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amiro-os / components / serial_reset / serial_can_mux.cpp @ 0f37fb41

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1 58fe0e0b Thomas Schöpping
#include <ch.h>
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#include <hal.h>
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#include <string.h>  // memcpy
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#include <chprintf.h>
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#include <amiro/Constants.h>
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#include <amiro/serial_reset/serial_can_mux.hpp>
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using namespace amiro;
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using namespace chibios_rt;
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SerialCanMux::SerialCanMux(SerialDriver *_sd_, CANDriver *can, const uint8_t boardId)
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  : BaseSequentialStreamInterface(),
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    sd_(_sd_),
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    canDriver(can)
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{
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//    oqueue(ob, 500, NULL, NULL);
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    myID = boardId;
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    queryShellID = boardId;
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    replyShellID = boardId;
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    resetStatus = 0;
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    resetAddBytes = 0;
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    txmsg.IDE = CAN_IDE_STD;
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    txmsg.RTR = CAN_RTR_DATA;
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    txmsg.DLC = 0;
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}
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SerialCanMux::~SerialCanMux() {
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};
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/*
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 * resets system for entering in bootloader.
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 */
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void SerialCanMux::restartSystem(void) {
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  //TODO Set reset SYS_PD_N
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  NVIC_SystemReset();
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}
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/*
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 * checks bytes for reset command sequence.
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 * if the last byte and the following identification number of the device have been sent,
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 * the microcontroller will be reset
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 */
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bool SerialCanMux::checkByteForBLReset(uint8_t *inputs, size_t size) {
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  /* Run throug all given bytes */
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  for (size_t idx=0; idx < size; idx++) {
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    uint8_t input = *(inputs+idx);
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    /*
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     * if the last byte of reset command sequence has not been sent yet,
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     * check new byte and handle reset status
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     */
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    if (resetStatus < INPUT_BL_RESET_LENGTH) {
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      if (input == inputBLReset[resetStatus]) {
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        resetStatus++;
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        if (resetStatus == INPUT_BL_RESET_LENGTH) {
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          chprintf((BaseSequentialStream*)sd_, "\n\nDo reset ...\n\n");
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          uint8_t ledCount;
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          for (ledCount=0; ledCount<20; ledCount++) {
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//            boardWriteLed(1);
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            chThdSleepMilliseconds(100);
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//            boardWriteLed(0);
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            chThdSleepMilliseconds(100);
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          }
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          restartSystem();
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        }
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      } else {
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        resetStatus = 0;
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        resetAddBytes = 0;
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      }
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    /*
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     * if the last byte of reset command sequence has been sent,
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     * save new byte as identification number of the device which shall be flashed and
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     * reset microcontroller
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     */
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    } else {
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      inputAddBytes[resetAddBytes] = input;
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      resetAddBytes++;
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      if (resetAddBytes >= INPUT_BL_RESET_ADDITIONAL_BYTES) {
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        chprintf((BaseSequentialStream*)sd_, "\n\nAt device %x: Do reset ...\n\n", input);
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        chThdSleepMilliseconds(OFFSET_TIME_RESET_MS);
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        restartSystem();
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      }
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    }
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  }
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  return (resetStatus > 0);
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}
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msg_t SerialCanMux::sendViaCan(uint32_t id, uint8_t *inputs, size_t size) {
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  msg_t status;
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  txmsg.SID = (id << CAN::DEVICE_ID_SHIFT) | myID;
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  for (size_t i=0; i<size; i+=8) {
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    txmsg.DLC = (size < (i + 8)) ? size-i : 8;
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    memcpy(txmsg.data8, &inputs[i], txmsg.DLC);
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    status = canTransmit(canDriver, CAN_TX_MAILBOXES, &txmsg, TIME_INFINITE);
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    if (status!= RDY_OK)
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      return status;
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  }
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  return RDY_OK;
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}
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//----------------------------------------------------------------
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/*
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 * Interface implementation.
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 */
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size_t SerialCanMux::write(const uint8_t *bp, size_t n) {
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  size_t size;
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  if (myID != replyShellID) {
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     msg_t status = sendViaCan(CAN::SHELL_REPLY_ID(replyShellID), (uint8_t *)bp, n);
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     BaseThread::sleep(US2ST(500));
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     size = (status == RDY_OK) ? n : 0;
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  } else {
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    size = sdWrite(sd_, bp, n);
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  }
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  return size;
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}
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size_t SerialCanMux::read(uint8_t *bp, size_t n) {
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  size_t size = sdRead(sd_, inputChar, n);
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  checkByteForBLReset(inputChar, size);
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  if (myID != queryShellID)
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    sendViaCan(CAN::SHELL_QUERY_ID(queryShellID),inputChar, size);
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  else
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    memcpy(bp, inputChar, size);
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  return size;
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}
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msg_t SerialCanMux::put(uint8_t b) {
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  msg_t byte;
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  if (myID != replyShellID) {
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    byte = sendViaCan(CAN::SHELL_REPLY_ID(replyShellID), &b, 1);
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    BaseThread::sleep(US2ST(200));
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  } else {
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    byte = sdPut(sd_, b);
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  }
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  return byte;
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}
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msg_t SerialCanMux::get(void) {
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  msg_t byte = sdGet(sd_);
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  uint8_t b = (uint8_t) byte;
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  checkByteForBLReset(&b, 1);
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  if (myID != queryShellID)
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    sendViaCan(CAN::SHELL_QUERY_ID(queryShellID), &b, 1);
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  return byte;
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}
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//----------------------------------------------------------------
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/*
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 * Converse data from CAN bus into input queue of serial driver.
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 */
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void SerialCanMux::convCan2Serial(uint8_t *data_can, size_t n) {
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  chSysLock();
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  for (size_t i=0; i < n; i++)
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     sdIncomingDataI(sd_, data_can[i]);
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  chSysUnlock();
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}
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void SerialCanMux::sendSwitchCmd(uint8_t setid) {
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  if (myID == setid)
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    chprintf((BaseSequentialStream*)sd_, "Stay at the same shell\n");
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  else if (replyShellID == setid)
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    chprintf((BaseSequentialStream*)sd_, "Switch to the own shell\n");
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  else
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    chprintf((BaseSequentialStream*)sd_, "Switch to the shell on board %d\n", setid);
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  if (myID != setid) {
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    if (replyShellID != setid)  {
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      // To set the new remote shell via CAN bus.
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      txmsg.SID = ((CAN::SHELL_QUERY_ID(setid)) << CAN::DEVICE_ID_SHIFT) | replyShellID;
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      txmsg.DLC = 0;
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      canTransmit(canDriver, CAN_TX_MAILBOXES, &txmsg, US2ST(545));
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    }
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    if (replyShellID == myID) {
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      queryShellID = setid;
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    } else {
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      if (replyShellID == setid)
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        // To return the own shell via CAN bus.
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        txmsg.SID = ((CAN::SHELL_QUERY_ID(replyShellID)) << CAN::DEVICE_ID_SHIFT) | replyShellID;
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      else
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        // To set the serial board to the new remote shell.
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        txmsg.SID = ((CAN::SHELL_QUERY_ID(replyShellID)) << CAN::DEVICE_ID_SHIFT) | setid;
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      txmsg.DLC = 0;
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      canTransmit(canDriver, CAN_TX_MAILBOXES, &txmsg, US2ST(545));
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      replyShellID = myID;
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    }
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  }
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}
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void SerialCanMux::rcvSwitchCmd(uint8_t setid) {
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  if (myID == setid) {
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    chprintf((BaseSequentialStream*)sd_, "\nReturn own shell\n\n");
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    queryShellID = setid;
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  } else if (myID != queryShellID) {
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    chprintf((BaseSequentialStream*)sd_, "\nSwitch to the shell on board %d\n", setid);
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    queryShellID = setid;
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  } else {
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    chprintf((BaseSequentialStream*)sd_, "\nShell shown in board %d\n\n", setid);
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    replyShellID = setid;
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  }
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}