Esempio n. 1
0
def parseMessage(rawMessage, oobFDs):
    """
    Parses the raw binary message and returns a L{DBusMessage} subclass.
    Unmarshalling DBUS 'h' (UNIX_FD) gets the FDs from the oobFDs list.

    @type rawMessage: C{str}
    @param rawMessage: Raw binary message to parse

    @rtype: L{DBusMessage} subclass
    @returns: The L{DBusMessage} subclass corresponding to the contained
              message
    """

    lendian = rawMessage[0] == b'l'[0]

    nheader, hval = marshal.unmarshal(
        _headerFormat,
        rawMessage,
        0,
        lendian,
        oobFDs,
    )

    messageType = hval[1]

    if messageType not in _mtype:
        raise error.MarshallingError(
            'Unknown Message Type: ' + str(messageType)
        )

    m = object.__new__(_mtype[messageType])

    m.rawHeader = rawMessage[:nheader]

    npad = nheader % 8 and (8 - nheader % 8) or 0

    m.rawPadding = rawMessage[nheader: nheader + npad]

    m.rawBody = rawMessage[nheader + npad:]

    m.serial = hval[5]

    for code, v in hval[6]:
        try:
            setattr(m, _hcode[code], v)
        except KeyError:
            pass

    if m.signature:
        nbytes, m.body = marshal.unmarshal(
            m.signature,
            m.rawBody,
            lendian=lendian,
            oobFDs=oobFDs,
        )

    return m
Esempio n. 2
0
def parseMessage(rawMessage, oobFDs):
    """
    Parses the raw binary message and returns a L{DBusMessage} subclass.
    Unmarshalling DBUS 'h' (UNIX_FD) gets the FDs from the oobFDs list.

    @type rawMessage: C{str}
    @param rawMessage: Raw binary message to parse

    @rtype: L{DBusMessage} subclass
    @returns: The L{DBusMessage} subclass corresponding to the contained
              message
    """

    lendian = rawMessage[0] == b'l'[0]

    nheader, hval = marshal.unmarshal(
        _headerFormat,
        rawMessage,
        0,
        lendian,
        oobFDs,
    )

    messageType = hval[1]

    if messageType not in _mtype:
        raise error.MarshallingError(
            'Unknown Message Type: ' + str(messageType)
        )

    m = object.__new__(_mtype[messageType])

    m.rawHeader = rawMessage[:nheader]

    npad = nheader % 8 and (8 - nheader % 8) or 0

    m.rawPadding = rawMessage[nheader: nheader + npad]

    m.rawBody = rawMessage[nheader + npad:]

    m.serial = hval[5]

    for code, v in hval[6]:
        try:
            setattr(m, _hcode[code], v)
        except KeyError:
            pass

    if m.signature:
        nbytes, m.body = marshal.unmarshal(
            m.signature,
            m.rawBody,
            lendian=lendian,
            oobFDs=oobFDs,
        )

    return m
Esempio n. 3
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 def check(self, sig, expected_value, encoding):
     nbytes, value = m.unmarshal(sig, encoding, 0)
     self.assertEquals(
         nbytes, len(encoding),
         "Unmarshalling length mismatch. Expected %d bytes consumed. Got %d"
         % (len(encoding), nbytes))
     self.assertTrue(
         check_equal([expected_value],
                     value), 'Value mismatch. Expected: "%s". Got: "%s"' %
         (repr(expected_value), repr(value)))
Esempio n. 4
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 def check(self, sig, expected_value, encoding):
     nbytes, value = m.unmarshal( sig, encoding, 0 )
     self.assertEquals( nbytes, len(encoding), "Unmarshalling length mismatch. Expected %d bytes consumed. Got %d" % (len(encoding), nbytes) )        
     self.assertTrue( check_equal([expected_value], value), 'Value mismatch. Expected: "%s". Got: "%s"' % (repr(expected_value), repr(value)))