def __init__(self, sig: bytes = bytes()) -> None:
self.value: G1Obj = G1Obj()
if len(sig) == 0:
MilagroPairing.ECP_BLS381_inf(byref(self.value))
return
g: Tuple[bool, bool, bool, Big384] = parse(sig)
if g[0] != g[1]:
raise Exception("Infinite flag set improperly.")
if g[0]:
MilagroPairing.ECP_BLS381_inf(byref(self.value))
return
if MilagroPairing.ECP_BLS381_setx(byref(self.value), g[3], 0) != 1:
raise Exception("Invalid G1.")
yNeg: FP1Obj = FP1Obj()
MilagroPairing.FP_BLS381_neg(byref(yNeg), byref(self.value.y))
a: Big384 = Big384()
b: Big384 = Big384()
MilagroCurve.FP_BLS381_redc(a, byref(self.value.y))
MilagroCurve.FP_BLS381_redc(b, byref(yNeg))
if (MilagroCurve.BIG_384_58_comp(a, b) == 1) != g[2]:
if MilagroPairing.ECP_BLS381_setx(byref(self.value), g[3], 1) != 1:
raise Exception("Setting a proven valid X failed.")
def serialize(self) -> bytes:
x: Big384 = Big384()
y: Big384 = Big384()
MilagroCurve.ECP_BLS381_get(x, y, byref(self.value))
yNeg: Big384 = Big384()
MilagroCurve.FP_BLS381_neg(self.value.y, self.value.y)
MilagroCurve.ECP_BLS381_get(x, yNeg, byref(self.value))
MilagroCurve.FP_BLS381_neg(self.value.y, self.value.y)
return bytes(serialize(x, MilagroCurve.BIG_384_58_comp(y, yNeg) == 1))
def __init__(self, value: Any = None) -> None:
if isinstance(value, List):
if len(value) != 1:
raise Exception(
"Incompatible field element integer list passed to BLS12_381_F1."
)
value = value[0]
self.value = FP1Obj()
if (value is None) or (isinstance(value, int) and (value == 0)):
MilagroCurve.FP_BLS381_zero(byref(self.value))
elif isinstance(value, int):
if value == 1:
MilagroCurve.FP_BLS381_one(byref(self.value))
else:
temp: Big384 = Big384()
MilagroCurve.BIG_384_58_fromBytes(
temp, c_char_p(value.to_bytes(48, byteorder="big")))
MilagroCurve.FP_BLS381_rcopy(byref(self.value), temp)
#Clone the value.
elif isinstance(value, FP1Obj):
self.value = clone(value)
elif isinstance(value, BLS12_381_F1):
self.value = clone(value.value)
else:
raise Exception("Unknown type passed to BLS12-381 F1 constructor.")
def parse(
gArg: bytes,
second: bool = False
) -> Tuple[bool, bool, bool, Big384]:
if len(gArg) != 48:
raise Exception("Invalid length G.")
flags = gArg[0]
g: bytearray = bytearray(gArg)
g[0] = g[0] & CLEAR_FLAGS
if (not second) and (flags & C_FLAG == 0):
raise Exception("Uncompressed G.")
b: int = 1
if flags & B_FLAG != 0:
while b < 48:
if g[b] != 0:
break
b += 1
result: Big384 = Big384()
MilagroCurve.BIG_384_58_fromBytesLen(result, c_char_p(bytes(g)), 48)
return (flags & B_FLAG != 0, b == 48, flags & A_FLAG != 0, result)
def __init__(self, key: bytes = bytes()) -> None:
self.value: G2Obj = G2Obj()
if len(key) == 0:
MilagroPairing.ECP2_BLS381_inf(byref(self.value))
return
if len(key) != 96:
raise Exception("Invalid length Public Key.")
if key[48] != (key[48] & CLEAR_FLAGS):
raise Exception("G2's second G has flags set.")
g1: Tuple[bool, bool, bool, Big384] = parse(key[0:48])
g2: Tuple[bool, bool, bool, Big384] = parse(key[48:96], True)
if g1[0] != (g1[1] & g2[1]):
raise Exception("Infinite flag set improperly.")
if g1[0]:
MilagroPairing.ECP2_BLS381_inf(byref(self.value))
return
x: FP2Obj = FP2Obj()
MilagroPairing.FP2_BLS381_from_BIGs(byref(x), g2[3], g1[3])
if MilagroPairing.ECP2_BLS381_setx(byref(self.value), byref(x)) == 0:
raise Exception("Invalid G2.")
yNeg: FP2Obj = FP2Obj()
cmpRes: int
MilagroPairing.FP2_BLS381_neg(byref(yNeg), byref(self.value.y))
a: Big384 = Big384()
b: Big384 = Big384()
MilagroCurve.FP_BLS381_redc(a, byref(self.value.y.b))
MilagroCurve.FP_BLS381_redc(b, byref(yNeg.b))
cmpRes = MilagroCurve.BIG_384_58_comp(a, b)
if cmpRes == 0:
MilagroCurve.FP_BLS381_redc(a, byref(self.value.y.a))
MilagroCurve.FP_BLS381_redc(b, byref(yNeg.a))
cmpRes = MilagroCurve.BIG_384_58_comp(a, b)
if (cmpRes == 1) != g1[2]:
self.value.y = yNeg
def __init__(self, key: Union[int, bytes]) -> None:
#If a nickname was specified, generate a consistent Private Key based on it.
if isinstance(key, int):
key = blake2b(key.to_bytes(2 if key > 255 else 1, "little"),
digest_size=32).digest()
key = key.rjust(48, b'\0')
self.value: Big384 = Big384()
MilagroCurve.BIG_384_58_fromBytesLen(self.value, c_char_p(key), 48)
MilagroCurve.BIG_384_58_mod(self.value, r)
def serialize(self) -> bytes:
yNeg: FP2Obj = FP2Obj()
cmpRes: int
MilagroPairing.FP2_BLS381_neg(byref(yNeg), byref(self.value.y))
a: Big384 = Big384()
b: Big384 = Big384()
MilagroCurve.FP_BLS381_redc(a, byref(self.value.y.b))
MilagroCurve.FP_BLS381_redc(b, byref(yNeg.b))
cmpRes = MilagroCurve.BIG_384_58_comp(a, b)
if cmpRes == 0:
MilagroCurve.FP_BLS381_redc(a, byref(self.value.y.a))
MilagroCurve.FP_BLS381_redc(b, byref(yNeg.a))
cmpRes = MilagroCurve.BIG_384_58_comp(a, b)
MilagroCurve.FP_BLS381_redc(a, byref(self.value.x.a))
MilagroCurve.FP_BLS381_redc(b, byref(self.value.x.b))
result: bytearray = serialize(b, cmpRes == 1)
result += serialize(a, False)
result[48] = result[48] & CLEAR_FLAGS
return bytes(result)
def __init__(self, key: bytes) -> None:
key = key.rjust(48, b'\0')
self.value: Big384 = Big384()
MilagroCurve.BIG_384_58_fromBytesLen(self.value, c_char_p(key), 48)
MilagroCurve.BIG_384_58_mod(self.value, r)