Beispiel #1
0
    def __init__(self, logfile=None):
        self._q = Queue()
        self._device = None
        self._autostop = False
        self._state = "IDLE"
        self.sched = scheduler.get_scheduler()
        # FileWrapper protects against interrupted system call
        self._in = FileWrapper(
            os.fdopen(int(os.environ["VOICE_INPUT"]), "r", 1))
        self._out = FileWrapper(
            os.fdopen(int(os.environ["VOICE_OUTPUT"]), "w", 0))
        self._ppid = int(os.environ["VOICE_PID"])
        self._program = os.environ["VOICE_PROGRAM"]
        # modem login variables
        self.caller_id = os.environ.get("CALLER_ID")
        self.caller_name = os.environ.get("CALLER_NAME")
        self.called_id = os.environ.get("CALLED_ID")
        self.connectstring = os.environ.get("CONNECT")
        self._device = os.environ.get("DEVICE")

        self._log = logfile
        if self._log:
            self._log.write("-----------\n### Starting %s\n----------\n" %
                            (self.__class__.__name__, ))
        self.EVENT_DISPATCH = {}
        for ename in EVENTS:
            self.EVENT_DISPATCH[ename] = []
        self.chat(['HELLO SHELL', 'HELLO VOICE PROGRAM', 'READY'])
        # for easy subclass initialization
        self.initialize()
Beispiel #2
0
    def __init__(self, logfile=None):
        self._q = Queue()
        self._device = None
        self._autostop = False
        self._state = "IDLE"
        self.sched = scheduler.get_scheduler()
        # FileWrapper protects against interrupted system call
        self._in = FileWrapper(os.fdopen(int(os.environ["VOICE_INPUT"]), "r", 1))
        self._out = FileWrapper(os.fdopen(int(os.environ["VOICE_OUTPUT"]), "w", 0))
        self._ppid = int(os.environ["VOICE_PID"])
        self._program = os.environ["VOICE_PROGRAM"]
        # modem login variables
        self.caller_id = os.environ.get("CALLER_ID")
        self.caller_name = os.environ.get("CALLER_NAME")
        self.called_id = os.environ.get("CALLED_ID")
        self.connectstring = os.environ.get("CONNECT")
        self._device = os.environ.get("DEVICE")

        self._log = logfile
        if self._log:
            self._log.write("-----------\n### Starting %s\n----------\n" % (self.__class__.__name__,))
        self.EVENT_DISPATCH = {}
        for ename in EVENTS:
            self.EVENT_DISPATCH[ename] = []
        self.chat(['HELLO SHELL', 'HELLO VOICE PROGRAM', 'READY'])
        # for easy subclass initialization
        self.initialize()
Beispiel #3
0
class CallProgram(object):
    def __init__(self, logfile=None):
        self._q = Queue()
        self._device = None
        self._autostop = False
        self._state = "IDLE"
        self.sched = scheduler.get_scheduler()
        # FileWrapper protects against interrupted system call
        self._in = FileWrapper(
            os.fdopen(int(os.environ["VOICE_INPUT"]), "r", 1))
        self._out = FileWrapper(
            os.fdopen(int(os.environ["VOICE_OUTPUT"]), "w", 0))
        self._ppid = int(os.environ["VOICE_PID"])
        self._program = os.environ["VOICE_PROGRAM"]
        # modem login variables
        self.caller_id = os.environ.get("CALLER_ID")
        self.caller_name = os.environ.get("CALLER_NAME")
        self.called_id = os.environ.get("CALLED_ID")
        self.connectstring = os.environ.get("CONNECT")
        self._device = os.environ.get("DEVICE")

        self._log = logfile
        if self._log:
            self._log.write("-----------\n### Starting %s\n----------\n" %
                            (self.__class__.__name__, ))
        self.EVENT_DISPATCH = {}
        for ename in EVENTS:
            self.EVENT_DISPATCH[ename] = []
        self.chat(['HELLO SHELL', 'HELLO VOICE PROGRAM', 'READY'])
        # for easy subclass initialization
        self.initialize()

    def __del__(self):
        self.close()

    def register(self, evname, handler):
        """Register an event handler. The event name is one from the EVENTS
        list. The handler should be a callable."""
        assert evname in EVENTS, "bad event name"
        if callable(handler):
            self.EVENT_DISPATCH[evname].append(handler)
        else:
            raise ValueError, "register: handler must be callable"

    def unregister(self, evname, handler):
        hlist = self.EVENT_DISPATCH[evname]
        try:
            hlist.remove(handler)
        except ValueError:
            pass

    def initialize(self):
        """For subclasses to add extra initialization."""
        pass

    def log(self, entrytype, entry):
        if self._log:
            self._log.write("%s: %r\n" % (entrytype, entry))

    def _timeout_cb(self):
        self._timed_out = 1

    def _receive(self):
        self._timed_out = 0
        ev = self.sched.add(60, 0, self._timeout_cb, ())
        try:
            while True:
                try:
                    data = self._in.readline()
                except EnvironmentError, why:
                    if why.errno == EINTR:
                        if self._timed_out == 1:
                            raise TimeoutError, "timed out during recieve."
                        else:
                            continue
                    else:
                        raise
                else:
                    break
        finally:
            self.sched.remove(ev)
        data = data.strip()
        self._state = data
        self.log("RCV", data)
        return data

    def receive(self):
        while True:
            if self._q:
                data = self._q.pop()
            else:
                data = self._receive()
            hlist = self.EVENT_DISPATCH.get(data, None)  # checks if event type
            if hlist is None:  # not an event
                return data
            else:
                raise _AsyncEvent, (data, hlist)

    def _run_handlers(self, args):
        hlist = args[1]
        if not hlist:
            self.log("EVENT", args[0])
        for handler in hlist:
            self.log("CALL", handler)
            handler()
        if self._autostop:
            self._state = "IDLE"
        self.log("STATE", self._state)

    def send(self, data):
        while 1:
            try:
                self._out.write("%s\n" % (data, ))
            except EnvironmentError, why:
                if why.errno == EINTR:
                    continue
                else:
                    raise
            else:
                break
        os.kill(self._ppid, SIGPIPE)
        self.log("SND", data)
Beispiel #4
0
class CallProgram(object):
    def __init__(self, logfile=None):
        self._q = Queue()
        self._device = None
        self._autostop = False
        self._state = "IDLE"
        self.sched = scheduler.get_scheduler()
        # FileWrapper protects against interrupted system call
        self._in = FileWrapper(os.fdopen(int(os.environ["VOICE_INPUT"]), "r", 1))
        self._out = FileWrapper(os.fdopen(int(os.environ["VOICE_OUTPUT"]), "w", 0))
        self._ppid = int(os.environ["VOICE_PID"])
        self._program = os.environ["VOICE_PROGRAM"]
        # modem login variables
        self.caller_id = os.environ.get("CALLER_ID")
        self.caller_name = os.environ.get("CALLER_NAME")
        self.called_id = os.environ.get("CALLED_ID")
        self.connectstring = os.environ.get("CONNECT")
        self._device = os.environ.get("DEVICE")

        self._log = logfile
        if self._log:
            self._log.write("-----------\n### Starting %s\n----------\n" % (self.__class__.__name__,))
        self.EVENT_DISPATCH = {}
        for ename in EVENTS:
            self.EVENT_DISPATCH[ename] = []
        self.chat(['HELLO SHELL', 'HELLO VOICE PROGRAM', 'READY'])
        # for easy subclass initialization
        self.initialize()


    def __del__(self):
        self.close()

    def register(self, evname, handler):
        """Register an event handler. The event name is one from the EVENTS
        list. The handler should be a callable."""
        assert evname in EVENTS, "bad event name"
        if callable(handler):
            self.EVENT_DISPATCH[evname].append(handler)
        else:
            raise ValueError, "register: handler must be callable"

    def unregister(self, evname, handler):
        hlist = self.EVENT_DISPATCH[evname]
        try:
            hlist.remove(handler)
        except ValueError:
            pass

    def initialize(self):
        """For subclasses to add extra initialization."""
        pass

    def log(self, entrytype, entry):
        if self._log:
            self._log.write("%s: %r\n" % (entrytype, entry))

    def _timeout_cb(self):
        self._timed_out = 1

    def _receive(self):
        self._timed_out = 0
        ev = self.sched.add(60, 0, self._timeout_cb, ())
        try:
            while True:
                try:
                    data = self._in.readline()
                except EnvironmentError, why:
                    if why.errno == EINTR:
                        if self._timed_out == 1:
                            raise TimeoutError, "timed out during recieve."
                        else:
                            continue
                    else:
                        raise
                else:
                    break
        finally:
            self.sched.remove(ev)
        data = data.strip()
        self._state = data
        self.log("RCV", data)
        return data

    def receive(self):
        while True:
            if self._q:
                data = self._q.pop()
            else:
                data = self._receive()
            hlist = self.EVENT_DISPATCH.get(data, None) # checks if event type
            if hlist is None: # not an event
                return data
            else:
                raise _AsyncEvent, (data, hlist)

    def _run_handlers(self, args):
        hlist = args[1]
        if not hlist:
            self.log("EVENT", args[0])
        for handler in hlist:
            self.log("CALL", handler)
            handler()
        if self._autostop:
            self._state = "IDLE"
        self.log("STATE", self._state)

    def send(self, data):
        while 1:
            try:
                self._out.write("%s\n" % (data,))
            except EnvironmentError, why:
                if why.errno == EINTR:
                    continue
                else:
                    raise
            else:
                break
        os.kill(self._ppid, SIGPIPE)
        self.log("SND", data)