2017-04-19 16:15:24 -03:00
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#include "AP_BattMonitor_SMBus.h"
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#define AP_BATTMONITOR_SMBUS_PEC_POLYNOME 0x07 // Polynome for CRC generation
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2017-04-24 03:16:49 -03:00
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AP_BattMonitor_SMBus::AP_BattMonitor_SMBus(AP_BattMonitor &mon,
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AP_BattMonitor::BattMonitor_State &mon_state,
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2017-10-27 02:36:49 -03:00
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AP_BattMonitor_Params ¶ms,
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2017-04-24 03:16:49 -03:00
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AP_HAL::OwnPtr<AP_HAL::I2CDevice> dev)
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2017-10-27 02:36:49 -03:00
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: AP_BattMonitor_Backend(mon, mon_state, params),
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2017-04-24 03:16:49 -03:00
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_dev(std::move(dev))
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{
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2017-10-27 02:36:49 -03:00
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_params._serial_number = AP_BATT_SERIAL_NUMBER_DEFAULT;
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_params._pack_capacity = 0;
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2017-04-24 03:16:49 -03:00
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}
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2019-12-10 20:55:20 -04:00
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void AP_BattMonitor_SMBus::init(void)
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{
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2017-11-04 05:41:41 -03:00
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if (_dev) {
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2019-12-04 08:03:33 -04:00
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timer_handle = _dev->register_periodic_callback(100000, FUNCTOR_BIND_MEMBER(&AP_BattMonitor_SMBus::timer, void));
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2017-11-04 05:41:41 -03:00
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}
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2017-10-26 00:58:56 -03:00
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}
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2019-12-10 20:55:20 -04:00
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// return true if cycle count can be provided and fills in cycles argument
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bool AP_BattMonitor_SMBus::get_cycle_count(uint16_t &cycles) const
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{
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if (!_has_cycle_count) {
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return false;
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}
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cycles = _cycle_count;
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return true;
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}
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2017-04-24 03:16:49 -03:00
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/// read the battery_voltage and current, should be called at 10hz
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void AP_BattMonitor_SMBus::read(void)
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{
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// nothing to be done here for actually interacting with the battery
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// however we can use this to set any parameters that need to be set
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2017-10-27 02:36:49 -03:00
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if (_serial_number != _params._serial_number) {
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_params._serial_number.set_and_notify(_serial_number);
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2017-04-24 03:16:49 -03:00
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}
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2017-04-24 03:49:51 -03:00
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2017-10-27 02:36:49 -03:00
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if (_full_charge_capacity != _params._pack_capacity) {
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_params._pack_capacity.set_and_notify(_full_charge_capacity);
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2017-04-24 03:49:51 -03:00
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}
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}
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// reads the pack full charge capacity
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// returns true if the read was successful, or if we already knew the pack capacity
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bool AP_BattMonitor_SMBus::read_full_charge_capacity(void)
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{
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uint16_t data;
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if (_full_charge_capacity != 0) {
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return true;
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} else if (read_word(BATTMONITOR_SMBUS_FULL_CHARGE_CAPACITY, data)) {
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2020-06-02 21:23:45 -03:00
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_full_charge_capacity = data * get_capacity_scaler();
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2017-04-24 03:49:51 -03:00
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return true;
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}
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return false;
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2017-04-24 03:16:49 -03:00
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}
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2017-04-19 17:49:38 -03:00
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2017-05-16 01:34:08 -03:00
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// reads the remaining capacity
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2020-06-02 21:24:00 -03:00
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// returns true if the read was successful, which is only considered to be the
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2017-05-16 01:34:08 -03:00
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// we know the full charge capacity
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bool AP_BattMonitor_SMBus::read_remaining_capacity(void)
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{
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2017-10-27 02:36:49 -03:00
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int32_t capacity = _params._pack_capacity;
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2017-05-16 01:34:08 -03:00
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if (capacity > 0) {
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uint16_t data;
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if (read_word(BATTMONITOR_SMBUS_REMAINING_CAPACITY, data)) {
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2020-06-02 21:23:45 -03:00
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_state.consumed_mah = MAX(0, capacity - (data * get_capacity_scaler()));
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2017-05-16 01:34:08 -03:00
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return true;
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}
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}
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return false;
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}
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2017-04-19 17:49:38 -03:00
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// reads the temperature word from the battery
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// returns true if the read was successful
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bool AP_BattMonitor_SMBus::read_temp(void)
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{
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uint16_t data;
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if (read_word(BATTMONITOR_SMBUS_TEMP, data)) {
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2021-01-07 22:11:56 -04:00
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_has_temperature = (AP_HAL::millis() - _state.temperature_time) <= AP_BATT_MONITOR_TIMEOUT;
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2017-04-19 17:49:38 -03:00
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_state.temperature_time = AP_HAL::millis();
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_state.temperature = ((float)(data - 2731)) * 0.1f;
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return true;
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}
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2021-01-07 22:11:56 -04:00
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_has_temperature = false;
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2017-04-19 17:49:38 -03:00
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return false;
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}
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2017-04-24 03:16:49 -03:00
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// reads the serial number if it's not already known
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// returns true if the read was successful or the number was already known
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2019-12-10 20:55:20 -04:00
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bool AP_BattMonitor_SMBus::read_serial_number(void)
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{
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2017-04-24 03:16:49 -03:00
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uint16_t data;
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// don't recheck the serial number if we already have it
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if (_serial_number != -1) {
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return true;
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} else if (read_word(BATTMONITOR_SMBUS_SERIAL, data)) {
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_serial_number = data;
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return true;
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}
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return false;
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}
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2019-12-10 20:55:20 -04:00
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// reads the battery's cycle count
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void AP_BattMonitor_SMBus::read_cycle_count()
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{
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// only read cycle count once
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if (_has_cycle_count) {
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return;
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}
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_has_cycle_count = read_word(BATTMONITOR_SMBUS_CYCLE_COUNT, _cycle_count);
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}
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2017-04-19 17:10:15 -03:00
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// read word from register
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// returns true if read was successful, false if failed
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bool AP_BattMonitor_SMBus::read_word(uint8_t reg, uint16_t& data) const
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{
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// buffer to hold results (1 extra byte returned holding PEC)
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const uint8_t read_size = 2 + (_pec_supported ? 1 : 0);
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uint8_t buff[read_size]; // buffer to hold results
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// read the appropriate register from the device
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if (!_dev->read_registers(reg, buff, sizeof(buff))) {
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return false;
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}
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// check PEC
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if (_pec_supported) {
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const uint8_t pec = get_PEC(AP_BATTMONITOR_SMBUS_I2C_ADDR, reg, true, buff, 2);
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if (pec != buff[2]) {
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return false;
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}
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}
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// convert buffer to word
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data = (uint16_t)buff[1]<<8 | (uint16_t)buff[0];
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// return success
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return true;
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}
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2017-04-19 16:15:24 -03:00
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/// get_PEC - calculate packet error correction code of buffer
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uint8_t AP_BattMonitor_SMBus::get_PEC(const uint8_t i2c_addr, uint8_t cmd, bool reading, const uint8_t buff[], uint8_t len) const
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{
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// exit immediately if no data
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if (len == 0) {
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return 0;
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}
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2018-12-10 19:30:47 -04:00
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// prepare temp buffer for calculating crc
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2017-04-19 16:15:24 -03:00
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uint8_t tmp_buff[len+3];
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tmp_buff[0] = i2c_addr << 1;
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tmp_buff[1] = cmd;
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tmp_buff[2] = tmp_buff[0] | (uint8_t)reading;
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memcpy(&tmp_buff[3],buff,len);
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// initialise crc to zero
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uint8_t crc = 0;
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uint8_t shift_reg = 0;
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bool do_invert;
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// for each byte in the stream
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for (uint8_t i=0; i<sizeof(tmp_buff); i++) {
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// load next data byte into the shift register
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shift_reg = tmp_buff[i];
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// for each bit in the current byte
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for (uint8_t j=0; j<8; j++) {
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do_invert = (crc ^ shift_reg) & 0x80;
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crc <<= 1;
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shift_reg <<= 1;
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if(do_invert) {
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crc ^= AP_BATTMONITOR_SMBUS_PEC_POLYNOME;
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}
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}
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}
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// return result
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return crc;
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}
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