import os import platform from ctypes import * #from ctypes.util import find_library BN254 = 0 BLS12_381 = 5 MCLBN_FR_UNIT_SIZE = 4 MCLBN_FP_UNIT_SIZE = 6 FR_SIZE = MCLBN_FR_UNIT_SIZE G1_SIZE = MCLBN_FP_UNIT_SIZE * 3 G2_SIZE = MCLBN_FP_UNIT_SIZE * 6 GT_SIZE = MCLBN_FP_UNIT_SIZE * 12 SEC_SIZE = FR_SIZE * 2 PUB_SIZE = G1_SIZE + G2_SIZE G1_CIPHER_SIZE = G1_SIZE * 2 G2_CIPHER_SIZE = G2_SIZE * 2 GT_CIPHER_SIZE = GT_SIZE * 4 MCLBN_COMPILED_TIME_VAR = (MCLBN_FR_UNIT_SIZE * 10) + MCLBN_FP_UNIT_SIZE Buffer = c_ubyte * 2304 lib = None def init(curveType=BN254): global lib name = platform.system() if name == 'Linux': libName = 'libmclshe384_256.so' elif name == 'Darwin': libName = 'libmclshe384_256.dylib' elif name == 'Windows': libName = 'mclshe384_256.dll' else: raise RuntimeError("not support yet", name) # lib = cdll.LoadLibrary(find_library(libName)) lib = cdll.LoadLibrary(libName) ret = lib.sheInit(curveType, MCLBN_COMPILED_TIME_VAR) if ret != 0: raise RuntimeError("sheInit", ret) lib.mclBn_verifyOrderG1(0) lib.mclBn_verifyOrderG2(0) # custom setup for a function which returns pointer lib.shePrecomputedPublicKeyCreate.restype = c_void_p def setRangeForDLP(hashSize): ret = lib.sheSetRangeForDLP(hashSize) if ret != 0: raise RuntimeError("setRangeForDLP", ret) def setTryNum(tryNum): lib.sheSetTryNum(tryNum) def _hexStr(v): s = "" for x in v: s += format(x, '02x') return s def _serialize(self, f): buf = Buffer() ret = f(byref(buf), len(buf), byref(self.v)) if ret == 0: raise RuntimeError("serialize") return buf[0:ret] def _deserialize(cstr, f, buf): x = cstr() ca = (c_ubyte * len(buf))(*buf) ret = f(byref(x.v), byref(ca), len(buf)) if ret == 0: raise RuntimeError("deserialize") return x class CipherTextG1(Structure): _fields_ = [("v", c_ulonglong * G1_CIPHER_SIZE)] def serialize(self): return _serialize(self, lib.sheCipherTextG1Serialize) def serializeToHexStr(self): return _hexStr(self.serialize()) class CipherTextG2(Structure): _fields_ = [("v", c_ulonglong * G2_CIPHER_SIZE)] def serialize(self): return _serialize(self, lib.sheCipherTextG2Serialize) def serializeToHexStr(self): return _hexStr(self.serialize()) class CipherTextGT(Structure): _fields_ = [("v", c_ulonglong * GT_CIPHER_SIZE)] def serialize(self): return _serialize(self, lib.sheCipherTextGTSerialize) def serializeToHexStr(self): return _hexStr(self.serialize()) def _enc(CT, enc, encIntVec, neg, p, m): c = CT() if -0x80000000 <= m <= 0x7fffffff: ret = enc(byref(c.v), p, m) if ret != 0: raise RuntimeError("enc", m) return c if m < 0: minus = True m = -m else: minus = False if m >= 1 << (MCLBN_FR_UNIT_SIZE * 64): raise RuntimeError("enc:too large m", m) a = [] while m > 0: a.append(m & 0xffffffff) m >>= 32 ca = (c_uint * len(a))(*a) ret = encIntVec(byref(c.v), p, byref(ca), sizeof(ca)) if ret != 0: raise RuntimeError("enc:IntVec", m) if minus: ret = neg(byref(c.v), byref(c.v)) if ret != 0: raise RuntimeError("enc:neg", m) return c class PrecomputedPublicKey(Structure): def __init__(self): self.p = 0 def create(self): if not self.p: self.p = c_void_p(lib.shePrecomputedPublicKeyCreate()) if self.p == 0: raise RuntimeError("PrecomputedPublicKey::create") def destroy(self): lib.shePrecomputedPublicKeyDestroy(self.p) def encG1(self, m): return _enc(CipherTextG1, lib.shePrecomputedPublicKeyEncG1, lib.shePrecomputedPublicKeyEncIntVecG1, lib.sheNegG1, self.p, m) def encG2(self, m): return _enc(CipherTextG2, lib.shePrecomputedPublicKeyEncG2, lib.shePrecomputedPublicKeyEncIntVecG2, lib.sheNegG2, self.p, m) def encGT(self, m): return _enc(CipherTextGT, lib.shePrecomputedPublicKeyEncGT, lib.shePrecomputedPublicKeyEncIntVecGT, lib.sheNegGT, self.p, m) class PublicKey(Structure): _fields_ = [("v", c_ulonglong * PUB_SIZE)] def serialize(self): return _serialize(self, lib.shePublicKeySerialize) def serializeToHexStr(self): return _hexStr(self.serialize()) def encG1(self, m): return _enc(CipherTextG1, lib.sheEncG1, lib.sheEncIntVecG1, lib.sheNegG1, byref(self.v), m) def encG2(self, m): return _enc(CipherTextG2, lib.sheEncG2, lib.sheEncIntVecG2, lib.sheNegG2, byref(self.v), m) def encGT(self, m): return _enc(CipherTextGT, lib.sheEncGT, lib.sheEncIntVecGT, lib.sheNegGT, byref(self.v), m) def createPrecomputedPublicKey(self): ppub = PrecomputedPublicKey() ppub.create() ret = lib.shePrecomputedPublicKeyInit(ppub.p, byref(self.v)) if ret != 0: raise RuntimeError("createPrecomputedPublicKey") return ppub class SecretKey(Structure): _fields_ = [("v", c_ulonglong * SEC_SIZE)] def setByCSPRNG(self): ret = lib.sheSecretKeySetByCSPRNG(byref(self.v)) if ret != 0: raise RuntimeError("setByCSPRNG", ret) def serialize(self): return _serialize(self, lib.sheSecretKeySerialize) def serializeToHexStr(self): return _hexStr(self.serialize()) def getPulicKey(self): pub = PublicKey() lib.sheGetPublicKey(byref(pub.v), byref(self.v)) return pub def dec(self, c): m = c_longlong() if isinstance(c, CipherTextG1): ret = lib.sheDecG1(byref(m), byref(self.v), byref(c.v)) elif isinstance(c, CipherTextG2): ret = lib.sheDecG2(byref(m), byref(self.v), byref(c.v)) elif isinstance(c, CipherTextGT): ret = lib.sheDecGT(byref(m), byref(self.v), byref(c.v)) if ret != 0: raise RuntimeError("dec") return m.value def isZero(self, c): if isinstance(c, CipherTextG1): return lib.sheIsZeroG1(byref(self.v), byref(c.v)) == 1 elif isinstance(c, CipherTextG2): return lib.sheIsZeroG2(byref(self.v), byref(c.v)) == 1 elif isinstance(c, CipherTextGT): return lib.sheIsZeroGT(byref(self.v), byref(c.v)) == 1 raise RuntimeError("dec") def neg(c): ret = -1 if isinstance(c, CipherTextG1): out = CipherTextG1() ret = lib.sheNegG1(byref(out.v), byref(c.v)) elif isinstance(c, CipherTextG2): out = CipherTextG2() ret = lib.sheNegG2(byref(out.v), byref(c.v)) elif isinstance(c, CipherTextGT): out = CipherTextGT() ret = lib.sheNegGT(byref(out.v), byref(c.v)) if ret != 0: raise RuntimeError("neg") return out def add(cx, cy): ret = -1 if isinstance(cx, CipherTextG1) and isinstance(cy, CipherTextG1): out = CipherTextG1() ret = lib.sheAddG1(byref(out.v), byref(cx.v), byref(cy.v)) elif isinstance(cx, CipherTextG2) and isinstance(cy, CipherTextG2): out = CipherTextG2() ret = lib.sheAddG2(byref(out.v), byref(cx.v), byref(cy.v)) elif isinstance(cx, CipherTextGT) and isinstance(cy, CipherTextGT): out = CipherTextGT() ret = lib.sheAddGT(byref(out.v), byref(cx.v), byref(cy.v)) if ret != 0: raise RuntimeError("add") return out def sub(cx, cy): ret = -1 if isinstance(cx, CipherTextG1) and isinstance(cy, CipherTextG1): out = CipherTextG1() ret = lib.sheSubG1(byref(out.v), byref(cx.v), byref(cy.v)) elif isinstance(cx, CipherTextG2) and isinstance(cy, CipherTextG2): out = CipherTextG2() ret = lib.sheSubG2(byref(out.v), byref(cx.v), byref(cy.v)) elif isinstance(cx, CipherTextGT) and isinstance(cy, CipherTextGT): out = CipherTextGT() ret = lib.sheSubGT(byref(out.v), byref(cx.v), byref(cy.v)) if ret != 0: raise RuntimeError("sub") return out def mul(cx, cy): ret = -1 if isinstance(cx, CipherTextG1) and isinstance(cy, CipherTextG2): out = CipherTextGT() ret = lib.sheMul(byref(out.v), byref(cx.v), byref(cy.v)) elif isinstance(cx, CipherTextG1) and (isinstance(cy, int) or isinstance(cy, long)): return _enc(CipherTextG1, lib.sheMulG1, lib.sheMulIntVecG1, lib.sheNegG1, byref(cx.v), cy) elif isinstance(cx, CipherTextG2) and (isinstance(cy, int) or isinstance(cy, long)): return _enc(CipherTextG2, lib.sheMulG2, lib.sheMulIntVecG2, lib.sheNegG2, byref(cx.v), cy) elif isinstance(cx, CipherTextGT) and (isinstance(cy, int) or isinstance(cy, long)): return _enc(CipherTextGT, lib.sheMulGT, lib.sheMulIntVecGT, lib.sheNegGT, byref(cx.v), cy) if ret != 0: raise RuntimeError("mul") return out def deserializeToSecretKey(buf): return _deserialize(SecretKey, lib.sheSecretKeyDeserialize, buf) def deserializeToPublicKey(buf): return _deserialize(PublicKey, lib.shePublicKeyDeserialize, buf) def deserializeToCipherTextG1(buf): return _deserialize(CipherTextG1, lib.sheCipherTextG1Deserialize, buf) def deserializeToCipherTextG2(buf): return _deserialize(CipherTextG2, lib.sheCipherTextG2Deserialize, buf) def deserializeToCipherTextGT(buf): return _deserialize(CipherTextGT, lib.sheCipherTextGTDeserialize, buf) if __name__ == '__main__': init(BLS12_381) sec = SecretKey() sec.setByCSPRNG() print("sec=", sec.serializeToHexStr()) pub = sec.getPulicKey() print("pub=", pub.serializeToHexStr()) if sec.serialize() != deserializeToSecretKey(sec.serialize()).serialize(): print("err-ser1") if pub.serialize() != deserializeToPublicKey(pub.serialize()).serialize(): print("err-ser2") m11 = 1 m12 = 5 m21 = 3 m22 = -4 c11 = pub.encG1(m11) c12 = pub.encG1(m12) # dec(enc) for G1 if sec.dec(c11) != m11: print("err1") # add/sub for G1 if sec.dec(add(c11, c12)) != m11 + m12: print("err2") if sec.dec(sub(c11, c12)) != m11 - m12: print("err3") # add/sub for G2 c21 = pub.encG2(m21) c22 = pub.encG2(m22) if sec.dec(c21) != m21: print("err4") if sec.dec(add(c21, c22)) != m21 + m22: print("err5") if sec.dec(sub(c21, c22)) != m21 - m22: print("err6") # mul const for G1/G2 if sec.dec(mul(c11, 3)) != m11 * 3: print("err_mul1") if sec.dec(mul(c21, 7)) != m21 * 7: print("err_mul2") if c11.serialize() != deserializeToCipherTextG1(c11.serialize()).serialize(): print("err-ser3") if c21.serialize() != deserializeToCipherTextG2(c21.serialize()).serialize(): print("err-ser3") # large integer m1 = 0x140712384712047127412964192876419276341 m2 = -m1 + 123 c1 = pub.encG1(m1) c2 = pub.encG1(m2) if sec.dec(add(c1, c2)) != 123: print("err-large11") c1 = mul(pub.encG1(1), m1) if sec.dec(add(c1, c2)) != 123: print("err-large12") c1 = pub.encG2(m1) c2 = pub.encG2(m2) if sec.dec(add(c1, c2)) != 123: print("err-large21") c1 = mul(pub.encG2(1), m1) if sec.dec(add(c1, c2)) != 123: print("err-large22") c1 = pub.encGT(m1) c2 = pub.encGT(m2) if sec.dec(add(c1, c2)) != 123: print("err-large31") c1 = mul(pub.encGT(1), m1) if sec.dec(add(c1, c2)) != 123: print("err-large32") if c1.serialize() != deserializeToCipherTextGT(c1.serialize()).serialize(): print("err-ser4") mt = -56 ct = pub.encGT(mt) if sec.dec(ct) != mt: print("err7") # mul G1 and G2 if sec.dec(mul(c11, c21)) != m11 * m21: print("err8") if not sec.isZero(pub.encG1(0)): print("err-zero11") if sec.isZero(pub.encG1(3)): print("err-zero12") if not sec.isZero(pub.encG2(0)): print("err-zero21") if sec.isZero(pub.encG2(3)): print("err-zero22") if not sec.isZero(pub.encGT(0)): print("err-zero31") if sec.isZero(pub.encGT(3)): print("err-zero32") # use precomputedPublicKey for performance ppub = pub.createPrecomputedPublicKey() c1 = ppub.encG1(m11) if sec.dec(c1) != m11: print("err9") # large integer for precomputedPublicKey m1 = 0x140712384712047127412964192876419276341 m2 = -m1 + 123 c1 = ppub.encG1(m1) c2 = ppub.encG1(m2) if sec.dec(add(c1, c2)) != 123: print("err10") c1 = ppub.encG2(m1) c2 = ppub.encG2(m2) if sec.dec(add(c1, c2)) != 123: print("err11") c1 = ppub.encGT(m1) c2 = ppub.encGT(m2) if sec.dec(add(c1, c2)) != 123: print("err12") import sys if sys.version_info.major >= 3: import timeit N = 100000 print(str(timeit.timeit("pub.encG1(12)", number=N, globals=globals()) / float(N) * 1e3) + "msec") print(str(timeit.timeit("ppub.encG1(12)", number=N, globals=globals()) / float(N) * 1e3) + "msec") ppub.destroy() # necessary to avoid memory leak