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@ -836,8 +836,8 @@ namespace data
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else if (authType == ENCRYPTED_LEASESET_AUTH_TYPE_PSK) layer1Flags |= 0x03; // PSK, authentication scheme 1, auth bit 1
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if (layer1Flags)
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{
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m_BufferLen += authKeys->size ()*40 + 2; // auth data len
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lenOuterCiphertext += authKeys->size ()*40 + 2;
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m_BufferLen += 32 + 2 + authKeys->size ()*40; // auth data len
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lenOuterCiphertext += 32 + 2 + authKeys->size ()*40;
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}
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}
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m_Buffer = new uint8_t[m_BufferLen + 1];
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@ -878,9 +878,8 @@ namespace data
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if (layer1Flags)
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{
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RAND_bytes (innerInput, 32); // authCookie
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htobe16buf (m_Buffer + offset, authKeys->size ()); offset += 2; // num clients
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CreateClientAuthData (subcredential, authType, authKeys, innerInput, m_Buffer + offset);
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offset += authKeys->size ()*40; // auth clients
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offset += 32 + 2 + authKeys->size ()*40; // auth clients
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}
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// Layer 2
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// keys = HKDF(outerSalt, outerInput, "ELS2_L2K", 44)
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@ -920,12 +919,14 @@ namespace data
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LogPrint (eLogError, "LeaseSet2: couldn't extract inner layer");
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}
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void LocalEncryptedLeaseSet2::CreateClientAuthData (const uint8_t * subcredential, int authType, std::shared_ptr<std::vector<AuthPublicKey> > authKeys, const uint8_t * authCookie, uint8_t * authClients) const
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void LocalEncryptedLeaseSet2::CreateClientAuthData (const uint8_t * subcredential, int authType, std::shared_ptr<std::vector<AuthPublicKey> > authKeys, const uint8_t * authCookie, uint8_t * authData) const
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{
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if (authType == ENCRYPTED_LEASESET_AUTH_TYPE_DH)
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{
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i2p::crypto::X25519Keys ek;
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ek.GenerateKeys (); // esk and epk
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memcpy (authData, ek.GetPublicKey (), 32); authData += 32; // epk
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htobe16buf (authData, authKeys->size ()); authData += 2; // num clients
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uint8_t authInput[100]; // sharedSecret || cpk_i || subcredential || publishedTimestamp
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memcpy (authInput + 64, subcredential, 36);
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for (auto& it: *authKeys)
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@ -934,14 +935,16 @@ namespace data
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memcpy (authInput + 32, it, 32);
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uint8_t okm[64]; // 52 actual data
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i2p::crypto::HKDF (ek.GetPublicKey (), authInput, 100, "ELS2_XCA", okm);
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memcpy (authClients, okm + 44, 8); authClients += 8; // clientID_i
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i2p::crypto::ChaCha20 (authCookie, 32, okm, okm + 32, authClients); authClients += 32; // clientCookie_i
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memcpy (authData, okm + 44, 8); authData += 8; // clientID_i
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i2p::crypto::ChaCha20 (authCookie, 32, okm, okm + 32, authData); authData += 32; // clientCookie_i
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}
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}
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else // assume PSK
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{
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uint8_t authSalt[32];
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RAND_bytes (authSalt, 32);
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memcpy (authData, authSalt, 32); authData += 32; // authSalt
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htobe16buf (authData, authKeys->size ()); authData += 2; // num clients
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uint8_t authInput[68]; // authInput = psk_i || subcredential || publishedTimestamp
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memcpy (authInput + 32, subcredential, 36);
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for (auto& it: *authKeys)
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@ -949,8 +952,8 @@ namespace data
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memcpy (authInput, it, 32);
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uint8_t okm[64]; // 52 actual data
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i2p::crypto::HKDF (authSalt, authInput, 68, "ELS2PSKA", okm);
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memcpy (authClients, okm + 44, 8); authClients += 8; // clientID_i
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i2p::crypto::ChaCha20 (authCookie, 32, okm, okm + 32, authClients); authClients += 32; // clientCookie_i
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memcpy (authData, okm + 44, 8); authData += 8; // clientID_i
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i2p::crypto::ChaCha20 (authCookie, 32, okm, okm + 32, authData); authData += 32; // clientCookie_i
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}
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}
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}
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orignal
5 years ago