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170 lines
6.3 KiB
Python
170 lines
6.3 KiB
Python
"""
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Demonstrates implementation of SHA1 Hash function in a Python class and gives utilities
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to find hash of string or hash of text from a file.
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Usage: python sha1.py --string "Hello World!!"
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python sha1.py --file "hello_world.txt"
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When run without any arguments, it prints the hash of the string "Hello World!! Welcome to Cryptography"
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Also contains a Test class to verify that the generated Hash is same as that
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returned by the hashlib library
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SHA1 hash or SHA1 sum of a string is a crytpographic function which means it is easy
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to calculate forwards but extemely difficult to calculate backwards. What this means
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is, you can easily calculate the hash of a string, but it is extremely difficult to
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know the original string if you have its hash. This property is useful to communicate
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securely, send encrypted messages and is very useful in payment systems, blockchain
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and cryptocurrency etc.
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The Algorithm as described in the reference:
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First we start with a message. The message is padded and the length of the message
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is added to the end. It is then split into blocks of 512 bits or 64 bytes. The blocks
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are then processed one at a time. Each block must be expanded and compressed.
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The value after each compression is added to a 160bit buffer called the current hash
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state. After the last block is processed the current hash state is returned as
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the final hash.
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Reference: https://deadhacker.com/2006/02/21/sha-1-illustrated/
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"""
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import argparse
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import struct
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import hashlib # hashlib is only used inside the Test class
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import unittest
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class SHA1Hash:
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"""
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Class to contain the entire pipeline for SHA1 Hashing Algorithm
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>>> SHA1Hash(bytes('Allan', 'utf-8')).final_hash()
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'872af2d8ac3d8695387e7c804bf0e02c18df9e6e'
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"""
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def __init__(self, data):
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"""
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Inititates the variables data and h. h is a list of 5 8-digit Hexadecimal
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numbers corresponding to (1732584193, 4023233417, 2562383102, 271733878, 3285377520)
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respectively. We will start with this as a message digest. 0x is how you write
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Hexadecimal numbers in Python
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"""
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self.data = data
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self.h = [0x67452301, 0xEFCDAB89, 0x98BADCFE, 0x10325476, 0xC3D2E1F0]
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@staticmethod
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def rotate(n, b):
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"""
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Static method to be used inside other methods. Left rotates n by b.
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>>> SHA1Hash('').rotate(12,2)
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48
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"""
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return ((n << b) | (n >> (32 - b))) & 0xFFFFFFFF
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def padding(self):
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"""
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Pads the input message with zeros so that padded_data has 64 bytes or 512 bits
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"""
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padding = b"\x80" + b"\x00" * (63 - (len(self.data) + 8) % 64)
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padded_data = self.data + padding + struct.pack(">Q", 8 * len(self.data))
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return padded_data
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def split_blocks(self):
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"""
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Returns a list of bytestrings each of length 64
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"""
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return [
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self.padded_data[i : i + 64] for i in range(0, len(self.padded_data), 64)
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]
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# @staticmethod
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def expand_block(self, block):
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"""
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Takes a bytestring-block of length 64, unpacks it to a list of integers and returns a
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list of 80 integers after some bit operations
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"""
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w = list(struct.unpack(">16L", block)) + [0] * 64
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for i in range(16, 80):
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w[i] = self.rotate((w[i - 3] ^ w[i - 8] ^ w[i - 14] ^ w[i - 16]), 1)
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return w
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def final_hash(self):
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"""
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Calls all the other methods to process the input. Pads the data, then splits into
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blocks and then does a series of operations for each block (including expansion).
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For each block, the variable h that was initialized is copied to a,b,c,d,e
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and these 5 variables a,b,c,d,e undergo several changes. After all the blocks are
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processed, these 5 variables are pairwise added to h ie a to h[0], b to h[1] and so on.
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This h becomes our final hash which is returned.
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"""
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self.padded_data = self.padding()
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self.blocks = self.split_blocks()
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for block in self.blocks:
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expanded_block = self.expand_block(block)
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a, b, c, d, e = self.h
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for i in range(0, 80):
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if 0 <= i < 20:
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f = (b & c) | ((~b) & d)
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k = 0x5A827999
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elif 20 <= i < 40:
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f = b ^ c ^ d
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k = 0x6ED9EBA1
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elif 40 <= i < 60:
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f = (b & c) | (b & d) | (c & d)
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k = 0x8F1BBCDC
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elif 60 <= i < 80:
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f = b ^ c ^ d
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k = 0xCA62C1D6
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a, b, c, d, e = (
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self.rotate(a, 5) + f + e + k + expanded_block[i] & 0xFFFFFFFF,
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a,
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self.rotate(b, 30),
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c,
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d,
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)
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self.h = (
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self.h[0] + a & 0xFFFFFFFF,
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self.h[1] + b & 0xFFFFFFFF,
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self.h[2] + c & 0xFFFFFFFF,
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self.h[3] + d & 0xFFFFFFFF,
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self.h[4] + e & 0xFFFFFFFF,
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)
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return "%08x%08x%08x%08x%08x" % tuple(self.h)
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class SHA1HashTest(unittest.TestCase):
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"""
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Test class for the SHA1Hash class. Inherits the TestCase class from unittest
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"""
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def testMatchHashes(self):
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msg = bytes("Test String", "utf-8")
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self.assertEqual(SHA1Hash(msg).final_hash(), hashlib.sha1(msg).hexdigest())
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def main():
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"""
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Provides option 'string' or 'file' to take input and prints the calculated SHA1 hash.
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unittest.main() has been commented because we probably dont want to run
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the test each time.
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"""
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# unittest.main()
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parser = argparse.ArgumentParser(description="Process some strings or files")
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parser.add_argument(
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"--string",
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dest="input_string",
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default="Hello World!! Welcome to Cryptography",
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help="Hash the string",
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)
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parser.add_argument("--file", dest="input_file", help="Hash contents of a file")
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args = parser.parse_args()
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input_string = args.input_string
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# In any case hash input should be a bytestring
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if args.input_file:
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with open(args.input_file, "rb") as f:
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hash_input = f.read()
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else:
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hash_input = bytes(input_string, "utf-8")
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print(SHA1Hash(hash_input).final_hash())
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if __name__ == "__main__":
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main()
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import doctest
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doctest.testmod()
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