mitmproxy/netlib/websockets/frame.py
2016-07-05 15:11:32 -07:00

319 lines
10 KiB
Python

from __future__ import absolute_import
import os
import struct
import io
import warnings
import six
from netlib import tcp
from netlib import strutils
from netlib import utils
from netlib import human
from netlib.websockets import protocol
MAX_16_BIT_INT = (1 << 16)
MAX_64_BIT_INT = (1 << 64)
DEFAULT = object()
OPCODE = utils.BiDi(
CONTINUE=0x00,
TEXT=0x01,
BINARY=0x02,
CLOSE=0x08,
PING=0x09,
PONG=0x0a
)
class FrameHeader(object):
def __init__(
self,
opcode=OPCODE.TEXT,
payload_length=0,
fin=False,
rsv1=False,
rsv2=False,
rsv3=False,
masking_key=DEFAULT,
mask=DEFAULT,
length_code=DEFAULT
):
if not 0 <= opcode < 2 ** 4:
raise ValueError("opcode must be 0-16")
self.opcode = opcode
self.payload_length = payload_length
self.fin = fin
self.rsv1 = rsv1
self.rsv2 = rsv2
self.rsv3 = rsv3
if length_code is DEFAULT:
self.length_code = self._make_length_code(self.payload_length)
else:
self.length_code = length_code
if mask is DEFAULT and masking_key is DEFAULT:
self.mask = False
self.masking_key = b""
elif mask is DEFAULT:
self.mask = 1
self.masking_key = masking_key
elif masking_key is DEFAULT:
self.mask = mask
self.masking_key = os.urandom(4)
else:
self.mask = mask
self.masking_key = masking_key
if self.masking_key and len(self.masking_key) != 4:
raise ValueError("Masking key must be 4 bytes.")
@classmethod
def _make_length_code(self, length):
"""
A websockets frame contains an initial length_code, and an optional
extended length code to represent the actual length if length code is
larger than 125
"""
if length <= 125:
return length
elif length >= 126 and length <= 65535:
return 126
else:
return 127
def __repr__(self):
vals = [
"ws frame:",
OPCODE.get_name(self.opcode, hex(self.opcode)).lower()
]
flags = []
for i in ["fin", "rsv1", "rsv2", "rsv3", "mask"]:
if getattr(self, i):
flags.append(i)
if flags:
vals.extend([":", "|".join(flags)])
if self.masking_key:
vals.append(":key=%s" % repr(self.masking_key))
if self.payload_length:
vals.append(" %s" % human.pretty_size(self.payload_length))
return "".join(vals)
def human_readable(self):
warnings.warn("FrameHeader.to_bytes is deprecated, use bytes(frame_header) instead.", DeprecationWarning)
return repr(self)
def __bytes__(self):
first_byte = utils.setbit(0, 7, self.fin)
first_byte = utils.setbit(first_byte, 6, self.rsv1)
first_byte = utils.setbit(first_byte, 5, self.rsv2)
first_byte = utils.setbit(first_byte, 4, self.rsv3)
first_byte = first_byte | self.opcode
second_byte = utils.setbit(self.length_code, 7, self.mask)
b = six.int2byte(first_byte) + six.int2byte(second_byte)
if self.payload_length < 126:
pass
elif self.payload_length < MAX_16_BIT_INT:
# '!H' pack as 16 bit unsigned short
# add 2 byte extended payload length
b += struct.pack('!H', self.payload_length)
elif self.payload_length < MAX_64_BIT_INT:
# '!Q' = pack as 64 bit unsigned long long
# add 8 bytes extended payload length
b += struct.pack('!Q', self.payload_length)
if self.masking_key:
b += self.masking_key
return b
if six.PY2:
__str__ = __bytes__
def to_bytes(self):
warnings.warn("FrameHeader.to_bytes is deprecated, use bytes(frame_header) instead.", DeprecationWarning)
return bytes(self)
@classmethod
def from_file(cls, fp):
"""
read a websockets frame header
"""
first_byte = six.byte2int(fp.safe_read(1))
second_byte = six.byte2int(fp.safe_read(1))
fin = utils.getbit(first_byte, 7)
rsv1 = utils.getbit(first_byte, 6)
rsv2 = utils.getbit(first_byte, 5)
rsv3 = utils.getbit(first_byte, 4)
# grab right-most 4 bits
opcode = first_byte & 15
mask_bit = utils.getbit(second_byte, 7)
# grab the next 7 bits
length_code = second_byte & 127
# payload_lengthy > 125 indicates you need to read more bytes
# to get the actual payload length
if length_code <= 125:
payload_length = length_code
elif length_code == 126:
payload_length, = struct.unpack("!H", fp.safe_read(2))
elif length_code == 127:
payload_length, = struct.unpack("!Q", fp.safe_read(8))
# masking key only present if mask bit set
if mask_bit == 1:
masking_key = fp.safe_read(4)
else:
masking_key = None
return cls(
fin=fin,
rsv1=rsv1,
rsv2=rsv2,
rsv3=rsv3,
opcode=opcode,
mask=mask_bit,
length_code=length_code,
payload_length=payload_length,
masking_key=masking_key,
)
def __eq__(self, other):
if isinstance(other, FrameHeader):
return bytes(self) == bytes(other)
return False
class Frame(object):
"""
Represents one websockets frame.
Constructor takes human readable forms of the frame components
from_bytes() is also avaliable.
WebSockets Frame as defined in RFC6455
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-------+-+-------------+-------------------------------+
|F|R|R|R| opcode|M| Payload len | Extended payload length |
|I|S|S|S| (4) |A| (7) | (16/64) |
|N|V|V|V| |S| | (if payload len==126/127) |
| |1|2|3| |K| | |
+-+-+-+-+-------+-+-------------+ - - - - - - - - - - - - - - - +
| Extended payload length continued, if payload len == 127 |
+ - - - - - - - - - - - - - - - +-------------------------------+
| |Masking-key, if MASK set to 1 |
+-------------------------------+-------------------------------+
| Masking-key (continued) | Payload Data |
+-------------------------------- - - - - - - - - - - - - - - - +
: Payload Data continued ... :
+ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - +
| Payload Data continued ... |
+---------------------------------------------------------------+
"""
def __init__(self, payload=b"", **kwargs):
self.payload = payload
kwargs["payload_length"] = kwargs.get("payload_length", len(payload))
self.header = FrameHeader(**kwargs)
@classmethod
def default(cls, message, from_client=False):
"""
Construct a basic websocket frame from some default values.
Creates a non-fragmented text frame.
"""
if from_client:
mask_bit = 1
masking_key = os.urandom(4)
else:
mask_bit = 0
masking_key = None
return cls(
message,
fin=1, # final frame
opcode=OPCODE.TEXT, # text
mask=mask_bit,
masking_key=masking_key,
)
@classmethod
def from_bytes(cls, bytestring):
"""
Construct a websocket frame from an in-memory bytestring
to construct a frame from a stream of bytes, use from_file() directly
"""
return cls.from_file(tcp.Reader(io.BytesIO(bytestring)))
def __repr__(self):
ret = repr(self.header)
if self.payload:
ret = ret + "\nPayload:\n" + strutils.bytes_to_escaped_str(self.payload)
return ret
def human_readable(self):
warnings.warn("Frame.to_bytes is deprecated, use bytes(frame) instead.", DeprecationWarning)
return repr(self)
def __bytes__(self):
"""
Serialize the frame to wire format. Returns a string.
"""
b = bytes(self.header)
if self.header.masking_key:
b += protocol.Masker(self.header.masking_key)(self.payload)
else:
b += self.payload
return b
if six.PY2:
__str__ = __bytes__
def to_bytes(self):
warnings.warn("FrameHeader.to_bytes is deprecated, use bytes(frame_header) instead.", DeprecationWarning)
return bytes(self)
def to_file(self, writer):
warnings.warn("Frame.to_file is deprecated, use wfile.write(bytes(frame)) instead.", DeprecationWarning)
writer.write(bytes(self))
writer.flush()
@classmethod
def from_file(cls, fp):
"""
read a websockets frame sent by a server or client
fp is a "file like" object that could be backed by a network
stream or a disk or an in memory stream reader
"""
header = FrameHeader.from_file(fp)
payload = fp.safe_read(header.payload_length)
if header.mask == 1 and header.masking_key:
payload = protocol.Masker(header.masking_key)(payload)
return cls(
payload,
fin=header.fin,
opcode=header.opcode,
mask=header.mask,
payload_length=header.payload_length,
masking_key=header.masking_key,
rsv1=header.rsv1,
rsv2=header.rsv2,
rsv3=header.rsv3,
length_code=header.length_code
)
def __eq__(self, other):
if isinstance(other, Frame):
return bytes(self) == bytes(other)
return False