Beispiel #1
0
 def test_explicit(self):
     data = [  #     little  big                  little  big
         ('', '', ''),
         ('0000', '0', '0'),
         ('0001', '8', '1'),
         ('1000', '1', '8'),
         ('1001', '9', '9'),
         ('0100', '2', '4'),
         ('0101', 'a', '5'),
         ('1100', '3', 'c'),
         ('1101', 'b', 'd'),
         ('0010', '4', '2'),
         ('0011', 'c', '3'),
         ('1010', '5', 'a'),
         ('1011', 'd', 'b'),
         ('0110', '6', '6'),
         ('0111', 'e', '7'),
         ('1110', '7', 'e'),
         ('1111', 'f', 'f'),
         ('10001100', '13', '8c'),
         ('100011001110', '137', '8ce'),
         ('1000110011101111', '137f', '8cef'),
         ('10100111110111001001', '5eb39', 'a7dc9'),
     ]
     for bs, hex_le, hex_be in data:
         a_be = bitarray(bs, 'big')
         a_le = bitarray(bs, 'little')
         self.assertEQUAL(hex2ba(hex_be, 'big'), a_be)
         self.assertEQUAL(hex2ba(hex_le, 'little'), a_le)
         self.assertEqual(ba2hex(a_be), hex_be)
         self.assertEqual(ba2hex(a_le), hex_le)
 def test_explicit(self):
     for h, bs in [('', ''), ('0', '0000'), ('a', '1010'), ('f', '1111'),
                   ('1a', '00011010'), ('2b', '00101011'),
                   ('4c1', '010011000001'), ('a7d', '101001111101')]:
         a = bitarray(bs, 'big')
         self.assertEQUAL(hex2ba(h), a)
         self.assertEqual(ba2hex(a), h)
Beispiel #3
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 def test_binascii(self):
     a = urandom(800, 'big')
     s = binascii.hexlify(a.tobytes()).decode()
     self.assertEqual(ba2hex(a), s)
     b = bitarray(endian='big')
     b.frombytes(binascii.unhexlify(s))
     self.assertEQUAL(hex2ba(s, 'big'), b)
Beispiel #4
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 def test_explicit(self):
     data = [  #                       little   big
         ('', '', ''),
         ('1000', '1', '8'),
         ('1000 1100', '13', '8c'),
         ('1000 1100 1110', '137', '8ce'),
         ('1000 1100 1110 1111', '137f', '8cef'),
         ('1000 1100 1110 1111 0100', '137f2', '8cef4'),
     ]
     for bs, hex_le, hex_be in data:
         a_be = bitarray(bs, 'big')
         a_le = bitarray(bs, 'little')
         self.assertEQUAL(hex2ba(hex_be, 'big'), a_be)
         self.assertEQUAL(hex2ba(hex_le, 'little'), a_le)
         self.assertEqual(ba2hex(a_be), hex_be)
         self.assertEqual(ba2hex(a_le), hex_le)
Beispiel #5
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 def test_round_trip2(self):
     for a in self.randombitarrays():
         if len(a) % 4 or a.endian() != 'big':
             self.assertRaises(ValueError, ba2hex, a)
             continue
         b = hex2ba(ba2hex(a))
         self.assertEQUAL(b, a)
Beispiel #6
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 def test_hex(self):
     for i in range(1000):
         s = hex(i)
         self.assertEqual(s[:2], '0x')
         a = hex2ba(s[2:], 'big')
         self.assertEqual(ba2int(a), i)
         t = '0x%s' % ba2hex(a)
         self.assertEqual(t, s)
         self.assertEqual(eval(t), i)
Beispiel #7
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    def test_hexadecimal(self):
        a = base2ba(16, 'F61', 'big')
        self.assertEqual(a, bitarray('1111 0110 0001'))
        self.assertEqual(ba2base(16, a), 'f61')

        for n in range(50):
            s = ''.join(choice(hexdigits) for _ in range(n))
            for endian in 'big', 'little':
                a = base2ba(16, s, endian)
                self.assertEQUAL(a, hex2ba(s, endian))
                self.assertEqual(ba2base(16, a), ba2hex(a))
Beispiel #8
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 def test_round_trip(self):
     s = ''.join(choice(hexdigits) for _ in range(randint(20, 100)))
     for default_endian in 'big', 'little':
         _set_default_endian(default_endian)
         a = hex2ba(s)
         self.check_obj(a)
         self.assertEqual(len(a) % 4, 0)
         self.assertEqual(a.endian(), default_endian)
         t = ba2hex(a)
         self.assertEqual(t, s.lower())
         b = hex2ba(t, default_endian)
         self.assertEQUAL(a, b)
Beispiel #9
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    def _get_ciphertext(self):
        block = self.right_sides[-1] + self.left_sides[-1]
        # block = self.left_sides[-1] + self.right_sides[-1]
        bits = self.permute(block, INVERSE_INITIAL_PERMUTATION)

        begin = 0
        chars = []
        for end in range(8, len(bits) + 1, 8):
            chars.append(ba2hex(bits[begin:end]))
            begin = end

        return ''.join(chars)
Beispiel #10
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    def test_ba2hex(self):
        self.assertEqual(ba2hex(bitarray(0, 'big')), '')
        self.assertEqual(ba2hex(bitarray('1110', 'big')), 'e')
        self.assertEqual(ba2hex(bitarray('1110', 'little')), '7')
        self.assertEqual(ba2hex(bitarray('00000001', 'big')), '01')
        self.assertEqual(ba2hex(bitarray('10000000', 'big')), '80')
        self.assertEqual(ba2hex(bitarray('00000001', 'little')), '08')
        self.assertEqual(ba2hex(bitarray('10000000', 'little')), '10')
        self.assertEqual(ba2hex(frozenbitarray('11000111', 'big')), 'c7')
        # length not multiple of 4
        self.assertRaises(ValueError, ba2hex, bitarray('10'))
        self.assertRaises(TypeError, ba2hex, '101')

        c = ba2hex(bitarray('1101', 'big'))
        self.assertIsInstance(c, str)

        for n in range(7):
            a = bitarray(n * '1111', 'big')
            b = a.copy()
            self.assertEqual(ba2hex(a), n * 'f')
            # ensure original object wasn't altered
            self.assertEQUAL(a, b)
Beispiel #11
0
 def test_round_trip(self):
     for i in range(100):
         s = ''.join(choice(hexdigits) for _ in range(randint(0, 1000)))
         for default_endian in 'big', 'little':
             _set_default_endian(default_endian)
             a = hex2ba(s)
             self.assertEqual(len(a) % 4, 0)
             self.assertEqual(a.endian(), default_endian)
             t = ba2hex(a)
             self.assertEqual(t, s.lower())
             b = hex2ba(t, default_endian)
             self.assertEQUAL(a, b)
             # test simple encode / decode implementation
             self.assertEQUAL(a, self.hex2ba(t))
             self.assertEqual(t, self.ba2hex(a))
Beispiel #12
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 def test_round_trip(self):
     for i in range(100):
         s = ''.join(choice(hexdigits) for _ in range(randint(0, 1000)))
         t = ba2hex(hex2ba(s))
         self.assertEqual(t.decode(), s.lower())
Beispiel #13
0
for x in range(len(permuted_choice_1)):
    key_pc1[x] = bits[permuted_choice_1[x] - 1]

c = key_pc1[:28]
d = key_pc1[28:]

c_shift_left = c[1:] + c[:1]
d_shift_left = d[1:] + d[:1]

whole = c_shift_left + d_shift_left
key_pc2 = bitarray(48)
key_pc2.setall(0)
for x in range(len(permuted_choice_2)):
    key_pc2[x] = whole[permuted_choice_2[x] - 1]

print("Round 1 Key: {}".format(util.ba2hex(key_pc2)))

s1 = [[14, 4, 13, 1, 2, 15, 11, 8, 3, 10, 6, 12, 5, 9, 0, 7],
      [0, 15, 7, 4, 14, 2, 13, 1, 10, 6, 12, 11, 9, 5, 3, 8],
      [4, 1, 14, 8, 13, 6, 2, 11, 15, 12, 9, 7, 3, 10, 5, 0],
      [15, 12, 8, 2, 4, 9, 1, 7, 5, 11, 3, 14, 10, 0, 6, 13]]
s2 = [[15, 1, 8, 14, 6, 11, 3, 4, 9, 7, 2, 13, 12, 0, 5, 10],
      [3, 13, 4, 7, 15, 2, 8, 14, 12, 0, 1, 10, 6, 9, 11, 5],
      [0, 14, 7, 11, 10, 4, 13, 1, 5, 8, 12, 6, 9, 3, 2, 15],
      [13, 8, 10, 1, 3, 15, 4, 2, 11, 6, 7, 12, 0, 5, 14, 9]]
s3 = [[10, 0, 9, 14, 6, 3, 15, 5, 1, 13, 12, 7, 11, 4, 2, 8],
      [13, 7, 0, 9, 3, 4, 6, 10, 2, 8, 5, 14, 12, 11, 15, 1],
      [13, 6, 4, 9, 8, 15, 3, 0, 11, 1, 2, 12, 5, 10, 14, 7],
      [1, 10, 13, 0, 6, 9, 8, 7, 4, 15, 14, 3, 11, 5, 2, 12]]
s4 = [[7, 13, 14, 3, 0, 6, 9, 10, 1, 2, 8, 5, 11, 12, 4, 15],
      [13, 8, 11, 5, 6, 15, 0, 3, 4, 7, 2, 12, 1, 10, 14, 9],
Beispiel #14
0
    p_addr = 0
    data_len = 0
    fuses_bin = bitarray()
    for line in f_in:
        fuses_match = FUSES_PATTERN.match(line)
        if fuses_match:
            addr, data = fuses_match.groups()
            c_addr = int(addr)

            d_addr = c_addr - p_addr - data_len
            p_addr = c_addr
            data_len = len(data)   

            # empty fuse address
            if d_addr > 0:
                fuses_bin += d_addr * bitarray('1')

            fuses_bin += bitarray(data)

    # ignore PE & SIG
    del fuses_bin[PE[0]:PE[1]+1]
    del fuses_bin[SIG[0]:SIG[1]+1]

    # 32 bit padding
    padding = 32 - len(fuses_bin) % 32
    fuses_bin += padding * bitarray('1')
    fuses_hex = ba2hex(fuses_bin)

    # write 8 hex per line
    for i in range(0, len(fuses_hex), 8):
        f_out.write(fuses_hex[i:i+8] + '\n')