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#include <iostream>
#include <sstream>
#include <vector>
#include <string>
#include <iosfwd>
#include <stdint.h>
#include <memory.h>
#include "../mcl/src/bn_c_impl.hpp"
#define BLS_DLL_EXPORT
#include <bls/bls.h>
/*
BLS signature
e : G1 x G2 -> Fp12
Q in G2 ; fixed global parameter
H : {str} -> G1
s : secret key
sQ ; public key
s H(m) ; signature of m
verify ; e(sQ, H(m)) = e(Q, s H(m))
*/
static G2 g_Q;
static std::vector<Fp6> g_Qcoeff; // precomputed Q
static const G2& getQ() { return g_Q; }
static const std::vector<Fp6>& getQcoeff() { return g_Qcoeff; }
int blsInit(int curve, int maxUnitSize)
try
{
if (mclBn_init(curve, maxUnitSize) != 0) return -1;
BN::mapToG2(g_Q, 1);
BN::precomputeG2(g_Qcoeff, getQ());
return 0;
} catch (std::exception&) {
return -1;
}
static inline const mclBnG1 *cast(const G1* x) { return (const mclBnG1*)x; }
static inline const mclBnG2 *cast(const G2* x) { return (const mclBnG2*)x; }
/*
e(P1, Q1) == e(P2, Q2)
<=> finalExp(ML(P1, Q1)) == finalExp(ML(P2, Q2))
<=> finalExp(ML(P1, Q1) / ML(P2, Q2)) == 1
<=> finalExp(ML(P1, Q1) * ML(-P2, Q2)) == 1
Q1 is precomputed
*/
bool isEqualTwoPairings(const G1& P1, const Fp6* Q1coeff, const G1& P2, const G2& Q2)
{
std::vector<Fp6> Q2coeff;
BN::precomputeG2(Q2coeff, Q2);
Fp12 e;
BN::precomputedMillerLoop2(e, P1, Q1coeff, -P2, Q2coeff.data());
BN::finalExp(e, e);
return e.isOne();
}
size_t checkAndCopy(char *buf, size_t maxBufSize, const std::string& s)
{
if (s.size() > maxBufSize + 1) {
return 0;
}
memcpy(buf, s.c_str(), s.size());
buf[s.size()] = '\0';
return s.size();
}
size_t blsGetOpUnitSize() // FpUint64Size
{
return Fp::getUnitSize() * sizeof(mcl::fp::Unit) / sizeof(uint64_t);
}
int blsGetCurveOrder(char *buf, size_t maxBufSize)
try
{
std::string s;
Fr::getModulo(s);
return (int)checkAndCopy(buf, maxBufSize, s);
} catch (std::exception&) {
return 0;
}
int blsGetFieldOrder(char *buf, size_t maxBufSize)
try
{
std::string s;
Fp::getModulo(s);
return (int)checkAndCopy(buf, maxBufSize, s);
} catch (std::exception&) {
return 0;
}
void blsGetGeneratorOfG2(blsPublicKey *pub)
{
*(G2*)pub = getQ();
}
void blsGetPublicKey(blsPublicKey *pub, const blsSecretKey *sec)
{
mclBnG2_mul(&pub->v, cast(&getQ()), &sec->v);
}
void blsSign(blsSignature *sig, const blsSecretKey *sec, const void *m, size_t size)
{
G1 Hm;
BN::hashAndMapToG1(Hm, m, size);
mclBnG1_mulCT(&sig->v, cast(&Hm), &sec->v);
}
int blsSecretKeyShare(blsSecretKey *sec, const blsSecretKey* msk, size_t k, const blsId *id)
{
return mclBn_FrEvaluatePolynomial(&sec->v, &msk->v, k, &id->v);
}
int blsSecretKeyRecover(blsSecretKey *sec, const blsSecretKey *secVec, const blsId *idVec, size_t n)
{
return mclBn_FrLagrangeInterpolation(&sec->v, &idVec->v, &secVec->v, n);
}
void blsGetPop(blsSignature *sig, const blsSecretKey *sec)
{
blsPublicKey pub;
blsGetPublicKey(&pub, sec);
char buf[1024];
size_t n = mclBnG2_serialize(buf, sizeof(buf), &pub.v);
assert(n);
blsSign(sig, sec, buf, n);
}
int blsPublicKeyShare(blsPublicKey *pub, const blsPublicKey *mpk, size_t k, const blsId *id)
{
return mclBn_G2EvaluatePolynomial(&pub->v, &mpk->v, k, &id->v);
}
int blsPublicKeyRecover(blsPublicKey *pub, const blsPublicKey *pubVec, const blsId *idVec, size_t n)
{
return mclBn_G2LagrangeInterpolation(&pub->v, &idVec->v, &pubVec->v, n);
}
int blsSignatureRecover(blsSignature *sig, const blsSignature *sigVec, const blsId *idVec, size_t n)
{
return mclBn_G1LagrangeInterpolation(&sig->v, &idVec->v, &sigVec->v, n);
}
int blsVerify(const blsSignature *sig, const blsPublicKey *pub, const void *m, size_t size)
{
G1 Hm;
BN::hashAndMapToG1(Hm, m, size);
/*
e(sHm, Q) = e(Hm, sQ)
e(sig, Q) = e(Hm, pub)
*/
return isEqualTwoPairings(*cast(&sig->v), getQcoeff().data(), Hm, *cast(&pub->v));
}
int blsVerifyPop(const blsSignature *sig, const blsPublicKey *pub)
{
char buf[1024];
size_t n = mclBnG2_serialize(buf, sizeof(buf), &pub->v);
assert(n);
return blsVerify(sig, pub, buf, n);
}
void blsIdSetInt(blsId *id, int x)
{
mclBnFr_setInt(&id->v, x);
}
size_t blsIdSerialize(void *buf, size_t maxBufSize, const blsId *id)
{
return mclBnFr_serialize(buf, maxBufSize, &id->v);
}
size_t blsSecretKeySerialize(void *buf, size_t maxBufSize, const blsSecretKey *sec)
{
return mclBnFr_serialize(buf, maxBufSize, &sec->v);
}
size_t blsPublicKeySerialize(void *buf, size_t maxBufSize, const blsPublicKey *pub)
{
return mclBnG2_serialize(buf, maxBufSize, &pub->v);
}
size_t blsSignatureSerialize(void *buf, size_t maxBufSize, const blsSignature *sig)
{
return mclBnG1_serialize(buf, maxBufSize, &sig->v);
}
int blsIdDeserialize(blsId *id, const void *buf, size_t bufSize)
{
return mclBnFr_deserialize(&id->v, buf, bufSize);
}
int blsSecretKeyDeserialize(blsSecretKey *sig, const void *buf, size_t bufSize)
{
return mclBnFr_deserialize(&sig->v, buf, bufSize);
}
int blsPublicKeyDeserialize(blsPublicKey *pub, const void *buf, size_t bufSize)
{
return mclBnG2_deserialize(&pub->v, buf, bufSize);
}
int blsSignatureDeserialize(blsSignature *sig, const void *buf, size_t bufSize)
{
return mclBnG1_deserialize(&sig->v, buf, bufSize);
}
int blsIdIsEqual(const blsId *lhs, const blsId *rhs)
{
return mclBnFr_isEqual(&lhs->v, &rhs->v);
}
int blsSecretKeyIsEqual(const blsSecretKey *lhs, const blsSecretKey *rhs)
{
return mclBnFr_isEqual(&lhs->v, &rhs->v);
}
int blsPublicKeyIsEqual(const blsPublicKey *lhs, const blsPublicKey *rhs)
{
return mclBnG2_isEqual(&lhs->v, &rhs->v);
}
int blsSignatureIsEqual(const blsSignature *lhs, const blsSignature *rhs)
{
return mclBnG1_isEqual(&lhs->v, &rhs->v);
}
void blsSecretKeyAdd(blsSecretKey *sec, const blsSecretKey *rhs)
{
mclBnFr_add(&sec->v, &sec->v, &rhs->v);
}
void blsSignatureAdd(blsSignature *sig, const blsSignature *rhs)
{
mclBnG1_add(&sig->v, &sig->v, &rhs->v);
}
void blsPublicKeyAdd(blsPublicKey *pub, const blsPublicKey *rhs)
{
mclBnG2_add(&pub->v, &pub->v, &rhs->v);
}
int blsIdSetLittleEndian(blsId *id, const void *buf, size_t bufSize)
{
return mclBnFr_setLittleEndian(&id->v, buf, bufSize);
}
int blsIdSetDecStr(blsId *id, const char *buf, size_t bufSize)
{
return mclBnFr_setStr(&id->v, buf, bufSize, 10);
}
int blsIdSetHexStr(blsId *id, const char *buf, size_t bufSize)
{
return mclBnFr_setStr(&id->v, buf, bufSize, 16);
}
size_t blsIdGetLittleEndian(void *buf, size_t maxBufSize, const blsId *id)
{
return mclBnFr_serialize(buf, maxBufSize, &id->v);
}
size_t blsIdGetDecStr(char *buf, size_t maxBufSize, const blsId *id)
{
return mclBnFr_getStr(buf, maxBufSize, &id->v, 10);
}
size_t blsIdGetHexStr(char *buf, size_t maxBufSize, const blsId *id)
{
return mclBnFr_getStr(buf, maxBufSize, &id->v, 16);
}
int blsSecretKeySetLittleEndian(blsSecretKey *sec, const void *buf, size_t bufSize)
{
return mclBnFr_setLittleEndian(&sec->v, buf, bufSize);
}
int blsSecretKeySetDecStr(blsSecretKey *sec, const char *buf, size_t bufSize)
{
return mclBnFr_setStr(&sec->v, buf, bufSize, 10);
}
int blsSecretKeySetHexStr(blsSecretKey *sec, const char *buf, size_t bufSize)
{
return mclBnFr_setStr(&sec->v, buf, bufSize, 16);
}
size_t blsSecretKeyGetLittleEndian(void *buf, size_t maxBufSize, const blsSecretKey *sec)
{
return mclBnFr_serialize(buf, maxBufSize, &sec->v);
}
size_t blsSecretKeyGetDecStr(char *buf, size_t maxBufSize, const blsSecretKey *sec)
{
return mclBnFr_getStr(buf, maxBufSize, &sec->v, 10);
}
size_t blsSecretKeyGetHexStr(char *buf, size_t maxBufSize, const blsSecretKey *sec)
{
return mclBnFr_getStr(buf, maxBufSize, &sec->v, 16);
}
int blsHashToSecretKey(blsSecretKey *sec, const void *buf, size_t bufSize)
{
return mclBnFr_setHashOf(&sec->v, buf, bufSize);
}
int blsSecretKeySetByCSPRNG(blsSecretKey *sec)
{
return mclBnFr_setByCSPRNG(&sec->v);
}
int blsPublicKeySetHexStr(blsPublicKey *pub, const char *buf, size_t bufSize)
{
return mclBnG2_setStr(&pub->v, buf, bufSize, 16);
}
size_t blsPublicKeyGetHexStr(char *buf, size_t maxBufSize, const blsPublicKey *pub)
{
return mclBnG2_getStr(buf, maxBufSize, &pub->v, 16);
}
int blsSignatureSetHexStr(blsSignature *sig, const char *buf, size_t bufSize)
{
return mclBnG1_setStr(&sig->v, buf, bufSize, 16);
}
size_t blsSignatureGetHexStr(char *buf, size_t maxBufSize, const blsSignature *sig)
{
return mclBnG1_getStr(buf, maxBufSize, &sig->v, 16);
}
void blsDHKeyExchange(blsPublicKey *out, const blsSecretKey *sec, const blsPublicKey *pub)
{
mclBnG2_mulCT(&out->v, &pub->v, &sec->v);
}
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