mirror of
https://github.com/Neo-Desktop/WindowsXPKg
synced 2024-12-22 12:30:17 +02:00
ensure values in CLI object are initalized before using them
This commit is contained in:
parent
c306573fe8
commit
fa0f832919
94
src/cli.cpp
94
src/cli.cpp
@ -214,54 +214,56 @@ void CLI::printKey(char *pk) {
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CLI::CLI(Options options, json keys) {
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CLI::CLI(Options options, json keys) {
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this->options = options;
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this->options = options;
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this->keys = keys;
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BINKID = options.binkid.c_str();
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this->BINKID = options.binkid.c_str();
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// We cannot produce a valid key without knowing the private key k. The reason for this is that
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// We cannot produce a valid key without knowing the private key k. The reason for this is that
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// we need the result of the function K(x; y) = kG(x; y).
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// we need the result of the function K(x; y) = kG(x; y).
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privateKey = BN_new();
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this->privateKey = BN_new();
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// We can, however, validate any given key using the available public key: {p, a, b, G, K}.
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// We can, however, validate any given key using the available public key: {p, a, b, G, K}.
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// genOrder the order of the generator G, a value we have to reverse -> Schoof's Algorithm.
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// genOrder the order of the generator G, a value we have to reverse -> Schoof's Algorithm.
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genOrder = BN_new();
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this->genOrder = BN_new();
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/* Computed data */
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/* Computed data */
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BN_dec2bn(&genOrder, keys["BINK"][BINKID]["n"].get<std::string>().c_str());
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BN_dec2bn(&this->genOrder, this->keys["BINK"][this->BINKID]["n"]. get<std::string>().c_str());
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BN_dec2bn(&privateKey, keys["BINK"][BINKID]["priv"].get<std::string>().c_str());
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BN_dec2bn(&this->privateKey, this->keys["BINK"][this->BINKID]["priv"].get<std::string>().c_str());
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if (options.verbose) {
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if (options.verbose) {
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fmt::print("----------------------------------------------------------- \n");
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fmt::print("----------------------------------------------------------- \n");
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fmt::print("Loaded the following elliptic curve parameters: BINK[{}]\n", BINKID);
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fmt::print("Loaded the following elliptic curve parameters: BINK[{}]\n", this->BINKID);
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fmt::print("----------------------------------------------------------- \n");
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fmt::print("----------------------------------------------------------- \n");
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fmt::print(" P: {}\n", keys["BINK"][BINKID]["p"].get<std::string>());
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fmt::print(" P: {}\n", this->keys["BINK"][this->BINKID]["p"].get<std::string>());
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fmt::print(" a: {}\n", keys["BINK"][BINKID]["a"].get<std::string>());
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fmt::print(" a: {}\n", this->keys["BINK"][this->BINKID]["a"].get<std::string>());
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fmt::print(" b: {}\n", keys["BINK"][BINKID]["b"].get<std::string>());
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fmt::print(" b: {}\n", this->keys["BINK"][this->BINKID]["b"].get<std::string>());
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fmt::print("Gx: {}\n", keys["BINK"][BINKID]["g"]["x"].get<std::string>());
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fmt::print("Gx: {}\n", this->keys["BINK"][this->BINKID]["g"]["x"].get<std::string>());
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fmt::print("Gy: {}\n", keys["BINK"][BINKID]["g"]["y"].get<std::string>());
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fmt::print("Gy: {}\n", this->keys["BINK"][this->BINKID]["g"]["y"].get<std::string>());
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fmt::print("Kx: {}\n", keys["BINK"][BINKID]["pub"]["x"].get<std::string>());
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fmt::print("Kx: {}\n", this->keys["BINK"][this->BINKID]["pub"]["x"].get<std::string>());
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fmt::print("Ky: {}\n", keys["BINK"][BINKID]["pub"]["y"].get<std::string>());
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fmt::print("Ky: {}\n", this->keys["BINK"][this->BINKID]["pub"]["y"].get<std::string>());
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fmt::print(" n: {}\n", keys["BINK"][BINKID]["n"].get<std::string>());
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fmt::print(" n: {}\n", this->keys["BINK"][this->BINKID]["n"].get<std::string>());
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fmt::print(" k: {}\n", keys["BINK"][BINKID]["priv"].get<std::string>());
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fmt::print(" k: {}\n", this->keys["BINK"][this->BINKID]["priv"].get<std::string>());
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fmt::print("\n");
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fmt::print("\n");
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}
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}
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eCurve = initializeEllipticCurve(
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eCurve = initializeEllipticCurve(
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keys["BINK"][BINKID]["p"].get<std::string>(),
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this->keys["BINK"][this->BINKID]["p"].get<std::string>(),
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keys["BINK"][BINKID]["a"].get<std::string>(),
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this->keys["BINK"][this->BINKID]["a"].get<std::string>(),
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keys["BINK"][BINKID]["b"].get<std::string>(),
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this->keys["BINK"][this->BINKID]["b"].get<std::string>(),
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keys["BINK"][BINKID]["g"]["x"].get<std::string>(),
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this->keys["BINK"][this->BINKID]["g"]["x"].get<std::string>(),
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keys["BINK"][BINKID]["g"]["y"].get<std::string>(),
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this->keys["BINK"][this->BINKID]["g"]["y"].get<std::string>(),
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keys["BINK"][BINKID]["pub"]["x"].get<std::string>(),
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this->keys["BINK"][this->BINKID]["pub"]["x"].get<std::string>(),
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keys["BINK"][BINKID]["pub"]["y"].get<std::string>(),
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this->keys["BINK"][this->BINKID]["pub"]["y"].get<std::string>(),
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genPoint,
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this->genPoint,
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pubPoint
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this->pubPoint
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);
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);
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total = options.numKeys;
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this->count = 0;
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this->total = this->options.numKeys;
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}
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}
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int CLI::BINK1998() {
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int CLI::BINK1998() {
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DWORD nRaw = options.channelID * 1'000'000 ; /* <- change */
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DWORD nRaw = this->options.channelID * 1'000'000 ; /* <- change */
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BIGNUM *bnrand = BN_new();
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BIGNUM *bnrand = BN_new();
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BN_rand(bnrand, 19, BN_RAND_TOP_ANY, BN_RAND_BOTTOM_ANY);
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BN_rand(bnrand, 19, BN_RAND_TOP_ANY, BN_RAND_BOTTOM_ANY);
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@ -272,81 +274,87 @@ int CLI::BINK1998() {
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sscanf(cRaw, "%d", &oRaw);
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sscanf(cRaw, "%d", &oRaw);
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nRaw += (oRaw % 999999); // ensure our serial is less than 999999
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nRaw += (oRaw % 999999); // ensure our serial is less than 999999
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if (options.verbose) {
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if (this->options.verbose) {
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fmt::print("> PID: {:09d}\n", nRaw);
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fmt::print("> PID: {:09d}\n", nRaw);
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}
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}
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// generate a key
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// generate a key
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BN_sub(privateKey, genOrder, privateKey);
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BN_sub(this->privateKey, this->genOrder, this->privateKey);
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// Specify whether an upgrade version or not
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// Specify whether an upgrade version or not
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bool bUpgrade = false;
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bool bUpgrade = false;
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for (int i = 0; i < total; i++) {
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for (int i = 0; i < this->total; i++) {
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BINK1998::Generate(eCurve, genPoint, genOrder, privateKey, nRaw, bUpgrade, pKey);
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BINK1998::Generate(this->eCurve, this->genPoint, this->genOrder, this->privateKey, nRaw, bUpgrade, this->pKey);
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CLI::printKey(pKey);
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CLI::printKey(this->pKey);
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fmt::print("\n");
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fmt::print("\n");
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// verify the key
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// verify the key
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count += BINK1998::Verify(eCurve, genPoint, pubPoint, pKey);
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this->count += BINK1998::Verify(this->eCurve, this->genPoint, this->pubPoint, this->pKey);
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}
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}
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fmt::print("Success count: {}/{}\n", count, total);
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fmt::print("Success count: {}/{}\n", this->count, this->total);
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return 0;
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return 0;
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}
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}
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int CLI::BINK2002() {
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int CLI::BINK2002() {
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DWORD pChannelID = options.channelID;
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DWORD pChannelID = this->options.channelID;
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if (options.verbose) {
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if (this->options.verbose) {
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fmt::print("> Channel ID: {:03d}\n", options.channelID);
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fmt::print("> Channel ID: {:03d}\n", this->options.channelID);
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}
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}
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// generate a key
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// generate a key
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for (int i = 0; i < total; i++) {
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for (int i = 0; i < this->total; i++) {
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DWORD pAuthInfo;
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DWORD pAuthInfo;
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RAND_bytes((BYTE *)&pAuthInfo, 4);
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RAND_bytes((BYTE *)&pAuthInfo, 4);
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pAuthInfo &= BITMASK(10);
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pAuthInfo &= BITMASK(10);
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if (options.verbose) {
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if (this->options.verbose) {
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fmt::print("> AuthInfo: {}\n", pAuthInfo);
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fmt::print("> AuthInfo: {}\n", pAuthInfo);
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}
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}
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BINK2002::Generate(eCurve, genPoint, genOrder, privateKey, pChannelID, pAuthInfo, false, pKey);
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BINK2002::Generate(this->eCurve, this->genPoint, this->genOrder, this->privateKey, pChannelID, pAuthInfo, false, this->pKey);
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CLI::printKey(pKey);
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CLI::printKey(this->pKey);
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fmt::print("\n\n");
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fmt::print("\n\n");
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// verify a key
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// verify a key
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count += BINK2002::Verify(eCurve, genPoint, pubPoint, pKey);
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this->count += BINK2002::Verify(this->eCurve, this->genPoint, this->pubPoint, this->pKey);
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}
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}
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fmt::print("Success count: {}/{}\n", count, total);
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fmt::print("Success count: {}/{}\n", this->count, this->total);
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return 0;
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return 0;
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}
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}
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int CLI::ConfirmationID() {
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int CLI::ConfirmationID() {
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char confirmation_id[49];
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char confirmation_id[49];
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int err = ConfirmationID::Generate(options.instid.c_str(), confirmation_id);
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int err = ConfirmationID::Generate(this->options.instid.c_str(), confirmation_id);
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switch (err) {
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switch (err) {
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case ERR_TOO_SHORT:
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case ERR_TOO_SHORT:
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fmt::print("ERROR: Installation ID is too short.\n");
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fmt::print("ERROR: Installation ID is too short.\n");
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return 1;
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return 1;
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case ERR_TOO_LARGE:
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case ERR_TOO_LARGE:
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fmt::print("ERROR: Installation ID is too long.\n");
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fmt::print("ERROR: Installation ID is too long.\n");
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return 1;
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return 1;
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case ERR_INVALID_CHARACTER:
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case ERR_INVALID_CHARACTER:
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fmt::print("ERROR: Invalid character in installation ID.\n");
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fmt::print("ERROR: Invalid character in installation ID.\n");
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return 1;
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return 1;
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case ERR_INVALID_CHECK_DIGIT:
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case ERR_INVALID_CHECK_DIGIT:
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fmt::print("ERROR: Installation ID checksum failed. Please check that it is typed correctly.\n");
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fmt::print("ERROR: Installation ID checksum failed. Please check that it is typed correctly.\n");
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return 1;
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return 1;
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case ERR_UNKNOWN_VERSION:
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case ERR_UNKNOWN_VERSION:
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fmt::print("ERROR: Unknown installation ID version.\n");
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fmt::print("ERROR: Unknown installation ID version.\n");
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return 1;
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return 1;
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case ERR_UNLUCKY:
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case ERR_UNLUCKY:
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fmt::print("ERROR: Unable to generate valid confirmation ID.\n");
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fmt::print("ERROR: Unable to generate valid confirmation ID.\n");
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return 1;
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return 1;
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case SUCCESS:
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case SUCCESS:
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fmt::print("Confirmation ID: {}\n", confirmation_id);
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fmt::print("Confirmation ID: {}\n", confirmation_id);
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return 0;
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return 0;
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