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ardupilot/libraries/AP_CANManager
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Andrew Tridgell 02456875e7 AP_CANManager: use NEW_NOTHROW for new(std::nothrow) 2024-06-04 09:20:21 +10:00
..
AP_CAN.h AP_CANManager: Add multiCAN interface 2024-02-27 10:59:41 +11:00
AP_CANDriver.h
AP_CANIfaceParams.cpp
AP_CANManager.cpp AP_CANManager: use NEW_NOTHROW for new(std::nothrow) 2024-06-04 09:20:21 +10:00
AP_CANManager.h AP_CANManager: correct array bounds used for sanity check 2024-03-19 07:29:58 +11:00
AP_CANManager_CANDriver_Params.cpp AP_CANManager: correct includes 2024-03-20 18:45:52 +11:00
AP_CANManager_config.h
AP_CANSensor.cpp AP_CANManager: use NEW_NOTHROW for new(std::nothrow) 2024-06-04 09:20:21 +10:00
AP_CANSensor.h AP_CANManager: CANSensor: add getter for initialized 2024-05-07 09:48:10 +10:00
AP_SLCANIface.cpp AP_CANManager: reimplement with BinarySemaphore 2024-01-03 07:37:05 +11:00
AP_SLCANIface.h AP_CANManager: reimplement with BinarySemaphore 2024-01-03 07:37:05 +11:00
README.md

README.md

Testing And Debugging

Testing under SITL

A wide range of DroneCAN peripherals are supported in the SITL simulation system. The simplest way of starting a DroneCAN enabled simulated vehicle is to use sim_vehicle.py.

For a quadplane use: sim_vehicle.py with the option -f quadplane-can

For a quadcopter use: sim_vehicle.py with the option -f quad-can