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amiro-os / devices / PowerManagement / main.cpp @ d2230e6e

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1 58fe0e0b Thomas Schöpping
#ifndef IN_CCM
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/*
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 * @brief Makro to store data in the core coupled memory (ccm).
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 *        Example:
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 *        int compute_buffer[128] IN_CCM;
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 *
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 * @note The ccm is not connected to any bus system.
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 */
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#define IN_CCM  __attribute__((section(".ccm"))) __attribute__((aligned(4)))
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#endif
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#ifndef IN_ETH
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/*
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 * @brief Makro to store data in the ethernet memory (eth).
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 *        Example:
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 *        int dma_buffer[128] IN_ETH;
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 *
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 * @note The eth is a dedicated memory block with its own DMA controller.
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 */
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#define IN_ETH  __attribute__((section(".eth"))) __attribute__((aligned(4)))
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#endif
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#define BL_CALLBACK_TABLE_ADDR  (0x08000000 + 0x01C0)
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#define BL_MAGIC_NUMBER         ((uint32_t)0xFF669900u)
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#define SHUTDOWN_NONE             0
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#define SHUTDOWN_TRANSPORTATION   1
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#define SHUTDOWN_DEEPSLEEP        2
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#define SHUTDOWN_HIBERNATE        3
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#define SHUTDOWN_RESTART          4
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#define SHUTDOWN_HANDLE_REQUEST   5
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#include <ch.hpp>
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#include <shell.h>
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#include <chprintf.h>
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#include <wakeup.h>
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#include <cstdlib>
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#include <cstring>
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#include <amiro/util/util.h>
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#include <global.hpp>
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#include <exti.hpp>
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using namespace amiro;
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using namespace constants::PowerManagement;
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Global global;
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48 10687985 Thomas Schöpping
struct blVersion_t {
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  const uint8_t identifier;
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  const uint8_t major;
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  const uint8_t minor;
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  const uint8_t patch;
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} __attribute__((packed));
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55 58fe0e0b Thomas Schöpping
void shutdownTimeoutISR(void *arg) {
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  (void) arg;
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}
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void systemStop() {
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//  VirtualTimer shutdownTimeout;
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  uint8_t i;
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  // tell all boards that it's time to shut down
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  global.robot.broadcastShutdown();
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  global.userThread.requestTerminate();
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  global.userThread.wait();
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  // kill bluetooth
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  boardBluetoothSetState(0);
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  global.adc1_vsys.requestTerminate();
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  global.adc1_vsys.wait();
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  for (i = 0; i < global.vcnl4020.size(); ++i) {
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    global.vcnl4020[i].requestTerminate();
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    global.vcnl4020[i].wait();
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  }
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  for (i = 0; i < global.bq27500.size(); ++i) {
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    global.bq27500[i].requestTerminate();
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    global.bq27500[i].wait();
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  }
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  for (i = 0; i < global.ina219.size(); ++i) {
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    global.ina219[i].requestTerminate();
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    global.ina219[i].wait();
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  }
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//  boardWriteIoPower(0);
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  global.mpr121.configure(&global.mpr121_stdby_config);
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  /* cannot shut down touch, b/c we need it to
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   * clear any interrupt, so WKUP is not blocked
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   */
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  // stop I²C
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  for (i = 0; i < global.V_I2C1.size(); ++i)
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    global.V_I2C1[i].stop();
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  for (i = 0; i < global.V_I2C2.size(); ++i)
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    global.V_I2C2[i].stop();
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  global.mpr121.requestTerminate();
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  global.mpr121.wait();
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  global.HW_I2C2.stop();
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  global.HW_I2C1.stop();
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  // stop all threads
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  global.robot.terminate();
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//  // 60 sec timeout
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//  palWritePad(GPIOC, GPIOC_SYS_INT_N, PAL_HIGH);
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//  chVTSet(&shutdownTimeout, MS2ST(60000), shutdownTimeoutISR, NULL);
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//  // wait for all boards to release SYS_INT_N
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//  while (palReadPad(GPIOC, GPIOC_SYS_INT_N)!=PAL_HIGH && chVTIsArmedI(&shutdownTimeout)) {
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//    BaseThread::sleep(MS2ST(1)); /* must sleep for VT, else it will never fire */
120
//  }
121
//  chVTReset(&shutdownTimeout);
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//  chprintf((BaseSequentialStream*) &SD1, "Stop\n");
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//  boardWriteSystemPower(0);
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//  boardWriteLed(1);
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//  boardStop(0x00, 0x00);
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//  /*
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//   * HSI-PLL domain now.
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//   */
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//  //chprintf((BaseSequentialStream*) &SD1, "After Stop\n");
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//  boardWriteLed(1);
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//  while (true)
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//    BaseThread::sleep(MS2ST(250));
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  return;
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}
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void systemShutdown() {
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  VirtualTimer shutdownTimeout;
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  uint8_t i;
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  // tell all boards that it's time to shut down
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  global.robot.broadcastShutdown();
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  // wait a little to make sure all boards got the message and had time to pull their SYS_PD_N pins down
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  BaseThread::sleep(MS2ST(500));
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  // stop the user thread
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  global.userThread.requestTerminate();
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  global.userThread.wait();
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  // kill bluetooth
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  boardBluetoothSetState(0);
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  // stop all threads
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  global.robot.terminate();
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  global.adc1_vsys.requestTerminate();
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  global.adc1_vsys.wait();
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  for (i = 0; i < global.vcnl4020.size(); ++i) {
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    global.vcnl4020[i].requestTerminate();
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    global.vcnl4020[i].wait();
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  }
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  for (i = 0; i < global.bq27500.size(); ++i) {
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    global.bq27500[i].requestTerminate();
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    global.bq27500[i].wait();
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  }
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174
  for (i = 0; i < global.ina219.size(); ++i) {
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    global.ina219[i].requestTerminate();
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    global.ina219[i].wait();
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  }
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  // 60 sec timeout
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  chVTSet(&shutdownTimeout, MS2ST(60000), shutdownTimeoutISR, NULL);
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  // wait for all boards to release SYS_PD_N
183
  while (!palReadPad(GPIOC, GPIOC_SYS_PD_N) && chVTIsArmedI(&shutdownTimeout))
184
    BaseThread::sleep(MS2ST(1)); /* must sleep for VT, else it will never fire */
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186
  chVTReset(&shutdownTimeout);
187
  boardWriteIoPower(0);
188
  global.mpr121.configure(&global.mpr121_stdby_config);
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  /* cannot shut down touch, b/c we need it to
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   * clear any interrupt, so WKUP is not blocked
191
   */
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  // stop I²C
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  for (i = 0; i < global.V_I2C1.size(); ++i)
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    global.V_I2C1[i].stop();
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  for (i = 0; i < global.V_I2C2.size(); ++i)
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    global.V_I2C2[i].stop();
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  boardWriteSystemPower(0);
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  boardStandby();
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202
}
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void boardPeripheryCheck(BaseSequentialStream *chp) {
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#ifndef AMIRO_NSELFTEST
208
  chprintf(chp, "\nCHECK: START\n");
209
  msg_t result = 0;
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    // Check the proximitysensors
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  for (uint8_t i = 0; i < global.vcnl4020.size(); i++) {
213
    result = global.vcnl4020[i].getCheck();
214
    if (result == global.vcnl4020[i].CHECK_OK)
215
      chprintf(chp, "VCNL4020: %d OK\n", i);
216
    else
217
      chprintf(chp, "VCNL4020: %d FAIL\n", i);
218
  }
219
  chprintf(chp, "----------------------------------------\n");
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221
  // check the PowerPath controller
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  chprintf(chp, "\n");
223
  if (global.ltc4412.isPluggedIn())
224
    chprintf(chp, "LTC4412: plugged in\n");
225
  else
226
    chprintf(chp, "LTC4412: not plugged in\n");
227
  chprintf(chp, "----------------------------------------\n");
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  // Check the eeprom
230
  result = global.memory.getCheck();
231
  if ( result != global.memory.OK)
232
    chprintf(chp, "Memory Structure: FAIL\n");
233
  else
234
    chprintf(chp, "Memory Structure: OK\n");
235
  chprintf(chp, "----------------------------------------\n");
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237
  // Check the power monitors
238
  INA219::BusVoltage bus_voltage;
239
  chprintf(chp, "\n");
240
  chprintf(chp, "INA219:\n");
241
  chprintf(chp, "\tVDD (3.3V):\n");
242
  uint8_t result_ina219_vdd = global.ina219[INA_VDD].selftest();
243
  chprintf(chp, "->\t");
244
  if (result_ina219_vdd == BaseSensor<>::NOT_IMPLEMENTED)
245
    chprintf(chp, "not implemented");
246
  else if (result_ina219_vdd != INA219::Driver::ST_OK)
247
    chprintf(chp, "FAIL (error code 0x%02X)", result_ina219_vdd);
248
  else
249
    chprintf(chp, "OK");
250
251
  chprintf(chp, "\n\n");
252
  chprintf(chp, "\tVIO1.8:\n");
253
  uint8_t result_ina219_vio18 = global.ina219[INA_VIO18].selftest();
254
  chprintf(chp, "->\t");
255
  if (result_ina219_vio18 == BaseSensor<>::NOT_IMPLEMENTED)
256
    chprintf(chp, "not implemented");
257
  else if (result_ina219_vio18 != INA219::Driver::ST_OK)
258
    chprintf(chp, "FAIL (error code 0x%02X)", result_ina219_vio18);
259
  else
260
    chprintf(chp, "OK");
261
262
  chprintf(chp, "\n\n");
263
  chprintf(chp, "\tVIO3.3:\n");
264
  uint8_t result_ina219_vio33 = global.ina219[INA_VIO33].selftest();
265
  chprintf(chp, "->\t");
266
  if (result_ina219_vio33 == BaseSensor<>::NOT_IMPLEMENTED)
267
    chprintf(chp, "not implemented");
268
  else if (result_ina219_vio33 != INA219::Driver::ST_OK)
269
    chprintf(chp, "FAIL (error code 0x%02X)", result_ina219_vio33);
270
  else
271
    chprintf(chp, "OK");
272
273
  chprintf(chp, "\n\n");
274
  chprintf(chp, "\tVIO4.2:\n");
275
  uint8_t result_ina219_vio42 = global.ina219[INA_VIO42].selftest();
276
  chprintf(chp, "->\t");
277
  if (result_ina219_vio42 == BaseSensor<>::NOT_IMPLEMENTED)
278
    chprintf(chp, "not implemented");
279
  else if (result_ina219_vio42 != INA219::Driver::ST_OK)
280
    chprintf(chp, "FAIL (error code 0x%02X)", result_ina219_vio42);
281
  else
282
    chprintf(chp, "OK");
283
284
  bus_voltage = global.ina219[INA_VIO42].readBusVoltage();
285
  chprintf(chp, "\n\n");
286
  chprintf(chp, "\tVIO5.0:\n");
287
  uint8_t result_ina219_vio50 = global.ina219[INA_VIO50].selftest();
288
  chprintf(chp, "->\t");
289
  if (result_ina219_vio50 == BaseSensor<>::NOT_IMPLEMENTED)
290
    chprintf(chp, "not implemented");
291
  else if (result_ina219_vio50 != INA219::Driver::ST_OK)
292
    chprintf(chp, "FAIL (error code 0x%02X)", result_ina219_vio50);
293
  else
294
    chprintf(chp, "OK");
295
296
  chprintf(chp, "\n\n");
297
  result = result_ina219_vdd | result_ina219_vio18 | result_ina219_vio33 | result_ina219_vio42 | result_ina219_vio50;
298
  if (result == BaseSensor<>::NOT_IMPLEMENTED)
299
    chprintf(chp, "->\tINA219: not implemented\n");
300
  else
301
    chprintf(chp, "->\tINA219: %s\n", (result != INA219::Driver::ST_OK)? "FAIL" : "OK");
302
  chprintf(chp, "----------------------------------------\n");
303
304
  // check the fuel gauges
305
  chprintf(chp, "\n");
306
  chprintf(chp, "BQ27500:\n");
307
  chprintf(chp, "\tP7:\n");
308
  msg_t result_bq27500_p7 = global.bq27500[BAT_P7].selftest();
309
  chprintf(chp, "->\tP7: ");
310
  if (result == BaseSensor<>::NOT_IMPLEMENTED)
311
    chprintf(chp, "not implemented");
312
  else if (result_bq27500_p7 == BQ27500::Driver::ST_ABORT_NO_BAT)
313
    chprintf(chp, "ABORT (no battery detected)");
314
  else if (result_bq27500_p7 != BQ27500::Driver::ST_OK)
315
    chprintf(chp, "FAIL (error code 0x%02X)", result);
316
  else
317
    chprintf(chp, "OK");
318
319
  chprintf(chp, "\n\n");
320
  chprintf(chp, "\tP8:\n");
321
  msg_t result_bq27500_p8 = global.bq27500[BAT_P8].selftest();
322
  chprintf(chp, "->\tP8: ");
323
  if (result == BaseSensor<>::NOT_IMPLEMENTED)
324
    chprintf(chp, "not implemented");
325
  else if (result_bq27500_p8 == BQ27500::Driver::ST_ABORT_NO_BAT)
326
      chprintf(chp, "ABORT (no battery detected)");
327
  else if (result_bq27500_p8 != BQ27500::Driver::ST_OK)
328
    chprintf(chp, "FAIL (error code 0x%02X)", result);
329
  else
330
    chprintf(chp, "OK");
331
332
  chprintf(chp, "\n");
333
  result = result_bq27500_p7 | result_bq27500_p8;
334
  if (result == BaseSensor<>::NOT_IMPLEMENTED)
335
    chprintf(chp, "\n->\tBQ27500: not implemented\n");
336
  else
337
    chprintf(chp, "\n->\tBQ27500: %s\n", (result != BQ27500::Driver::ST_OK)? "FAIL" : "OK");
338
  chprintf(chp, "----------------------------------------\n");
339
340
  // check the chargers
341
  chprintf(chp, "\n");
342
  chprintf(chp, "BQ24103A:\n");
343
  if (!global.ltc4412.isPluggedIn())
344
    chprintf(chp, "This test is skipped. Rerun when plugged in.\n");
345
  else {
346
    bool status1, status2, status3;
347
    chprintf(chp, "\tP7:\n");
348
    bool status_p7 = global.bq27500[BAT_P7].isBatteryGood();
349
    chprintf(chp, "Battery good: %s\n", (status_p7? "yes" : "no"));
350
    if (!status_p7) {
351
      chprintf(chp, "-> Rerun test with (another) battery!\n");
352
      status_p7 = true;
353
    } else {
354
      status1 = global.bq24103a[BAT_P7]->isCharging();
355
      chprintf(chp, "status:%scharging\n", (status1? " " : " not "));
356
      chprintf(chp, "%sabling charger...\n", (status1? "dis" : "en"));
357
      global.bq24103a[BAT_P7]->enable(!status1);
358
      BaseThread::sleep(MS2ST(1500));
359
      status2 = global.bq24103a[BAT_P7]->isCharging();
360
      chprintf(chp, "status:%scharging\n", (status2? " " : " not "));
361
      chprintf(chp, "%sabling charger...\n", (!status1? "dis" : "en"));
362
      global.bq24103a[BAT_P7]->enable(status1);
363
      BaseThread::sleep(MS2ST(1500));
364
      status3 = global.bq24103a[BAT_P7]->isCharging();
365
      chprintf(chp, "status:%scharging\n", (status3? " " : " not "));
366
      status_p7 = status2 != status1 && status3 == status1;
367
      chprintf(chp, "->\t");
368
      if (status_p7) {
369
        chprintf(chp, "OK");
370
      } else {
371
        chprintf(chp, "FAIL");
372
      }
373
      chprintf(chp, "\n");
374
    }
375
    chprintf(chp, "\n");
376
    chprintf(chp, "\tP8:\n");
377
    bool status_p8 = global.bq27500[BAT_P8].isBatteryGood();
378
    chprintf(chp, "Battery good: %s\n", (status_p8? "yes" : "no"));
379
    if (!status_p8) {
380
      chprintf(chp, "-> Rerun test with (another) battery!\n");
381
      status_p8 = true;
382
    } else {
383
      status1 = global.bq24103a[BAT_P8]->isCharging();
384
      chprintf(chp, "status:%scharging\n", (status1? " " : " not "));
385
      chprintf(chp, "%sabling charger...\n", (status1? "dis" : "en"));
386
      global.bq24103a[BAT_P8]->enable(!status1);
387
      BaseThread::sleep(MS2ST(1500));
388
      status2 = global.bq24103a[BAT_P8]->isCharging();
389
      chprintf(chp, "status:%scharging\n", (status2? " " : " not "));
390
      chprintf(chp, "%sabling charger...\n", (!status1? "dis" : "en"));
391
      global.bq24103a[BAT_P8]->enable(status1);
392
      BaseThread::sleep(MS2ST(1500));
393
      status3 = global.bq24103a[BAT_P8]->isCharging();
394
      chprintf(chp, "status:%scharging\n", (status3? " " : "not "));
395
      status_p8 = status2 != status1 && status3 == status1;
396
      chprintf(chp, "->\t");
397
      if (status_p8)
398
        chprintf(chp, "OK");
399
      else
400
        chprintf(chp, "FAIL");
401
      chprintf(chp, "\n");
402
    }
403
    chprintf(chp, "\n");
404
    chprintf(chp, "->\tBQ24103A: ");
405
    if (status_p7 && status_p8)
406
      chprintf(chp, "OK");
407
    else
408
      chprintf(chp, "FAIL");
409
    chprintf(chp, "\n");
410
  }
411
  chprintf(chp, "----------------------------------------\n");
412
413
  // check Bluetooth (TODO: move this check to driver)
414
  chprintf(chp, "\n");
415
  chprintf(chp, "WT12-A-AI:\n");
416
417
  chprintf(chp, "testing for MUX mode:\t");
418
419
  if (global.wt12.bluetoothIsMuxMode()) {
420
    chprintf(chp, "PASSED\n");
421
  } else {
422
    chprintf(chp, "FAILED -> setting MUX mode now\n");
423
    /* initialise the WT-12 bluetooth chip on AMIRO (Please, run this processes once) */
424
    global.wt12.bluetoothSendCommand("SET BT AUTH *");
425
    global.wt12.bluetoothSendCommand("SET BT PAIR *");
426
    global.wt12.bluetoothSendCommand("SET BT SSP 3 0");
427
    global.wt12.bluetoothEnableMux();
428
    global.wt12.bluetoothReset();
429
  }
430
431
  global.wt12.bluetoothSendCommand("TEMP");
432
  global.wt12.bluetoothSendCommand("SET");
433
434
  chprintf(chp, "----------------------------------------\n");
435
436
  // check the buzzer
437
  chprintf(chp, "\n");
438
  chprintf(chp, "PKLCS1212E4001:\n");
439
  chprintf(chp, "you should hear the buzzer for one second...\n");
440
  pwmEnableChannel(&PWMD3, 1, 50);
441
  BaseThread::sleep(MS2ST(1000));
442
  pwmDisableChannel(&PWMD3, 1);
443
  chprintf(chp, "----------------------------------------\n");
444
445
  chprintf(chp, "CHECK: FINISH\n");
446
#endif
447
448
  return;
449
}
450
451
void shellRequestShutdown(BaseSequentialStream* chp, int __unused argc, char __unused *argv[]) {
452
453
  chprintf(chp, "shellRequestShutdown\n");
454
455
  /* if no argument was given, print some help text */
456
  if (argc == 0 || strcmp(argv[0],"help") == 0) {
457
    chprintf(chp, "\tUSAGE:\n");
458
    chprintf(chp, "> shutdown <type>\n");
459
    chprintf(chp, "\n");
460
    chprintf(chp, "\ttype\n");
461
    chprintf(chp, "The type of shutdown to perform.\n");
462
    chprintf(chp, "Choose one of the following types:\n");
463
    chprintf(chp, "  transportation - Ultra low-power mode with all wakeups disabled.\n");
464
    chprintf(chp, "                   The robot can not be charged.\n");
465
    chprintf(chp, "  deepsleep      - Ultra low-power mode with several wakeups enabled.\n");
466
    chprintf(chp, "                   The robot can only be charged via the power plug.\n");
467
    chprintf(chp, "  hibernate      - Medium low-power mode, but with full charging capabilities.\n");
468
    chprintf(chp, "  restart        - Performs a system restart.\n");
469
    chprintf(chp, "Alternatively, you can use the shortcuts 't', 'd', 'h', and 'r' respectively.");
470
    chprintf(chp, "\n");
471
    return;
472
  }
473
474
  if (strcmp(argv[0],"transportation") == 0 || strcmp(argv[0],"t") == 0) {
475
    shutdown_now = SHUTDOWN_TRANSPORTATION;
476
    chprintf(chp, "shutdown to transportation mode initialized\n");
477
  } else if (strcmp(argv[0],"deepsleep") == 0 || strcmp(argv[0],"d") == 0) {
478
    shutdown_now = SHUTDOWN_DEEPSLEEP;
479
    chprintf(chp, "shutdown to deepsleep mode initialized\n");
480
  } else if (strcmp(argv[0],"hibernate") == 0 || strcmp(argv[0],"h") == 0) {
481
    shutdown_now = SHUTDOWN_HIBERNATE;
482
    chprintf(chp, "shutdown to hibernate mode initialized\n");
483
  } else if (strcmp(argv[0],"restart") == 0 || strcmp(argv[0],"r") == 0) {
484
    chprintf(chp, "restart initialized\n");
485
    shutdown_now = SHUTDOWN_RESTART;
486
  } else {
487
    chprintf(chp, "ERROR: unknown argument!\n");
488
    shutdown_now = SHUTDOWN_NONE;
489
  }
490
491
  return;
492
}
493
494
void shellRequestResetMemory(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) {
495
  chprintf(chp, "shellRequestInitMemory\n");
496
497
  msg_t res = global.memory.resetMemory();
498
499
  if ( res != global.memory.OK)
500
    chprintf(chp, "Memory Init: FAIL\n");
501
  else
502
    chprintf(chp, "Memory Init: OK\n");
503
}
504
505
void shellRequestGetBoardId(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) {
506
  chprintf(chp, "shellRequestGetBoardId\n");
507
508
  uint8_t id = 0xFFu;
509
  msg_t res = global.memory.getBoardId(&id);
510
  if (res != global.memory.OK)
511
    chprintf(chp, "Get Board ID: FAIL\n");
512
  else
513
    chprintf(chp, "Get Board ID: %u\n", id);
514
}
515
516
void shellRequestSetBoardId(BaseSequentialStream *chp, int argc, char *argv[]) {
517
  chprintf(chp, "shellRequestSetBoardId\n");
518
519
  if (argc == 0) {
520
    chprintf(chp, "Usage: %s\n","set_board_id <idx>");
521
  } else {
522
    msg_t res = global.memory.setBoardId(atoi(argv[0]));
523
    if (res != global.memory.OK)
524
      chprintf(chp, "Set Board ID: FAIL\n");
525
    else
526
      chprintf(chp, "Set Board ID: OK\n");
527
  }
528
529
}
530
531
void shellRequestGetMemoryData(BaseSequentialStream *chp, int argc, char *argv[]) {
532
  enum Type {HEX, U8, U16, U32, S8, S16, S32};
533
534
  chprintf(chp, "shellRequestReadData\n");
535
536
  if (argc < 2 || strcmp(argv[0],"help") == 0)
537
  {
538
    chprintf(chp, "Usage: %s\n","get_memory_data <type> <start> [<count>]");
539
    chprintf(chp, "\n");
540
    chprintf(chp, "\ttype\n");
541
    chprintf(chp, "The data type as which to interpret the data.\n");
542
    chprintf(chp, "Choose one of the following types:\n");
543
    chprintf(chp, "  hex - one byte as hexadecimal value\n");
544
    chprintf(chp, "  u8  - unsigned integer (8 bit)\n");
545
    chprintf(chp, "  u16 - unsigned integer (16 bit)\n");
546
    chprintf(chp, "  u32 - unsigned integer (32 bit)\n");
547
    chprintf(chp, "  s8  - signed integer (8 bit)\n");
548
    chprintf(chp, "  s16 - signed integer (16 bit)\n");
549
    chprintf(chp, "  s32 - signed integer (32 bit)\n");
550
    chprintf(chp, "\tstart\n");
551
    chprintf(chp, "The first byte to read from the memory.\n");
552
    chprintf(chp, "\tcount [default = 1]\n");
553
    chprintf(chp, "The number of elements to read.\n");
554
    chprintf(chp, "\n");
555
    chprintf(chp, "\tNOTE\n");
556
    chprintf(chp, "Type conversions of this function might fail.\n");
557
    chprintf(chp, "If so, use type=hex and convert by hand.\n");
558
    chprintf(chp, "\n");
559
    return;
560
  }
561
562
  uint8_t type_size = 0;
563
  Type type = HEX;
564
  if (strcmp(argv[0],"hex") == 0) {
565
    type_size = sizeof(unsigned char);
566
    type = HEX;
567
  } else if(strcmp(argv[0],"u8") == 0) {
568
    type_size = sizeof(uint8_t);
569
    type = U8;
570
  } else if(strcmp(argv[0],"u16") == 0) {
571
    type_size = sizeof(uint16_t);
572
    type = U16;
573
  } else if(strcmp(argv[0],"u32") == 0) {
574
    type_size = sizeof(uint32_t);
575
    type = U32;
576
  } else if(strcmp(argv[0],"s8") == 0) {
577
    type_size = sizeof(int8_t);
578
    type = S8;
579
  } else if(strcmp(argv[0],"s16") == 0) {
580
    type_size = sizeof(int16_t);
581
    type = S16;
582
  } else if(strcmp(argv[0],"s32") == 0) {
583
    type_size = sizeof(int32_t);
584
    type = S32;
585
  } else {
586
    chprintf(chp, "First argument invalid. Use 'get_memory_data help' for help.\n");
587
    return;
588
  }
589
590
  unsigned int start_byte = atoi(argv[1]);
591
592
  unsigned int num_elements = 1;
593
  if (argc >= 3) {
594
    num_elements = atoi(argv[2]);
595
  }
596
597
  const size_t eeprom_size = EEPROM::getsize(&global.at24c01);
598
  uint8_t buffer[eeprom_size];
599
  if (start_byte + (type_size * num_elements) > eeprom_size) {
600
    num_elements = (eeprom_size - start_byte) / type_size;
601
    chprintf(chp, "Warning: request exceeds eeprom size -> limiting to %u values.\n", num_elements);
602
  }
603
604
  chFileStreamSeek((BaseFileStream*)&global.at24c01, start_byte);
605
  uint32_t bytes_read = chSequentialStreamRead((BaseFileStream*)&global.at24c01, buffer, type_size*num_elements);
606
607
  if (bytes_read != type_size*num_elements) {
608
    chprintf(chp, "Warning: %u of %u requested bytes were read.\n", bytes_read, type_size*num_elements);
609
  }
610
611
  for (unsigned int i = 0; i < num_elements; ++i)
612
  {
613
    switch (type)
614
    {
615
      case HEX:
616
        chprintf(chp, "%02X ", buffer[i]);
617
        break;
618
      case U8:
619
        chprintf(chp, "%03u ", ((uint8_t*)buffer)[i]);
620
        break;
621
      case U16:
622
        chprintf(chp, "%05u ", ((uint16_t*)buffer)[i]);
623
        break;
624
      case U32:
625
        chprintf(chp, "%010u ", ((uint32_t*)buffer)[i]);
626
        break;
627
      case S8:
628
        chprintf(chp, "%+03d ", ((int8_t*)buffer)[i]);
629
        break;
630
      case S16:
631
        chprintf(chp, "%+05d ", ((int16_t*)buffer)[i]);
632
        break;
633
      case S32:
634
        chprintf(chp, "%+010d ", ((int32_t*)buffer)[i]);
635
        break;
636
      default:
637
        break;
638
    }
639
  }
640
  chprintf(chp, "\n");
641
642
  return;
643
}
644
645
void shellRequestSetVcnlOffset(BaseSequentialStream *chp, int argc, char *argv[]) {
646
  chprintf(chp, "shellRequestSetVcnlOffset\n");
647
  if (argc != 2) {
648
    chprintf(chp, "Usage: %s\n","set_vcnl <idx> <offset>");
649
    return;
650
  }
651
652
  uint8_t vcnlIdx = static_cast<uint8_t>(atoi(argv[0]));
653
  uint16_t vcnlOffset = static_cast<uint16_t>(atoi(argv[1]));
654
655
  if (vcnlIdx >= global.vcnl4020.size()) {
656
    chprintf((BaseSequentialStream *)&SD1, "Wrong VCNL index: Choose [0 .. %d]\n", global.vcnl4020.size()-1);
657
    return;
658
  }
659
660
  msg_t res = global.memory.setVcnl4020Offset(vcnlOffset, vcnlIdx);
661
  if (res != global.memory.OK) {
662
    chprintf(chp, "Set Offset: FAIL\n");
663
  } else {
664
    chprintf(chp, "Set Offset: OK\n");
665
    global.vcnl4020[vcnlIdx].setProximityOffset(vcnlOffset);
666
  }
667
}
668
669
void shellRequestResetVcnlOffset(BaseSequentialStream *chp, int argc, char *argv[]) {
670
  msg_t res = global.memory.OK;
671
  for (uint8_t idx = 0; idx < 8; ++idx) {
672
    msg_t r = global.memory.setVcnl4020Offset(0, idx);
673
    if (r == global.memory.OK) {
674
      global.vcnl4020[idx].setProximityOffset(0);
675
    } else {
676
      chprintf(chp, "Reset Offset %u: FAIL\n", idx);
677
      res = r;
678
    }
679
  }
680
681
  if (res == global.memory.OK) {
682
    chprintf(chp, "Reset Offset: DONE\n");
683
  }
684
685
  return;
686
}
687
688
void shellRequestGetVcnlOffset(BaseSequentialStream *chp, int argc, char *argv[]) {
689
  chprintf(chp, "shellRequestGetVcnlOffset\n");
690
  if (argc != 1) {
691
    chprintf(chp, "Usage: %s\n","get_vcnl_offset <idx>");
692
    return;
693
  }
694
695
  uint8_t vcnlIdx = static_cast<uint8_t>(atoi(argv[0]));
696
697
  if (vcnlIdx >= global.vcnl4020.size()) {
698
    chprintf((BaseSequentialStream *)&SD1, "Wrong VCNL index: Choose [0 .. %d]\n", global.vcnl4020.size()-1);
699
    return;
700
  }
701
702
  uint16_t vcnlOffset;
703
  msg_t res = global.memory.getVcnl4020Offset(&vcnlOffset, vcnlIdx);
704
  if (res != global.memory.OK) {
705
    chprintf(chp, "Get Offset: FAIL\n");
706
  } else {
707
    chprintf(chp, "Get Offset: OK \t Offset=%d\n", vcnlOffset);
708
  }
709
}
710
711
void shellRequestCheck(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) {
712
  chprintf(chp, "shellRequestCheck\n");
713
  boardPeripheryCheck(chp);
714
715
}
716
717
void shellRequestGetVcnl(BaseSequentialStream *chp, int argc, char *argv[]) {
718
  chprintf(chp, "shellRequestGetVcnl\n");
719
  // Print the sensor information
720
  if (argc != 1) {
721
    chprintf(chp, "Usage: %s\n","get_vcnl <rep>");
722
    return;
723
  }
724
  for (int32_t rep = 0x00; rep < atoi(argv[0]); ++rep) {
725
    for (uint8_t idx = 0x00; idx < global.vcnl4020.size(); idx++) {
726
     chprintf(chp, "%d: Ambi %d\tProx raw %d\tProx scaled %d\n", idx, global.vcnl4020[idx].getAmbientLight(), global.vcnl4020[idx].getProximity(), global.vcnl4020[idx].getProximityScaledWoOffset());
727
    }
728
    chprintf(chp, "\n\n");
729
    BaseThread::sleep(MS2ST(250));
730
  }
731
}
732
733
void shellRequestCalib(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) {
734
  chprintf(chp, "shellRequestCalib\n");
735
  global.robot.calibrate();
736
737
}
738
739
void shellRequestGetRobotId(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) {
740
  chprintf(chp, "shellRequestGetRobotId\n");
741
  chprintf(chp, "Robot ID: %u\n", global.robot.getRobotID());
742
  if (global.robot.getRobotID() == 0) {
743
    chprintf(chp, "Warning: The ID seems to be uninitialized. Is CAN communication working correctly?\n");
744
  }
745
}
746
747
void shellRequestGetSystemLoad(BaseSequentialStream *chp, int argc, char *argv[]) {
748
  chprintf(chp, "shellRequestGetSystemLoad\n");
749
  uint8_t seconds = 1;
750
  if (argc >= 1) {
751
    seconds = atoi(argv[0]);
752
  }
753
  chprintf(chp, "measuring CPU load for %u %s...\n", seconds, (seconds>1)? "seconds" : "second");
754
755
  const systime_t before = chThdGetTicks(chSysGetIdleThread());
756
  BaseThread::sleep(S2ST(seconds));
757
  const systime_t after = chThdGetTicks(chSysGetIdleThread());
758
  const float usage = 1.0f - (float(after - before) / float(seconds * CH_FREQUENCY));
759
760
  chprintf(chp, "CPU load: %3.2f%%\n", usage * 100);
761
  const uint32_t memory_total = 0x1C000;
762
  const uint32_t memory_load = memory_total - chCoreStatus();
763
  chprintf(chp, "RAM load: %3.2f%% (%u / %u Byte)\n", float(memory_load)/float(memory_total) * 100, memory_load, memory_total);
764
}
765
766
void shellRequestSetCharging(BaseSequentialStream *chp, int argc, char *argv[]) {
767
  chprintf(chp, "shellRequestSetCharging\n");
768
  if (argc < 1) {
769
    chprintf(chp, "Usage: %s\n","set_charging <enable>");
770
    chprintf(chp, "\n");
771
    chprintf(chp, "\tenable\n");
772
    chprintf(chp, "Whether to enable (1) or to disable (0) the power path controller of the DiWheelDrive board.\n");
773
    chprintf(chp, "\n");
774
    return;
775
  }
776
777
  const bool enable = atoi(argv[0]);
778
  chprintf(chp, "%s power path controller\n", enable ? "enabling" : "disabling");
779
  global.robot.getPowerStatus().charging_flags.content.diwheeldrive_enable_power_path = enable;
780
781
  return;
782
}
783
784
void shellRequestPrintVCNL(BaseSequentialStream *chp, int argc, char *argv[]) {
785
  chprintf(chp, "shellRequestPrintVCNL\n");
786
  if (argc < 1) {
787
    chprintf(chp, "Warning: no arguments specified.\n");
788
    chprintf(chp, "Using default values (prints one measurement).\n");
789
    chprintf(chp, "Type 'print_vcnl help' for help.\n");
790
    chprintf(chp, "----------------------------------------\n");
791
  }
792
793
  if (strcmp(argv[0],"help") == 0) {
794
    chprintf(chp, "Usage: %s\n","print_vcnl [<seconds>] [<frequency>]");
795
    chprintf(chp, "\n");
796
    chprintf(chp, "\tseconds\n");
797
    chprintf(chp, "Number of seconds to print the VCNL values. (default: 1)\n");
798
    chprintf(chp, "\n");
799
    chprintf(chp, "\tfrequency\n");
800
    chprintf(chp, "Number prints per second. (default: 1)\n");
801
    return;
802
  }
803
804
  const uint32_t seconds = (argc >= 1) ? atoi(argv[0]) : 1;
805
  const uint32_t freq = (argc >= 2) ? atoi(argv[1]) : 1;
806
807
  uint16_t ambient = 0;
808
  uint16_t proximity = 0;
809
810
  for (uint32_t loop = 0; loop < seconds*freq; ++loop) {
811
    // Print proximity and ambilight values
812
    for (uint8_t i = 0x00; i < global.vcnl4020.size(); ++i) {
813
      ambient = global.vcnl4020[i].getAmbientLight();
814
      proximity = global.vcnl4020[i].getProximity();
815
      chprintf(chp, "#%d: ambient=0x%04X\tproximity=0x%04X\n", i, ambient, proximity);
816
    }
817
    chprintf(chp, "----------------------------------------\n");
818
819
    BaseThread::sleep(US2ST(1000000 / freq));
820
  }
821
822
  return;
823
}
824
825
void shellSwitchBoardCmd(BaseSequentialStream *chp, int argc, char *argv[]) {
826
  if (argc != 1) {
827
    chprintf(chp, "Call with decimal numbers: shell_board <idx>\n");
828
    return;
829
  }
830
  uint8_t boardIdx = static_cast<uint8_t>(atoi(argv[0]));
831
832
  chprintf(chp, "shellSwitchBoardCmd\n");
833
  global.sercanmux1.sendSwitchCmd(boardIdx);
834
}
835
836
void shellRequestGetBootloaderInfo(BaseSequentialStream* chp, int argc, char *argv[]) {
837
  // check the magic number
838 10687985 Thomas Schöpping
  switch (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR))) {
839
    case (('A'<<24) | ('-'<<16) | ('B'<<8) | ('L'<<0)):
840
      chprintf((BaseSequentialStream*) &SD1, "Bootloader %u.%u.%u\n",
841
               ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->major,
842
               ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->minor,
843
               ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->patch);
844
      break;
845
846
    case BL_MAGIC_NUMBER:
847
      chprintf((BaseSequentialStream*) &SD1, "Bootloader %u.%u.%u\n",
848
               *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))),
849
               *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))),
850
               *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))));
851
      break;
852
853
    default:
854
      chprintf((BaseSequentialStream*) &SD1, "Bootloader incompatible\n");
855
      break;
856 58fe0e0b Thomas Schöpping
  }
857
858
  return;
859
}
860
861 61b0791a Thomas Schöpping
void shellRequestWiiSteering(BaseSequentialStream* chp, int argc, char *argv[]) {
862
  // if Wii steering is currently active, stop it
863
  if (global.userThread.getCurrenState() == UserThread::WII_STEERING) {
864
    global.userThread.setNextState(UserThread::IDLE);
865
  }
866
  // check arguments and (try to) enable Wii steering
867
  else {
868
    // if arguments invalid
869
    if (argc < 1 || argc > 2 || global.userThread.setWiiAddress(argv[0]) != RDY_OK) {
870
      chprintf(chp, "Warning: invalid arguments\n");
871
      chprintf(chp, "Usage: %s\n", "wii_steering <address> [<deadzone>]");
872
      chprintf(chp, "\n");
873
      chprintf(chp, "\taddress\n");
874
      chprintf(chp, "bluetooth address of the Wiimote controller to pair with.\n");
875
      chprintf(chp, "\tdeadzone\n");
876
      chprintf(chp, "deadzone to set for the Wiimote controller [default = 10%%].\n");
877
      return;
878
    }
879
    else {
880
      // set deadzone
881
      const float deadzone = global.userThread.setWiiDeadzone((argc == 2) ? std::atof(argv[1]) : 0.1f);
882
      chprintf(chp, "deadzone set to %u%%\n", (unsigned int)(deadzone * 100.0f));
883
884
      // start Wii steering behaviour
885
      global.userThread.setNextState(UserThread::WII_STEERING);
886
    }
887
  }
888
  return;
889
}
890
891 f12b953d galberding
892 a0033dcb galberding
void shellRequestSetGlobalStrategy(BaseSequentialStream *chp, int argc, char *argv[]){
893 f12b953d galberding
  uint8_t strategy = 0;
894
  if(argc == 1){
895
    strategy = atoi(argv[0]); 
896
  }
897
  // send over can
898
  // global.strategyTest = strategy;
899
  // global.triggerCan = true;
900
  global.robot.setStrategy(strategy);
901
}
902
903 a0033dcb galberding
void shellRequestGetPower(BaseSequentialStream *chp, int argc, char *argv[]){
904
905
  // send over can
906
  // global.strategyTest = strategy;
907
  // global.triggerCan = true;
908
  types::power_status state = global.robot.getPowerStatus();
909
  global.bq27500[constants::PowerManagement::BAT_A].selftest();
910
  chprintf(chp, "-----------------------------------------------\n");
911
  global.bq27500[constants::PowerManagement::BAT_B].selftest();
912
  chprintf(chp, "State of charge: %d\n", state.state_of_charge);
913
}
914
915 f12b953d galberding
916 58fe0e0b Thomas Schöpping
static const ShellCommand commands[] = {
917
  {"shutdown", shellRequestShutdown},
918
  {"check", shellRequestCheck},
919
  {"reset_memory", shellRequestResetMemory},
920
  {"get_board_id", shellRequestGetBoardId},
921
  {"set_board_id", shellRequestSetBoardId},
922
  {"get_memory_data", shellRequestGetMemoryData},
923
  {"get_vcnl", shellRequestGetVcnl},
924
  {"calib_vcnl_offset", shellRequestCalib},
925
  {"set_vcnl_offset", shellRequestSetVcnlOffset},
926
  {"reset_vcnl_offset", shellRequestResetVcnlOffset},
927
  {"get_vcnl_offset", shellRequestGetVcnlOffset},
928
  {"get_robot_id", shellRequestGetRobotId},
929
  {"get_system_load", shellRequestGetSystemLoad},
930
  {"set_charging", shellRequestSetCharging},
931
  {"print_vcnl", shellRequestPrintVCNL},
932
  {"shell_board", shellSwitchBoardCmd},
933
  {"get_bootloader_info", shellRequestGetBootloaderInfo},
934 61b0791a Thomas Schöpping
  {"wii_steering", shellRequestWiiSteering},
935 a0033dcb galberding
  {"setStrategy", shellRequestSetGlobalStrategy},
936
  {"getBatteryState", shellRequestGetPower},
937 58fe0e0b Thomas Schöpping
  {NULL, NULL}
938
};
939
940
static const ShellConfig shell_cfg1 = {
941
  (BaseSequentialStream *) &global.sercanmux1,
942
  commands
943
};
944
945
void charger_logic() {
946
  /*
947
   * if supply connected, activate charger, else
948
   * deactivate charger
949
   */
950
  if (global.ltc4412.isPluggedIn()) {
951
    boardChargerSetState(0x03u, 1), chprintf((BaseSequentialStream*) &SD1, "Charging.\n");
952
  } else {
953
    boardChargerSetState(0x03u, 0), chprintf((BaseSequentialStream*) &SD1, "Not charging.\n");
954
  }
955
}
956
957
void init_powermonitor(INA219::Driver &ina219, const float shunt_resistance_O, const float max_expected_current_A, const uint16_t current_lsb_uA)
958
{
959
  INA219::CalibData calib_data;
960
  INA219::InitData init_data;
961
962
  calib_data.input.configuration.content.brng = INA219::Configuration::BRNG_16V;
963
  calib_data.input.configuration.content.pg = INA219::Configuration::PGA_40mV;
964
  calib_data.input.configuration.content.badc = INA219::Configuration::ADC_68100us;
965
  calib_data.input.configuration.content.sadc = INA219::Configuration::ADC_68100us;
966
  calib_data.input.configuration.content.mode = INA219::Configuration::MODE_ShuntBus_Continuous;
967
  calib_data.input.shunt_resistance_O = shunt_resistance_O;
968
  calib_data.input.max_expected_current_A = max_expected_current_A;
969
  calib_data.input.current_lsb_uA = current_lsb_uA;
970
  if (ina219.calibration(&calib_data) != BaseSensor<>::SUCCESS)
971
    chprintf((BaseSequentialStream*)&SD1, "WARNING: calibration of INA219 failed.\n");
972
973
  init_data.configuration.value = calib_data.input.configuration.value;
974
  init_data.calibration = calib_data.output.calibration_value;
975
  init_data.current_lsb_uA = calib_data.output.current_lsb_uA;
976
  if (ina219.init(&init_data) != BaseSensor<>::SUCCESS)
977
    chprintf((BaseSequentialStream*)&SD1, "WARNING: initialization of INA219 failed.\n");
978
979
  if (calib_data.input.current_lsb_uA != init_data.current_lsb_uA)
980
  {
981
    chprintf((BaseSequentialStream*)&SD1, "NOTE: LSB for current measurement was limited when initializing INA219 (%u -> %u)", calib_data.input.current_lsb_uA, init_data.current_lsb_uA);
982
  }
983
984
  return;
985
}
986
987
/*
988
 * Application entry point.
989
 */
990
int main(void) {
991
992
  Thread *shelltp = NULL;
993
994
  /*
995
   * System initializations.
996
   * - HAL initialization, this also initializes the configured device drivers
997
   *   and performs the board-specific initializations.
998
   * - Kernel initialization, the main() function becomes a thread and the
999
   *   RTOS is active.
1000
   */
1001
  halInit();
1002
  System::init();
1003
1004
  /*
1005
   * TODO: detect the reason why the system was started by reading the 1st backup register of the RTC.
1006
   *       To do that, it is probably required to extend the RTC LLD by the required methods.
1007
   *       For further details, how to interprete the data in the backu register, please have a look at the bootloader project.
1008
   */
1009
1010
  /*
1011
   * Activates the serial driver 1 using the driver default configuration.
1012
   */
1013
  sdStart(&SD1, &global.sd1_config);
1014
1015
  chprintf((BaseSequentialStream*) &SD1, "\n");
1016
  chprintf((BaseSequentialStream*) &SD1, BOARD_NAME " " BOARD_VERSION "\n");
1017 10687985 Thomas Schöpping
  switch (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR))) {
1018
    case (('A'<<24) | ('-'<<16) | ('B'<<8) | ('L'<<0)):
1019
      chprintf((BaseSequentialStream*) &SD1, "Bootloader %u.%u.%u\n",
1020
               ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->major,
1021
               ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->minor,
1022
               ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->patch);
1023
      break;
1024
1025
    case BL_MAGIC_NUMBER:
1026
      chprintf((BaseSequentialStream*) &SD1, "Bootloader %u.%u.%u\n",
1027
               *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))),
1028
               *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))),
1029
               *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))));
1030
      break;
1031
1032
    default:
1033
      chprintf((BaseSequentialStream*) &SD1, "Bootloader incompatible\n");
1034
      break;
1035 58fe0e0b Thomas Schöpping
  }
1036
  chprintf((BaseSequentialStream*) &SD1, "ChibiOS " CH_KERNEL_VERSION "\n");
1037
  // make sure that the info text is completetly printed
1038
  BaseThread::sleep(10);
1039
1040
//  boardWriteSystemPower(1);
1041
//  boardWriteIoPower(1);
1042
//  boardWriteWarmRestart(0);
1043
1044
  global.robot.start(HIGHPRIO - 1);
1045
1046
  pwmStart(&PWMD3, &global.pwm3_config);
1047
  pwmDisableChannel(&PWMD3, 1);
1048
1049
  adcStart(&ADCD1, NULL);
1050
1051
  extStart(&EXTD1, &extcfg);
1052
1053 b4885314 Thomas Schöpping
  boardClearI2CBus(GPIOB_GAUGE_SCL1, GPIOB_GAUGE_SDA1);
1054
  boardClearI2CBus(GPIOB_GAUGE_SCL2, GPIOB_GAUGE_SDA2);
1055 58fe0e0b Thomas Schöpping
1056
  global.HW_I2C1.start(&global.i2c1_config);
1057
  global.HW_I2C2.start(&global.i2c2_config);
1058
1059 b4885314 Thomas Schöpping
  uint16_t i2c_test = 0;
1060
  while (global.ina219[INA_VIO18].readRegister(INA219::Driver::REG_BUS_VOLTAGE, i2c_test) != RDY_OK) {
1061
    chprintf((BaseSequentialStream*)&global.sercanmux1, "I2C #1 stalled! trying to clear the bus... (this will take 20 seconds)\n");
1062
    boardWriteLed(1);
1063
    boardResetBQ27500I2C(GPIOB_GAUGE_SCL2, GPIOB_GAUGE_SDA2);
1064
    boardWriteLed(0);
1065
  }
1066
  while (global.ina219[INA_VDD].readRegister(INA219::Driver::REG_BUS_VOLTAGE, i2c_test) != RDY_OK) {
1067
    chprintf((BaseSequentialStream*)&global.sercanmux1, "I2C #2 stalled! trying to clear the bus... (this will take 20 seconds)\n");
1068
    boardWriteLed(1);
1069
    boardResetBQ27500I2C(GPIOB_GAUGE_SCL1, GPIOB_GAUGE_SDA1);
1070
    boardWriteLed(0);
1071
  }
1072
1073 58fe0e0b Thomas Schöpping
  global.memory.init();
1074
  uint8_t i = 0;
1075
  if (global.memory.getBoardId(&i) == fileSystemIo::FileSystemIoBase::OK) {
1076
    chprintf((BaseSequentialStream*) &SD1, "Board ID: %u\n", i);
1077
  } else {
1078
    chprintf((BaseSequentialStream*) &SD1, "Error reading board ID\n");
1079
  }
1080
  chprintf((BaseSequentialStream*) &SD1, "\n");
1081
1082
  shelltp = shellCreate(&shell_cfg1, THD_WA_SIZE(1024), NORMALPRIO);
1083
1084
  // initialize the power monitors
1085
  init_powermonitor(global.ina219[INA_VDD], 0.1f, 0.075f, 10);
1086
  init_powermonitor(global.ina219[INA_VIO18], 0.01f, 1.5f, 100);
1087
  init_powermonitor(global.ina219[INA_VIO33], 0.01f, 1.5f, 100);
1088
  init_powermonitor(global.ina219[INA_VIO42], 0.01f, 1.5f, 100);
1089
  init_powermonitor(global.ina219[INA_VIO50], 0.01f, 1.5f, 100);
1090
1091
  // start the ADC watchdog
1092
  global.adc1_vsys.start(NORMALPRIO);
1093
1094
  // start the ina threads
1095
  for (i = 0; i < global.ina219.size(); ++i)
1096
    global.ina219[i].start(NORMALPRIO);
1097
1098
//  // calibrate the fuel gauges (TODO)
1099
//  BQ27500::CalibData bq27500_calib_data;
1100
//  bq27500_p7.calibration(&bq27500_calib_data);
1101
1102
  // start the fuel gauge threads
1103
  for (i = 0; i < global.bq27500.size(); ++i)
1104
    global.bq27500[i].start(NORMALPRIO);
1105
1106
  // start the proximity sensor threads
1107
  for (i = 0; i < global.vcnl4020.size(); ++i) {
1108
    uint16_t buffer;
1109
    global.memory.getVcnl4020Offset(&buffer,i);
1110
    global.vcnl4020[i].setProximityOffset(buffer);
1111
    global.vcnl4020[i].start(NORMALPRIO);
1112
  }
1113
1114
  /* Start uart port connecting bluetooth chip */
1115
  global.wt12.bluetoothStart();
1116
1117
  global.mpr121.configure(&global.mpr121_run_config);
1118
  global.mpr121.start(NORMALPRIO);
1119
1120
  global.userThread.start(NORMALPRIO);
1121
1122
  /* let the SYS_SYNC_N pin go, to signal that the initialization of the module is done */
1123
  palWritePad(GPIOC, GPIOC_SYS_INT_N, PAL_HIGH);
1124
1125
  /* wait until all modules are done */
1126
  while (palReadPad(GPIOC, GPIOC_SYS_INT_N) == PAL_LOW) {
1127
    continue;
1128
  }
1129
1130
  while (true) {
1131
1132
    if (!shelltp)
1133
      shelltp = shellCreate(&shell_cfg1, THD_WA_SIZE(1024), NORMALPRIO);
1134
    else if (chThdTerminated(shelltp)) {
1135
      chThdRelease(shelltp); /* Recovers memory of the previous shell. */
1136
      shelltp = NULL; /* Triggers spawning of a new shell.      */
1137
    }
1138
1139
    // Let the LED just blink as an alive signal
1140
    boardWriteLed(1);
1141
    BaseThread::sleep(MS2ST(250));
1142
    boardWriteLed(0);
1143
    BaseThread::sleep(MS2ST(250));
1144
1145
    /*
1146
     * Charger logic before shutdown logic,
1147
     * so we don't need to call it twice.
1148
     */
1149
    if (pathdc_change) {
1150
      pathdc_change = 0x00u;
1151
//      charger_logic();
1152
    }
1153
1154
    /*
1155
     * Shutdown logic before user logic,
1156
     * so user does not get hopes up and
1157
     * prepares wheels to drive into the
1158
     * next wall or something like that.
1159
     */
1160
    if (shutdown_now != SHUTDOWN_NONE) {
1161 10687985 Thomas Schöpping
      if ((*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) != (('A'<<24) | ('-'<<16) | ('B'<<8) | ('L'<<0))) && (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) != BL_MAGIC_NUMBER)) {
1162 58fe0e0b Thomas Schöpping
        chprintf((BaseSequentialStream*) &SD1, "ERROR: unable to shut down (bootloader deprecated).\n");
1163
        shutdown_now = SHUTDOWN_NONE;
1164
      } else {
1165
        uint32_t blCallbackPtrAddr = BL_CALLBACK_TABLE_ADDR;
1166 10687985 Thomas Schöpping
        // handle bootloader version 0.2.x
1167
        if ((*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) == BL_MAGIC_NUMBER) &&
1168
            (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))) == 0 && *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (2*4))) == 2)) {
1169 58fe0e0b Thomas Schöpping
          switch (shutdown_now) {
1170
            case SHUTDOWN_TRANSPORTATION:
1171
              blCallbackPtrAddr += 6 * 4;
1172
              break;
1173
            case SHUTDOWN_DEEPSLEEP:
1174
              blCallbackPtrAddr += 5 * 4;
1175
              break;
1176
            case SHUTDOWN_HIBERNATE:
1177
              blCallbackPtrAddr += 4 * 4;
1178
              break;
1179
            case SHUTDOWN_HANDLE_REQUEST:
1180
            case SHUTDOWN_RESTART:
1181
              blCallbackPtrAddr += 10 * 4;
1182
              break;
1183
            default:
1184
              blCallbackPtrAddr = 0;
1185
              break;
1186
          }
1187 10687985 Thomas Schöpping
        }
1188
        // handle bootloader version 0.3.x
1189
        else if ((*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) == BL_MAGIC_NUMBER) &&
1190
                 (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))) == 0 && *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (2*4))) == 3)) {
1191
          switch (shutdown_now) {
1192
            case SHUTDOWN_TRANSPORTATION:
1193
              blCallbackPtrAddr += 6 * 4;
1194
              break;
1195
            case SHUTDOWN_DEEPSLEEP:
1196
              blCallbackPtrAddr += 5 * 4;
1197
              break;
1198
            case SHUTDOWN_HIBERNATE:
1199
              blCallbackPtrAddr += 4 * 4;
1200
              break;
1201
            case SHUTDOWN_RESTART:
1202
              blCallbackPtrAddr += 7 * 4;
1203
              break;
1204
            case SHUTDOWN_HANDLE_REQUEST:
1205
              blCallbackPtrAddr += 8 * 4;
1206
              break;
1207
            default:
1208
              blCallbackPtrAddr = 0;
1209
              break;
1210
          }
1211
        }
1212 5b1b6715 Thomas Schöpping
        // handle bootloader version 1.0.x and 1.1.x
1213 10687985 Thomas Schöpping
        else if ((*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) == (('A'<<24) | ('-'<<16) | ('B'<<8) | ('L'<<0))) &&
1214 5b1b6715 Thomas Schöpping
                 ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->major == 1 && (((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->minor == 0 || ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->minor == 1)) {
1215 58fe0e0b Thomas Schöpping
          switch (shutdown_now) {
1216
            case SHUTDOWN_TRANSPORTATION:
1217
              blCallbackPtrAddr += 6 * 4;
1218
              break;
1219
            case SHUTDOWN_DEEPSLEEP:
1220
              blCallbackPtrAddr += 5 * 4;
1221
              break;
1222
            case SHUTDOWN_HIBERNATE:
1223
              blCallbackPtrAddr += 4 * 4;
1224
              break;
1225
            case SHUTDOWN_RESTART:
1226
              blCallbackPtrAddr += 7 * 4;
1227
              break;
1228
            case SHUTDOWN_HANDLE_REQUEST:
1229
              blCallbackPtrAddr += 8 * 4;
1230
              break;
1231
            default:
1232
              blCallbackPtrAddr = 0;
1233
              break;
1234
          }
1235
        }
1236
1237
        void (*blCallback)(void) = NULL;
1238 10687985 Thomas Schöpping
        if (blCallbackPtrAddr > BL_CALLBACK_TABLE_ADDR) {
1239 58fe0e0b Thomas Schöpping
          blCallback = (void (*)(void))(*((uint32_t*)blCallbackPtrAddr));
1240
1241
          if (!blCallback) {
1242
            chprintf((BaseSequentialStream*) &SD1, "ERROR: Requested shutdown not supported.\n");
1243
            shutdown_now = SHUTDOWN_NONE;
1244
          } else {
1245
            chprintf((BaseSequentialStream*) &SD1, "initiating shutdown sequence...\n");
1246
            palWritePad(GPIOC, GPIOC_SYS_INT_N, PAL_LOW);
1247
            palWritePad(GPIOC, GPIOC_SYS_PD_N, PAL_LOW);
1248
1249
            chprintf((BaseSequentialStream*) &SD1, "stopping all threads and periphery...");
1250
            systemStop();
1251
            chprintf((BaseSequentialStream*) &SD1, "\tdone\n");
1252
            BaseThread::sleep(MS2ST(10)); // sleep to print everything
1253
1254
            blCallback();
1255
          }
1256
1257
        } else {
1258
          chprintf((BaseSequentialStream*) &SD1, "ERROR: invalid shutdown requested (%u).\n", shutdown_now);
1259
          shutdown_now = SHUTDOWN_NONE;
1260
        }
1261
      }
1262
1263
//      shutdown_now = 0x00u;
1264
//      if (palReadPad(GPIOC, GPIOC_PATH_DC))
1265
//        systemStop();
1266
//      else
1267
//        systemShutdown();
1268
//      //boardStop(0x00u, 0x00u);
1269
//      //chprintf((BaseSequentialStream*) &SD1, "Stop exit\n");
1270
    }
1271
1272
  }
1273
1274
  global.HW_I2C2.stop();
1275
  global.HW_I2C1.stop();
1276
1277
  return 0;
1278
}