Ejemplo n.º 1
0
/**
 * Clears the serial receive buffer.
 */
void CARVIIHub::ClearAllRcvBuf(MM::Device& device, MM::Core& core) {
    // Read whatever has been received so far:
    unsigned long read;
    core.ReadFromSerial(&device, port_.c_str(), (unsigned char*) rcvBuf_, RCV_BUF_LENGTH, read);
    // Delete it all:
    memset(rcvBuf_, 0, RCV_BUF_LENGTH);
}
Ejemplo n.º 2
0
//
// General utility function
//
int ClearPort(MM::Device& device, MM::Core& core, const char* sPort)
{
    // Clear contents of serial port 
    const int nBufSize = 255;
    unsigned char sClear[nBufSize];                                                        
    unsigned long lRead = nBufSize;                                               
    int ret;

    // reset the communication port buffer
    while ((int) lRead == nBufSize)                                                     
    { 
        // reading from the serial port
        ret = core.ReadFromSerial(&device, sPort, sClear, nBufSize, lRead);

        std::ostringstream sMessage;
        sMessage << "<nPC400::ClearPort> port = (" <<  sPort << ") :: clearBuffer(" << lRead << ")  = (" << sClear << ")";
        core.LogMessage(&device, sMessage.str().c_str(), false);

        // verify the read operation
        if (ret != DEVICE_OK) return ret;                                                           
    } 

    // upon successful restting the port
    return DEVICE_OK;                                                           
} 
Ejemplo n.º 3
0
int ASIFW1000Hub::FilterWheelBusy(MM::Device& device, MM::Core& core, bool& busy)
{ 
   ClearAllRcvBuf(device, core);
   int ret = core.SetSerialCommand(&device, port_.c_str(), "?", "");
   if (ret != DEVICE_OK)                                                     
      return ret;                                                           

   unsigned long read = 0;
   MM::MMTime startTime = core.GetCurrentMMTime();
   while (read == 0 && ( (core.GetCurrentMMTime() - startTime) < 10000))
      ret = core.ReadFromSerial(&device, port_.c_str(), (unsigned char*)rcvBuf_, 1, read);  
   if (ret != DEVICE_OK)                                                     
      return ret;                                                           

   if (read != 1) {
      printf (" FilterWheel received no answer!\n");
      return ERR_NO_ANSWER;
   }

   if (rcvBuf_[0] == '0' || rcvBuf_[0] == '1' || rcvBuf_[0] =='2')
      busy = false;
   else
   if (rcvBuf_[0] == '3')
      busy = true;

   return DEVICE_OK;
}
/*
 * The Spectral LMM5 has a silly difference between USB and serial communication:
 * Commands can be sent straight to USB.  Commands to the serial port need to converted in some kind of weird ASCI:  The command "0x1A0xFF0x000x12<CR>" becomes "1AFF0012<CR>".  Presumably, the same weird conversion takes place on the way back.  We handle this translation in this function
 */
int SpectralLMM5Interface::ExecuteCommand(MM::Device& device, MM::Core& core, unsigned char* buf, unsigned long bufLen, unsigned char* answer, unsigned long answerLen, unsigned long& read) 
{
   int ret;
   if (portType_ == MM::SerialPort) 
   {
      std::string serialCommand;
      char tmp[3];
      tmp[2] = 0;
      for (unsigned long i=0; i<bufLen; i++) {
         sprintf(tmp, "%.2x", buf[i]);
         serialCommand += tmp;
      }
      ret = core.SetSerialCommand(&device, port_.c_str(), serialCommand.c_str(), "\r");
   } else  // check for USB port
   {
      ret = core.WriteToSerial(&device, port_.c_str(), buf, bufLen);
   }

   if (ret != DEVICE_OK)  
      return ret;
  
   if (portType_ == MM::SerialPort) 
   {
      char strAnswer[128];
      read = 0;
      ret = core.GetSerialAnswer(&device, port_.c_str(), 128, strAnswer, "\r");
      if (ret != DEVICE_OK)
         return ret;
      
      std::ostringstream os;
      os << "LMM5 answered: " << strAnswer << " Port status: " << ret;
      core.LogMessage(&device, os.str().c_str(), true);
   
      // 'translate' back into numbers:
      std::string tmp = strAnswer;
      for (unsigned int i=0; i < tmp.length()/2; i++) {
         char * end;
         long j = strtol(tmp.substr(i*2,2).c_str(), &end, 16);
         answer[i] = (unsigned char) j;
         read++;
      }
   } else if (portType_ == MM::HIDPort) 
   {
      // The USB port will attempt to read up to answerLen characters
      ret = core.ReadFromSerial(&device, port_.c_str(), answer, answerLen, read);
      if (ret != DEVICE_OK)
         return ret;

      /* 
       // Uncomment for debugging (although port should give the same info)
      std::ostringstream os;
      os << "LMM5 answered: " << std::hex << std::setfill('0');
      for (unsigned int i=0; i < read; i++)
         os << std::setw(2) << (unsigned int) answer[i] << " ";
      core.LogMessage(&device, os.str().c_str(), true);
      */
   }
   return DEVICE_OK;
}
/*
 * The Spectral LMM5 has a silly difference between USB and serial communication:
 * Commands can be sent straight to USB.  Commands to the serial port need to converted in some kind of weird ASCI:  The command "0x1A0xFF0x000x12<CR>" becomes "1AFF0012<CR>".  Presumably, the same weird conversion takes place on the way back.  We handle this translation in this function
 */
int SpectralLMM5Interface::ExecuteCommand(MM::Device& device, MM::Core& core, unsigned char* buf, unsigned long bufLen, unsigned char* answer, unsigned long answerLen, unsigned long& read) 
{
   int ret;
   if (portType_ == MM::SerialPort) 
   {
      std::string serialCommand;
      char tmp[3];
      tmp[2] = 0;
      for (unsigned long i=0; i<bufLen; i++) {
         sprintf(tmp, "%.2x", buf[i]);
         serialCommand += tmp;
      }
      ret = core.SetSerialCommand(&device, port_.c_str(), serialCommand.c_str(), "\r");
   } else  // check for USB port
   {
      unsigned char c[2];
      c[0]=0x01;
      c[1]=0x02;
      ret = core.WriteToSerial(&device, port_.c_str(), c, 2);
      //ret = core.WriteToSerial(&device, port_.c_str(), buf, bufLen);
   }

   if (ret != DEVICE_OK)  
      return ret;
  
   if (portType_ == MM::SerialPort) 
   {
      char strAnswer[128];
      read = 0;
      ret = core.GetSerialAnswer(&device, port_.c_str(), 128, strAnswer, "\r");
      if (ret != DEVICE_OK)
         return ret;
      std::ostringstream os;
      os << "LMM5 answered: " << strAnswer << " Port status: " << ret;
      core.LogMessage(&device, os.str().c_str(), true);
      // 'translate' back into numbers:
      std::string tmp = strAnswer;
      for (unsigned int i=0; i < tmp.length()/2; i++) {
         char * end;
         long j = strtol(tmp.substr(i*2,2).c_str(), &end, 16);
         answer[i] = (unsigned char) j;
         // printf("c:%x i:%u j:%ld\n", answer[i], i, j);
         read++;
      }
   } else // TODO: check that we have a USB port
   {
      // The USB port will attempt to read up to answerLen characters
      ret = core.ReadFromSerial(&device, port_.c_str(), answer, answerLen, read);
      if (ret != DEVICE_OK)
         return ret;
      std::ostringstream os;
      os << "LMM5 answered: ";
      for (unsigned int i=0; i < read; i++)
         os << std::hex << answer[i];
      os << std::endl;
      core.LogMessage(&device, os.str().c_str(), true);
   }
   return DEVICE_OK;
}
Ejemplo n.º 6
0
/**
 * Clears the serial receive buffer.
 */
void ASIFW1000Hub::ClearAllRcvBuf(MM::Device& device, MM::Core& core)
{
   // Read whatever has been received so far:
   unsigned long read = RCV_BUF_LENGTH;
   while (read == (unsigned long) RCV_BUF_LENGTH)
   {
      core.ReadFromSerial(&device, port_.c_str(), (unsigned char*)rcvBuf_, RCV_BUF_LENGTH,  read);
   }
   // Delete it all:
   memset(rcvBuf_, 0, RCV_BUF_LENGTH);
}
Ejemplo n.º 7
0
// General utility function:
int ClearPort(MM::Device& device, MM::Core& core, std::string port)
{
   // Clear contents of serial port 
   const int bufSize = 255;
   unsigned char clear[bufSize];                      
   unsigned long read = bufSize;
   int ret;                                                                   
   while (read == (unsigned) bufSize) 
   {                                                                     
      ret = core.ReadFromSerial(&device, port.c_str(), clear, bufSize, read);
      if (ret != DEVICE_OK)                               
         return ret;                                               
   }
   return DEVICE_OK;                                                           
} 
Ejemplo n.º 8
0
/*
 * Global Utility function for communication with the controller
 */
int clearPort(MM::Device& device, MM::Core& core, const char* port)
{
   // Clear contents of serial port
   const unsigned int bufSize = 255;
   unsigned char clear[bufSize];
   unsigned long read = bufSize;
   int ret;
   while (read == bufSize)
   {
      ret = core.ReadFromSerial(&device, port, clear, bufSize, read);
      if (ret != DEVICE_OK)
         return ret;
   }
   return DEVICE_OK;
}
Ejemplo n.º 9
0
/*
 * The LMM5 USB HID commands are a sequence of binary bytes with no terminator.
 * The serial commands are the same bytes formatted as an ASCII hex string, two
 * characters per byte, and terminated with a CR; e.g.:
 *   USB:    "\x1a\xff\x00\x12" (4 bytes)
 *   RS-232: "1AFF0012\r" (9 bytes)
 * The opposite transformation takes place for the reply.
 *
 * This function abstracts these differences. Note that the exact answerLen is
 * important for USB HID: reading excess bytes can result in garbage being
 * appended to the reply (at least on Windows).
 */
int SpectralLMM5Interface::ExecuteCommand(MM::Device& device, MM::Core& core, unsigned char* buf, unsigned long bufLen, unsigned char* answer, unsigned long answerLen, unsigned long& read) 
{
   int ret;
   if (portType_ == MM::SerialPort) 
   {
      std::string serialCommand;
      char tmp[3];
      tmp[2] = 0;
      for (unsigned long i=0; i<bufLen; i++) {
         sprintf(tmp, "%.2x", buf[i]);
         serialCommand += tmp;
      }
      ret = core.SetSerialCommand(&device, port_.c_str(), serialCommand.c_str(), "\r");
   } else  // check for USB port
   {
      ret = core.WriteToSerial(&device, port_.c_str(), buf, bufLen);
   }

   if (ret != DEVICE_OK)  
      return ret;
  
   if (portType_ == MM::SerialPort) 
   {
      char strAnswer[128];
      read = 0;
      ret = core.GetSerialAnswer(&device, port_.c_str(), 128, strAnswer, "\r");
      if (ret != DEVICE_OK)
         return ret;
      
      // 'translate' back into numbers:
      std::string tmp = strAnswer;
      for (unsigned int i=0; i < tmp.length()/2; i++) {
         char * end;
         long j = strtol(tmp.substr(i*2,2).c_str(), &end, 16);
         answer[i] = (unsigned char) j;
         read++;
      }
   } else if (portType_ == MM::HIDPort) 
   {
      // The USB port will attempt to read up to answerLen characters
      ret = core.ReadFromSerial(&device, port_.c_str(), answer, answerLen, read);
      if (ret != DEVICE_OK)
         return ret;
   }
   return DEVICE_OK;
}
Ejemplo n.º 10
0
int ASIFW1000Hub::FilterWheelBusy(MM::Device& device, MM::Core& core, bool& busy)
{ 
   busy = false;
   ClearAllRcvBuf(device, core);
   int ret = core.SetSerialCommand(&device, port_.c_str(), "?", "");
   if (ret != DEVICE_OK) {
      std::ostringstream os;
      os << "ERROR: SetSerialCommand returned error code: " << ret;
      core.LogMessage(&device, os.str().c_str(), false);
      return ret;
   }

   unsigned long read = 0;
   MM::TimeoutMs timerOut(core.GetCurrentMMTime(), 200 );
   while (read == 0 && ( !timerOut.expired(core.GetCurrentMMTime()) ) )
   {
      ret = core.ReadFromSerial(&device, port_.c_str(), (unsigned char*)rcvBuf_, 1, read);  
   }

   if (ret != DEVICE_OK) {
      std::ostringstream os;
      os << "ERROR: ReadFromSerial returned error code: " << ret;
      core.LogMessage(&device, os.str().c_str(), false);
      return ret;
   }

   if (read != 1) {
      std::ostringstream os;
      os << "ERROR: Read " << read << " characters instead of 1";
      core.LogMessage(&device, os.str().c_str(), false);
      return ERR_NO_ANSWER;
   }

   if (rcvBuf_[0] == '0' || rcvBuf_[0] == '1' || rcvBuf_[0] =='2')
      busy = false;
   else if (rcvBuf_[0] == '3')
      busy = true;

   return DEVICE_OK;
}