#include #include #include "qextserialport.h" #include #include #ifdef __CYGWIN__ #undef FIONREAD #define FIONREAD TIOCINQ #endif void QextSerialPort::platformSpecificInit() { fd = 0; readNotifier = nullptr; } /*! Standard destructor. */ void QextSerialPort::platformSpecificDestruct() {} /*! Sets the baud rate of the serial port. Note that not all rates are applicable on all platforms. The following table shows translations of the various baud rate constants on Windows(including NT/2000) and POSIX platforms. Speeds marked with an * are speeds that are usable on both Windows and POSIX. \note BAUD76800 may not be supported on all POSIX systems. SGI/IRIX systems do not support BAUD1800. \verbatim RATE Windows Speed POSIX Speed ----------- ------------- ----------- BAUD50 110 50 BAUD75 110 75 *BAUD110 110 110 BAUD134 110 134.5 BAUD150 110 150 BAUD200 110 200 *BAUD300 300 300 *BAUD600 600 600 *BAUD1200 1200 1200 BAUD1800 1200 1800 *BAUD2400 2400 2400 *BAUD4800 4800 4800 *BAUD9600 9600 9600 BAUD14400 14400 9600 *BAUD19200 19200 19200 *BAUD38400 38400 38400 BAUD56000 56000 38400 *BAUD57600 57600 57600 BAUD76800 57600 76800 *BAUD115200 115200 115200 BAUD128000 128000 115200 BAUD256000 256000 115200 \endverbatim */ void QextSerialPort::setBaudRate(BaudRateType baudRate) { QMutexLocker lock(mutex); if (Settings.BaudRate!=baudRate) { switch (baudRate) { case BAUD14400: Settings.BaudRate=BAUD9600; break; case BAUD56000: Settings.BaudRate=BAUD38400; break; case BAUD76800: #ifndef B76800 Settings.BaudRate=BAUD57600; #else Settings.BaudRate=baudRate; #endif break; case BAUD128000: case BAUD256000: Settings.BaudRate=BAUD115200; break; default: Settings.BaudRate=baudRate; break; } } if (isOpen()) { switch (baudRate) { /*50 baud*/ case BAUD50: TTY_PORTABILITY_WARNING("QextSerialPort Portability Warning: Windows does not support 50 baud operation."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B50; #else cfsetispeed(&Posix_CommConfig, B50); cfsetospeed(&Posix_CommConfig, B50); #endif break; /*75 baud*/ case BAUD75: TTY_PORTABILITY_WARNING("QextSerialPort Portability Warning: Windows does not support 75 baud operation."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B75; #else cfsetispeed(&Posix_CommConfig, B75); cfsetospeed(&Posix_CommConfig, B75); #endif break; /*110 baud*/ case BAUD110: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B110; #else cfsetispeed(&Posix_CommConfig, B110); cfsetospeed(&Posix_CommConfig, B110); #endif break; /*134.5 baud*/ case BAUD134: TTY_PORTABILITY_WARNING("QextSerialPort Portability Warning: Windows does not support 134.5 baud operation."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B134; #else cfsetispeed(&Posix_CommConfig, B134); cfsetospeed(&Posix_CommConfig, B134); #endif break; /*150 baud*/ case BAUD150: TTY_PORTABILITY_WARNING("QextSerialPort Portability Warning: Windows does not support 150 baud operation."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B150; #else cfsetispeed(&Posix_CommConfig, B150); cfsetospeed(&Posix_CommConfig, B150); #endif break; /*200 baud*/ case BAUD200: TTY_PORTABILITY_WARNING("QextSerialPort Portability Warning: Windows does not support 200 baud operation."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B200; #else cfsetispeed(&Posix_CommConfig, B200); cfsetospeed(&Posix_CommConfig, B200); #endif break; /*300 baud*/ case BAUD300: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B300; #else cfsetispeed(&Posix_CommConfig, B300); cfsetospeed(&Posix_CommConfig, B300); #endif break; /*600 baud*/ case BAUD600: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B600; #else cfsetispeed(&Posix_CommConfig, B600); cfsetospeed(&Posix_CommConfig, B600); #endif break; /*1200 baud*/ case BAUD1200: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B1200; #else cfsetispeed(&Posix_CommConfig, B1200); cfsetospeed(&Posix_CommConfig, B1200); #endif break; /*1800 baud*/ case BAUD1800: TTY_PORTABILITY_WARNING("QextSerialPort Portability Warning: Windows and IRIX do not support 1800 baud operation."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B1800; #else cfsetispeed(&Posix_CommConfig, B1800); cfsetospeed(&Posix_CommConfig, B1800); #endif break; /*2400 baud*/ case BAUD2400: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B2400; #else cfsetispeed(&Posix_CommConfig, B2400); cfsetospeed(&Posix_CommConfig, B2400); #endif break; /*4800 baud*/ case BAUD4800: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B4800; #else cfsetispeed(&Posix_CommConfig, B4800); cfsetospeed(&Posix_CommConfig, B4800); #endif break; /*9600 baud*/ case BAUD9600: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B9600; #else cfsetispeed(&Posix_CommConfig, B9600); cfsetospeed(&Posix_CommConfig, B9600); #endif break; /*14400 baud*/ case BAUD14400: TTY_WARNING("QextSerialPort: POSIX does not support 14400 baud operation. Switching to 9600 baud."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B9600; #else cfsetispeed(&Posix_CommConfig, B9600); cfsetospeed(&Posix_CommConfig, B9600); #endif break; /*19200 baud*/ case BAUD19200: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B19200; #else cfsetispeed(&Posix_CommConfig, B19200); cfsetospeed(&Posix_CommConfig, B19200); #endif break; /*38400 baud*/ case BAUD38400: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B38400; #else cfsetispeed(&Posix_CommConfig, B38400); cfsetospeed(&Posix_CommConfig, B38400); #endif break; /*56000 baud*/ case BAUD56000: TTY_WARNING("QextSerialPort: POSIX does not support 56000 baud operation. Switching to 38400 baud."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B38400; #else cfsetispeed(&Posix_CommConfig, B38400); cfsetospeed(&Posix_CommConfig, B38400); #endif break; /*57600 baud*/ case BAUD57600: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B57600; #else cfsetispeed(&Posix_CommConfig, B57600); cfsetospeed(&Posix_CommConfig, B57600); #endif break; /*76800 baud*/ case BAUD76800: TTY_PORTABILITY_WARNING("QextSerialPort Portability Warning: Windows and some POSIX systems do not support 76800 baud operation."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); #ifdef B76800 Posix_CommConfig.c_cflag|=B76800; #else TTY_WARNING("QextSerialPort: QextSerialPort was compiled without 76800 baud support. Switching to 57600 baud."); Posix_CommConfig.c_cflag|=B57600; #endif //B76800 #else //CBAUD #ifdef B76800 cfsetispeed(&Posix_CommConfig, B76800); cfsetospeed(&Posix_CommConfig, B76800); #else TTY_WARNING("QextSerialPort: QextSerialPort was compiled without 76800 baud support. Switching to 57600 baud."); cfsetispeed(&Posix_CommConfig, B57600); cfsetospeed(&Posix_CommConfig, B57600); #endif //B76800 #endif //CBAUD break; /*115200 baud*/ case BAUD115200: #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B115200; #else cfsetispeed(&Posix_CommConfig, B115200); cfsetospeed(&Posix_CommConfig, B115200); #endif break; /*128000 baud*/ case BAUD128000: TTY_WARNING("QextSerialPort: POSIX does not support 128000 baud operation. Switching to 115200 baud."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B115200; #else cfsetispeed(&Posix_CommConfig, B115200); cfsetospeed(&Posix_CommConfig, B115200); #endif break; /*256000 baud*/ case BAUD256000: TTY_WARNING("QextSerialPort: POSIX does not support 256000 baud operation. Switching to 115200 baud."); #ifdef CBAUD Posix_CommConfig.c_cflag&=(~CBAUD); Posix_CommConfig.c_cflag|=B115200; #else cfsetispeed(&Posix_CommConfig, B115200); cfsetospeed(&Posix_CommConfig, B115200); #endif break; } tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); } } /*! Sets the number of data bits used by the serial port. Possible values of dataBits are: \verbatim DATA_5 5 data bits DATA_6 6 data bits DATA_7 7 data bits DATA_8 8 data bits \endverbatim \note This function is subject to the following restrictions: \par 5 data bits cannot be used with 2 stop bits. \par 8 data bits cannot be used with space parity on POSIX systems. */ void QextSerialPort::setDataBits(DataBitsType dataBits) { QMutexLocker lock(mutex); if (Settings.DataBits!=dataBits) { if ((Settings.StopBits==STOP_2 && dataBits==DATA_5) || (Settings.StopBits==STOP_1_5 && dataBits!=DATA_5) || (Settings.Parity==PAR_SPACE && dataBits==DATA_8)) { } else { Settings.DataBits=dataBits; } } if (isOpen()) { switch(dataBits) { /*5 data bits*/ case DATA_5: if (Settings.StopBits==STOP_2) { TTY_WARNING("QextSerialPort: 5 Data bits cannot be used with 2 stop bits."); } else { Settings.DataBits=dataBits; Posix_CommConfig.c_cflag&=(~CSIZE); Posix_CommConfig.c_cflag|=CS5; tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); } break; /*6 data bits*/ case DATA_6: if (Settings.StopBits==STOP_1_5) { TTY_WARNING("QextSerialPort: 6 Data bits cannot be used with 1.5 stop bits."); } else { Settings.DataBits=dataBits; Posix_CommConfig.c_cflag&=(~CSIZE); Posix_CommConfig.c_cflag|=CS6; tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); } break; /*7 data bits*/ case DATA_7: if (Settings.StopBits==STOP_1_5) { TTY_WARNING("QextSerialPort: 7 Data bits cannot be used with 1.5 stop bits."); } else { Settings.DataBits=dataBits; Posix_CommConfig.c_cflag&=(~CSIZE); Posix_CommConfig.c_cflag|=CS7; tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); } break; /*8 data bits*/ case DATA_8: if (Settings.StopBits==STOP_1_5) { TTY_WARNING("QextSerialPort: 8 Data bits cannot be used with 1.5 stop bits."); } else { Settings.DataBits=dataBits; Posix_CommConfig.c_cflag&=(~CSIZE); Posix_CommConfig.c_cflag|=CS8; tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); } break; } } } /*! Sets the parity associated with the serial port. The possible values of parity are: \verbatim PAR_SPACE Space Parity PAR_MARK Mark Parity PAR_NONE No Parity PAR_EVEN Even Parity PAR_ODD Odd Parity \endverbatim \note This function is subject to the following limitations: \par POSIX systems do not support mark parity. \par POSIX systems support space parity only if tricked into doing so, and only with fewer than 8 data bits. Use space parity very carefully with POSIX systems. */ void QextSerialPort::setParity(ParityType parity) { QMutexLocker lock(mutex); if (Settings.Parity!=parity) { if (parity==PAR_MARK || (parity==PAR_SPACE && Settings.DataBits==DATA_8)) { } else { Settings.Parity=parity; } } if (isOpen()) { switch (parity) { /*space parity*/ case PAR_SPACE: if (Settings.DataBits==DATA_8) { TTY_PORTABILITY_WARNING("QextSerialPort: Space parity is only supported in POSIX with 7 or fewer data bits"); } else { /*space parity not directly supported - add an extra data bit to simulate it*/ Posix_CommConfig.c_cflag&=~(PARENB|CSIZE); switch(Settings.DataBits) { case DATA_5: Settings.DataBits=DATA_6; Posix_CommConfig.c_cflag|=CS6; break; case DATA_6: Settings.DataBits=DATA_7; Posix_CommConfig.c_cflag|=CS7; break; case DATA_7: Settings.DataBits=DATA_8; Posix_CommConfig.c_cflag|=CS8; break; case DATA_8: break; } tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); } break; /*mark parity - WINDOWS ONLY*/ case PAR_MARK: TTY_WARNING("QextSerialPort: Mark parity is not supported by POSIX."); break; /*no parity*/ case PAR_NONE: Posix_CommConfig.c_cflag&=(~PARENB); tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); break; /*even parity*/ case PAR_EVEN: Posix_CommConfig.c_cflag&=(~PARODD); Posix_CommConfig.c_cflag|=PARENB; tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); break; /*odd parity*/ case PAR_ODD: Posix_CommConfig.c_cflag|=(PARENB|PARODD); tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); break; } } } /*! Sets the number of stop bits used by the serial port. Possible values of stopBits are: \verbatim STOP_1 1 stop bit STOP_1_5 1.5 stop bits STOP_2 2 stop bits \endverbatim \note This function is subject to the following restrictions: \par 2 stop bits cannot be used with 5 data bits. \par POSIX does not support 1.5 stop bits. */ void QextSerialPort::setStopBits(StopBitsType stopBits) { QMutexLocker lock(mutex); if (Settings.StopBits!=stopBits) { if ((Settings.DataBits==DATA_5 && stopBits==STOP_2) || stopBits==STOP_1_5) {} else { Settings.StopBits=stopBits; } } if (isOpen()) { switch (stopBits) { /*one stop bit*/ case STOP_1: Settings.StopBits=stopBits; Posix_CommConfig.c_cflag&=(~CSTOPB); tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); break; /*1.5 stop bits*/ case STOP_1_5: TTY_WARNING("QextSerialPort: 1.5 stop bit operation is not supported by POSIX."); break; /*two stop bits*/ case STOP_2: if (Settings.DataBits==DATA_5) { TTY_WARNING("QextSerialPort: 2 stop bits cannot be used with 5 data bits"); } else { Settings.StopBits=stopBits; Posix_CommConfig.c_cflag|=CSTOPB; tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); } break; } } } /*! Sets the flow control used by the port. Possible values of flow are: \verbatim FLOW_OFF No flow control FLOW_HARDWARE Hardware (RTS/CTS) flow control FLOW_XONXOFF Software (XON/XOFF) flow control \endverbatim \note FLOW_HARDWARE may not be supported on all versions of UNIX. In cases where it is unsupported, FLOW_HARDWARE is the same as FLOW_OFF. */ void QextSerialPort::setFlowControl(FlowType flow) { QMutexLocker lock(mutex); if (Settings.FlowControl!=flow) { Settings.FlowControl=flow; } if (isOpen()) { switch(flow) { /*no flow control*/ case FLOW_OFF: Posix_CommConfig.c_cflag&=(~CRTSCTS); Posix_CommConfig.c_iflag&=(~(IXON|IXOFF|IXANY)); tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); break; /*software (XON/XOFF) flow control*/ case FLOW_XONXOFF: Posix_CommConfig.c_cflag&=(~CRTSCTS); Posix_CommConfig.c_iflag|=(IXON|IXOFF|IXANY); tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); break; case FLOW_HARDWARE: Posix_CommConfig.c_cflag|=CRTSCTS; Posix_CommConfig.c_iflag&=(~(IXON|IXOFF|IXANY)); tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); break; } } } /*! Sets the read and write timeouts for the port to millisec milliseconds. Note that this is a per-character timeout, i.e. the port will wait this long for each individual character, not for the whole read operation. This timeout also applies to the bytesWaiting() function. \note POSIX does not support millisecond-level control for I/O timeout values. Any timeout set using this function will be set to the next lowest tenth of a second for the purposes of detecting read or write timeouts. For example a timeout of 550 milliseconds will be seen by the class as a timeout of 500 milliseconds for the purposes of reading and writing the port. However millisecond-level control is allowed by the select() system call, so for example a 550-millisecond timeout will be seen as 550 milliseconds on POSIX systems for the purpose of detecting available bytes in the read buffer. */ void QextSerialPort::setTimeout(long millisec) { QMutexLocker lock(mutex); Settings.Timeout_Millisec = millisec; Posix_Copy_Timeout.tv_sec = millisec / 1000; Posix_Copy_Timeout.tv_usec = millisec % 1000; if (isOpen()) { if (millisec == -1) (void)fcntl(fd, F_SETFL, O_NDELAY); else //O_SYNC should enable blocking ::write() //however this seems not working on Linux 2.6.21 (works on OpenBSD 4.2) (void)fcntl(fd, F_SETFL, O_SYNC); tcgetattr(fd, & Posix_CommConfig); Posix_CommConfig.c_cc[VTIME] = millisec/100; tcsetattr(fd, TCSAFLUSH, & Posix_CommConfig); } } /*! Opens the serial port associated to this class. This function has no effect if the port associated with the class is already open. The port is also configured to the current settings, as stored in the Settings structure. */ bool QextSerialPort::open(OpenMode mode) { QMutexLocker lock(mutex); if (mode == QIODevice::NotOpen) return isOpen(); if (!isOpen()) { qDebug() << "trying to open file" << port.toLatin1(); //note: linux 2.6.21 seems to ignore O_NDELAY flag if ((fd = ::open(port.toLatin1() ,O_RDWR | O_NOCTTY | O_NDELAY)) != -1) { qDebug("file opened successfully"); setOpenMode(mode); // Flag the port as opened tcgetattr(fd, &old_termios); // Save the old termios Posix_CommConfig = old_termios; // Make a working copy cfmakeraw(&Posix_CommConfig); // Enable raw access /*set up other port settings*/ Posix_CommConfig.c_cflag|=CREAD|CLOCAL; Posix_CommConfig.c_lflag&=(~(ICANON|ECHO|ECHOE|ECHOK|ECHONL|ISIG)); Posix_CommConfig.c_iflag&=(~(INPCK|IGNPAR|PARMRK|ISTRIP|ICRNL|IXANY)); Posix_CommConfig.c_oflag&=(~OPOST); Posix_CommConfig.c_cc[VMIN]= 0; #ifdef _POSIX_VDISABLE // Is a disable character available on this system? // Some systems allow for per-device disable-characters, so get the // proper value for the configured device const long vdisable = fpathconf(fd, _PC_VDISABLE); Posix_CommConfig.c_cc[VINTR] = vdisable; Posix_CommConfig.c_cc[VQUIT] = vdisable; Posix_CommConfig.c_cc[VSTART] = vdisable; Posix_CommConfig.c_cc[VSTOP] = vdisable; Posix_CommConfig.c_cc[VSUSP] = vdisable; #endif //_POSIX_VDISABLE setBaudRate(Settings.BaudRate); setDataBits(Settings.DataBits); setParity(Settings.Parity); setStopBits(Settings.StopBits); setFlowControl(Settings.FlowControl); setTimeout(Settings.Timeout_Millisec); tcsetattr(fd, TCSAFLUSH, &Posix_CommConfig); if (queryMode() == QextSerialPort::EventDriven) { readNotifier = new QSocketNotifier(fd, QSocketNotifier::Read, this); connect(readNotifier, &QSocketNotifier::activated, this, [=] { emit readyRead(); } ); } } else { qDebug() << "could not open file:" << strerror(errno); } } return isOpen(); } /*! Closes a serial port. This function has no effect if the serial port associated with the class is not currently open. */ void QextSerialPort::close() { QMutexLocker lock(mutex); if( isOpen() ) { // Force a flush and then restore the original termios flush(); // Using both TCSAFLUSH and TCSANOW here discards any pending input tcsetattr(fd, TCSAFLUSH | TCSANOW, &old_termios); // Restore termios // Be a good QIODevice and call QIODevice::close() before POSIX close() // so the aboutToClose() signal is emitted at the proper time QIODevice::close(); // Flag the device as closed // QIODevice::close() doesn't actually close the port, so do that here ::close(fd); if(readNotifier) { delete readNotifier; readNotifier = nullptr; } } } /*! Flushes all pending I/O to the serial port. This function has no effect if the serial port associated with the class is not currently open. */ void QextSerialPort::flush() { QMutexLocker lock(mutex); if (isOpen()) tcflush(fd, TCIOFLUSH); } /*! This function will return the number of bytes waiting in the receive queue of the serial port. It is included primarily to provide a complete QIODevice interface, and will not record errors in the lastErr member (because it is const). This function is also not thread-safe - in multithreading situations, use QextSerialPort::bytesWaiting() instead. */ qint64 QextSerialPort::size() const { int numBytes; if (ioctl(fd, FIONREAD, &numBytes)<0) { numBytes = 0; } return (qint64)numBytes; } /*! Returns the number of bytes waiting in the port's receive queue. This function will return 0 if the port is not currently open, or -1 on error. */ qint64 QextSerialPort::bytesAvailable() const { QMutexLocker lock(mutex); if (isOpen()) { int bytesQueued; if (ioctl(fd, FIONREAD, &bytesQueued) == -1) { return (qint64)-1; } return bytesQueued + QIODevice::bytesAvailable(); } return 0; } /*! This function is included to implement the full QIODevice interface, and currently has no purpose within this class. This function is meaningless on an unbuffered device and currently only prints a warning message to that effect. */ void QextSerialPort::ungetChar(char) { /*meaningless on unbuffered sequential device - return error and print a warning*/ TTY_WARNING("QextSerialPort: ungetChar() called on an unbuffered sequential device - operation is meaningless"); } /*! Translates a system-specific error code to a QextSerialPort error code. Used internally. */ void QextSerialPort::translateError(ulong error) { switch (error) { case EBADF: case ENOTTY: lastErr=E_INVALID_FD; break; case EINTR: lastErr=E_CAUGHT_NON_BLOCKED_SIGNAL; break; case ENOMEM: lastErr=E_NO_MEMORY; break; } } /*! Sets DTR line to the requested state (high by default). This function will have no effect if the port associated with the class is not currently open. */ void QextSerialPort::setDtr(bool set) { QMutexLocker lock(mutex); if (isOpen()) { int status; ioctl(fd, TIOCMGET, &status); if (set) { status|=TIOCM_DTR; } else { status&=~TIOCM_DTR; } ioctl(fd, TIOCMSET, &status); } } /*! Sets RTS line to the requested state (high by default). This function will have no effect if the port associated with the class is not currently open. */ void QextSerialPort::setRts(bool set) { QMutexLocker lock(mutex); if (isOpen()) { int status; ioctl(fd, TIOCMGET, &status); if (set) { status|=TIOCM_RTS; } else { status&=~TIOCM_RTS; } ioctl(fd, TIOCMSET, &status); } } /*! Returns the line status as stored by the port function. This function will retrieve the states of the following lines: DCD, CTS, DSR, and RI. On POSIX systems, the following additional lines can be monitored: DTR, RTS, Secondary TXD, and Secondary RXD. The value returned is an unsigned long with specific bits indicating which lines are high. The following constants should be used to examine the states of individual lines: \verbatim Mask Line ------ ---- LS_CTS CTS LS_DSR DSR LS_DCD DCD LS_RI RI LS_RTS RTS (POSIX only) LS_DTR DTR (POSIX only) LS_ST Secondary TXD (POSIX only) LS_SR Secondary RXD (POSIX only) \endverbatim This function will return 0 if the port associated with the class is not currently open. */ unsigned long QextSerialPort::lineStatus() { unsigned long Status=0, Temp=0; QMutexLocker lock(mutex); if (isOpen()) { ioctl(fd, TIOCMGET, &Temp); if (Temp&TIOCM_CTS) { Status|=LS_CTS; } if (Temp&TIOCM_DSR) { Status|=LS_DSR; } if (Temp&TIOCM_RI) { Status|=LS_RI; } if (Temp&TIOCM_CD) { Status|=LS_DCD; } if (Temp&TIOCM_DTR) { Status|=LS_DTR; } if (Temp&TIOCM_RTS) { Status|=LS_RTS; } #ifndef __CYGWIN__ if (Temp&TIOCM_ST) { Status|=LS_ST; } if (Temp&TIOCM_SR) { Status|=LS_SR; } #endif } return Status; } /*! Reads a block of data from the serial port. This function will read at most maxSize bytes from the serial port and place them in the buffer pointed to by data. Return value is the number of bytes actually read, or -1 on error. \warning before calling this function ensure that serial port associated with this class is currently open (use isOpen() function to check if port is open). */ qint64 QextSerialPort::readData(char * data, qint64 maxSize) { QMutexLocker lock(mutex); int retVal = ::read(fd, data, maxSize); if (retVal == -1) lastErr = E_READ_FAILED; return retVal; } /*! Writes a block of data to the serial port. This function will write maxSize bytes from the buffer pointed to by data to the serial port. Return value is the number of bytes actually written, or -1 on error. \warning before calling this function ensure that serial port associated with this class is currently open (use isOpen() function to check if port is open). */ qint64 QextSerialPort::writeData(const char * data, qint64 maxSize) { QMutexLocker lock(mutex); int retVal = ::write(fd, data, maxSize); if (retVal == -1) lastErr = E_WRITE_FAILED; return (qint64)retVal; } void QextSerialPort::onWinEvent( HANDLE h ) { Q_UNUSED(h); }