Ejemplo n.º 1
0
    def encrypt_block(self, plaintext):
        """Return 8-word ciphertext, encrypted from plaintext.

        `plaintext` must be a list of 8 64-bit words.

        """
        key = self.key
        tweak = self.tweak
        state = words(list(imap(add64, plaintext, key[:8])))
        state[5] = add64(state[5], tweak[0])
        state[6] = add64(state[6], tweak[1])

        for r, s in izip(xrange(1, 19), cycle((0, 16))):
            for i in xrange(16):
                m, n = PERM[i]
                state[m] = add64(state[m], state[n])
                state[n] = RotL_64(state[n], ROT[i + s])
                state[n] = state[n] ^ state[m]
            for y in xrange(8):
                state[y] = add64(state[y], key[(r + y) % 9])
            state[5] = add64(state[5], tweak[r % 3])
            state[6] = add64(state[6], tweak[(r + 1) % 3])
            state[7] = add64(state[7], r)

        return state
Ejemplo n.º 2
0
    def encrypt_block(self, plaintext):
        """Return 8-word ciphertext, encrypted from plaintext.

        `plaintext` must be a list of 8 64-bit words.

        """
        key = self.key
        tweak = self.tweak
        state = words(list(imap(add64, plaintext, key[:8])))
        state[5] = add64(state[5], tweak[0])
        state[6] = add64(state[6], tweak[1])

        for r,s in izip(xrange(1,19),cycle((0,16))):
            for i in xrange(16):
                m,n = PERM[i]
                state[m] = add64(state[m], state[n])
                state[n] = RotL_64(state[n], ROT[i+s])
                state[n] = state[n] ^ state[m]
            for y in xrange(8):
                     state[y] = add64(state[y], key[(r+y) % 9])
            state[5] = add64(state[5], tweak[r % 3])
            state[6] = add64(state[6], tweak[(r+1) % 3])
            state[7] = add64(state[7], r)

        return state
Ejemplo n.º 3
0
    def decrypt_block(self, ciphertext):
        """Return 8-word plaintext, decrypted from plaintext.

        `ciphertext` must be a list of 8 64-bit words.

        """
        key = self.key
        tweak = self.tweak
        state = ciphertext[:]

        for r, s in izip(xrange(18, 0, -1), cycle((16, 0))):
            for y in xrange(8):
                state[y] = sub64(state[y], key[(r + y) % 9])
            state[5] = sub64(state[5], tweak[r % 3])
            state[6] = sub64(state[6], tweak[(r + 1) % 3])
            state[7] = sub64(state[7], r)

            for i in xrange(15, -1, -1):
                m, n = PERM[i]
                state[n] = RotR_64(state[m] ^ state[n], ROT[i + s])
                state[m] = sub64(state[m], state[n])

        result = list(imap(sub64, state, key))
        result[5] = sub64(result[5], tweak[0])
        result[6] = sub64(result[6], tweak[1])
        return result
Ejemplo n.º 4
0
    def decrypt_block(self, ciphertext):
        """Return 8-word plaintext, decrypted from plaintext.

        `ciphertext` must be a list of 8 64-bit words.

        """
        key = self.key
        tweak = self.tweak
        state = ciphertext[:]

        for r,s in izip(xrange(18,0,-1),cycle((16,0))):
            for y in xrange(8):
                 state[y] = sub64(state[y], key[(r+y) % 9])
            state[5] = sub64(state[5], tweak[r % 3])
            state[6] = sub64(state[6], tweak[(r+1) % 3])
            state[7] = sub64(state[7], r)

            for i in xrange(15,-1,-1):
                m,n = PERM[i]
                state[n] = RotR_64(state[m] ^ state[n], ROT[i+s])
                state[m] = sub64(state[m], state[n])

        result = list(imap(sub64, state, key))
        result[5] = sub64(result[5], tweak[0])
        result[6] = sub64(result[6], tweak[1])
        return result