ardupilot/libraries/AP_EFI/AP_EFI_DroneCAN.cpp

170 lines
7.1 KiB
C++

#include <AP_HAL/AP_HAL.h>
#include "AP_EFI_DroneCAN.h"
#if HAL_EFI_DRONECAN_ENABLED
#include <AP_CANManager/AP_CANManager.h>
#include <AP_UAVCAN/AP_UAVCAN.h>
#include <uavcan/equipment/ice/reciprocating/Status.hpp>
extern const AP_HAL::HAL& hal;
AP_EFI_DroneCAN *AP_EFI_DroneCAN::driver;
// DroneCAN Frontend Registry Binder
UC_REGISTRY_BINDER(EFIStatusCb, uavcan::equipment::ice::reciprocating::Status);
// constructor
AP_EFI_DroneCAN::AP_EFI_DroneCAN(AP_EFI &_frontend) :
AP_EFI_Backend(_frontend)
{
driver = this;
}
// links the DroneCAN message to this backend
void AP_EFI_DroneCAN::subscribe_msgs(AP_UAVCAN *ap_uavcan)
{
if (ap_uavcan == nullptr) {
return;
}
auto* node = ap_uavcan->get_node();
uavcan::Subscriber<uavcan::equipment::ice::reciprocating::Status, EFIStatusCb> *status_listener;
status_listener = new uavcan::Subscriber<uavcan::equipment::ice::reciprocating::Status, EFIStatusCb>(*node);
// Register method to handle incoming status
const int status_listener_res = status_listener->start(EFIStatusCb(ap_uavcan, &trampoline_status));
if (status_listener_res < 0) {
AP_HAL::panic("DroneCAN EFI subscriber start problem\n\r");
return;
}
}
// Called from frontend to update with the readings received by handler
void AP_EFI_DroneCAN::update()
{
}
// EFI message handler
void AP_EFI_DroneCAN::trampoline_status(AP_UAVCAN *ap_uavcan, uint8_t node_id, const EFIStatusCb &cb)
{
if (driver == nullptr) {
return;
}
const uavcan::equipment::ice::reciprocating::Status &pkt = *cb.msg;
driver->handle_status(pkt);
}
/*
handle reciprocating ICE status message from DroneCAN
*/
void AP_EFI_DroneCAN::handle_status(const uavcan::equipment::ice::reciprocating::Status &pkt)
{
auto &istate = internal_state;
// state maps 1:1 from Engine_State
istate.engine_state = Engine_State(pkt.state);
if (!(pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_CRANKSHAFT_SENSOR_ERROR_SUPPORTED)) {
istate.crankshaft_sensor_status = Crankshaft_Sensor_Status::NOT_SUPPORTED;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_CRANKSHAFT_SENSOR_ERROR) {
istate.crankshaft_sensor_status = Crankshaft_Sensor_Status::ERROR;
} else {
istate.crankshaft_sensor_status = Crankshaft_Sensor_Status::OK;
}
if (!(pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_TEMPERATURE_SUPPORTED)) {
istate.temperature_status = Temperature_Status::NOT_SUPPORTED;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_TEMPERATURE_BELOW_NOMINAL) {
istate.temperature_status = Temperature_Status::BELOW_NOMINAL;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_TEMPERATURE_ABOVE_NOMINAL) {
istate.temperature_status = Temperature_Status::ABOVE_NOMINAL;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_TEMPERATURE_OVERHEATING) {
istate.temperature_status = Temperature_Status::OVERHEATING;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_TEMPERATURE_EGT_ABOVE_NOMINAL) {
istate.temperature_status = Temperature_Status::EGT_ABOVE_NOMINAL;
} else {
istate.temperature_status = Temperature_Status::OK;
}
if (!(pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_FUEL_PRESSURE_SUPPORTED)) {
istate.fuel_pressure_status = Fuel_Pressure_Status::NOT_SUPPORTED;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_FUEL_PRESSURE_BELOW_NOMINAL) {
istate.fuel_pressure_status = Fuel_Pressure_Status::BELOW_NOMINAL;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_FUEL_PRESSURE_ABOVE_NOMINAL) {
istate.fuel_pressure_status = Fuel_Pressure_Status::ABOVE_NOMINAL;
} else {
istate.fuel_pressure_status = Fuel_Pressure_Status::OK;
}
if (!(pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_OIL_PRESSURE_SUPPORTED)) {
istate.oil_pressure_status = Oil_Pressure_Status::NOT_SUPPORTED;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_OIL_PRESSURE_BELOW_NOMINAL) {
istate.oil_pressure_status = Oil_Pressure_Status::BELOW_NOMINAL;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_OIL_PRESSURE_ABOVE_NOMINAL) {
istate.oil_pressure_status = Oil_Pressure_Status::ABOVE_NOMINAL;
} else {
istate.oil_pressure_status = Oil_Pressure_Status::OK;
}
if (!(pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_DETONATION_SUPPORTED)) {
istate.detonation_status = Detonation_Status::NOT_SUPPORTED;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_DETONATION_OBSERVED) {
istate.detonation_status = Detonation_Status::OBSERVED;
} else {
istate.detonation_status = Detonation_Status::NOT_OBSERVED;
}
if (!(pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_MISFIRE_SUPPORTED)) {
istate.misfire_status = Misfire_Status::NOT_SUPPORTED;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_MISFIRE_OBSERVED) {
istate.misfire_status = Misfire_Status::OBSERVED;
} else {
istate.misfire_status = Misfire_Status::NOT_OBSERVED;
}
if (!(pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_DEBRIS_SUPPORTED)) {
istate.debris_status = Debris_Status::NOT_SUPPORTED;
} else if (pkt.flags & uavcan::equipment::ice::reciprocating::Status::FLAG_DEBRIS_DETECTED) {
istate.debris_status = Debris_Status::DETECTED;
} else {
istate.debris_status = Debris_Status::NOT_DETECTED;
}
istate.engine_load_percent = pkt.engine_load_percent;
istate.engine_speed_rpm = pkt.engine_speed_rpm;
istate.spark_dwell_time_ms = pkt.spark_dwell_time_ms;
istate.atmospheric_pressure_kpa = pkt.atmospheric_pressure_kpa;
istate.intake_manifold_pressure_kpa = pkt.intake_manifold_pressure_kpa;
istate.intake_manifold_temperature = pkt.intake_manifold_temperature;
istate.coolant_temperature = pkt.coolant_temperature;
istate.oil_pressure = pkt.oil_pressure;
istate.oil_temperature = pkt.oil_temperature;
istate.fuel_pressure = pkt.fuel_pressure;
istate.fuel_consumption_rate_cm3pm = pkt.fuel_consumption_rate_cm3pm;
istate.estimated_consumed_fuel_volume_cm3 = pkt.estimated_consumed_fuel_volume_cm3;
istate.throttle_position_percent = pkt.throttle_position_percent;
istate.ecu_index = pkt.ecu_index;
// 1:1 for spark plug usage
istate.spark_plug_usage = Spark_Plug_Usage(pkt.spark_plug_usage);
// assume max one cylinder status
if (pkt.cylinder_status.size() > 0) {
const auto &cs = pkt.cylinder_status[0];
auto &c = istate.cylinder_status[0];
c.ignition_timing_deg = cs.ignition_timing_deg;
c.injection_time_ms = cs.injection_time_ms;
c.cylinder_head_temperature = cs.cylinder_head_temperature;
c.exhaust_gas_temperature = cs.exhaust_gas_temperature;
c.lambda_coefficient = cs.lambda_coefficient;
}
copy_to_frontend();
}
#endif // HAL_EFI_DRONECAN_ENABLED