An easy-to-use SocketCAN library for Python and C++, built in Rust, using cxx-rs and pyo3.
Warning: I have never used Rust before and I don't know what I'm doing
- Blocking send/receive in C++ (
jcan.h
) and Python (jcan
) -
aarch64
build for Jetson TX2 - Replace
maturin
build system with manual scripts, orsetuptools-rust
- Rename of
jcan_python
to justjcan
- Usage examples for C++ and Python
- PyPi package release
- Benchmark and speedtest against
python-can
(seeutils/speedtest.sh
, typically speedup is 200% withjcan
) - Build an example of JCAN + ROS2 Foxy usage
- Receive function for specific CAN IDs (e.g
receive_with_id(id : u32)
) - Non-blocking receive functions, which return a list of buffered Frames
- Implement asyncronous send/receive callback methods
- Convenience methods for Frame building, e.g: setting specific bits in a byte, named IDs
- TOML-based 'CAN device interface' files, which generate methods like
set_motor_speed(0.5f)
/set_heater(True)
, etc...
Download the latest builds from the Releases Page!
For python, it's as easy as...
pip install jcan
For C++, you'll need to download the latest build and add it to your include path manually - check the examples folder for cmake
usage.
For local development, you can setup a virtual CAN interface with the vcan.sh script.
You can then use thecan-utils
package (apt install can-utils
) to interact with thevcan0
interface, on the command line.
Python
Python example showing most of the JCAN features
#!/usr/bin/env python
import jcan
import time
if __name__ == "__main__":
bus = jcan.Bus()
# Set a filter, from list...
# bus.set_id_filter([0x1A0,0x1A1,0x1A2,0x1A3])
# .. or from a mask!
bus.set_id_filter_mask(0x1A0, 0xFF0)
# This is our callback function for new frames
def on_frame_five(frame : jcan.Frame):
print(f"FRAME 1A5: {frame.data}")
def on_frame_d(frame : jcan.Frame):
print(f"FRAME 1AD {frame.data}")
# print(frame.data[0])
bus.add_callback(0x1A5, on_frame_five)
bus.add_callback(0x1AD, on_frame_d)
bus.open("vcan0")
while True:
# The list of values will be cast to uint8's by JCAN library - so be careful to double check the values!
# frameToSend = jcan.Frame(0x200, [time.time()%255, (time.time()*1000)%255])
# print(f"Sending {frameToSend}")
# bus.send(frameToSend)
# Spin is required for our callbacks to be processed.
# Make sure .spin is called from your MAIN THREAD
bus.spin()
# bus.spin is non-blocking if nothing is there - resulting in a 'busy' loop
# this sleep is to prevent that. In your code, you will probably be doing more important things here!
time.sleep(0.01)
C++ example showing Frame building and sending.
C++14
#include <stdint.h>
#include <stdio.h>
#include <vector>
#include "jcan/jcan.h"
using namespace leigh::jcan;
/*
A basic example of sending and recieving CAN Frames with JCAN
*/
int main(int argc, char **argv) {
// Build new Bus object, which is a unique pointer to a Bus object
std::unique_ptr<Bus> bus = new_bus();
// Set ID filter using a vector of allowed IDs we can receive
// std::vector<uint32_t> allowed_ids = {0x100, 0x123, 0x456, 0x789};
// bus->set_id_filter(allowed_ids);
// We can also also set a mask of allowed IDs
// The filter below will only accept frames who's ID is 0x1A#, where '#' can be anything.
// Combinations of base+mask can be used to make a very flexible filter.. but it can get quite confusing, too!
// The format used below, of the form 'base_id + part of ID we don't care about',
// is a nice simple way to use this feature.
bus->set_id_filter_mask(0x1A0,0xFF0);
// Open the bus
bus->open("vcan0");
// Loop forever, sending frames and printing the ones we recieve
unsigned char i = 0;
while(true)
{
i++;
Frame frameToSend = new_frame(0x200, {i,i/10,i/100,i%2,i%3,i%4,i%5,i*10});
printf("Sending: %s...\n",frameToSend.to_string().c_str());
bus->send(frameToSend);
printf("Waiting for frame...\n");
Frame frameReceived = bus->receive();
printf("Received: %s\n", frameReceived.to_string().c_str());
}
return 0;
}
Lots more examples can be found in the examples folder!
C++ examples can be built with
make
, which uses theMakefile
in each directory to runcmake
for you.
- A dedicated
scripts-postbuild
crate is used to move all the build-artifacts (libjcan.a
,jcan.h
, etc...) into/out/<profile>/<target>/jcan
# [Required] Install Nix or NixOS, visit
https://nixos.org/download.html
# Get code
git clone https://github.com/leighleighleigh/JCAN
# To build the C++ libraries for your Nix system,
# in a development environment:
nix-shell
# (BROKEN) To build cross-compiled C++ libraries for x86 and ARM64,
# and produce Python 3.8+ compatible wheels:
nix-shell cross-build.nix
# Build outputs, including python wheels, can then be found in the ./out/ folder