Ejemplo n.º 1
0
class Channel(object):
    COMPRESSION_THRESHOLD = 3000
    COMPRESSION_LEVEL = 1
    FRAME_HEADER = Struct("!LB")
    FLUSHER = "\n"  # cause any line-buffered layers below us to flush
    __slots__ = ["stream", "compress"]

    def __init__(self, stream, compress=True):
        self.stream = stream
        if not zlib:
            compress = False
        self.compress = compress

    def close(self):
        self.stream.close()

    @property
    def closed(self):
        return self.stream.closed

    def fileno(self):
        return self.stream.fileno()

    def poll(self, timeout):
        return self.stream.poll(timeout)

    def recv(self):
        header = self.stream.read(self.FRAME_HEADER.size)
        length, compressed = self.FRAME_HEADER.unpack(header)
        data = self.stream.read(length +
                                len(self.FLUSHER))[:-len(self.FLUSHER)]
        if compressed:
            data = zlib.decompress(data)
        return data

    def send(self, data):
        if self.compress and len(data) > self.COMPRESSION_THRESHOLD:
            compressed = 1
            data = zlib.compress(data, self.COMPRESSION_LEVEL)
        else:
            compressed = 0
        header = self.FRAME_HEADER.pack(len(data), compressed)
        buf = header + data + self.FLUSHER
        self.stream.write(buf)
Ejemplo n.º 2
0
class Channel(object):
    """Channel implementation.
    
    Note: In order to avoid problems with all sorts of line-buffered transports, 
    we deliberately add ``\\n`` at the end of each frame.
    """

    COMPRESSION_THRESHOLD = 3000
    COMPRESSION_LEVEL = 1
    FRAME_HEADER = Struct("!LB")
    FLUSHER = BYTES_LITERAL(
        "\n")  # cause any line-buffered layers below us to flush
    __slots__ = ["stream", "compress"]

    def __init__(self, stream, compress=True):
        self.stream = stream
        if not zlib:
            compress = False
        self.compress = compress

    def close(self):
        """closes the channel and underlying stream"""
        self.stream.close()

    @property
    def closed(self):
        """indicates whether the underlying stream has been closed"""
        return self.stream.closed

    def fileno(self):
        """returns the file descriptor of the underlying stream"""
        return self.stream.fileno()

    def poll(self, timeout):
        """polls the underlying steam for data, waiting up to *timeout* seconds"""
        return self.stream.poll(timeout)

    def recv(self):
        """Receives the next packet (or *frame*) from the underlying stream.
        This method will block until the packet has been read completely
        
        :returns: string of data
        """
        header = self.stream.read(self.FRAME_HEADER.size)
        length, compressed = self.FRAME_HEADER.unpack(header)
        data = self.stream.read(length +
                                len(self.FLUSHER))[:-len(self.FLUSHER)]
        if compressed:
            data = zlib.decompress(data)
        return data

    def send(self, data):
        """Sends the given string of data as a packet over the underlying 
        stream. Blocks until the packet has been sent.
        
        :param data: the byte string to send as a packet
        """
        if self.compress and len(data) > self.COMPRESSION_THRESHOLD:
            compressed = 1
            data = zlib.compress(data, self.COMPRESSION_LEVEL)
        else:
            compressed = 0
        header = self.FRAME_HEADER.pack(len(data), compressed)
        buf = header + data + self.FLUSHER
        self.stream.write(buf)
Ejemplo n.º 3
0
Archivo: brine.py Proyecto: nomaka/rpyc
TAG_STR_L4 = b"\x0f"
TAG_TUP1 = b"\x10"
TAG_TUP2 = b"\x11"
TAG_TUP3 = b"\x12"
TAG_TUP4 = b"\x13"
TAG_TUP_L1 = b"\x14"
TAG_TUP_L4 = b"\x15"
TAG_INT_L1 = b"\x16"
TAG_INT_L4 = b"\x17"
TAG_FLOAT = b"\x18"
TAG_SLICE = b"\x19"
TAG_FSET = b"\x1a"
TAG_COMPLEX = b"\x1b"
IMM_INTS = dict((i, bytes([i + 0x50])) for i in range(-0x30, 0xa0))

I1 = Struct("!B")
I4 = Struct("!L")
F8 = Struct("!d")
C16 = Struct("!dd")

_dump_registry = {}
_load_registry = {}
IMM_INTS_LOADER = dict((v, k) for k, v in IMM_INTS.items())


def register(coll, key):
    def deco(func):
        coll[key] = func
        return func

    return deco