#include #include #include "logger.hpp" #include "mem.hpp" namespace llarp { Encrypted::Encrypted() { UpdateBuffer(); } Encrypted::Encrypted(const Encrypted& other) : Encrypted(other._data, other._sz) { } Encrypted::Encrypted(const byte_t* buf, size_t sz) : _sz(sz) { _data = new byte_t[sz]; if(buf) memcpy(data(), buf, sz); else llarp::Zero(data(), sz); UpdateBuffer(); } Encrypted::~Encrypted() { if(_data) delete[] _data; } Encrypted::Encrypted(size_t sz) : Encrypted(nullptr, sz) { } bool EncryptedFrame::EncryptInPlace(byte_t* ourSecretKey, byte_t* otherPubkey, llarp_crypto* crypto) { // format of frame is // <32 bytes keyed hash of following data> // <32 bytes nonce> // <32 bytes pubkey> // // byte_t* hash = data(); byte_t* nonce = hash + SHORTHASHSIZE; byte_t* pubkey = nonce + TUNNONCESIZE; byte_t* body = pubkey + PUBKEYSIZE; SharedSecret shared; auto DH = crypto->dh_client; auto Encrypt = crypto->xchacha20; auto MDS = crypto->hmac; llarp_buffer_t buf; buf.base = body; buf.cur = buf.base; buf.sz = size() - EncryptedFrame::OverheadSize; // set our pubkey memcpy(pubkey, llarp::seckey_topublic(ourSecretKey), PUBKEYSIZE); // randomize nonce crypto->randbytes(nonce, TUNNONCESIZE); // derive shared key if(!DH(shared, otherPubkey, ourSecretKey, nonce)) { llarp::LogError("DH failed"); return false; } // encrypt body if(!Encrypt(buf, shared, nonce)) { llarp::LogError("encrypt failed"); return false; } // generate message auth buf.base = nonce; buf.cur = buf.base; buf.sz = size() - SHORTHASHSIZE; if(!MDS(hash, buf, shared)) { llarp::LogError("Failed to generate messgae auth"); return false; } return true; } bool EncryptedFrame::DecryptInPlace(byte_t* ourSecretKey, llarp_crypto* crypto) { if(size() <= size_t(EncryptedFrame::OverheadSize)) { llarp::LogWarn("encrypted frame too small, ", size(), " <= ", size_t(EncryptedFrame::OverheadSize)); return false; } // format of frame is // <32 bytes keyed hash of following data> // <32 bytes nonce> // <32 bytes pubkey> // // byte_t* hash = data(); byte_t* nonce = hash + SHORTHASHSIZE; byte_t* otherPubkey = nonce + TUNNONCESIZE; byte_t* body = otherPubkey + PUBKEYSIZE; // use dh_server becuase we are not the creator of this message auto DH = crypto->dh_server; auto Decrypt = crypto->xchacha20; auto MDS = crypto->hmac; llarp_buffer_t buf; buf.base = nonce; buf.cur = buf.base; buf.sz = size() - SHORTHASHSIZE; SharedSecret shared; ShortHash digest; if(!DH(shared, otherPubkey, ourSecretKey, nonce)) { llarp::LogError("DH failed"); return false; } if(!MDS(digest, buf, shared)) { llarp::LogError("Digest failed"); return false; } if(memcmp(digest, hash, digest.size())) { llarp::LogError("message authentication failed"); return false; } buf.base = body; buf.cur = body; buf.sz = size() - EncryptedFrame::OverheadSize; if(!Decrypt(buf, shared, nonce)) { llarp::LogError("decrypt failed"); return false; } return true; } } // namespace llarp