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amiro-os / components / power / bq27500.cpp @ 2330e415

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#include <amiro/power/bq27500.hpp>
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#include <ch.hpp>
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#include <chprintf.h>
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#include <global.hpp>
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#include <cstring>
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using namespace chibios_rt;
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using namespace amiro;
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using namespace BQ27500;
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extern Global global;
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Driver::Driver(I2CDriver &i2c_driver, const GPIO_TypeDef &batgd_pingrp, const uint8_t batgd_pin, const GPIO_TypeDef &batlow_pingrp, const uint8_t batlow_pin) :
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  BaseSensor<BQ27500::InitData,BQ27500::CalibData>(), i2c_driver(&i2c_driver), tx_params({I2C_ADDR, NULL, 0, NULL, 0}),
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  batgd_pingrp(&batgd_pingrp), batgd_pin(batgd_pin), batlow_pingrp(&batlow_pingrp), batlow_pin(batlow_pin)
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{}
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Driver::~Driver()
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{}
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chibios_rt::EvtSource*
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Driver::getEventSource()
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{
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  return &this->eventSource;
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}
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msg_t
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Driver::init(InitData* initialization_data)
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{
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "%s(%d): TODO\n", __FILE__, __LINE__);
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  return NOT_IMPLEMENTED;
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}
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msg_t
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Driver::update()
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{
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  msg_t res = SUCCESS;
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  res |= this->stdCommand(STD_CMD_TimeToEmpty, this->status.minutes_to_empty);
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  res |= this->stdCommand(STD_CMD_TimeToFull, this->status.minutes_to_full);
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  res |= this->stdCommand(STD_CMD_AveragePower, this->status.average_power_mW);
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  uint16_t tmp;
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  res |= this->stdCommand(STD_CMD_StateOfCharge, tmp);
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  this->status.state_of_charge = tmp;
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  return (res == SUCCESS)? SUCCESS : ERROR;
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}
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msg_t
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Driver::wakeup()
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{
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  const msg_t res = this->subCommand(SUB_CMD_CLEAR_HIBERNATE);
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  return (res? ERROR : SUCCESS);
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}
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msg_t
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Driver::hibernate()
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{
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  const msg_t res = this->subCommand(SUB_CMD_SET_HIBERNATE);
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  return (res? ERROR : SUCCESS);
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}
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#ifndef AMIRO_NCALIBRATION
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msg_t
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Driver::calibration(CalibData* calibration_data)
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{
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  DataFlashBlock block;
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  this->readDataFlashBlock(block, CONFIGURATION_Safety);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "%s(%d):\n", __FILE__, __LINE__);
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  for(uint8_t i = 0; i < 32; ++i) {
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "%02X ", block.content.data[i]);
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "\n");
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "%02X\n", block.content.checksum);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "%s(%d): TODO\n", __FILE__, __LINE__);
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  return NOT_IMPLEMENTED;
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}
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#endif
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#ifndef AMIRO_NSELFTEST
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msg_t
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Driver::selftest()
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{
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  uint16_t val = 0;
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  Version version;
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  // read hardware version
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  version.value = 0;
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  if (this->subCommand(SUB_CMD_HW_VERSION, &version.value))
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  {
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    return ST_FAIL_READ_HW_VERSION;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "hardware version: %X%X-%X%X (0x%04X)\n", version.content.major_high, version.content.major_low, version.content.minor_high, version.content.minor_low, version.value);
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  // read firmware version
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  version.value = 0;
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  if (this->subCommand(SUB_CMD_FW_VERSION, &version.value))
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  {
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    return ST_FAIL_READ_FW_VERSION;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "firmware version: %X%X-%X%X (0x%04X)\n", version.content.major_high, version.content.major_low, version.content.minor_high, version.content.minor_low, version.value);
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  // read device name
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  uint8_t name_length = 0;
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  if (this->extCommand(EXT_CMD_DNAMELEN, EXT_CMD_READ, &name_length))
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  {
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    return ST_FAIL_READ_DEVICENAMELENGTH;
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  }
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  char name_buffer[9]; // maximum name length is 8
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  if (this->extCommand(EXT_CMD_DNAME, EXT_CMD_READ, (uint8_t*)name_buffer, name_length))
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  {
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    return ST_FAIL_READ_DEVICENAME;
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  }
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  name_buffer[name_length] = '\0';
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "device name: %s (%u characters)\n", name_buffer, name_length);
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  // read the current flags
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  Flags flags;
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  if (this->stdCommand(STD_CMD_FLAGS, flags.value))
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  {
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    return ST_FAIL_READ_FLAGS;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "flags: 0x%04X\n", flags.value);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  OTC     : %u\n", flags.content.otc);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  OTD     : %u\n", flags.content.otd);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  CHG_INH : %u\n", flags.content.chg_inh);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  XCHG    : %u\n", flags.content.xchg);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  FC      : %u\n", flags.content.fc);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  CHG     : %u\n", flags.content.chg);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  OCV_GD  : %u\n", flags.content.ocv_gd);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  WAIT_ID : %u\n", flags.content.wait_id);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  BAT_DET : %u\n", flags.content.bat_det);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  SOC1    : %u\n", flags.content.soc1);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  SOCF    : %u\n", flags.content.socf);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  DSG     : %u\n", flags.content.dsg);
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  // read the current controller status
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  ControlStatus ctrl_status;
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  if (this->subCommand(SUB_CMD_CONTROL_STATUS, &ctrl_status.value))
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  {
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    return ST_FAIL_READ_STATUS;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "control status: 0x%04X\n", ctrl_status.value);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  FAS       : %u\n", ctrl_status.content.fas);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  SS        : %u\n", ctrl_status.content.ss);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  CSV       : %u\n", ctrl_status.content.csv);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  CSA       : %u\n", ctrl_status.content.cca);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  BCA       : %u\n", ctrl_status.content.bca);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  HIBERNATE : %u\n", ctrl_status.content.hibernate);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  SNOOZE    : %u\n", ctrl_status.content.snooze);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  SLEEP     : %u\n", ctrl_status.content.sleep);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  LDMD      : %u\n", ctrl_status.content.ldmd);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  RUP_DIS   : %u\n", ctrl_status.content.rup_dis);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  VOK       : %u\n", ctrl_status.content.vok);
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "  QEN       : %u\n", ctrl_status.content.qen);
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  // if no battery was detected, abort
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  if (!flags.content.bat_det)
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  {
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    return ST_ABORT_NO_BAT;
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  }
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  // read the BATGD_N pin
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "battery good: %s\n", (this->isBatteryGood()? "yes" : "no"));
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  // read temperature
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  if (this->stdCommand(STD_CMD_TEMP, val))
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  {
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    return ST_FAIL_READ_TEMP;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "temperature: %fK (%fC)\n", float(val)/10.0f, float(val)/10.0f - 273.15f);
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  // read the full available capacity
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  if (this->stdCommand(STD_CMD_FAC, val))
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  {
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    return ST_FAIL_READ_FAC;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "full available capacity: %umAh\n", val);
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  // read the full charge capacity
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  if (this->stdCommand(STD_CMD_FCC, val))
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  {
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    return ST_FAIL_READ_FCC;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "full charge capacity: %umAh\n", val);
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  // read the remaining capacity
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  if (this->stdCommand(STD_CMD_RM, val))
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  {
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    return ST_FAIL_READ_RM;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "remaining capacity capacity: %umAh\n", val);
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  // read the state of charge
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  if (this->stdCommand(STD_CMD_SOC, val))
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  {
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    return ST_FAIL_READ_SOC;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "state of charge: %3u%%\n", val);
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  // read voltage
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  if (this->stdCommand(STD_CMD_VOLT, val))
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  {
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    return ST_FAIL_READ_VOLT;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "voltage: %umV\n", val);
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  // read average current
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  if (this->stdCommand(STD_CMD_AI, val))
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  {
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    return ST_FAIL_READ_AI;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "average current: %dmA\n", *reinterpret_cast<int8_t*>(&val));
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  // read average power
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  if (this->stdCommand(STD_CMD_AP, val))
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  {
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    return ST_FAIL_READ_AP;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "average power: %dmW\n", *reinterpret_cast<int8_t*>(&val));
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  // read the BATLOW pin
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "battery low: %s\n", (this->isBatteryLow()? "yes" : "no"));
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  // read the time to empty
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  if (this->stdCommand(STD_CMD_TTE, val))
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  {
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    return ST_FAIL_READ_TTE;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "time to empty: ");
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  if (uint16_t(~val)) {
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "%u minutes", val);
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  } else {
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "(not discharging)");
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "\n");
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  // read the time to full
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  if (this->stdCommand(STD_CMD_TTF, val))
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  {
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    return ST_FAIL_READ_TTF;
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "time to full: ");
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  if (uint16_t(~val)) {
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "%u minutes", val);
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  } else {
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "(not charging)");
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  }
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "\n");
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  return ST_OK;
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}
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#endif
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bool
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Driver::isBatteryGood() const
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{
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  return (palReadPad(this->batgd_pingrp, this->batgd_pin) == PAL_LOW);
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}
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bool
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Driver::isBatteryLow() const
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{
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  return (palReadPad(this->batlow_pingrp, this->batlow_pin) == PAL_HIGH);
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}
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const Driver::UpdateData&
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Driver::getStatus() const
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{
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  return this->status;
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}
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msg_t
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Driver::main(void)
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{
278
  while (!this->shouldTerminate())
279
  {
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    this->update();
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    this->eventSource.broadcastFlags(0);
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    this->waitAnyEventTimeout(ALL_EVENTS, MS2ST(1000));
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  }
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  return RDY_OK;
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}
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msg_t
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Driver::stdCommand(const StandardCommand cmd, uint16_t &dst)
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{
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  uint8_t buffer[2];
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  this->tx_params.txbuf = reinterpret_cast<const uint8_t*>(&cmd);
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  this->tx_params.txbytes = 1;
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  this->tx_params.rxbuf = buffer;
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  this->tx_params.rxbytes = 2;
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  this->i2c_driver->acquireBus();
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  const msg_t res = this->i2c_driver->masterTransmit(&this->tx_params);
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  this->i2c_driver->releaseBus();
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  if (!res) {
303
    dst = uint16_t((buffer[1] << 8) | buffer[0]);
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#ifndef NDEBUG
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  } else {
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "%s(%d): ERROR: i2c transmit failed (%d)\n", __FILE__ , __LINE__ , res);
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#endif
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  }
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  return res;
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}
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msg_t
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Driver::readName()
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{
316
  uint8_t buffer[9];
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  uint8_t reg = 0x62u;
318
  this->tx_params.txbuf = &reg;
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  this->tx_params.txbytes = 1;
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  this->tx_params.rxbuf = &buffer[0];
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  this->tx_params.rxbytes = 8;
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  this->i2c_driver->acquireBus();
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  const msg_t res = this->i2c_driver->masterTransmit(&this->tx_params);
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  this->i2c_driver->releaseBus();
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  buffer[buffer[0] + 1] = '\0';
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  chprintf((BaseSequentialStream*) &global.sercanmux1, "name: %u - %s\n", buffer[0], (char*)&buffer[1]);
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  return res;
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}
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msg_t
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Driver::subCommand(const ControlSubcommand cmd, uint16_t *dst)
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{
337
  uint8_t buffer[3] = {STD_CMD_CNTL, uint8_t(cmd & 0x00FFu), uint8_t((cmd & 0xFF00u) >> 8)};
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  this->tx_params.txbuf = buffer;
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  this->tx_params.txbytes = 3;
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  this->tx_params.rxbytes = 0;
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  this->i2c_driver->acquireBus();
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  msg_t res = this->i2c_driver->masterTransmit(&this->tx_params);
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  this->i2c_driver->releaseBus();
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  if (dst) {
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    this->tx_params.txbytes = 1;
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    this->tx_params.rxbuf = &buffer[1];
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    this->tx_params.rxbytes = 2;
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    BaseThread::sleep(US2ST(2));
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    this->i2c_driver->acquireBus();
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    res |= this->i2c_driver->masterTransmit(&this->tx_params);
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    this->i2c_driver->releaseBus();
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  }
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#ifndef NDEBUG
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  if (res) {
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "%s(%d): ERROR: i2c transmit failed (%d)\n", __FILE__ , __LINE__ , res);
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  }
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#endif
362
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  if (dst && !res) {
364
    *dst = uint16_t((buffer[2] << 8) | buffer[1]);
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  }
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  return res;
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}
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msg_t
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Driver::extCommand(const ExtendedCommand cmd, const ExtendedCommandAccess rw, uint8_t* buf, const uint8_t length, const uint8_t offset)
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{
373
  if (!buf) {
374
#ifndef NDEBUG
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "%s(%d): ERROR: received NULL-pointer as buffer\n", __FILE__ , __LINE__);
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#endif
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    return ~RDY_OK;
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  }
379
  if (rw != EXT_CMD_WRITE && rw != EXT_CMD_READ) {
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#ifndef NDEBUG
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "%s(%d): ERROR: invalid access mode selected\n", __FILE__ , __LINE__);
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#endif
383
    return ~RDY_OK;
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  }
385
  if (length > 33) {
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#ifndef NDEBUG
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "%s(%d): ERROR: length exceeds maximum of 33 bytes\n", __FILE__ , __LINE__);
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#endif
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    return ~RDY_OK;
390
  }
391
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  uint8_t in_buffer[34];
393
  in_buffer[0] = cmd + offset;
394
  if (rw == EXT_CMD_WRITE) {
395
    strncpy((char*)&in_buffer[1], (char*)buf, length);
396
  }
397
  this->tx_params.txbuf = in_buffer;
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  this->tx_params.txbytes = 1 + ((rw == EXT_CMD_WRITE)? length : 0);
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  this->tx_params.rxbuf = (rw == EXT_CMD_READ)? buf : NULL;
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  this->tx_params.rxbytes = (rw == EXT_CMD_READ)? length : 0;
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402
  this->i2c_driver->acquireBus();
403
  const msg_t res = this->i2c_driver->masterTransmit(&this->tx_params);
404
  this->i2c_driver->releaseBus();
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#ifndef NDEBUG
407
  if (res) {
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    chprintf((BaseSequentialStream*) &global.sercanmux1, "%s(%d): ERROR: i2c transmit failed (%d)\n", __FILE__ , __LINE__ , res);
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  }
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#endif
411
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  return res;
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}
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msg_t
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Driver::readDataFlashBlock(DataFlashBlock &block, const DataFlashSubClassID sub_id, const uint8_t sub_block)
417
{
418
  block.raw[0] = sub_id;
419
  block.raw[1] = sub_block;
420
  msg_t res = this->extCommand(EXT_CMD_DFCLS, EXT_CMD_WRITE, &block.raw[0]);
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  res |= this->extCommand(EXT_CMD_DFBLK, EXT_CMD_WRITE, &block.raw[1]);
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  BaseThread::sleep(US2ST(1)); // Without this delay the whole block is shifted and the first byte is lost. TODO: investigate
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  res |= this->extCommand(EXT_CMD_DFD, EXT_CMD_READ, block.raw, 33);
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  return res;
427
}