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https://github.com/classilla/tenfourfox.git
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271 lines
8.0 KiB
Python
271 lines
8.0 KiB
Python
# ------------------------------------------------------------------------------
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#
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# R A B B I T Stream Cipher
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# by M. Boesgaard, M. Vesterager, E. Zenner (specified in RFC 4503)
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#
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#
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# Pure Python Implementation by Toni Mattis
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#
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# ------------------------------------------------------------------------------
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WORDSIZE = 0x100000000
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rot08 = lambda x: ((x << 8) & 0xFFFFFFFF) | (x >> 24)
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rot16 = lambda x: ((x << 16) & 0xFFFFFFFF) | (x >> 16)
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def _nsf(u, v):
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'''Internal non-linear state transition'''
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s = (u + v) % WORDSIZE
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s = s * s
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return (s ^ (s >> 32)) % WORDSIZE
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class Rabbit:
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def __init__(self, key, iv = None):
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'''Initialize Rabbit cipher using a 128 bit integer/string'''
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if isinstance(key, str):
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# interpret key string in big endian byte order
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if len(key) < 16:
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key = '\x00' * (16 - len(key)) + key
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# if len(key) > 16 bytes only the first 16 will be considered
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k = [ord(key[i + 1]) | (ord(key[i]) << 8)
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for i in xrange(14, -1, -2)]
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else:
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# k[0] = least significant 16 bits
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# k[7] = most significant 16 bits
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k = [(key >> i) & 0xFFFF for i in xrange(0, 128, 16)]
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# State and counter initialization
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x = [(k[(j + 5) % 8] << 16) | k[(j + 4) % 8] if j & 1 else
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(k[(j + 1) % 8] << 16) | k[j] for j in xrange(8)]
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c = [(k[j] << 16) | k[(j + 1) % 8] if j & 1 else
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(k[(j + 4) % 8] << 16) | k[(j + 5) % 8] for j in xrange(8)]
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self.x = x
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self.c = c
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self.b = 0
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self._buf = 0 # output buffer
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self._buf_bytes = 0 # fill level of buffer
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self.next()
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self.next()
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self.next()
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self.next()
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for j in xrange(8):
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c[j] ^= x[(j + 4) % 8]
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self.start_x = self.x[:] # backup initial key for IV/reset
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self.start_c = self.c[:]
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self.start_b = self.b
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if iv != None:
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self.set_iv(iv)
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def reset(self, iv = None):
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'''Reset the cipher and optionally set a new IV (int64 / string).'''
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self.c = self.start_c[:]
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self.x = self.start_x[:]
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self.b = self.start_b
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self._buf = 0
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self._buf_bytes = 0
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if iv != None:
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self.set_iv(iv)
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def set_iv(self, iv):
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'''Set a new IV (64 bit integer / bytestring).'''
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if isinstance(iv, str):
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i = 0
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for c in iv:
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i = (i << 8) | ord(c)
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iv = i
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c = self.c
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i0 = iv & 0xFFFFFFFF
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i2 = iv >> 32
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i1 = ((i0 >> 16) | (i2 & 0xFFFF0000)) % WORDSIZE
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i3 = ((i2 << 16) | (i0 & 0x0000FFFF)) % WORDSIZE
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c[0] ^= i0
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c[1] ^= i1
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c[2] ^= i2
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c[3] ^= i3
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c[4] ^= i0
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c[5] ^= i1
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c[6] ^= i2
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c[7] ^= i3
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self.next()
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self.next()
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self.next()
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self.next()
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def next(self):
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'''Proceed to the next internal state'''
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c = self.c
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x = self.x
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b = self.b
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t = c[0] + 0x4D34D34D + b
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c[0] = t % WORDSIZE
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t = c[1] + 0xD34D34D3 + t // WORDSIZE
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c[1] = t % WORDSIZE
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t = c[2] + 0x34D34D34 + t // WORDSIZE
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c[2] = t % WORDSIZE
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t = c[3] + 0x4D34D34D + t // WORDSIZE
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c[3] = t % WORDSIZE
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t = c[4] + 0xD34D34D3 + t // WORDSIZE
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c[4] = t % WORDSIZE
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t = c[5] + 0x34D34D34 + t // WORDSIZE
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c[5] = t % WORDSIZE
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t = c[6] + 0x4D34D34D + t // WORDSIZE
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c[6] = t % WORDSIZE
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t = c[7] + 0xD34D34D3 + t // WORDSIZE
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c[7] = t % WORDSIZE
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b = t // WORDSIZE
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g = [_nsf(x[j], c[j]) for j in xrange(8)]
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x[0] = (g[0] + rot16(g[7]) + rot16(g[6])) % WORDSIZE
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x[1] = (g[1] + rot08(g[0]) + g[7]) % WORDSIZE
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x[2] = (g[2] + rot16(g[1]) + rot16(g[0])) % WORDSIZE
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x[3] = (g[3] + rot08(g[2]) + g[1]) % WORDSIZE
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x[4] = (g[4] + rot16(g[3]) + rot16(g[2])) % WORDSIZE
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x[5] = (g[5] + rot08(g[4]) + g[3]) % WORDSIZE
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x[6] = (g[6] + rot16(g[5]) + rot16(g[4])) % WORDSIZE
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x[7] = (g[7] + rot08(g[6]) + g[5]) % WORDSIZE
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self.b = b
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return self
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def derive(self):
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'''Derive a 128 bit integer from the internal state'''
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x = self.x
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return ((x[0] & 0xFFFF) ^ (x[5] >> 16)) | \
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(((x[0] >> 16) ^ (x[3] & 0xFFFF)) << 16)| \
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(((x[2] & 0xFFFF) ^ (x[7] >> 16)) << 32)| \
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(((x[2] >> 16) ^ (x[5] & 0xFFFF)) << 48)| \
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(((x[4] & 0xFFFF) ^ (x[1] >> 16)) << 64)| \
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(((x[4] >> 16) ^ (x[7] & 0xFFFF)) << 80)| \
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(((x[6] & 0xFFFF) ^ (x[3] >> 16)) << 96)| \
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(((x[6] >> 16) ^ (x[1] & 0xFFFF)) << 112)
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def keystream(self, n):
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'''Generate a keystream of n bytes'''
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res = ""
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b = self._buf
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j = self._buf_bytes
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next = self.next
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derive = self.derive
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for i in xrange(n):
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if not j:
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j = 16
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next()
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b = derive()
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res += chr(b & 0xFF)
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j -= 1
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b >>= 1
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self._buf = b
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self._buf_bytes = j
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return res
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def encrypt(self, data):
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'''Encrypt/Decrypt data of arbitrary length.'''
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res = ""
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b = self._buf
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j = self._buf_bytes
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next = self.next
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derive = self.derive
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for c in data:
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if not j: # empty buffer => fetch next 128 bits
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j = 16
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next()
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b = derive()
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res += chr(ord(c) ^ (b & 0xFF))
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j -= 1
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b >>= 1
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self._buf = b
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self._buf_bytes = j
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return res
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decrypt = encrypt
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if __name__ == "__main__":
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import time
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# --- Official Test Vectors ---
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# RFC 4503 Appendix A.1 - Testing without IV Setup
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r = Rabbit(0)
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assert r.next().derive() == 0xB15754F036A5D6ECF56B45261C4AF702
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assert r.next().derive() == 0x88E8D815C59C0C397B696C4789C68AA7
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assert r.next().derive() == 0xF416A1C3700CD451DA68D1881673D696
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r = Rabbit(0x912813292E3D36FE3BFC62F1DC51C3AC)
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assert r.next().derive() == 0x3D2DF3C83EF627A1E97FC38487E2519C
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assert r.next().derive() == 0xF576CD61F4405B8896BF53AA8554FC19
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assert r.next().derive() == 0xE5547473FBDB43508AE53B20204D4C5E
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r = Rabbit(0x8395741587E0C733E9E9AB01C09B0043)
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assert r.next().derive() == 0x0CB10DCDA041CDAC32EB5CFD02D0609B
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assert r.next().derive() == 0x95FC9FCA0F17015A7B7092114CFF3EAD
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assert r.next().derive() == 0x9649E5DE8BFC7F3F924147AD3A947428
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# RFC 4503 Appendix A.2 - Testing with IV Setup
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r = Rabbit(0, 0)
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assert r.next().derive() == 0xC6A7275EF85495D87CCD5D376705B7ED
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assert r.next().derive() == 0x5F29A6AC04F5EFD47B8F293270DC4A8D
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assert r.next().derive() == 0x2ADE822B29DE6C1EE52BDB8A47BF8F66
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r = Rabbit(0, 0xC373F575C1267E59)
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assert r.next().derive() == 0x1FCD4EB9580012E2E0DCCC9222017D6D
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assert r.next().derive() == 0xA75F4E10D12125017B2499FFED936F2E
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assert r.next().derive() == 0xEBC112C393E738392356BDD012029BA7
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r = Rabbit(0, 0xA6EB561AD2F41727)
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assert r.next().derive() == 0x445AD8C805858DBF70B6AF23A151104D
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assert r.next().derive() == 0x96C8F27947F42C5BAEAE67C6ACC35B03
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assert r.next().derive() == 0x9FCBFC895FA71C17313DF034F01551CB
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# --- Performance Tests ---
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def test_gen(n = 1048576):
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'''Measure time for generating n bytes => (total, bytes per second)'''
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r = Rabbit(0)
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t = time.time()
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r.keystream(n)
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t = time.time() - t
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return t, n / t
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def test_enc(n = 1048576):
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'''Measure time for encrypting n bytes => (total, bytes per second)'''
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r = Rabbit(0)
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x = 'x' * n
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t = time.time()
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r.encrypt(x)
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t = time.time() - t
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return t, n / t
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