Exemple #1
0
/*-------------------------------------------------------------
					initialize
-------------------------------------------------------------*/
void CIMUXSens_MT4::initialize()
{
#if MRPT_HAS_xSENS_MT4
	m_state = ssInitializing;

	try
	{
		// Try to open a specified device, or scan the bus?
		XsPortInfoArray portInfoArray;

		if (m_portname.empty())
		{
			if (m_verbose) cout << "[CIMUXSens_MT4] Scanning for USB devices...\n";
			xsEnumerateUsbDevices(portInfoArray);

			if (portInfoArray.empty())
				THROW_EXCEPTION("CIMUXSens_MT4: No 'portname' was specified and no XSens device was found after scanning the system!")

			if (m_verbose) cout << "[CIMUXSens_MT4] Found " <<  portInfoArray.size() <<" devices. Opening the first one.\n";
		}
		else
		{
			XsPortInfo portInfo(m_portname, XsBaud::numericToRate(m_port_bauds));
			if (m_verbose) cout << "[CIMUXSens_MT4] Using user-supplied portname '"<<m_portname<<"' at "<<m_port_bauds<<" baudrate.\n";
			portInfoArray.push_back(portInfo);
		}

		// Use the first detected device
		XsPortInfo mtPort = portInfoArray.at(0);

		// Open the port with the detected device
		cout << "[CIMUXSens_MT4] Opening port " << mtPort.portName().toStdString() << std::endl;

		if (!my_xsens_device.openPort(mtPort))
			throw std::runtime_error("Could not open port. Aborting.");

		// Put the device in configuration mode
		if (m_verbose) cout << "[CIMUXSens_MT4] Putting device into configuration mode...\n";
		if (!my_xsens_device.gotoConfig()) // Put the device into configuration mode before configuring the device
			throw std::runtime_error("Could not put device into configuration mode. Aborting.");

		// Request the device Id to check the device type
		mtPort.setDeviceId(my_xsens_device.getDeviceId());

		my_xsens_devid = mtPort.deviceId();

		// Check if we have an MTi / MTx / MTmk4 device
		if (!mtPort.deviceId().isMtix() && !mtPort.deviceId().isMtMk4())
		{
			throw std::runtime_error("No MTi / MTx / MTmk4 device found. Aborting.");
		}
		cout << "[CIMUXSens_MT4] Found a device with id: " << mtPort.deviceId().toString().toStdString() << " @ port: " << mtPort.portName().toStdString() << ", baudrate: " << mtPort.baudrate() << std::endl;

		// Print information about detected MTi / MTx / MTmk4 device
		if (m_verbose) cout << "[CIMUXSens_MT4] Device: " << my_xsens_device.getProductCode().toStdString() << " opened." << std::endl;

		// Configure the device. Note the differences between MTix and MTmk4
		if (m_verbose) cout << "[CIMUXSens_MT4] Configuring the device..." << std::endl;
		if (mtPort.deviceId().isMtix())
		{
			XsOutputMode outputMode = XOM_Orientation; // output orientation data
			XsOutputSettings outputSettings = XOS_OrientationMode_Euler | XOS_Timestamp_PacketCounter | XOS_CalibratedMode_All; // XOS_OrientationMode_Quaternion; // output orientation data as quaternion

			// set the device configuration
			if (!my_xsens_device.setDeviceMode(outputMode, outputSettings))
				throw std::runtime_error("Could not configure MT device. Aborting.");
		}
		else if (mtPort.deviceId().isMtMk4())
		{
			XsOutputConfigurationArray configArray;
			configArray.push_back( XsOutputConfiguration(XDI_SampleTime64,m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_SampleTimeFine,m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_SampleTimeCoarse,m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_Quaternion,m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_Temperature,m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_Acceleration,m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_RateOfTurn,m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_MagneticField,m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_VelocityXYZ,m_sampleFreq) );

			configArray.push_back( XsOutputConfiguration(XDI_StatusByte, m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_LatLon, m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_UtcTime, m_sampleFreq) );
			configArray.push_back( XsOutputConfiguration(XDI_AltitudeEllipsoid, m_sampleFreq) );

			if (!my_xsens_device.setOutputConfiguration(configArray))
				throw std::runtime_error("Could not configure MTmk4 device. Aborting.");
		}
		else
		{
			throw std::runtime_error("Unknown device while configuring. Aborting.");
		}

		// Put the device in measurement mode
		if (m_verbose) cout << "[CIMUXSens_MT4] Putting device into measurement mode..." << std::endl;
		if (!my_xsens_device.gotoMeasurement())
			throw std::runtime_error("Could not put device into measurement mode. Aborting.");

		m_state = ssWorking;

	}
Exemple #2
0
/*! \brief Open a communication channel to the given port info.
	\details If the baudrate in \a portInfo is set to XBR_Invalid, the baud rate is automatically
				detected if possible.
	\param portInfo The details of the port that should be opened. Depending on the type of interface,
				parts of this parameter may be ignored.
	\param readBufSize The size of the read buffer in bytes (if appliccable to the device)
	\param writeBufSize The size of the write buffer in bytes (if appliccable to the device)
	\returns XRV_OK if the device was opened successfully
*/
XsResultValue SerialInterface::open(const XsPortInfo& portInfo,
						uint32_t readBufSize,
						uint32_t writeBufSize)
{
	m_endTime = 0;

	JLDEBUG(gJournal, "port " << portInfo.portName().toStdString() << " at " << portInfo.baudrate() << " baud");

	if (isOpen())
	{
		JLALERT(gJournal, "Port " << portInfo.portName().toStdString() << " is already open");
		return (m_lastResult = XRV_ALREADYOPEN);
	}
	m_baudrate = portInfo.baudrate();

#ifdef _WIN32
	XsResultValue fail = XRV_OK;
	char winPortName[32];

	// Open port
	sprintf(winPortName, "\\\\.\\%s", portInfo.portName().c_str());
	m_handle = CreateFileA(winPortName, GENERIC_READ | GENERIC_WRITE, 0, NULL,
									OPEN_EXISTING, 0, NULL);
	if (m_handle == INVALID_HANDLE_VALUE)
	{
		JLDEBUG(gJournal, "Port " << portInfo.portName().toStdString() << " cannot be opened");
		return (m_lastResult = XRV_INPUTCANNOTBEOPENED);
	}

	DCB commState;		//!< Stored settings about the serial port

	commState.DCBlength = sizeof(DCB);

	//Get the current state & then change it
	if (!GetCommState(m_handle, &commState))	// Get current state
		fail = XRV_ERROR;

	commState.BaudRate = (int) portInfo.baudrate();		// Setup the baud rate
	commState.Parity = NOPARITY;				// Setup the Parity
	commState.ByteSize = 8;					// Setup the data bits
	commState.StopBits = TWOSTOPBITS;			// Setup the stop bits
	commState.fDsrSensitivity = FALSE;		// Setup the flow control
	commState.fOutxCtsFlow = FALSE;			// NoFlowControl:
	commState.fOutxDsrFlow = FALSE;
	commState.fOutX = FALSE;
	commState.fInX = FALSE;
	if (!SetCommState(m_handle, (LPDCB)&commState)) // Set new state
	{
		// Bluetooth ports cannot always be opened with 2 stopbits
		// Now try to open port with 1 stopbit.
		commState.StopBits = ONESTOPBIT;
		if (!SetCommState(m_handle, (LPDCB)&commState))
			fail = XRV_INPUTCANNOTBEOPENED;
	}
	std::string tmp = portInfo.portName().toStdString();
	m_port = atoi(&tmp.c_str()[3]);
	sprintf(m_portname, "%s", tmp.c_str());

	if (setTimeout(20))
		fail = m_lastResult;

	// Other initialization functions
	if (!EscapeCommFunction(m_handle, SETRTS))			// Enable RTS (for Xbus Master use)
		fail = XRV_ERROR;
	if (!EscapeCommFunction(m_handle, SETDTR))			// Set DTR (Calibration sensors need DTR to startup, won't hurt otherwise
		fail = XRV_ERROR;
	if (!SetupComm(m_handle,readBufSize,writeBufSize))	// Set queue size
		fail = XRV_ERROR;

	// Remove any 'old' data in buffer
	//PurgeComm(m_handle, PURGE_TXCLEAR | PURGE_RXCLEAR);
	if (!PurgeComm(m_handle, PURGE_TXABORT | PURGE_RXABORT | PURGE_TXCLEAR | PURGE_RXCLEAR))
		fail = XRV_ERROR;

	if (fail != XRV_OK)
	{
		CloseHandle(m_handle);		//lint !e534
		m_handle = INVALID_HANDLE_VALUE;
		return (m_lastResult = fail);
	}

#else // !_WIN32
	(void)readBufSize;
	(void)writeBufSize;
	// Open port
	std::string pn = portInfo.portName().toStdString();
	m_handle = ::open(pn.c_str(), O_RDWR | O_NOCTTY);

	// O_RDWR: Read+Write
	// O_NOCTTY: Raw input, no "controlling terminal"
	// O_NDELAY: Don't care about DCD signal

	if (m_handle < 0) {
		// Port not open
		return m_lastResult = XRV_INPUTCANNOTBEOPENED;
	}

	// Check if the file is already opened by someome else (other thread/process)
	if (flock(m_handle, LOCK_EX | LOCK_NB))
	{
		closeLive();
		return m_lastResult = XRV_INPUTCANNOTBEOPENED;
	}

	/* Start configuring of port for non-canonical transfer mode */
	// Get current options for the port
	if (tcgetattr(m_handle, &m_commState) != 0)
		return XRV_ERROR;

	// Set baudrate.
	if (cfsetispeed(&m_commState, portInfo.baudrate()) != 0)
		return XRV_ERROR;

	if (cfsetospeed(&m_commState, portInfo.baudrate()) != 0)
		return XRV_ERROR;

	// Enable the receiver and set local mode
	m_commState.c_cflag |= (CLOCAL | CREAD);
	// Set character size to data bits and set no parity Mask the characte size bits
	m_commState.c_cflag &= ~(CSIZE|PARENB);
	m_commState.c_cflag |= CS8;		// Select 8 data bits
	m_commState.c_cflag |= CSTOPB;	// send 2 stop bits
	// Disable hardware flow control
	m_commState.c_cflag &= ~CRTSCTS;
	m_commState.c_lflag &= ~(ECHO|ECHONL|ICANON|ISIG|IEXTEN);
	// Disable software flow control
	m_commState.c_iflag &= ~(IGNBRK|BRKINT|PARMRK|ISTRIP|INLCR|IGNCR|ICRNL|IXON);
	// Set Raw output
	m_commState.c_oflag &= ~OPOST;
	// Timeout 0.001 sec for first byte, read minimum of 0 bytes
	m_commState.c_cc[VMIN]     = 0;
	m_commState.c_cc[VTIME]    = (m_timeout+99)/100;	// 1

	// Set the new options for the port
	if (tcsetattr(m_handle,TCSANOW, &m_commState) != 0)
		return XRV_INPUTCANNOTBEOPENED;

	termios checkCommState;
	if (tcgetattr(m_handle, &checkCommState) != 0)
		return XRV_ERROR;

	if ((m_commState.c_cflag != checkCommState.c_cflag) ||
		(m_commState.c_iflag != checkCommState.c_iflag) ||
		(m_commState.c_oflag != checkCommState.c_oflag) ||
		(m_commState.c_cc[VMIN] != checkCommState.c_cc[VMIN]) ||
		(m_commState.c_cc[VTIME] != checkCommState.c_cc[VTIME]))
	{
		JLDEBUG(gJournal, "commstates do not match, which is OK for USB connected MkIV devices");
	}

	m_port = 1;
	sprintf(m_portname, "%s", pn.c_str());

	tcflush(m_handle, TCIOFLUSH);

	// setting RTS and DTR; RTS for Xbus Master, DTR for calibration sensors
	int cmbits;
	if (ioctl(m_handle, TIOCMGET, &cmbits) < 0)
	{
		JLDEBUG(gJournal, "TIOCMGET failed, which is OK for USB connected MkIV devices");
	}

	cmbits |= TIOCM_RTS|TIOCM_DTR;

	if (ioctl(m_handle, TIOCMSET, &cmbits) < 0)
	{
		JLDEBUG(gJournal, "TIOCMSET failed, which is OK for USB connected MkIV devices");
	}
#endif // !_WIN32

	JLDEBUG(gJournal, "Port " << portInfo.portName().toStdString() << " opened");
	return (m_lastResult = XRV_OK);
}
Exemple #3
0
/*! \brief Open a communication channel to the given USB port name. */
XsResultValue UsbInterface::open(const XsPortInfo &portInfo, uint32_t, uint32_t)
{
	d->m_endTime = 0;

#ifdef USE_WINUSB
	JLDEBUG(gJournal, "Open usb port " << portInfo.portName().toStdString());
#else
	JLDEBUG(gJournal, "Open usb port " << portInfo.usbBus() << ":" << portInfo.usbAddress());
#endif

	if (isOpen())
	{
		JLALERT(gJournal, "Port " << portInfo.portName().toStdString() << " already open");
		return (d->m_lastResult = XRV_ALREADYOPEN);
	}

#ifdef USE_WINUSB
	d->m_deviceHandle = CreateFileA(portInfo.portName().c_str(),
		GENERIC_WRITE | GENERIC_READ,
		FILE_SHARE_WRITE | FILE_SHARE_READ,
		NULL,
		OPEN_EXISTING,
		FILE_ATTRIBUTE_NORMAL | FILE_FLAG_OVERLAPPED,
		NULL);

	if (d->m_deviceHandle == INVALID_HANDLE_VALUE)
	{
		d->m_deviceHandle = NULL;
		return (d->m_lastResult = XRV_PORTNOTFOUND);
	}

	BOOL result = FALSE;
	UCHAR speed = 0;
	ULONG length = 0;
	USB_INTERFACE_DESCRIPTOR interfaceDescriptor = {0,0,0,0,0,0,0,0,0};
	WINUSB_PIPE_INFORMATION pipeInfo;

	result = d->m_winUsb.Initialize(d->m_deviceHandle, &d->m_usbHandle[0]);
	if (result)
	{
		result = d->m_winUsb.GetAssociatedInterface(d->m_usbHandle[0],0,&d->m_usbHandle[1]);
	}
	else
	{
#ifdef XSENS_DEBUG
		DWORD err = GetLastError();
		assert(result);
#endif
		return (d->m_lastResult = XRV_ERROR);
	}

	for (int k = 0; k<2;k++)
	{
		if(result)
		{
			assert(d->m_usbHandle[k] != 0);
			length = sizeof(UCHAR);
			result = d->m_winUsb.QueryDeviceInformation(d->m_usbHandle[k],
				DEVICE_SPEED,
				&length,
				&speed);
		}

		if(result)
		{
			d->m_deviceSpeed = speed;
			result = d->m_winUsb.QueryInterfaceSettings(d->m_usbHandle[k],
				0,
				&interfaceDescriptor);
		}
		if(result)
		{
			for(int i=0;i<interfaceDescriptor.bNumEndpoints;i++)
			{
				result = d->m_winUsb.QueryPipe(d->m_usbHandle[k],
					0,
					(UCHAR) i,
					&pipeInfo);

				if(pipeInfo.PipeType == UsbdPipeTypeBulk &&
					USB_ENDPOINT_DIRECTION_IN(pipeInfo.PipeId))
				{
					d->m_bulkInPipe = pipeInfo.PipeId;
					d->m_bulkInPipePacketSize =
						pipeInfo.MaximumPacketSize;
				}
				else if(pipeInfo.PipeType == UsbdPipeTypeBulk &&
					USB_ENDPOINT_DIRECTION_OUT(pipeInfo.PipeId))
				{
					d->m_bulkOutPipe = pipeInfo.PipeId;
				}
				else if(pipeInfo.PipeType == UsbdPipeTypeInterrupt)
				{
					d->m_interruptPipe = pipeInfo.PipeId;
				}
				else
				{
					result = FALSE;
					break;
				}
			}
		}
	}

	setTimeout(0);	//lint !e534
	flushData();	//lint !e534

	sprintf(d->m_portname, "%s", portInfo.portName().c_str());

//	d->m_offset = 0;
	::ResetEvent(&d->m_quitEvent);	//lint !e534
	d->m_threadHandle = xsStartThread(usbReadThreadFunc, d, &d->m_threadId);
	if (d->m_threadHandle == XSENS_INVALID_THREAD)
	{
#ifdef XSENS_DEBUG
		assert(0);
#endif
		return (d->m_lastResult = XRV_ERROR);
	}

#else // !USE_WINUSB
	libusb_device **deviceList;
	ssize_t listLength = UsbInterfacePrivate::getContextManager().m_libUsb.get_device_list(UsbInterfacePrivate::getContextManager().m_usbContext, &deviceList);
	if (listLength < 0)
		return d->m_lastResult = d->libusbErrorToXrv((int)listLength);

	// "USBxxx:yyy"
	uint8_t bus = XsPortInfo_usbBus(&portInfo);
	uint8_t address = XsPortInfo_usbAddress(&portInfo);

	XsResultValue xrv = XRV_OK;
	int result;
	libusb_device *device = NULL;
	for (int i = 0; i < listLength && device == NULL; ++i) {
		libusb_device *dev = deviceList[i];
		if (UsbInterfacePrivate::getContextManager().m_libUsb.get_bus_number(dev) != bus || UsbInterfacePrivate::getContextManager().m_libUsb.get_device_address(dev) != address)
			continue;

		libusb_device_descriptor desc;
		result = UsbInterfacePrivate::getContextManager().m_libUsb.get_device_descriptor(dev, &desc);
		if (result != LIBUSB_SUCCESS)
			break;

		libusb_config_descriptor *configDesc;
		result = UsbInterfacePrivate::getContextManager().m_libUsb.get_active_config_descriptor(dev, &configDesc);
		if (result != LIBUSB_SUCCESS)
			break;

		d->m_interface = -1;
		d->m_interfaceCount = configDesc->bNumInterfaces;
		// find the bulk transfer endpoints
		for (uint8_t ifCount = 0; ifCount < configDesc->bNumInterfaces && d->m_interface == -1; ++ifCount) {
			for (uint8_t altsettingCount = 0; altsettingCount < configDesc->interface[ifCount].num_altsetting; altsettingCount++) {
				const libusb_endpoint_descriptor *endpoints = configDesc->interface[ifCount].altsetting[altsettingCount].endpoint;
				int inEndpoint = -1, outEndpoint = -1;
				for (uint8_t i = 0; i < configDesc->interface[ifCount].altsetting[altsettingCount].bNumEndpoints; i++) {
					if ((endpoints[i].bmAttributes&LIBUSB_TRANSFER_TYPE_MASK) != LIBUSB_TRANSFER_TYPE_BULK)
						continue;

					switch (endpoints[i].bEndpointAddress&LIBUSB_ENDPOINT_DIR_MASK) {
					case LIBUSB_ENDPOINT_IN:
						inEndpoint = endpoints[i].bEndpointAddress&LIBUSB_ENDPOINT_ADDRESS_MASK;
						break;

					case LIBUSB_ENDPOINT_OUT:
						outEndpoint = endpoints[i].bEndpointAddress&LIBUSB_ENDPOINT_ADDRESS_MASK;
						break;
					}

				}

				if (outEndpoint == -1 || inEndpoint == -1)
					continue;

				d->m_interface = ifCount;
				d->m_dataOutEndPoint = outEndpoint;
				d->m_dataInEndPoint = inEndpoint;
			}
		}
		if (d->m_interface == -1) {
			xrv = XRV_INPUTCANNOTBEOPENED;
			break;
		}

		UsbInterfacePrivate::getContextManager().m_libUsb.free_config_descriptor(configDesc);
		UsbInterfacePrivate::getContextManager().m_libUsb.ref_device(dev);
		device = dev;
		result = LIBUSB_SUCCESS;
	}

	UsbInterfacePrivate::getContextManager().m_libUsb.free_device_list(deviceList, 1);
	if (result != LIBUSB_SUCCESS) {
		UsbInterfacePrivate::getContextManager().m_libUsb.unref_device(device);
		return d->m_lastResult = d->libusbErrorToXrv(result);
	}

	if (xrv != XRV_OK) {
		UsbInterfacePrivate::getContextManager().m_libUsb.unref_device(device);
		return d->m_lastResult = xrv;
	}

	libusb_device_handle *handle;
	result = UsbInterfacePrivate::getContextManager().m_libUsb.open(device, &handle);
	if (result != LIBUSB_SUCCESS) {
		UsbInterfacePrivate::getContextManager().m_libUsb.unref_device(device);
		return d->m_lastResult = d->libusbErrorToXrv(result);
	}

	// be rude and claim all interfaces
	for (int i = 0; i < d->m_interfaceCount; i++) {
		result = UsbInterfacePrivate::getContextManager().m_libUsb.kernel_driver_active(handle, i);
		if (result > 0)
			result = UsbInterfacePrivate::getContextManager().m_libUsb.detach_kernel_driver(handle, i);
		if (result == LIBUSB_SUCCESS)
			result = UsbInterfacePrivate::getContextManager().m_libUsb.claim_interface(handle, i);
		if (result != LIBUSB_SUCCESS) {
			for (int j = 0; j < i; j++) {
				while (result != LIBUSB_SUCCESS) {
					result = UsbInterfacePrivate::getContextManager().m_libUsb.release_interface(handle, j);
					UsbInterfacePrivate::getContextManager().m_libUsb.attach_kernel_driver(handle, j);
				}
			}

			UsbInterfacePrivate::getContextManager().m_libUsb.close(handle);
			UsbInterfacePrivate::getContextManager().m_libUsb.unref_device(device);
			return d->m_lastResult = d->libusbErrorToXrv(result);
		}
	}

	d->m_deviceHandle = handle;
	sprintf(d->m_portname, "%s", portInfo.portName().c_str());

	flushData();

#endif // !USE_WINUSB
	JLDEBUG(gJournal, "USB Port opened");
	return (d->m_lastResult = XRV_OK);
}
/*! \brief Open a communication channel to the given port info.
	\details If the baudrate in \a portInfo is set to XBR_Invalid, the baud rate is automatically
				detected if possible.
	\param portInfo The details of the port that should be opened. Depending on the type of interface,
				parts of this parameter may be ignored.
	\param readBufSize The size of the read buffer in bytes (if appliccable to the device)
	\param writeBufSize The size of the write buffer in bytes (if appliccable to the device)
	\param options The options to enable (flow control, stop bits)
	\returns XRV_OK if the device was opened successfully
*/
XsResultValue SerialInterface::open(const XsPortInfo& portInfo,
						uint32_t readBufSize,
						uint32_t writeBufSize,
						PortOptions options)
{
	m_endTime = 0;

	JLDEBUG(gJournal, portInfo);

	if (isOpen())
	{
		JLALERT(gJournal, "Port " << portInfo.portName() << " is already open");
		return (m_lastResult = XRV_ALREADYOPEN);
	}
	m_baudrate = portInfo.baudrate();

	if (options&PO_RtsCtsFlowControl)
		JLTRACE(gJournal, "Requested RTS/CTS flow control");
	if (options&PO_DtrDsrFlowControl)
		JLTRACE(gJournal, "Requested DTR/DSR flow control");
	if (options&PO_XonXoffFlowControl)
		JLTRACE(gJournal, "Requested Xon/Xoff flow control");

#ifdef _WIN32
	XsResultValue fail = XRV_OK;
	char winPortName[256];

	// Open port
	sprintf(winPortName, "\\\\.\\%s", portInfo.portName().c_str());
	m_handle = CreateFileA(winPortName, GENERIC_READ | GENERIC_WRITE, 0, NULL,
									OPEN_EXISTING, 0, NULL);
	if (m_handle == INVALID_HANDLE_VALUE)
	{
		JLDEBUG(gJournal, "Port " << portInfo.portName() << " cannot be opened");
		return (m_lastResult = XRV_INPUTCANNOTBEOPENED);
	}

	DCB commState;		//!< Stored settings about the serial port

	commState.DCBlength = sizeof(DCB);

	//Get the current state & then change it
	if (!GetCommState(m_handle, &commState))	// Get current state
		fail = XRV_ERROR;

	commState.BaudRate = (int) portInfo.baudrate();		// Setup the baud rate
	commState.Parity = NOPARITY;				// Setup the Parity
	commState.ByteSize = 8;					// Setup the data bits
	commState.StopBits = (options&PO_TwoStopBits)?TWOSTOPBITS:ONESTOPBIT;

	// Setup flow control
	commState.fDsrSensitivity = (options&PO_DtrDsrFlowControl)?TRUE:FALSE;
	commState.fOutxDsrFlow = (options&PO_DtrDsrFlowControl)?DTR_CONTROL_HANDSHAKE:DTR_CONTROL_DISABLE;

	commState.fOutxCtsFlow = (options&PO_RtsCtsFlowControl)?TRUE:FALSE;
	commState.fRtsControl = (options&PO_RtsCtsFlowControl)?RTS_CONTROL_HANDSHAKE:RTS_CONTROL_ENABLE;

	commState.fOutX = (options&PO_XonXoffFlowControl)?TRUE:FALSE;
	commState.fInX = commState.fOutX;

	if (!SetCommState(m_handle, (LPDCB)&commState)) // Set new state
	{
		// Bluetooth ports cannot always be opened with 2 stopbits
		// Now try to open port with 1 stopbit.
		commState.StopBits = ONESTOPBIT;
		if (!SetCommState(m_handle, (LPDCB)&commState))
			fail = XRV_INPUTCANNOTBEOPENED;
	}
	std::string tmp = portInfo.portName().toStdString();
	m_port = atoi(&tmp.c_str()[3]);
	sprintf(m_portname, "%s", tmp.c_str());

	if (setTimeout(20))
		fail = m_lastResult;

	// Other initialization functions
	if ((options&PO_DtrDsrFlowControl) == 0)
	{
		if (!EscapeCommFunction(m_handle, SETDTR))			// Set DTR (Calibration sensors need DTR to startup, won't hurt otherwise
			fail = XRV_ERROR;
	}
	if (!SetupComm(m_handle,readBufSize,writeBufSize))	// Set queue size
		fail = XRV_ERROR;

	// Remove any 'old' data in buffer
	//PurgeComm(m_handle, PURGE_TXCLEAR | PURGE_RXCLEAR);
	if (!PurgeComm(m_handle, PURGE_TXABORT | PURGE_RXABORT | PURGE_TXCLEAR | PURGE_RXCLEAR))
		fail = XRV_ERROR;

	if (fail != XRV_OK)
	{
		CloseHandle(m_handle);		//lint !e534
		m_handle = INVALID_HANDLE_VALUE;
		return (m_lastResult = fail);
	}

#else // !_WIN32
	(void)readBufSize;
	(void)writeBufSize;
	// Open port
	std::string pn = portInfo.portName().toStdString();
	m_handle = ::open(pn.c_str(), O_RDWR | O_NOCTTY);

	// O_RDWR: Read+Write
	// O_NOCTTY: Raw input, no "controlling terminal"
	// O_NDELAY: Don't care about DCD signal

	if (m_handle < 0) {
		// Port not open
		return m_lastResult = XRV_INPUTCANNOTBEOPENED;
	}

	// Check if the file is already opened by someome else (other thread/process)
	if (flock(m_handle, LOCK_EX | LOCK_NB))
	{
		closeLive();
		return m_lastResult = XRV_INPUTCANNOTBEOPENED;
	}

	/* Start configuring of port for non-canonical transfer mode */
	// Get current options for the port
	if (tcgetattr(m_handle, &m_commState) != 0)
		return XRV_ERROR;

	// Set baudrate.
	if (cfsetispeed(&m_commState, portInfo.baudrate()) != 0)
		return XRV_ERROR;

	if (cfsetospeed(&m_commState, portInfo.baudrate()) != 0)
		return XRV_ERROR;

	// Enable the receiver and set local mode
	m_commState.c_cflag |= (CLOCAL | CREAD);
	// Set character size to data bits and set no parity Mask the characte size bits
	m_commState.c_cflag &= ~(CSIZE|PARENB|PARODD);
	m_commState.c_cflag |= CS8;		// Select 8 data bits

	m_commState.c_cflag = setBitsEnabled(m_commState.c_cflag, (tcflag_t)CSTOPB, (options&PO_TwoStopBits) == PO_TwoStopBits);

	// Hardware flow control
	m_commState.c_cflag = setBitsEnabled(m_commState.c_cflag, (tcflag_t)CRTSCTS, (options&PO_RtsCtsFlowControl) == PO_RtsCtsFlowControl);
#ifdef CDTRDSR
	m_commState.c_cflag = setBitsEnabled(m_commState.c_cflag, (tcflag_t)CDTRDSR, (options&PO_DtrDsrFlowControl) == PO_DtrDsrFlowControl);
#endif

	m_commState.c_lflag &= ~(ECHO|ECHOE|ECHOK|ECHONL|ICANON|ISIG|IEXTEN);
	// Software flow control
	m_commState.c_iflag &= ~(IGNBRK|BRKINT|PARMRK|INPCK|ISTRIP|INLCR|IGNCR|ICRNL);
	m_commState.c_iflag = setBitsEnabled(m_commState.c_iflag, (tcflag_t)(IXON|IXOFF), options&PO_XonXoffFlowControl);
	// Set Raw output
	m_commState.c_oflag &= ~OPOST;
	// Timeout 0.001 sec for first byte, read minimum of 0 bytes
	m_commState.c_cc[VMIN]     = 0;
	m_commState.c_cc[VTIME]    = (m_timeout+99)/100;	// 1

	// Set the new options for the port
	if (tcsetattr(m_handle,TCSANOW, &m_commState) != 0)
		return XRV_INPUTCANNOTBEOPENED;

#if defined(JLLOGLEVEL) && JLLOGLEVEL <= JLL_ALERT
	termios checkCommState;
	if (tcgetattr(m_handle, &checkCommState) != 0)
		return XRV_ERROR;

	if (cfgetispeed(&checkCommState) != portInfo.baudrate())
		JLALERT(gJournal, "Set baudrate doesn't match requested baudrate");

	if (cfgetospeed(&checkCommState) != portInfo.baudrate())
		JLALERT(gJournal, "Set baudrate doesn't match requested baudrate");

	if (options&PO_RtsCtsFlowControl && !(checkCommState.c_cflag&CRTSCTS))
		JLALERT(gJournal, "Requested RTS/CTS flow control, but could not be set.");

	if (options&PO_DtrDsrFlowControl &&
#ifdef CDTRDSR
		!(checkCommState.c_cflag&CDTRDSR)
#else
		false
#endif
		)
		JLALERT(gJournal, "Requested DTR/DSR flow control, but could not be set.");

	if (options&PO_XonXoffFlowControl && !((checkCommState.c_iflag&(IXON|IXOFF)) == (IXON|IXOFF)))
		JLALERT(gJournal, "Requested Xon/Xoff flow control, but could not be set.");
#endif // JLLOGLEVEL < JLL_ALERT

#if defined(JLLOGLEVEL) && JLLOGLEVEL <= JLL_DEBUG
#define CHECK_COMMSTATE(req, res, field)\
	if (req.field != res.field) \
	{\
		JLDEBUG(gJournal, "field " << #field << " does not match");\
		JLDEBUG(gJournal, "actual  : " << std::oct << (uint64_t)res.field);\
		JLDEBUG(gJournal, "expected: " << std::oct << (uint64_t)req.field);\
	}
#else
#define CHECK_COMMSTATE(req, res, field)
#endif
	CHECK_COMMSTATE(m_commState, checkCommState, c_cflag);
	CHECK_COMMSTATE(m_commState, checkCommState, c_iflag);
	CHECK_COMMSTATE(m_commState, checkCommState, c_oflag);
	CHECK_COMMSTATE(m_commState, checkCommState, c_cc[VMIN]);
	CHECK_COMMSTATE(m_commState, checkCommState, c_cc[VTIME]);

	m_port = 1;
	sprintf(m_portname, "%s", pn.c_str());

	tcflush(m_handle, TCIOFLUSH);

	// setting RTS and DTR; RTS for Xbus Master, DTR for calibration sensors
	int cmbits;
	if (ioctl(m_handle, TIOCMGET, &cmbits) < 0)
	{
		JLDEBUG(gJournal, "TIOCMGET failed, which is OK for USB connected MkIV devices");
	}

	if ((options&PO_RtsCtsFlowControl) == 0)
		cmbits = setBitsEnabled(cmbits, TIOCM_RTS, true);
	// else don't touch them

	cmbits = setBitsEnabled(cmbits, TIOCM_DTR, !(options&PO_DtrDsrFlowControl));

	if (ioctl(m_handle, TIOCMSET, &cmbits) < 0)
	{
		JLDEBUG(gJournal, "TIOCMSET failed, which is OK for USB connected MkIV devices");
	}
#endif // !_WIN32

	JLDEBUG(gJournal, "Port " << portInfo.portName().toStdString() << " opened");
	return (m_lastResult = XRV_OK);
}