#include "nvpairingmanager.h" #include "utils.h" #include #include #include #include #include #include #include NvPairingManager::NvPairingManager(QString address) : m_Http(address) { QByteArray cert = IdentityManager::get()->getCertificate(); BIO *bio = BIO_new_mem_buf(cert.data(), -1); THROW_BAD_ALLOC_IF_NULL(bio); m_Cert = PEM_read_bio_X509(bio, nullptr, nullptr, nullptr); BIO_free_all(bio); if (m_Cert == nullptr) { throw new std::runtime_error("Unable to load certificate"); } QByteArray pk = IdentityManager::get()->getPrivateKey(); bio = BIO_new_mem_buf(pk.data(), -1); THROW_BAD_ALLOC_IF_NULL(bio); m_PrivateKey = PEM_read_bio_PrivateKey(bio, nullptr, nullptr, nullptr); BIO_free_all(bio); if (m_PrivateKey == nullptr) { throw new std::runtime_error("Unable to load private key"); } } NvPairingManager::~NvPairingManager() { X509_free(m_Cert); EVP_PKEY_free(m_PrivateKey); } QString NvPairingManager::generatePinString() { return QString::asprintf("%04d", QRandomGenerator::global()->bounded(10000)); } QByteArray NvPairingManager::generateRandomBytes(int length) { char* data = static_cast(alloca(length)); RAND_bytes(reinterpret_cast(data), length); return QByteArray(data, length); } QByteArray NvPairingManager::encrypt(QByteArray plaintext, AES_KEY* key) { QByteArray ciphertext(plaintext.size(), 0); for (int i = 0; i < plaintext.size(); i += 16) { AES_encrypt(reinterpret_cast(&plaintext.data()[i]), reinterpret_cast(&ciphertext.data()[i]), key); } return ciphertext; } QByteArray NvPairingManager::decrypt(QByteArray ciphertext, AES_KEY* key) { QByteArray plaintext(ciphertext.size(), 0); for (int i = 0; i < plaintext.size(); i += 16) { AES_decrypt(reinterpret_cast(&ciphertext.data()[i]), reinterpret_cast(&plaintext.data()[i]), key); } return plaintext; } QByteArray NvPairingManager::getSignatureFromPemCert(QByteArray certificate) { BIO* bio = BIO_new_mem_buf(certificate.data(), -1); THROW_BAD_ALLOC_IF_NULL(bio); X509* cert = PEM_read_bio_X509(bio, nullptr, nullptr, nullptr); BIO_free_all(bio); #if (OPENSSL_VERSION_NUMBER < 0x10100000L) ASN1_BIT_STRING *asnSignature; #else const ASN1_BIT_STRING *asnSignature; #endif X509_get0_signature(&asnSignature, NULL, cert); QByteArray signature(reinterpret_cast(asnSignature->data), asnSignature->length); X509_free(cert); return signature; } bool NvPairingManager::verifySignature(QByteArray data, QByteArray signature, QByteArray serverCertificate) { BIO* bio = BIO_new_mem_buf(serverCertificate.data(), -1); THROW_BAD_ALLOC_IF_NULL(bio); X509* cert = PEM_read_bio_X509(bio, nullptr, nullptr, nullptr); BIO_free_all(bio); EVP_PKEY* pubKey = X509_get_pubkey(cert); THROW_BAD_ALLOC_IF_NULL(pubKey); EVP_MD_CTX* mdctx = EVP_MD_CTX_create(); THROW_BAD_ALLOC_IF_NULL(mdctx); EVP_DigestVerifyInit(mdctx, nullptr, EVP_sha256(), nullptr, pubKey); EVP_DigestVerifyUpdate(mdctx, data.data(), data.length()); int result = EVP_DigestVerifyFinal(mdctx, reinterpret_cast(signature.data()), signature.length()); EVP_PKEY_free(pubKey); EVP_MD_CTX_destroy(mdctx); X509_free(cert); return result > 0; } QByteArray NvPairingManager::signMessage(QByteArray message) { EVP_MD_CTX *ctx = EVP_MD_CTX_create(); THROW_BAD_ALLOC_IF_NULL(ctx); const EVP_MD *md = EVP_get_digestbyname("SHA256"); THROW_BAD_ALLOC_IF_NULL(md); EVP_DigestInit_ex(ctx, md, NULL); EVP_DigestSignInit(ctx, NULL, md, NULL, m_PrivateKey); EVP_DigestSignUpdate(ctx, reinterpret_cast(message.data()), message.length()); size_t signatureLength = 0; EVP_DigestSignFinal(ctx, NULL, &signatureLength); QByteArray signature((int)signatureLength, 0); EVP_DigestSignFinal(ctx, reinterpret_cast(signature.data()), &signatureLength); EVP_MD_CTX_destroy(ctx); return signature; } QByteArray NvPairingManager::saltPin(QByteArray salt, QString pin) { return QByteArray().append(salt).append(pin.toLatin1()); } NvPairingManager::PairState NvPairingManager::pair(QString serverInfo, QString pin) { int serverMajorVersion = NvHTTP::getServerVersionQuad(serverInfo).at(0); qDebug() << "Pairing with server generation: " << serverMajorVersion; QCryptographicHash::Algorithm hashAlgo; int hashLength; if (serverMajorVersion >= 7) { // Gen 7+ uses SHA-256 hashing hashAlgo = QCryptographicHash::Sha256; hashLength = 32; } else { // Prior to Gen 7 uses SHA-1 hashing hashAlgo = QCryptographicHash::Sha1; hashLength = 20; } QByteArray salt = generateRandomBytes(16); QByteArray saltedPin = saltPin(salt, pin); AES_KEY encKey, decKey; AES_set_decrypt_key(reinterpret_cast(QCryptographicHash::hash(saltedPin, hashAlgo).data()), 128, &decKey); AES_set_encrypt_key(reinterpret_cast(QCryptographicHash::hash(saltedPin, hashAlgo).data()), 128, &encKey); QString getCert = m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "pair", "devicename=roth&updateState=1&phrase=getservercert&salt=" + salt.toHex() + "&clientcert=" + IdentityManager::get()->getCertificate().toHex(), false); NvHTTP::verifyResponseStatus(getCert); if (NvHTTP::getXmlString(getCert, "paired") != "1") { qDebug() << "Failed pairing at stage #1"; return PairState::FAILED; } QByteArray serverCert = NvHTTP::getXmlStringFromHex(getCert, "plaincert"); if (serverCert == nullptr) { qDebug() << "Server likely already pairing"; m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "unpair", nullptr, true); return PairState::ALREADY_IN_PROGRESS; } QByteArray randomChallenge = generateRandomBytes(16); QByteArray encryptedChallenge = encrypt(randomChallenge, &encKey); QString challengeXml = m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "pair", "devicename=roth&updateState=1&clientchallenge=" + encryptedChallenge.toHex(), true); NvHTTP::verifyResponseStatus(challengeXml); if (NvHTTP::getXmlString(challengeXml, "paired") != "1") { qDebug() << "Failed pairing at stage #2"; m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "unpair", nullptr, true); return PairState::FAILED; } QByteArray challengeResponseData = decrypt(m_Http.getXmlStringFromHex(challengeXml, "challengeresponse"), &decKey); QByteArray clientSecretData = generateRandomBytes(16); QByteArray challengeResponse; QByteArray serverResponse(challengeResponseData.data(), hashLength); #if (OPENSSL_VERSION_NUMBER < 0x10100000L) ASN1_BIT_STRING *asnSignature; #else const ASN1_BIT_STRING *asnSignature; #endif X509_get0_signature(&asnSignature, NULL, m_Cert); challengeResponse.append(challengeResponseData.data() + hashLength, 16); challengeResponse.append(reinterpret_cast(asnSignature->data), asnSignature->length); challengeResponse.append(clientSecretData); QByteArray encryptedChallengeResponseHash = encrypt(QCryptographicHash::hash(challengeResponse, hashAlgo), &encKey); QString respXml = m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "pair", "devicename=roth&updateState=1&serverchallengeresp=" + encryptedChallengeResponseHash.toHex(), true); NvHTTP::verifyResponseStatus(respXml); if (NvHTTP::getXmlString(respXml, "paired") != "1") { qDebug() << "Failed pairing at stage #3"; m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "unpair", nullptr, true); return PairState::FAILED; } QByteArray pairingSecret = NvHTTP::getXmlStringFromHex(respXml, "pairingsecret"); QByteArray serverSecret = QByteArray(pairingSecret.data(), 16); QByteArray serverSignature = QByteArray(&pairingSecret.data()[16], 256); if (!verifySignature(serverSecret, serverSignature, serverCert)) { qDebug() << "MITM detected"; m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "unpair", nullptr, true); return PairState::FAILED; } QByteArray expectedResponseData; expectedResponseData.append(randomChallenge); expectedResponseData.append(getSignatureFromPemCert(serverCert)); expectedResponseData.append(serverSecret); if (QCryptographicHash::hash(expectedResponseData, hashAlgo) != serverResponse) { qDebug() << "Incorrect PIN"; m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "unpair", nullptr, true); return PairState::PIN_WRONG; } QByteArray clientPairingSecret; clientPairingSecret.append(clientSecretData); clientPairingSecret.append(signMessage(clientSecretData)); QString secretRespXml = m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "pair", "devicename=roth&updateState=1&clientpairingsecret=" + clientPairingSecret.toHex(), true); NvHTTP::verifyResponseStatus(secretRespXml); if (NvHTTP::getXmlString(secretRespXml, "paired") != "1") { qDebug() << "Failed pairing at stage #4"; m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "unpair", nullptr, true); return PairState::FAILED; } QString pairChallengeXml = m_Http.openConnectionToString(m_Http.m_BaseUrlHttps, "pair", "devicename=roth&updateState=1&phrase=pairchallenge", true); NvHTTP::verifyResponseStatus(pairChallengeXml); if (NvHTTP::getXmlString(pairChallengeXml, "paired") != "1") { qDebug() << "Failed pairing at stage #5"; m_Http.openConnectionToString(m_Http.m_BaseUrlHttp, "unpair", nullptr, true); return PairState::FAILED; } return PairState::PAIRED; }