// LegacyESCDefines.c was generated by ProtoGen version 3.2.a /* * This file is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This file is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . * * Author: Oliver Walters */ #include "LegacyESCDefines.h" #include "fielddecode.h" #include "fieldencode.h" #include "scaleddecode.h" #include "scaledencode.h" /*! * \brief Encode a ESC_LegacyStatusBits_t into a byte array * * Status bits associated with the legacy (gen-1) ESC * \param _pg_data points to the byte array to add encoded data to * \param _pg_bytecount points to the starting location in the byte array, and will be incremented by the number of encoded bytes. * \param _pg_user is the data to encode in the byte array */ void encodeESC_LegacyStatusBits_t(uint8_t* _pg_data, int* _pg_bytecount, const ESC_LegacyStatusBits_t* _pg_user) { int _pg_byteindex = *_pg_bytecount; // 1 = Hardware inhibit is active (ESC is disabled) _pg_data[_pg_byteindex] = (uint8_t)_pg_user->hwInhibit << 7; // 1 = Software inhibit is active (ESC is disabled) _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->swInhibit << 6; // 0 = Active Freewheeling is not enabled, 1 = Active Freewheeling is enabled _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->afwEnabled << 5; // 0 = Motor direction is FORWARDS, 1= Motor direction is REVERSE _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->direction << 4; // Set if the ESC command timeout period has elapsed (and the ESC is in STANDBY mode) _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->timeout << 3; // 1 = in starting mode (0 = stopped or running) _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->starting << 2; // 0 = most recent command from CAN, 1 = most recent command from PWM _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->commandSource << 1; // ESC is running _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->running; _pg_byteindex += 1; // close bit field *_pg_bytecount = _pg_byteindex; }// encodeESC_LegacyStatusBits_t /*! * \brief Decode a ESC_LegacyStatusBits_t from a byte array * * Status bits associated with the legacy (gen-1) ESC * \param _pg_data points to the byte array to decoded data from * \param _pg_bytecount points to the starting location in the byte array, and will be incremented by the number of bytes decoded * \param _pg_user is the data to decode from the byte array * \return 1 if the data are decoded, else 0. */ int decodeESC_LegacyStatusBits_t(const uint8_t* _pg_data, int* _pg_bytecount, ESC_LegacyStatusBits_t* _pg_user) { int _pg_byteindex = *_pg_bytecount; // 1 = Hardware inhibit is active (ESC is disabled) _pg_user->hwInhibit = (_pg_data[_pg_byteindex] >> 7); // 1 = Software inhibit is active (ESC is disabled) _pg_user->swInhibit = ((_pg_data[_pg_byteindex] >> 6) & 0x1); // 0 = Active Freewheeling is not enabled, 1 = Active Freewheeling is enabled _pg_user->afwEnabled = ((_pg_data[_pg_byteindex] >> 5) & 0x1); // 0 = Motor direction is FORWARDS, 1= Motor direction is REVERSE _pg_user->direction = ((_pg_data[_pg_byteindex] >> 4) & 0x1); // Set if the ESC command timeout period has elapsed (and the ESC is in STANDBY mode) _pg_user->timeout = ((_pg_data[_pg_byteindex] >> 3) & 0x1); // 1 = in starting mode (0 = stopped or running) _pg_user->starting = ((_pg_data[_pg_byteindex] >> 2) & 0x1); // 0 = most recent command from CAN, 1 = most recent command from PWM _pg_user->commandSource = ((_pg_data[_pg_byteindex] >> 1) & 0x1); // ESC is running _pg_user->running = ((_pg_data[_pg_byteindex]) & 0x1); _pg_byteindex += 1; // close bit field *_pg_bytecount = _pg_byteindex; return 1; }// decodeESC_LegacyStatusBits_t /*! * \brief Encode a ESC_LegacyWarningBits_t into a byte array * * Warning bits associated with the legacy (gen-1) ESC * \param _pg_data points to the byte array to add encoded data to * \param _pg_bytecount points to the starting location in the byte array, and will be incremented by the number of encoded bytes. * \param _pg_user is the data to encode in the byte array */ void encodeESC_LegacyWarningBits_t(uint8_t* _pg_data, int* _pg_bytecount, const ESC_LegacyWarningBits_t* _pg_user) { int _pg_byteindex = *_pg_bytecount; // Set if RPM signal is not detected _pg_data[_pg_byteindex] = (uint8_t)_pg_user->noRPMSignal << 7; // Set if the ESC motor speed exceeds the configured warning threshold _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->overspeed << 6; // Set if the ESC motor current (positive or negative) exceeds the configured warning threshold _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->overcurrent << 5; // Set if the internal ESC temperature is above the warning threshold _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->escTemperature << 4; // Set if the motor temperature is above the warning threshold _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->motorTemperature << 3; // Set if the input voltage is below the minimum threshold _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->undervoltage << 2; // Set if the input voltage is above the maximum threshold _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->overvoltage << 1; // Set if hardware PWM input is enabled but invalid _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->invalidPWMsignal; _pg_byteindex += 1; // close bit field *_pg_bytecount = _pg_byteindex; }// encodeESC_LegacyWarningBits_t /*! * \brief Decode a ESC_LegacyWarningBits_t from a byte array * * Warning bits associated with the legacy (gen-1) ESC * \param _pg_data points to the byte array to decoded data from * \param _pg_bytecount points to the starting location in the byte array, and will be incremented by the number of bytes decoded * \param _pg_user is the data to decode from the byte array * \return 1 if the data are decoded, else 0. */ int decodeESC_LegacyWarningBits_t(const uint8_t* _pg_data, int* _pg_bytecount, ESC_LegacyWarningBits_t* _pg_user) { int _pg_byteindex = *_pg_bytecount; // Set if RPM signal is not detected _pg_user->noRPMSignal = (_pg_data[_pg_byteindex] >> 7); // Set if the ESC motor speed exceeds the configured warning threshold _pg_user->overspeed = ((_pg_data[_pg_byteindex] >> 6) & 0x1); // Set if the ESC motor current (positive or negative) exceeds the configured warning threshold _pg_user->overcurrent = ((_pg_data[_pg_byteindex] >> 5) & 0x1); // Set if the internal ESC temperature is above the warning threshold _pg_user->escTemperature = ((_pg_data[_pg_byteindex] >> 4) & 0x1); // Set if the motor temperature is above the warning threshold _pg_user->motorTemperature = ((_pg_data[_pg_byteindex] >> 3) & 0x1); // Set if the input voltage is below the minimum threshold _pg_user->undervoltage = ((_pg_data[_pg_byteindex] >> 2) & 0x1); // Set if the input voltage is above the maximum threshold _pg_user->overvoltage = ((_pg_data[_pg_byteindex] >> 1) & 0x1); // Set if hardware PWM input is enabled but invalid _pg_user->invalidPWMsignal = ((_pg_data[_pg_byteindex]) & 0x1); _pg_byteindex += 1; // close bit field *_pg_bytecount = _pg_byteindex; return 1; }// decodeESC_LegacyWarningBits_t /*! * \brief Encode a ESC_LegacyErrorBits_t into a byte array * * Error bits associated with the legacy (gen-1) ESC * \param _pg_data points to the byte array to add encoded data to * \param _pg_bytecount points to the starting location in the byte array, and will be incremented by the number of encoded bytes. * \param _pg_user is the data to encode in the byte array */ void encodeESC_LegacyErrorBits_t(uint8_t* _pg_data, int* _pg_bytecount, const ESC_LegacyErrorBits_t* _pg_user) { int _pg_byteindex = *_pg_bytecount; // Set if communication link to the motor controller is lost _pg_data[_pg_byteindex] = (uint8_t)_pg_user->linkError << 7; // Set if the ESC has detected an overcurrent event and is actively folding back duty cycle _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->foldback << 6; // Set if the settings checksum does not match the programmed values _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->settingsChecksum << 5; // Set if the motor settings are invalid _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->motorSettings << 4; // Reserved for future use _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->reservedD << 3; // Reserved for future use _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->reservedE << 2; // Reserved for future use _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->reservedF << 1; // Reserved for future use _pg_data[_pg_byteindex] |= (uint8_t)_pg_user->reservedG; _pg_byteindex += 1; // close bit field *_pg_bytecount = _pg_byteindex; }// encodeESC_LegacyErrorBits_t /*! * \brief Decode a ESC_LegacyErrorBits_t from a byte array * * Error bits associated with the legacy (gen-1) ESC * \param _pg_data points to the byte array to decoded data from * \param _pg_bytecount points to the starting location in the byte array, and will be incremented by the number of bytes decoded * \param _pg_user is the data to decode from the byte array * \return 1 if the data are decoded, else 0. */ int decodeESC_LegacyErrorBits_t(const uint8_t* _pg_data, int* _pg_bytecount, ESC_LegacyErrorBits_t* _pg_user) { int _pg_byteindex = *_pg_bytecount; // Set if communication link to the motor controller is lost _pg_user->linkError = (_pg_data[_pg_byteindex] >> 7); // Set if the ESC has detected an overcurrent event and is actively folding back duty cycle _pg_user->foldback = ((_pg_data[_pg_byteindex] >> 6) & 0x1); // Set if the settings checksum does not match the programmed values _pg_user->settingsChecksum = ((_pg_data[_pg_byteindex] >> 5) & 0x1); // Set if the motor settings are invalid _pg_user->motorSettings = ((_pg_data[_pg_byteindex] >> 4) & 0x1); // Reserved for future use _pg_user->reservedD = ((_pg_data[_pg_byteindex] >> 3) & 0x1); // Reserved for future use _pg_user->reservedE = ((_pg_data[_pg_byteindex] >> 2) & 0x1); // Reserved for future use _pg_user->reservedF = ((_pg_data[_pg_byteindex] >> 1) & 0x1); // Reserved for future use _pg_user->reservedG = ((_pg_data[_pg_byteindex]) & 0x1); _pg_byteindex += 1; // close bit field *_pg_bytecount = _pg_byteindex; return 1; }// decodeESC_LegacyErrorBits_t // end of LegacyESCDefines.c