amiro-os / components / ControllerAreaNetworkRx.cpp @ 8dced1c9
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#include <ch.hpp> |
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#include <hal.h> |
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#include <string.h> // memcpy |
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#include <amiro/Constants.h> |
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#include <amiro/ControllerAreaNetworkRx.h> |
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#include <global.hpp> |
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using namespace chibios_rt; |
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using namespace amiro; |
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extern Global global;
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using namespace types; |
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using namespace amiro::constants; |
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ControllerAreaNetworkRx::ControllerAreaNetworkRx(CANDriver *can, const uint8_t boardId)
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: BaseStaticThread<128>(),
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boardId(boardId), |
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canDriver(can) { |
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#ifdef STM32F4XX
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this->canConfig.mcr = CAN_MCR_ABOM | CAN_MCR_AWUM | CAN_MCR_TXFP;
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this->canConfig.btr = CAN_BTR_SJW(1) | CAN_BTR_TS2(3) | CAN_BTR_TS1(15) |
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| CAN_BTR_BRP(1);
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#else
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this->canConfig.mcr = CAN_MCR_ABOM | CAN_MCR_AWUM | CAN_MCR_TXFP;
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this->canConfig.btr = CAN_BTR_SJW(1) | CAN_BTR_TS2(2) | CAN_BTR_TS1(13) |
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| CAN_BTR_BRP(1);
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#endif
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} |
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ControllerAreaNetworkRx:: |
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~ControllerAreaNetworkRx() { |
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} |
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//----------------------------------------------------------------
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msg_t ControllerAreaNetworkRx::receiveSensorVal(CANRxFrame *frame) { |
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int deviceId = this->decodeDeviceId(frame); |
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// chprintf((BaseSequentialStream*) &global.sercanmux1, "DeviceId: %d\r\n",deviceId);
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switch (deviceId) {
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case CAN::PROXIMITY_RING_ID(0): |
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case CAN::PROXIMITY_RING_ID(1): |
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case CAN::PROXIMITY_RING_ID(2): |
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case CAN::PROXIMITY_RING_ID(3): |
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case CAN::PROXIMITY_RING_ID(4): |
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case CAN::PROXIMITY_RING_ID(5): |
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case CAN::PROXIMITY_RING_ID(6): |
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case CAN::PROXIMITY_RING_ID(7): |
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if (frame->DLC == 2) { |
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int index = deviceId & 0x7; |
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proximityRingValue[index] = frame->data16[0];
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return RDY_OK;
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} |
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break;
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case CAN::ACTUAL_SPEED_ID:
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if (frame->DLC == 8) { |
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actualSpeed[0] = frame->data32[0]; |
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actualSpeed[1] = frame->data32[1]; |
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return RDY_OK;
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} |
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break;
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case CAN::ODOMETRY_ID:
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if (frame->DLC == 8) { |
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this->robotPosition.x = (frame->data8[0] << 8 | frame->data8[1] << 16 | frame->data8[2] << 24); |
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this->robotPosition.y = (frame->data8[3] << 8 | frame->data8[4] << 16 | frame->data8[5] << 24); |
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this->robotPosition.f_z = (frame->data8[6] << 8 | frame->data8[7] << 16); |
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return RDY_OK;
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} |
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break;
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case CAN::PROXIMITY_FLOOR_ID:
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// chprintf((BaseSequentialStream*) &global.sercanmux1, "CAN::PROXIMITY_FLOOR_ID");
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if (frame->DLC == 8) { |
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proximityFloorValue[0] = frame->data16[0]; |
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proximityFloorValue[1] = frame->data16[1]; |
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proximityFloorValue[2] = frame->data16[2]; |
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proximityFloorValue[3] = frame->data16[3]; |
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return RDY_OK;
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} |
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break;
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case CAN::POWER_STATUS_ID:
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if (frame->DLC == 6) { |
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powerStatus.charging_flags.value = frame->data8[0];
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powerStatus.state_of_charge = frame->data8[1];
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powerStatus.minutes_remaining = frame->data16[1];
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powerStatus.power_consumption = frame->data16[2];
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return RDY_OK;
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} |
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break;
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case CAN::ROBOT_ID:
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if (frame->DLC == 1) { |
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robotId = frame->data8[0];
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return RDY_OK;
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} |
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break;
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case CAN::MAGNETOMETER_X_ID:
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if (frame->DLC == 4) { |
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magnetometerValue[0] = frame->data32[0]; |
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return RDY_OK;
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} |
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break;
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case CAN::MAGNETOMETER_Y_ID:
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if (frame->DLC == 4) { |
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magnetometerValue[1] = frame->data32[0]; |
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return RDY_OK;
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} |
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break;
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case CAN::MAGNETOMETER_Z_ID:
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if (frame->DLC == 4) { |
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magnetometerValue[2] = frame->data32[0]; |
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return RDY_OK;
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} |
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break;
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case CAN::GYROSCOPE_ID:
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if (frame->DLC == 6) { |
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gyroscopeValue[0] = frame->data16[0]; |
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gyroscopeValue[1] = frame->data16[1]; |
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gyroscopeValue[2] = frame->data16[2]; |
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return RDY_OK;
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} |
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break;
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default:
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break;
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} |
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return RDY_RESET;
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} |
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uint16_t ControllerAreaNetworkRx::getProximityRingValue(int index) {
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return this->proximityRingValue[index]; |
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} |
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void ControllerAreaNetworkRx::getActualSpeed(types::kinematic &targetSpeed) {
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targetSpeed.x = this->actualSpeed[0]; |
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targetSpeed.w_z = this->actualSpeed[1]; |
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} |
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types::position ControllerAreaNetworkRx::getOdometry() { |
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return this->robotPosition; |
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} |
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power_status &ControllerAreaNetworkRx::getPowerStatus() { |
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return this->powerStatus; |
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} |
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uint8_t ControllerAreaNetworkRx::getRobotID() { |
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return this->robotId; |
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} |
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int32_t ControllerAreaNetworkRx::getMagnetometerValue(int axis)
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{ |
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return this->magnetometerValue[axis]; |
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} |
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int16_t ControllerAreaNetworkRx::getGyroscopeValue(int axis)
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{ |
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return this->gyroscopeValue[axis]; |
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} |
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uint16_t ControllerAreaNetworkRx::getProximityFloorValue(int index) {
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return this->proximityFloorValue[index]; |
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} |
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//----------------------------------------------------------------
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msg_t ControllerAreaNetworkRx::main(void) {
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this->rxFullCanEvtSource = reinterpret_cast<EvtSource *>(&this->canDriver->rxfull_event); |
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this->rxFullCanEvtSource->registerOne(&this->rxFullCanEvtListener, CAN::RECEIVED_ID); |
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canStart(this->canDriver, &this->canConfig); |
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this->setName("ControllerAreaNetworkRx"); |
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while (!this->shouldTerminate()) { |
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eventmask_t eventMask = this->waitOneEventTimeout(ALL_EVENTS, MS2ST(10000)); |
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switch (eventMask) {
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case EVENT_MASK(CAN::RECEIVED_ID):
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CANRxFrame rxframe; |
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msg_t message = canReceive(this->canDriver, CAN_ANY_MAILBOX, &rxframe, TIME_IMMEDIATE);
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if (message == RDY_OK) {
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// chprintf((BaseSequentialStream*) &global.sercanmux1, "Rx Message");
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message = this->receiveMessage(&rxframe);
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if (message != RDY_OK)
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this->receiveSensorVal(&rxframe);
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} |
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break;
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} |
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} |
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canStop(this->canDriver);
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this->rxFullCanEvtSource->unregister(&this->rxFullCanEvtListener); |
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return RDY_OK;
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} |
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msg_t ControllerAreaNetworkRx::receiveMessage(CANRxFrame *frame) { |
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(void)frame;
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return RDY_OK;
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} |
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//----------------------------------------------------------------
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int ControllerAreaNetworkRx::decodeBoardId(CANRxFrame *frame) {
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return (frame->SID >> CAN::BOARD_ID_SHIFT) & CAN::BOARD_ID_MASK;
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} |
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int ControllerAreaNetworkRx::decodeDeviceId(CANRxFrame *frame) {
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return (frame->SID >> CAN::DEVICE_ID_SHIFT) & CAN::DEVICE_ID_MASK;
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} |
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int ControllerAreaNetworkRx::decodeIndexId(CANRxFrame *frame) {
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return (frame->SID >> CAN::INDEX_ID_SHIFT) & CAN::INDEX_ID_MASK;
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} |
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//----------------------------------------------------------------
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int ControllerAreaNetworkRx::rxCmdShell(CANRxFrame *frame) {
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return (frame->SID >> CAN::BOARD_ID_SHIFT) & CAN::BOARD_ID_MASK;
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} |