mirror of
https://github.com/Neo-Desktop/WindowsXPKg
synced 2024-11-22 05:41:01 +02:00
Fix PIDGEN3
This commit is contained in:
parent
5e68e1c8e1
commit
cb557c1ed8
14
src/cli.cpp
14
src/cli.cpp
@ -402,7 +402,7 @@ BOOL CLI::BINK1998Generate()
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if (isValid)
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{
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printKey(pKey);
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if (i < total - 1 || options.verbose)
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if (i <= total - 1 || options.verbose)
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{
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fmt::print("\n");
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}
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@ -414,7 +414,7 @@ BOOL CLI::BINK1998Generate()
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{
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printKey(pKey);
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fmt::print(" [Invalid]");
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if (i < total - 1)
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if (i <= total - 1)
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{
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fmt::print("\n");
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}
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@ -443,13 +443,11 @@ BOOL CLI::BINK2002Generate()
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// generate a key
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for (int i = 0; i < total; i++)
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{
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DWORD pAuthInfo;
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RAND_bytes((BYTE *)&pAuthInfo, 4);
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pAuthInfo &= BITMASK(10);
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options.info.AuthInfo = UMSKT::getRandom<DWORD>() & BITMASK(10);
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if (options.verbose)
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{
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fmt::print("> AuthInfo: {}\n", pAuthInfo);
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fmt::print("> AuthInfo: {:#08x}\n", options.info.AuthInfo);
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}
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bink2002.Generate(options.info, pKey);
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@ -458,7 +456,7 @@ BOOL CLI::BINK2002Generate()
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if (isValid)
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{
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CLI::printKey(pKey);
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if (i < total - 1 || options.verbose)
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if (i <= total - 1 || options.verbose)
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{ // check if end of list or verbose
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fmt::print("\n");
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}
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@ -470,7 +468,7 @@ BOOL CLI::BINK2002Generate()
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{
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CLI::printKey(pKey); // print the key
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fmt::print(" [Invalid]"); // and add " [Invalid]" to the key
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if (i < this->total - 1)
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if (i <= total - 1)
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{ // check if end of list
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fmt::print("\n");
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}
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@ -76,10 +76,7 @@ class UMSKT
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template <typename T> static T getRandom()
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{
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T retval;
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BIGNUM *bnrand = BN_new();
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BN_rand(bnrand, sizeof(T) * 8, BN_RAND_TOP_ANY, BN_RAND_BOTTOM_ANY);
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BN_bn2lebinpad(bnrand, (unsigned char *)&retval, sizeof(T));
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BN_free(bnrand);
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RAND_bytes((BYTE *)&retval, sizeof(retval));
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return retval;
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}
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};
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@ -98,10 +98,10 @@ BOOL BINK1998::Verify(std::string &pKey)
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Unpack(info, pRaw);
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fmt::print(UMSKT::debug, "Validation results:\n");
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fmt::print(UMSKT::debug, " Upgrade: 0x{:08x}\n", info.isUpgrade);
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fmt::print(UMSKT::debug, " Serial: 0x{:08x}\n", info.Serial);
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fmt::print(UMSKT::debug, " Hash: 0x{:08x}\n", info.Hash);
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fmt::print(UMSKT::debug, " Signature: 0x{:08x}\n", info.Signature);
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fmt::print(UMSKT::debug, " Upgrade: {:#08x}\n", info.isUpgrade);
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fmt::print(UMSKT::debug, " Serial: {:#08x}\n", info.Serial);
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fmt::print(UMSKT::debug, " Hash: {:#08x}\n", info.Hash);
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fmt::print(UMSKT::debug, " Signature: {:#08x}\n", info.Signature);
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fmt::print(UMSKT::debug, "\n");
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DWORD pData = info.Serial << 1 | info.isUpgrade;
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@ -122,7 +122,7 @@ BOOL BINK1998::Verify(std::string &pKey)
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*/
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BIGNUM *e = BN_lebin2bn((BYTE *)&info.Hash, sizeof(info.Hash), nullptr),
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*s = BN_lebin2bn((BYTE *)&info.Hash, sizeof(info.Hash), nullptr);
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*s = BN_lebin2bn((BYTE *)&info.Signature, sizeof(info.Signature), nullptr);
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BIGNUM *x = BN_CTX_get(numContext), *y = BN_CTX_get(numContext);
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@ -130,10 +130,10 @@ BOOL BINK1998::Verify(std::string &pKey)
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EC_POINT *t = EC_POINT_new(eCurve), *p = EC_POINT_new(eCurve);
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// t = sG
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EC_POINT_mul(eCurve, t, nullptr, basePoint, s, numContext);
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EC_POINT_mul(eCurve, t, nullptr, genPoint, s, numContext);
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// P = eK
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EC_POINT_mul(eCurve, p, nullptr, publicKey, e, numContext);
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EC_POINT_mul(eCurve, p, nullptr, pubPoint, e, numContext);
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// P += t
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EC_POINT_add(eCurve, p, t, p, numContext);
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@ -185,11 +185,14 @@ BOOL BINK1998::Generate(KeyInfo &info, std::string &pKey)
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BIGNUM *c = BN_CTX_get(numContext), *s = BN_CTX_get(numContext), *x = BN_CTX_get(numContext),
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*y = BN_CTX_get(numContext);
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QWORD pRaw[2]{};
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QWORD pRaw[2];
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// Data segment of the RPK.
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DWORD pData = info.Serial << 1 | info.isUpgrade;
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// prepare the private key for generation
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BN_sub(privateKey, genOrder, privateKey);
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do
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{
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EC_POINT *r = EC_POINT_new(eCurve);
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@ -199,14 +202,14 @@ BOOL BINK1998::Generate(KeyInfo &info, std::string &pKey)
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// Pick a random derivative of the base point on the elliptic curve.
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// R = cG;
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EC_POINT_mul(eCurve, r, nullptr, basePoint, c, numContext);
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EC_POINT_mul(eCurve, r, nullptr, genPoint, c, numContext);
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// Acquire its coordinates.
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// x = R.x; y = R.y;
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EC_POINT_get_affine_coordinates(eCurve, r, x, y, numContext);
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BYTE msgDigest[SHA_DIGEST_LENGTH]{}, msgBuffer[SHA_MSG_LENGTH_XP]{};
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BYTE xBin[FIELD_BYTES]{}, yBin[FIELD_BYTES]{};
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BYTE msgDigest[SHA_DIGEST_LENGTH], msgBuffer[SHA_MSG_LENGTH_XP];
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BYTE xBin[FIELD_BYTES], yBin[FIELD_BYTES];
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// Convert coordinates to bytes.
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BN_bn2lebin(x, xBin, FIELD_BYTES);
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@ -257,10 +260,10 @@ BOOL BINK1998::Generate(KeyInfo &info, std::string &pKey)
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Pack(info, pRaw);
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fmt::print(UMSKT::debug, "Generation results:\n");
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fmt::print(UMSKT::debug, " Upgrade: 0x{:08x}\n", info.isUpgrade);
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fmt::print(UMSKT::debug, " Serial: 0x{:08x}\n", info.Serial);
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fmt::print(UMSKT::debug, " Hash: 0x{:08x}\n", info.Hash);
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fmt::print(UMSKT::debug, " Signature: 0x{:08x}\n", info.Signature);
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fmt::print(UMSKT::debug, " Upgrade: {:#08x}\n", info.isUpgrade);
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fmt::print(UMSKT::debug, " Serial: {:#08x}\n", info.Serial);
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fmt::print(UMSKT::debug, " Hash: {:#08x}\n", info.Hash);
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fmt::print(UMSKT::debug, " Signature: {:#08x}\n", info.Signature);
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fmt::print(UMSKT::debug, "\n");
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EC_POINT_free(r);
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@ -86,7 +86,7 @@ BOOL BINK2002::Verify(std::string &pKey)
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QWORD bKey[2];
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// Convert Base24 CD-key to bytecode.
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unbase24((BYTE *)bKey, pKey.c_str());
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unbase24((BYTE *)bKey, &pKey[0]);
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// Extract product key segments from bytecode.
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Unpack(info, bKey);
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@ -101,8 +101,7 @@ BOOL BINK2002::Verify(std::string &pKey)
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fmt::print(UMSKT::debug, " AuthInfo: 0x{:08x}\n", info.AuthInfo);
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fmt::print(UMSKT::debug, "\n");
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BYTE msgDigest[SHA_DIGEST_LENGTH]{}, msgBuffer[SHA_MSG_LENGTH_2003]{}, xBin[FIELD_BYTES_2003]{},
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yBin[FIELD_BYTES_2003]{};
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BYTE msgDigest[SHA_DIGEST_LENGTH], msgBuffer[SHA_MSG_LENGTH_2003], xBin[FIELD_BYTES_2003], yBin[FIELD_BYTES_2003];
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// Assemble the first SHA message.
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msgBuffer[0x00] = 0x5D;
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@ -141,16 +140,17 @@ BOOL BINK2002::Verify(std::string &pKey)
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*/
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BIGNUM *e = BN_lebin2bn((BYTE *)&iSignature, sizeof(iSignature), nullptr),
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*s = BN_lebin2bn((BYTE *)&info.Signature, sizeof(info.Signature), nullptr), *x = BN_new(), *y = BN_new();
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*s = BN_lebin2bn((BYTE *)&info.Signature, sizeof(info.Signature), nullptr);
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BIGNUM *x = BN_CTX_get(context), *y = BN_CTX_get(context);
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// Create 2 points on the elliptic curve.
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EC_POINT *p = EC_POINT_new(eCurve), *t = EC_POINT_new(eCurve);
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// t = sG
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EC_POINT_mul(eCurve, t, nullptr, basePoint, s, context);
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EC_POINT_mul(eCurve, t, nullptr, genPoint, s, context);
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// p = eK
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EC_POINT_mul(eCurve, p, nullptr, publicKey, e, context);
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EC_POINT_mul(eCurve, p, nullptr, pubPoint, e, context);
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// p += t
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EC_POINT_add(eCurve, p, t, p, context);
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@ -182,14 +182,12 @@ BOOL BINK2002::Verify(std::string &pKey)
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BN_free(s);
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BN_free(e);
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BN_free(x);
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BN_free(y);
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BN_CTX_free(context);
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EC_POINT_free(p);
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EC_POINT_free(t);
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BN_CTX_free(context);
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// If the computed hash checks out, the key is valid.
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return compHash == info.Hash;
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}
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@ -199,9 +197,10 @@ BOOL BINK2002::Generate(KeyInfo &info, std::string &pKey)
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{
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BN_CTX *numContext = BN_CTX_new();
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BIGNUM *c = BN_new(), *e = BN_new(), *s = BN_new(), *x = BN_new(), *y = BN_new();
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BIGNUM *c = BN_CTX_get(numContext), *e = BN_CTX_get(numContext), *s = BN_CTX_get(numContext),
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*x = BN_CTX_get(numContext), *y = BN_CTX_get(numContext);
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QWORD pRaw[2]{};
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QWORD pRaw[2];
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// Data segment of the RPK.
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DWORD pData = info.ChannelID << 1 | info.isUpgrade;
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@ -216,14 +215,14 @@ BOOL BINK2002::Generate(KeyInfo &info, std::string &pKey)
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BN_rand(c, FIELD_BITS_2003, BN_RAND_TOP_ANY, BN_RAND_BOTTOM_ANY);
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// R = cG
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EC_POINT_mul(eCurve, r, nullptr, basePoint, c, numContext);
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EC_POINT_mul(eCurve, r, nullptr, genPoint, c, numContext);
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// Acquire its coordinates.
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// x = R.x; y = R.y;
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EC_POINT_get_affine_coordinates(eCurve, r, x, y, numContext);
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BYTE msgDigest[SHA_DIGEST_LENGTH]{}, msgBuffer[SHA_MSG_LENGTH_2003]{}, xBin[FIELD_BYTES_2003]{},
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yBin[FIELD_BYTES_2003]{};
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BYTE msgDigest[SHA_DIGEST_LENGTH], msgBuffer[SHA_MSG_LENGTH_2003], xBin[FIELD_BYTES_2003],
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yBin[FIELD_BYTES_2003];
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// Convert resulting point coordinates to bytes.
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BN_bn2lebin(x, xBin, FIELD_BYTES_2003);
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@ -234,24 +233,24 @@ BOOL BINK2002::Generate(KeyInfo &info, std::string &pKey)
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msgBuffer[0x01] = (pData & 0x00FF);
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msgBuffer[0x02] = (pData & 0xFF00) >> 8;
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memcpy((void *)&msgBuffer[3], (void *)xBin, FIELD_BYTES_2003);
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memcpy((void *)&msgBuffer[3 + FIELD_BYTES_2003], (void *)yBin, FIELD_BYTES_2003);
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memcpy(&msgBuffer[3], xBin, FIELD_BYTES_2003);
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memcpy(&msgBuffer[3 + FIELD_BYTES_2003], yBin, FIELD_BYTES_2003);
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// pHash = SHA1(79 || Channel ID || R.x || R.y)
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SHA1(msgBuffer, SHA_MSG_LENGTH_2003, msgDigest);
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// Translate the byte digest into a 32-bit integer - this is our computed hash.
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// Truncate the hash to 31 bits.
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DWORD pHash = BYDWORD(msgDigest) & BITMASK(31);
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info.Hash = BYDWORD(msgDigest) & BITMASK(31);
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// Assemble the second SHA message.
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msgBuffer[0x00] = 0x5D;
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msgBuffer[0x01] = (pData & 0x00FF);
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msgBuffer[0x02] = (pData & 0xFF00) >> 8;
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msgBuffer[0x03] = (pHash & 0x000000FF);
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msgBuffer[0x04] = (pHash & 0x0000FF00) >> 8;
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msgBuffer[0x05] = (pHash & 0x00FF0000) >> 16;
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msgBuffer[0x06] = (pHash & 0xFF000000) >> 24;
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msgBuffer[0x03] = (info.Hash & 0x000000FF);
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msgBuffer[0x04] = (info.Hash & 0x0000FF00) >> 8;
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msgBuffer[0x05] = (info.Hash & 0x00FF0000) >> 16;
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msgBuffer[0x06] = (info.Hash & 0xFF000000) >> 24;
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msgBuffer[0x07] = (info.AuthInfo & 0x00FF);
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msgBuffer[0x08] = (info.AuthInfo & 0xFF00) >> 8;
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msgBuffer[0x09] = 0x00;
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@ -323,7 +322,6 @@ BOOL BINK2002::Generate(KeyInfo &info, std::string &pKey)
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// The order is a prime, so it can't be even.
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if (BN_is_odd(s))
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{
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// s = -ek + √((ek)² + 4c) + n
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BN_add(s, s, genOrder);
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}
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@ -338,11 +336,11 @@ BOOL BINK2002::Generate(KeyInfo &info, std::string &pKey)
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Pack(info, pRaw);
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fmt::print(UMSKT::debug, "Generation results:\n");
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fmt::print(UMSKT::debug, " Upgrade: 0x{:08x}\n", info.isUpgrade);
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fmt::print(UMSKT::debug, "Channel ID: 0x{:08x}\n", info.ChannelID);
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fmt::print(UMSKT::debug, " Hash: 0x{:08x}\n", info.Hash);
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fmt::print(UMSKT::debug, " Signature: 0x{:08x}\n", info.Signature);
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fmt::print(UMSKT::debug, " AuthInfo: 0x{:08x}\n", info.AuthInfo);
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fmt::print(UMSKT::debug, " Upgrade: {:#08x}\n", info.isUpgrade);
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fmt::print(UMSKT::debug, "Channel ID: {:#08x}\n", info.ChannelID);
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fmt::print(UMSKT::debug, " Hash: {:#08x}\n", info.Hash);
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fmt::print(UMSKT::debug, " Signature: {:#08x}\n", info.Signature);
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fmt::print(UMSKT::debug, " AuthInfo: {:#08x}\n", info.AuthInfo);
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fmt::print(UMSKT::debug, "\n");
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EC_POINT_free(r);
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@ -354,12 +352,6 @@ BOOL BINK2002::Generate(KeyInfo &info, std::string &pKey)
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// Convert bytecode to Base24 CD-key.
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base24(pKey, (BYTE *)pRaw);
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BN_free(c);
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BN_free(s);
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BN_free(x);
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BN_free(y);
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BN_free(e);
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BN_CTX_free(numContext);
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return true;
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@ -92,7 +92,6 @@ BOOL PIDGEN3::LoadEllipticCurve(const std::string pSel, const std::string aSel,
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/* Computed Data */
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BN_dec2bn(&genOrder, &genOrderSel[0]);
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BN_dec2bn(&privateKey, &privateKeySel[0]);
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BN_sub(privateKey, genOrder, privateKey);
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/* Elliptic Curve calculations. */
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// The group is defined via Fp = all integers [0; p - 1], where p is prime.
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@ -250,3 +249,15 @@ void PIDGEN3::unbase24(BYTE *byteSeq, std::string cdKey)
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// Reverse the byte sequence.
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endian(byteSeq, n);
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}
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BOOL PIDGEN3::getIsBINK1998()
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{
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BIGNUM *max = BN_new();
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BN_hex2bn(&max, MAX_BINK1998);
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int retval = BN_cmp(max, privateKey);
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BN_free(max);
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return retval == true;
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}
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@ -24,13 +24,16 @@
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#define UMSKT_PIDGEN3_H
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#include "../libumskt.h"
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#define MAX_BINK1998 \
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"0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff"
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class PIDGEN3
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{
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protected:
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BIGNUM *privateKey, *genOrder;
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EC_POINT *genPoint, *pubPoint;
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EC_GROUP *eCurve;
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EC_POINT *basePoint, *publicKey, *genPoint, *pubPoint;
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BIGNUM *genOrder, *privateKey;
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BOOL isBINK1998;
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public:
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PIDGEN3()
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@ -42,8 +45,6 @@ class PIDGEN3
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EC_GROUP_free(eCurve);
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EC_POINT_free(genPoint);
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EC_POINT_free(pubPoint);
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EC_POINT_free(basePoint);
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EC_POINT_free(publicKey);
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BN_free(genOrder);
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BN_free(privateKey);
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}
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@ -88,6 +89,7 @@ class PIDGEN3
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void base24(std::string &cdKey, BYTE *byteSeq);
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void unbase24(BYTE *byteSeq, std::string cdKey);
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BOOL getIsBINK1998();
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};
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#endif // UMSKT_PIDGEN3_H
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