#include "relay_commit.hpp" #include "relay_status.hpp" #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace llarp { bool LR_CommitMessage::decode_key(const llarp_buffer_t& key, llarp_buffer_t* buf) { if (key.startswith("c")) { /// so we dont put it into the shitty queue pathid.Fill('c'); return BEncodeReadArray(frames, buf); } bool read = false; if (!BEncodeMaybeVerifyVersion("v", version, llarp::constants::proto_version, read, key, buf)) return false; return read; } void LR_CommitMessage::clear() { std::for_each(frames.begin(), frames.end(), [](auto& f) { f.Clear(); }); version = 0; } std::string LR_CommitMessage::bt_encode() const { oxenc::bt_dict_producer btdp; try { btdp.append("a", "c"); { auto sublist = btdp.append_list("c"); for (auto& f : frames) sublist.append({reinterpret_cast(f.data()), f.size()}); } btdp.append("v", llarp::constants::proto_version); } catch (...) { log::critical(link_cat, "Error: LR_CommitMessage failed to bt encode contents!"); } return std::move(btdp).str(); } bool LR_CommitMessage::handle_message(AbstractRouter* router) const { if (frames.size() != path::max_len) { llarp::LogError("LRCM invalid number of records, ", frames.size(), "!=", path::max_len); return false; } if (!router->pathContext().AllowingTransit()) { llarp::LogError("got LRCM when not permitting transit"); return false; } return AsyncDecrypt(&router->pathContext()); } bool LR_CommitRecord::BEncode(llarp_buffer_t* buf) const { if (!bencode_start_dict(buf)) return false; if (!BEncodeWriteDictEntry("c", commkey, buf)) return false; if (!BEncodeWriteDictEntry("i", nextHop, buf)) return false; if (lifetime > 10s && lifetime < path::default_lifetime) { if (!BEncodeWriteDictInt("i", lifetime.count(), buf)) return false; } if (!BEncodeWriteDictEntry("n", tunnelNonce, buf)) return false; if (!BEncodeWriteDictEntry("r", rxid, buf)) return false; if (!BEncodeWriteDictEntry("t", txid, buf)) return false; if (nextRC) { if (!BEncodeWriteDictEntry("u", *nextRC, buf)) return false; } if (not bencode_write_uint64_entry(buf, "v", 1, llarp::constants::proto_version)) return false; if (work and not BEncodeWriteDictEntry("w", *work, buf)) return false; return bencode_end(buf); } bool LR_CommitRecord::OnKey(llarp_buffer_t* buffer, llarp_buffer_t* key) { if (!key) return true; bool read = false; if (!BEncodeMaybeReadDictEntry("c", commkey, read, *key, buffer)) return false; if (!BEncodeMaybeReadDictEntry("i", nextHop, read, *key, buffer)) return false; if (!BEncodeMaybeReadDictInt("l", lifetime, read, *key, buffer)) return false; if (!BEncodeMaybeReadDictEntry("n", tunnelNonce, read, *key, buffer)) return false; if (!BEncodeMaybeReadDictEntry("r", rxid, read, *key, buffer)) return false; if (!BEncodeMaybeReadDictEntry("t", txid, read, *key, buffer)) return false; if (key->startswith("u")) { nextRC = std::make_unique(); return nextRC->BDecode(buffer); } if (!BEncodeMaybeVerifyVersion( "v", version, llarp::constants::proto_version, read, *key, buffer)) return false; if (key->startswith("w")) { // check for duplicate if (work) { llarp::LogWarn("duplicate POW in LRCR"); return false; } work = std::make_unique(); return bencode_decode_dict(*work, buffer); } return read; } bool LR_CommitRecord::BDecode(llarp_buffer_t* buf) { return bencode_read_dict(util::memFn(&LR_CommitRecord::OnKey, this), buf); } bool LR_CommitRecord::operator==(const LR_CommitRecord& other) const { if (work && other.work) { if (*work != *other.work) return false; } return nextHop == other.nextHop && commkey == other.commkey && txid == other.txid && rxid == other.rxid; } struct LRCMFrameDecrypt { using Context = llarp::path::PathContext; using Hop = llarp::path::TransitHop; using Decrypter = AsyncFrameDecrypter; using Decrypter_ptr = std::unique_ptr; Decrypter_ptr decrypter; std::array frames; Context* context; // decrypted record LR_CommitRecord record; // the actual hop std::shared_ptr hop; const std::optional fromAddr; LRCMFrameDecrypt(Context* ctx, Decrypter_ptr dec, const LR_CommitMessage* commit) : decrypter(std::move(dec)) , frames(commit->frames) , context(ctx) , hop(std::make_shared()) , fromAddr( commit->session->GetRemoteRC().IsPublicRouter() ? std::optional{} : commit->session->GetRemoteEndpoint()) { hop->info.downstream = commit->session->GetPubKey(); } ~LRCMFrameDecrypt() = default; static void OnForwardLRCMResult( AbstractRouter* router, std::shared_ptr path, const PathID_t pathid, const RouterID nextHop, const SharedSecret pathKey, SendStatus sendStatus) { uint64_t status = LR_StatusRecord::FAIL_DEST_INVALID; switch (sendStatus) { case SendStatus::Success: // do nothing, will forward success message later return; case SendStatus::Timeout: status = LR_StatusRecord::FAIL_TIMEOUT; break; case SendStatus::NoLink: status = LR_StatusRecord::FAIL_CANNOT_CONNECT; break; case SendStatus::InvalidRouter: status = LR_StatusRecord::FAIL_DEST_INVALID; break; case SendStatus::RouterNotFound: status = LR_StatusRecord::FAIL_DEST_UNKNOWN; break; case SendStatus::Congestion: status = LR_StatusRecord::FAIL_CONGESTION; break; default: LogError("llarp::SendStatus value not in enum class"); std::abort(); break; } router->QueueWork([router, path, pathid, nextHop, pathKey, status] { LR_StatusMessage::CreateAndSend(router, path, pathid, nextHop, pathKey, status); }); } /// this is done from logic thread static void SendLRCM(std::shared_ptr self) { if (self->context->HasTransitHop(self->hop->info)) { llarp::LogError("duplicate transit hop ", self->hop->info); LR_StatusMessage::CreateAndSend( self->context->Router(), self->hop, self->hop->info.rxID, self->hop->info.downstream, self->hop->pathKey, LR_StatusRecord::FAIL_DUPLICATE_HOP); self->hop = nullptr; return; } if (self->fromAddr) { // only do ip limiting from non service nodes #ifndef LOKINET_HIVE if (self->context->CheckPathLimitHitByIP(*self->fromAddr)) { // we hit a limit so tell it to slow tf down llarp::LogError("client path build hit limit ", *self->fromAddr); OnForwardLRCMResult( self->context->Router(), self->hop, self->hop->info.rxID, self->hop->info.downstream, self->hop->pathKey, SendStatus::Congestion); self->hop = nullptr; return; } #endif } if (not self->context->Router()->PathToRouterAllowed(self->hop->info.upstream)) { // we are not allowed to forward it ... now what? llarp::LogError( "path to ", self->hop->info.upstream, "not allowed, dropping build request on the floor"); OnForwardLRCMResult( self->context->Router(), self->hop, self->hop->info.rxID, self->hop->info.downstream, self->hop->pathKey, SendStatus::InvalidRouter); self->hop = nullptr; return; } // persist sessions to upstream and downstream routers until the commit // ends self->context->Router()->PersistSessionUntil( self->hop->info.downstream, self->hop->ExpireTime() + 10s); self->context->Router()->PersistSessionUntil( self->hop->info.upstream, self->hop->ExpireTime() + 10s); // put hop self->context->PutTransitHop(self->hop); // forward to next hop using std::placeholders::_1; auto func = [self](auto status) { OnForwardLRCMResult( self->context->Router(), self->hop, self->hop->info.rxID, self->hop->info.downstream, self->hop->pathKey, status); self->hop = nullptr; }; self->context->ForwardLRCM(self->hop->info.upstream, self->frames, func); // trigger idempotent pump to ensure that the build messages propagate self->context->Router()->TriggerPump(); } // this is called from the logic thread static void SendPathConfirm(std::shared_ptr self) { // send path confirmation // TODO: other status flags? uint64_t status = LR_StatusRecord::SUCCESS; if (self->context->HasTransitHop(self->hop->info)) { status = LR_StatusRecord::FAIL_DUPLICATE_HOP; } else { // persist session to downstream until path expiration self->context->Router()->PersistSessionUntil( self->hop->info.downstream, self->hop->ExpireTime() + 10s); // put hop self->context->PutTransitHop(self->hop); } if (!LR_StatusMessage::CreateAndSend( self->context->Router(), self->hop, self->hop->info.rxID, self->hop->info.downstream, self->hop->pathKey, status)) { llarp::LogError("failed to send path confirmation for ", self->hop->info); } self->hop = nullptr; } // TODO: If decryption has succeeded here but we otherwise don't // want to or can't accept the path build request, send // a status message saying as much. static void HandleDecrypted(llarp_buffer_t* buf, std::shared_ptr self) { auto now = self->context->Router()->Now(); auto& info = self->hop->info; if (!buf) { llarp::LogError("LRCM decrypt failed from ", info.downstream); self->decrypter = nullptr; return; } buf->cur = buf->base + EncryptedFrameOverheadSize; llarp::LogDebug("decrypted LRCM from ", info.downstream); // successful decrypt if (!self->record.BDecode(buf)) { llarp::LogError("malformed frame inside LRCM from ", info.downstream); self->decrypter = nullptr; return; } info.txID = self->record.txid; info.rxID = self->record.rxid; if (info.txID.IsZero() || info.rxID.IsZero()) { llarp::LogError("LRCM refusing zero pathid"); self->decrypter = nullptr; return; } info.upstream = self->record.nextHop; // generate path key as we are in a worker thread auto crypto = CryptoManager::instance(); if (!crypto->dh_server( self->hop->pathKey, self->record.commkey, self->context->EncryptionSecretKey(), self->record.tunnelNonce)) { llarp::LogError("LRCM DH Failed ", info); self->decrypter = nullptr; return; } // generate hash of hop key for nonce mutation crypto->shorthash(self->hop->nonceXOR, llarp_buffer_t(self->hop->pathKey)); if (self->record.work && self->record.work->IsValid(now)) { llarp::LogDebug( "LRCM extended lifetime by ", ToString(self->record.work->extendedLifetime), " for ", info); self->hop->lifetime += self->record.work->extendedLifetime; } else if (self->record.lifetime < path::default_lifetime && self->record.lifetime > 10s) { self->hop->lifetime = self->record.lifetime; llarp::LogDebug( "LRCM short lifespan set to ", ToString(self->hop->lifetime), " for ", info); } // TODO: check if we really want to accept it self->hop->started = now; self->context->Router()->NotifyRouterEvent( self->context->Router()->pubkey(), self->hop); size_t sz = self->frames[0].size(); // shift std::array frames; frames[0] = self->frames[1]; frames[1] = self->frames[2]; frames[2] = self->frames[3]; frames[3] = self->frames[4]; frames[4] = self->frames[5]; frames[5] = self->frames[6]; frames[6] = self->frames[7]; // put our response on the end frames[7] = EncryptedFrame(sz - EncryptedFrameOverheadSize); // random junk for now frames[7].Randomize(); self->frames = std::move(frames); if (self->context->HopIsUs(info.upstream)) { // we are the farthest hop llarp::LogDebug("We are the farthest hop for ", info); // send a LRSM down the path self->context->loop()->call([self] { SendPathConfirm(self); self->decrypter = nullptr; }); } else { // forward upstream // we are still in the worker thread so post job to logic self->context->loop()->call([self] { SendLRCM(self); self->decrypter = nullptr; }); } // trigger idempotent pump to ensure that the build messages propagate self->context->Router()->TriggerPump(); } }; bool LR_CommitMessage::AsyncDecrypt(llarp::path::PathContext* context) const { auto decrypter = std::make_unique( context->EncryptionSecretKey(), &LRCMFrameDecrypt::HandleDecrypted); // copy frames so we own them auto frameDecrypt = std::make_shared(context, std::move(decrypter), this); // decrypt frames async frameDecrypt->decrypter->AsyncDecrypt( frameDecrypt->frames[0], frameDecrypt, [r = context->Router()](auto func) { r->QueueWork(std::move(func)); }); return true; } } // namespace llarp