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245 lines
10 KiB
Python
245 lines
10 KiB
Python
#
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# Chaffing.py : chaffing & winnowing support
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#
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# Part of the Python Cryptography Toolkit
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#
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# Written by Andrew M. Kuchling, Barry A. Warsaw, and others
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#
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# ===================================================================
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# The contents of this file are dedicated to the public domain. To
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# the extent that dedication to the public domain is not available,
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# everyone is granted a worldwide, perpetual, royalty-free,
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# non-exclusive license to exercise all rights associated with the
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# contents of this file for any purpose whatsoever.
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# No rights are reserved.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
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# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
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# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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# SOFTWARE.
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# ===================================================================
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#
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"""This file implements the chaffing algorithm.
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Winnowing and chaffing is a technique for enhancing privacy without requiring
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strong encryption. In short, the technique takes a set of authenticated
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message blocks (the wheat) and adds a number of chaff blocks which have
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randomly chosen data and MAC fields. This means that to an adversary, the
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chaff blocks look as valid as the wheat blocks, and so the authentication
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would have to be performed on every block. By tailoring the number of chaff
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blocks added to the message, the sender can make breaking the message
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computationally infeasible. There are many other interesting properties of
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the winnow/chaff technique.
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For example, say Alice is sending a message to Bob. She packetizes the
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message and performs an all-or-nothing transformation on the packets. Then
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she authenticates each packet with a message authentication code (MAC). The
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MAC is a hash of the data packet, and there is a secret key which she must
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share with Bob (key distribution is an exercise left to the reader). She then
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adds a serial number to each packet, and sends the packets to Bob.
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Bob receives the packets, and using the shared secret authentication key,
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authenticates the MACs for each packet. Those packets that have bad MACs are
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simply discarded. The remainder are sorted by serial number, and passed
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through the reverse all-or-nothing transform. The transform means that an
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eavesdropper (say Eve) must acquire all the packets before any of the data can
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be read. If even one packet is missing, the data is useless.
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There's one twist: by adding chaff packets, Alice and Bob can make Eve's job
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much harder, since Eve now has to break the shared secret key, or try every
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combination of wheat and chaff packet to read any of the message. The cool
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thing is that Bob doesn't need to add any additional code; the chaff packets
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are already filtered out because their MACs don't match (in all likelihood --
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since the data and MACs for the chaff packets are randomly chosen it is
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possible, but very unlikely that a chaff MAC will match the chaff data). And
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Alice need not even be the party adding the chaff! She could be completely
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unaware that a third party, say Charles, is adding chaff packets to her
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messages as they are transmitted.
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For more information on winnowing and chaffing see this paper:
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Ronald L. Rivest, "Chaffing and Winnowing: Confidentiality without Encryption"
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http://theory.lcs.mit.edu/~rivest/chaffing.txt
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"""
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__revision__ = "$Id$"
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from Crypto.Util.number import bytes_to_long
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class Chaff:
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"""Class implementing the chaff adding algorithm.
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Methods for subclasses:
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_randnum(size):
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Returns a randomly generated number with a byte-length equal
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to size. Subclasses can use this to implement better random
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data and MAC generating algorithms. The default algorithm is
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probably not very cryptographically secure. It is most
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important that the chaff data does not contain any patterns
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that can be used to discern it from wheat data without running
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the MAC.
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"""
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def __init__(self, factor=1.0, blocksper=1):
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"""Chaff(factor:float, blocksper:int)
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factor is the number of message blocks to add chaff to,
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expressed as a percentage between 0.0 and 1.0. blocksper is
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the number of chaff blocks to include for each block being
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chaffed. Thus the defaults add one chaff block to every
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message block. By changing the defaults, you can adjust how
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computationally difficult it could be for an adversary to
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brute-force crack the message. The difficulty is expressed
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as:
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pow(blocksper, int(factor * number-of-blocks))
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For ease of implementation, when factor < 1.0, only the first
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int(factor*number-of-blocks) message blocks are chaffed.
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"""
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if not (0.0<=factor<=1.0):
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raise ValueError, "'factor' must be between 0.0 and 1.0"
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if blocksper < 0:
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raise ValueError, "'blocksper' must be zero or more"
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self.__factor = factor
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self.__blocksper = blocksper
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def chaff(self, blocks):
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"""chaff( [(serial-number:int, data:string, MAC:string)] )
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: [(int, string, string)]
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Add chaff to message blocks. blocks is a list of 3-tuples of the
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form (serial-number, data, MAC).
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Chaff is created by choosing a random number of the same
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byte-length as data, and another random number of the same
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byte-length as MAC. The message block's serial number is
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placed on the chaff block and all the packet's chaff blocks
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are randomly interspersed with the single wheat block. This
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method then returns a list of 3-tuples of the same form.
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Chaffed blocks will contain multiple instances of 3-tuples
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with the same serial number, but the only way to figure out
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which blocks are wheat and which are chaff is to perform the
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MAC hash and compare values.
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"""
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chaffedblocks = []
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# count is the number of blocks to add chaff to. blocksper is the
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# number of chaff blocks to add per message block that is being
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# chaffed.
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count = len(blocks) * self.__factor
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blocksper = range(self.__blocksper)
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for i, wheat in zip(range(len(blocks)), blocks):
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# it shouldn't matter which of the n blocks we add chaff to, so for
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# ease of implementation, we'll just add them to the first count
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# blocks
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if i < count:
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serial, data, mac = wheat
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datasize = len(data)
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macsize = len(mac)
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addwheat = 1
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# add chaff to this block
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for j in blocksper:
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import sys
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chaffdata = self._randnum(datasize)
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chaffmac = self._randnum(macsize)
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chaff = (serial, chaffdata, chaffmac)
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# mix up the order, if the 5th bit is on then put the
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# wheat on the list
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if addwheat and bytes_to_long(self._randnum(16)) & 0x40:
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chaffedblocks.append(wheat)
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addwheat = 0
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chaffedblocks.append(chaff)
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if addwheat:
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chaffedblocks.append(wheat)
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else:
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# just add the wheat
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chaffedblocks.append(wheat)
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return chaffedblocks
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def _randnum(self, size):
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from Crypto import Random
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return Random.new().read(size)
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if __name__ == '__main__':
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text = """\
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We hold these truths to be self-evident, that all men are created equal, that
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they are endowed by their Creator with certain unalienable Rights, that among
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these are Life, Liberty, and the pursuit of Happiness. That to secure these
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rights, Governments are instituted among Men, deriving their just powers from
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the consent of the governed. That whenever any Form of Government becomes
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destructive of these ends, it is the Right of the People to alter or to
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abolish it, and to institute new Government, laying its foundation on such
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principles and organizing its powers in such form, as to them shall seem most
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likely to effect their Safety and Happiness.
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"""
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print 'Original text:\n=========='
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print text
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print '=========='
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# first transform the text into packets
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blocks = [] ; size = 40
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for i in range(0, len(text), size):
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blocks.append( text[i:i+size] )
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# now get MACs for all the text blocks. The key is obvious...
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print 'Calculating MACs...'
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from Crypto.Hash import HMAC, SHA
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key = 'Jefferson'
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macs = [HMAC.new(key, block, digestmod=SHA).digest()
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for block in blocks]
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assert len(blocks) == len(macs)
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# put these into a form acceptable as input to the chaffing procedure
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source = []
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m = zip(range(len(blocks)), blocks, macs)
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print m
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for i, data, mac in m:
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source.append((i, data, mac))
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# now chaff these
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print 'Adding chaff...'
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c = Chaff(factor=0.5, blocksper=2)
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chaffed = c.chaff(source)
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from base64 import encodestring
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# print the chaffed message blocks. meanwhile, separate the wheat from
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# the chaff
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wheat = []
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print 'chaffed message blocks:'
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for i, data, mac in chaffed:
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# do the authentication
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h = HMAC.new(key, data, digestmod=SHA)
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pmac = h.digest()
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if pmac == mac:
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tag = '-->'
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wheat.append(data)
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else:
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tag = ' '
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# base64 adds a trailing newline
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print tag, '%3d' % i, \
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repr(data), encodestring(mac)[:-1]
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# now decode the message packets and check it against the original text
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print 'Undigesting wheat...'
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# PY3K: This is meant to be text, do not change to bytes (data)
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newtext = "".join(wheat)
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if newtext == text:
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print 'They match!'
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else:
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print 'They differ!'
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