path.
- If the controller does not seem to be responding make sure the controls window is selected and active
If lib.o doesn't link it's probably because it's the wrong arch for your platform. To fix this you will want to compile can-utils and copy the newly compiled lib.o to the icsim directory. You can get can-utils from: https://github.com/linux-can/can-utils
When running ./icsim vcan0
you end up getting a read: Bad Address
message,
this is typically a result of needing to recompile with updated SDL libraries.
Make sure you have the recommended latest SDL2 libraries. Some users have
reported fixing this problem by creating symlinks to the SDL.h files manually
or you could edit the Makefile and change the CFLAGS to point to wherever your
distro installs the SDL.h header, ie: /usr/include/x86_64-linux-gnu/SDL2
There was also a report that on Arch linux needed sdl2_gfx library.
To safely train on CAN hacking you can play back a sample recording included in this repo of generic CAN traffic. This will create something similar to normal CAN "noise". Then start the IC Sim with the -r (randomize) switch.
./icsim -r vcan0
Using CAN interface vcan0
Seed: 1401717026
Now copy the seed number and paste it as the -s (seed) option for the controls.
./controls -s 1401717026 vcan0
This will randomize what CAN packets the IC needs and by passing the seed to the controls they will sync. Randomizing changes the arbitration IDs as well as the byte position of the packets used. This will give you experience in hunting down different types of CAN packets on the CAN Bus.
For the most realistic training you can change the difficulty levels. Set the difficulty to 2 with the controls:
./controls -s 1401717026 -l 2 vcan0
This will add additional randomization to the target packets, simulating other data stored in the same arbitration id.