#!/usr/bin/env python #Python Serial Port Extension for Win32, Linux, BSD, Jython #module for serial IO for POSIX compatible systems, like Linux #see __init__.py # #(C) 2001-2003 Chris Liechti # this is distributed under a free software license, see license.txt # #parts based on code from Grant B. Edwards : # ftp://ftp.visi.com/users/grante/python/PosixSerial.py # references: http://www.easysw.com/~mike/serial/serial.html import sys, os, fcntl, termios, struct, select, errno from serialutil import * VERSION = "$Revision: 1.1 $".split()[1] #extract CVS version #Do check the Python version as some constants have moved. if (sys.hexversion < 0x020100f0): import TERMIOS else: TERMIOS = termios if (sys.hexversion < 0x020200f0): import FCNTL else: FCNTL = fcntl #try to detect the os so that a device can be selected... plat = sys.platform.lower() if plat[:5] == 'linux': #Linux (confirmed) def device(port): return '/dev/ttyS%d' % port elif plat == 'cygwin': #cywin/win32 (confirmed) def device(port): return '/dev/com%d' % (port + 1) elif plat == 'openbsd3': #BSD (confirmed) def device(port): return '/dev/ttyp%d' % port elif plat[:3] == 'bsd' or \ plat[:7] == 'freebsd' or \ plat[:7] == 'openbsd' or \ plat[:6] == 'darwin': #BSD (confirmed for freebsd4: cuaa%d) def device(port): return '/dev/cuaa%d' % port elif plat[:6] == 'netbsd': #NetBSD 1.6 testing by Erk def device(port): return '/dev/dty%02d' % port elif plat[:4] == 'irix': #IRIX (not tested) def device(port): return '/dev/ttyf%d' % port elif plat[:2] == 'hp': #HP-UX (not tested) def device(port): return '/dev/tty%dp0' % (port+1) elif plat[:5] == 'sunos': #Solaris/SunOS (confirmed) def device(port): return '/dev/tty%c' % (ord('a')+port) elif plat[:3] == 'aix': #aix def device(port): return '/dev/tty%d' % (port) else: #platform detection has failed... print """don't know how to number ttys on this system. ! Use an explicit path (eg /dev/ttyS1) or send this information to ! the author of this module: sys.platform = %r os.name = %r serialposix.py version = %s also add the device name of the serial port and where the counting starts for the first serial port. e.g. 'first serial port: /dev/ttyS0' and with a bit luck you can get this module running... """ % (sys.platform, os.name, VERSION) #no exception, just continue with a brave attempt to build a device name #even if the device name is not correct for the platform it has chances #to work using a string with the real device name as port paramter. def device(portum): return '/dev/ttyS%d' % portnum #~ raise Exception, "this module does not run on this platform, sorry." #whats up with "aix", "beos", .... #they should work, just need to know the device names. #load some constants for later use. #try to use values from TERMIOS, use defaults from linux otherwise TIOCMGET = hasattr(TERMIOS, 'TIOCMGET') and TERMIOS.TIOCMGET or 0x5415 TIOCMBIS = hasattr(TERMIOS, 'TIOCMBIS') and TERMIOS.TIOCMBIS or 0x5416 TIOCMBIC = hasattr(TERMIOS, 'TIOCMBIC') and TERMIOS.TIOCMBIC or 0x5417 TIOCMSET = hasattr(TERMIOS, 'TIOCMSET') and TERMIOS.TIOCMSET or 0x5418 #TIOCM_LE = hasattr(TERMIOS, 'TIOCM_LE') and TERMIOS.TIOCM_LE or 0x001 TIOCM_DTR = hasattr(TERMIOS, 'TIOCM_DTR') and TERMIOS.TIOCM_DTR or 0x002 TIOCM_RTS = hasattr(TERMIOS, 'TIOCM_RTS') and TERMIOS.TIOCM_RTS or 0x004 #TIOCM_ST = hasattr(TERMIOS, 'TIOCM_ST') and TERMIOS.TIOCM_ST or 0x008 #TIOCM_SR = hasattr(TERMIOS, 'TIOCM_SR') and TERMIOS.TIOCM_SR or 0x010 TIOCM_CTS = hasattr(TERMIOS, 'TIOCM_CTS') and TERMIOS.TIOCM_CTS or 0x020 TIOCM_CAR = hasattr(TERMIOS, 'TIOCM_CAR') and TERMIOS.TIOCM_CAR or 0x040 TIOCM_RNG = hasattr(TERMIOS, 'TIOCM_RNG') and TERMIOS.TIOCM_RNG or 0x080 TIOCM_DSR = hasattr(TERMIOS, 'TIOCM_DSR') and TERMIOS.TIOCM_DSR or 0x100 TIOCM_CD = hasattr(TERMIOS, 'TIOCM_CD') and TERMIOS.TIOCM_CD or TIOCM_CAR TIOCM_RI = hasattr(TERMIOS, 'TIOCM_RI') and TERMIOS.TIOCM_RI or TIOCM_RNG #TIOCM_OUT1 = hasattr(TERMIOS, 'TIOCM_OUT1') and TERMIOS.TIOCM_OUT1 or 0x2000 #TIOCM_OUT2 = hasattr(TERMIOS, 'TIOCM_OUT2') and TERMIOS.TIOCM_OUT2 or 0x4000 TIOCINQ = hasattr(TERMIOS, 'FIONREAD') and TERMIOS.FIONREAD or 0x541B TIOCM_zero_str = struct.pack('I', 0) TIOCM_RTS_str = struct.pack('I', TIOCM_RTS) TIOCM_DTR_str = struct.pack('I', TIOCM_DTR) class Serial(SerialBase): """Serial port class POSIX implementation. Serial port configuration is done with termios and fcntl. Runs on Linux and many other Un*x like systems.""" def open(self): """Open port with current settings. This may throw a SerialException if the port cannot be opened.""" if self._port is None: raise SerialException("Port must be configured before it can be used.") self.fd = None #open try: self.fd = os.open(self.portstr, os.O_RDWR|os.O_NOCTTY|os.O_NONBLOCK) except Exception, msg: self.fd = None raise SerialException("Could not open port: %s" % msg) #~ fcntl.fcntl(self.fd, FCNTL.F_SETFL, 0) #set blocking self._reconfigurePort() self._isOpen = True #~ self.flushInput() def _reconfigurePort(self): """Set commuication parameters on opened port.""" if self.fd is None: raise SerialException("Can only operate on a valid port handle") vmin = vtime = 0 #timeout is done via select try: iflag, oflag, cflag, lflag, ispeed, ospeed, cc = termios.tcgetattr(self.fd) except termios.error, msg: #if a port is nonexistent but has a /dev file, it'll fail here raise SerialException("Could not configure port: %s" % msg) #set up raw mode / no echo / binary cflag |= (TERMIOS.CLOCAL|TERMIOS.CREAD) lflag &= ~(TERMIOS.ICANON|TERMIOS.ECHO|TERMIOS.ECHOE|TERMIOS.ECHOK|TERMIOS.ECHONL| TERMIOS.ISIG|TERMIOS.IEXTEN) #|TERMIOS.ECHOPRT for flag in ('ECHOCTL', 'ECHOKE'): #netbsd workaround for Erk if hasattr(TERMIOS, flag): lflag &= ~getattr(TERMIOS, flag) oflag &= ~(TERMIOS.OPOST) iflag &= ~(TERMIOS.INLCR|TERMIOS.IGNCR|TERMIOS.ICRNL|TERMIOS.IGNBRK) if hasattr(TERMIOS, 'IUCLC'): iflag &= ~TERMIOS.IUCLC if hasattr(TERMIOS, 'PARMRK'): iflag &= ~TERMIOS.PARMRK #setup baudrate try: ispeed = ospeed = getattr(TERMIOS,'B%s' % (self._baudrate)) except AttributeError: raise ValueError('Invalid baud rate: %r' % self._baudrate) #setup char len cflag &= ~TERMIOS.CSIZE if self._bytesize == 8: cflag |= TERMIOS.CS8 elif self._bytesize == 7: cflag |= TERMIOS.CS7 elif self._bytesize == 6: cflag |= TERMIOS.CS6 elif self._bytesize == 5: cflag |= TERMIOS.CS5 else: raise ValueError('Invalid char len: %r' % self._bytesize) #setup stopbits if self._stopbits == STOPBITS_ONE: cflag &= ~(TERMIOS.CSTOPB) elif self._stopbits == STOPBITS_TWO: cflag |= (TERMIOS.CSTOPB) else: raise ValueError('Invalid stopit specification: %r' % self._stopbits) #setup parity iflag &= ~(TERMIOS.INPCK|TERMIOS.ISTRIP) if self._parity == PARITY_NONE: cflag &= ~(TERMIOS.PARENB|TERMIOS.PARODD) elif self._parity == PARITY_EVEN: cflag &= ~(TERMIOS.PARODD) cflag |= (TERMIOS.PARENB) elif self._parity == PARITY_ODD: cflag |= (TERMIOS.PARENB|TERMIOS.PARODD) else: raise ValueError('Invalid parity: %r' % self._parity) #setup flow control #xonxoff if hasattr(TERMIOS, 'IXANY'): if self._xonxoff: iflag |= (TERMIOS.IXON|TERMIOS.IXOFF) #|TERMIOS.IXANY) else: iflag &= ~(TERMIOS.IXON|TERMIOS.IXOFF|TERMIOS.IXANY) else: if self._xonxoff: iflag |= (TERMIOS.IXON|TERMIOS.IXOFF) else: iflag &= ~(TERMIOS.IXON|TERMIOS.IXOFF) #rtscts if hasattr(TERMIOS, 'CRTSCTS'): if self._rtscts: cflag |= (TERMIOS.CRTSCTS) else: cflag &= ~(TERMIOS.CRTSCTS) elif hasattr(TERMIOS, 'CNEW_RTSCTS'): #try it with alternate constant name if self._rtscts: cflag |= (TERMIOS.CNEW_RTSCTS) else: cflag &= ~(TERMIOS.CNEW_RTSCTS) #XXX should there be a warning if setting up rtscts (and xonxoff etc) fails?? #buffer #vmin "minimal number of characters to be read. = for non blocking" if vmin < 0 or vmin > 255: raise ValueError('Invalid vmin: %r ' % vmin) cc[TERMIOS.VMIN] = vmin #vtime if vtime < 0 or vtime > 255: raise ValueError('Invalid vtime: %r' % vtime) cc[TERMIOS.VTIME] = vtime #activate settings termios.tcsetattr(self.fd, TERMIOS.TCSANOW, [iflag, oflag, cflag, lflag, ispeed, ospeed, cc]) def close(self): """Close port""" if self._isOpen: if self.fd is not None: os.close(self.fd) self.fd = None self._isOpen = False def makeDeviceName(self, port): return device(port) # - - - - - - - - - - - - - - - - - - - - - - - - def inWaiting(self): """Return the number of characters currently in the input buffer.""" #~ s = fcntl.ioctl(self.fd, TERMIOS.FIONREAD, TIOCM_zero_str) s = fcntl.ioctl(self.fd, TIOCINQ, TIOCM_zero_str) return struct.unpack('I',s)[0] def read(self, size=1): """Read size bytes from the serial port. If a timeout is set it may return less characters as requested. With no timeout it will block until the requested number of bytes is read.""" if self.fd is None: raise portNotOpenError read = '' inp = None if size > 0: while len(read) < size: #print "\tread(): size",size, "have", len(read) #debug ready,_,_ = select.select([self.fd],[],[], self._timeout) if not ready: break #timeout buf = os.read(self.fd, size-len(read)) read = read + buf if self._timeout >= 0 and not buf: break #early abort on timeout return read def write(self, data): """Output the given string over the serial port.""" if self.fd is None: raise portNotOpenError t = len(data) d = data while t > 0: try: if self._writeTimeout is not None and self._writeTimeout > 0: _,ready,_ = select.select([],[self.fd],[], self._writeTimeout) if not ready: raise writeTimeoutError n = os.write(self.fd, d) if self._writeTimeout is not None and self._writeTimeout > 0: _,ready,_ = select.select([],[self.fd],[], self._writeTimeout) if not ready: raise writeTimeoutError d = d[n:] t = t - n except OSError,v: if v.errno != errno.EAGAIN: raise def flush(self): """Flush of file like objects. In this case, wait until all data is written.""" self.drainOutput() def flushInput(self): """Clear input buffer, discarding all that is in the buffer.""" if self.fd is None: raise portNotOpenError termios.tcflush(self.fd, TERMIOS.TCIFLUSH) def flushOutput(self): """Clear output buffer, aborting the current output and discarding all that is in the buffer.""" if self.fd is None: raise portNotOpenError termios.tcflush(self.fd, TERMIOS.TCOFLUSH) def sendBreak(self): """Send break condition.""" if self.fd is None: raise portNotOpenError termios.tcsendbreak(self.fd, 0) def setRTS(self,on=1): """Set terminal status line: Request To Send""" if self.fd is None: raise portNotOpenError if on: fcntl.ioctl(self.fd, TIOCMBIS, TIOCM_RTS_str) else: fcntl.ioctl(self.fd, TIOCMBIC, TIOCM_RTS_str) def setDTR(self,on=1): """Set terminal status line: Data Terminal Ready""" if self.fd is None: raise portNotOpenError if on: fcntl.ioctl(self.fd, TIOCMBIS, TIOCM_DTR_str) else: fcntl.ioctl(self.fd, TIOCMBIC, TIOCM_DTR_str) def getCTS(self): """Read terminal status line: Clear To Send""" if self.fd is None: raise portNotOpenError s = fcntl.ioctl(self.fd, TIOCMGET, TIOCM_zero_str) return struct.unpack('I',s)[0] & TIOCM_CTS != 0 def getDSR(self): """Read terminal status line: Data Set Ready""" if self.fd is None: raise portNotOpenError s = fcntl.ioctl(self.fd, TIOCMGET, TIOCM_zero_str) return struct.unpack('I',s)[0] & TIOCM_DSR != 0 def getRI(self): """Read terminal status line: Ring Indicator""" if self.fd is None: raise portNotOpenError s = fcntl.ioctl(self.fd, TIOCMGET, TIOCM_zero_str) return struct.unpack('I',s)[0] & TIOCM_RI != 0 def getCD(self): """Read terminal status line: Carrier Detect""" if self.fd is None: raise portNotOpenError s = fcntl.ioctl(self.fd, TIOCMGET, TIOCM_zero_str) return struct.unpack('I',s)[0] & TIOCM_CD != 0 # - - platform specific - - - - def drainOutput(self): """internal - not portable!""" if self.fd is None: raise portNotOpenError termios.tcdrain(self.fd) def nonblocking(self): """internal - not portable!""" if self.fd is None: raise portNotOpenError fcntl.fcntl(self.fd, FCNTL.F_SETFL, FCNTL.O_NONBLOCK) def fileno(self): """For easier of the serial port instance with select. WARNING: this function is not portable to different platforms!""" if self.fd is None: raise portNotOpenError return self.fd if __name__ == '__main__': s = Serial(0, baudrate=19200, #baudrate bytesize=EIGHTBITS, #number of databits parity=PARITY_EVEN, #enable parity checking stopbits=STOPBITS_ONE, #number of stopbits timeout=3, #set a timeout value, None for waiting forever xonxoff=0, #enable software flow control rtscts=0, #enable RTS/CTS flow control ) s.setRTS(1) s.setDTR(1) s.flushInput() s.flushOutput() s.write('hello') print repr(s.read(5)) print s.inWaiting() del s