from __future__ import absolute_import from base64 import b64encode from hashlib import sha1 from mimetools import Message from netlib import tcp from netlib import utils from StringIO import StringIO import os import SocketServer import struct import io # Colleciton of utility functions that implement small portions of the RFC6455 WebSockets Protocol # Useful for building WebSocket clients and servers. # # Emphassis is on readabilty, simplicity and modularity, not performance or completeness # # This is a work in progress and does not yet contain all the utilites need to create fully complient client/servers # # Spec: https://tools.ietf.org/html/rfc6455 # The magic sha that websocket servers must know to prove they understand RFC6455 websockets_magic = '258EAFA5-E914-47DA-95CA-C5AB0DC85B11' class WebSocketFrameValidationException(Exception): pass class WebSocketsFrame(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, fin, # decmial integer 1 or 0 opcode, # decmial integer 1 - 4 mask_bit, # decimal integer 1 or 0 payload_length_code, # decimal integer 1 - 127 decoded_payload, # bytestring rsv1 = 0, # decimal integer 1 or 0 rsv2 = 0, # decimal integer 1 or 0 rsv3 = 0, # decimal integer 1 or 0 payload = None, # bytestring masking_key = None, # 32 bit byte string actual_payload_length = None, # any decimal integer ): self.fin = fin self.rsv1 = rsv1 self.rsv2 = rsv2 self.rsv3 = rsv3 self.opcode = opcode self.mask_bit = mask_bit self.payload_length_code = payload_length_code self.masking_key = masking_key self.payload = payload self.decoded_payload = decoded_payload self.actual_payload_length = actual_payload_length @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_byte_stream() directly """ return cls.from_byte_stream(io.BytesIO(bytestring).read) @classmethod def default(cls, message, from_client = False): """ Construct a basic websocket frame from some default values. Creates a non-fragmented text frame. """ length_code, actual_length = get_payload_length_pair(message) if from_client: mask_bit = 1 masking_key = random_masking_key() payload = apply_mask(message, masking_key) else: mask_bit = 0 masking_key = None payload = message return cls( fin = 1, # final frame opcode = 1, # text mask_bit = mask_bit, payload_length_code = length_code, payload = payload, masking_key = masking_key, decoded_payload = message, actual_payload_length = actual_length ) def is_valid(self): """ Validate websocket frame invariants, call at anytime to ensure the WebSocketsFrame has not been corrupted. """ try: assert 0 <= self.fin <= 1 assert 0 <= self.rsv1 <= 1 assert 0 <= self.rsv2 <= 1 assert 0 <= self.rsv3 <= 1 assert 1 <= self.opcode <= 4 assert 0 <= self.mask_bit <= 1 assert 1 <= self.payload_length_code <= 127 if self.mask_bit == 1: assert 1 <= len(self.masking_key) <= 4 else: assert self.masking_key == None assert self.actual_payload_length == len(self.payload) if self.payload is not None and self.masking_key is not None: assert apply_mask(self.payload, self.masking_key) == self.decoded_payload return True except AssertionError: return False def human_readable(self): return "\n".join([ ("fin - " + str(self.fin)), ("rsv1 - " + str(self.rsv1)), ("rsv2 - " + str(self.rsv2)), ("rsv3 - " + str(self.rsv3)), ("opcode - " + str(self.opcode)), ("mask_bit - " + str(self.mask_bit)), ("payload_length_code - " + str(self.payload_length_code)), ("masking_key - " + str(self.masking_key)), ("payload - " + str(self.payload)), ("decoded_payload - " + str(self.decoded_payload)), ("actual_payload_length - " + str(self.actual_payload_length))]) def safe_to_bytes(self): try: assert self.is_valid() return self.to_bytes() except: raise WebSocketFrameValidationException() def to_bytes(self): """ Serialize the frame back into the wire format, returns a bytestring If you haven't checked is_valid_frame() then there's no guarentees that the serialized bytes will be correct. see safe_to_bytes() """ max_16_bit_int = (1 << 16) max_64_bit_int = (1 << 63) # break down of the bit-math used to construct the first byte from the frame's integer values # first shift the significant bit into the correct position # 00000001 << 7 = 10000000 # ... # then combine: # # 10000000 fin # 01000000 res1 # 00100000 res2 # 00010000 res3 # 00000001 opcode # -------- OR # 11110001 = first_byte first_byte = (self.fin << 7) | (self.rsv1 << 6) | (self.rsv2 << 4) | (self.rsv3 << 4) | self.opcode second_byte = (self.mask_bit << 7) | self.payload_length_code bytes = chr(first_byte) + chr(second_byte) if self.actual_payload_length < 126: pass elif self.actual_payload_length < max_16_bit_int: # '!H' pack as 16 bit unsigned short bytes += struct.pack('!H', self.actual_payload_length) # add 2 byte extended payload length elif self.actual_payload_length < max_64_bit_int: # '!Q' = pack as 64 bit unsigned long long bytes += struct.pack('!Q', self.actual_payload_length) # add 8 bytes extended payload length if self.masking_key is not None: bytes += self.masking_key bytes += self.payload # already will be encoded if neccessary return bytes @classmethod def from_byte_stream(cls, read_bytes): """ read a websockets frame sent by a server or client read_bytes is a function that can be backed by sockets or by any byte reader. So this function may be used to read frames from disk/wire/memory """ first_byte = utils.bytes_to_int(read_bytes(1)) second_byte = utils.bytes_to_int(read_bytes(1)) fin = first_byte >> 7 # grab the left most bit opcode = first_byte & 15 # grab right most 4 bits by and-ing with 00001111 mask_bit = second_byte >> 7 # grab left most bit payload_length = second_byte & 127 # grab the next 7 bits # payload_lengthy > 125 indicates you need to read more bytes # to get the actual payload length if payload_length <= 125: actual_payload_length = payload_length elif payload_length == 126: actual_payload_length = utils.bytes_to_int(read_bytes(2)) elif payload_length == 127: actual_payload_length = utils.bytes_to_int(read_bytes(8)) # masking key only present if mask bit set if mask_bit == 1: masking_key = read_bytes(4) else: masking_key = None payload = read_bytes(actual_payload_length) if mask_bit == 1: decoded_payload = apply_mask(payload, masking_key) else: decoded_payload = payload return cls( fin = fin, opcode = opcode, mask_bit = mask_bit, payload_length_code = payload_length, payload = payload, masking_key = masking_key, decoded_payload = decoded_payload, actual_payload_length = actual_payload_length ) def __eq__(self, other): return ( self.fin == other.fin and self.rsv1 == other.rsv1 and self.rsv2 == other.rsv2 and self.rsv3 == other.rsv3 and self.opcode == other.opcode and self.mask_bit == other.mask_bit and self.payload_length_code == other.payload_length_code and self.masking_key == other.masking_key and self.payload == other.payload and self.decoded_payload == other.decoded_payload and self.actual_payload_length == other.actual_payload_length) def apply_mask(message, masking_key): """ Data sent from the server must be masked to prevent malicious clients from sending data over the wire in predictable patterns This method both encodes and decodes strings with the provided mask Servers do not have to mask data they send to the client. https://tools.ietf.org/html/rfc6455#section-5.3 """ masks = [utils.bytes_to_int(byte) for byte in masking_key] result = "" for char in message: result += chr(ord(char) ^ masks[len(result) % 4]) return result def random_masking_key(): return os.urandom(4) def create_client_handshake(host, port, key, version, resource): """ WebSockets connections are intiated by the client with a valid HTTP upgrade request """ headers = [ ('Host', '%s:%s' % (host, port)), ('Connection', 'Upgrade'), ('Upgrade', 'websocket'), ('Sec-WebSocket-Key', key), ('Sec-WebSocket-Version', version) ] request = "GET %s HTTP/1.1" % resource return build_handshake(headers, request) def create_server_handshake(key): """ The server response is a valid HTTP 101 response. """ headers = [ ('Connection', 'Upgrade'), ('Upgrade', 'websocket'), ('Sec-WebSocket-Accept', create_server_nounce(key)) ] request = "HTTP/1.1 101 Switching Protocols" return build_handshake(headers, request) def build_handshake(headers, request): handshake = [request.encode('utf-8')] for header, value in headers: handshake.append(("%s: %s" % (header, value)).encode('utf-8')) handshake.append(b'\r\n') return b'\r\n'.join(handshake) def read_handshake(read_bytes, num_bytes_per_read): """ From provided function that reads bytes, read in a complete HTTP request, which terminates with a CLRF """ response = b'' doubleCLRF = b'\r\n\r\n' while True: bytes = read_bytes(num_bytes_per_read) if not bytes: break response += bytes if doubleCLRF in response: break return response def get_payload_length_pair(payload_bytestring): """ 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 """ actual_length = len(payload_bytestring) if actual_length <= 125: length_code = actual_length elif actual_length >= 126 and actual_length <= 65535: length_code = 126 else: length_code = 127 return (length_code, actual_length) def process_handshake_from_client(handshake): headers = headers_from_http_message(handshake) if headers.get("Upgrade", None) != "websocket": return key = headers['Sec-WebSocket-Key'] return key def process_handshake_from_server(handshake, client_nounce): headers = headers_from_http_message(handshake) if headers.get("Upgrade", None) != "websocket": return key = headers['Sec-WebSocket-Accept'] return key def headers_from_http_message(http_message): return Message(StringIO(http_message.split('\r\n', 1)[1])) def create_server_nounce(client_nounce): return b64encode(sha1(client_nounce + websockets_magic).hexdigest().decode('hex')) def create_client_nounce(): return b64encode(os.urandom(16)).decode('utf-8')