#include #include #include #include #include #include #include #include #include #include #include #include #include #include static const char skiplist_subdirs[] = "0123456789abcdef"; static const std::string RC_FILE_EXT = ".signed"; llarp_nodedb::NetDBEntry::NetDBEntry(llarp::RouterContact value) : rc(std::move(value)), inserted(llarp::time_now_ms()) { } bool llarp_nodedb::Remove(const llarp::RouterID &pk) { bool removed = false; RemoveIf([&](const llarp::RouterContact &rc) -> bool { if(rc.pubkey == pk) { removed = true; return true; } return false; }); return removed; } void llarp_nodedb::Clear() { llarp::util::Lock lock(&access); entries.clear(); } bool llarp_nodedb::Get(const llarp::RouterID &pk, llarp::RouterContact &result) { llarp::util::Lock l(&access); auto itr = entries.find(pk); if(itr == entries.end()) return false; result = itr->second.rc; return true; } void KillRCJobs(const std::set< std::string > &files) { for(const auto &file : files) fs::remove(file); } void llarp_nodedb::RemoveIf( std::function< bool(const llarp::RouterContact &rc) > filter) { std::set< std::string > files; { llarp::util::Lock l(&access); auto itr = entries.begin(); while(itr != entries.end()) { if(filter(itr->second.rc)) { files.insert(getRCFilePath(itr->second.rc.pubkey)); itr = entries.erase(itr); } else ++itr; } } disk->addJob(std::bind(&KillRCJobs, files)); } bool llarp_nodedb::Has(const llarp::RouterID &pk) { llarp::util::Lock lock(&access); return entries.find(pk) != entries.end(); } llarp::RouterContact llarp_nodedb::FindClosestTo(const llarp::dht::Key_t &location) { llarp::RouterContact rc; const llarp::dht::XorMetric compare(location); visit([&rc, compare](const auto &otherRC) -> bool { if(rc.pubkey.IsZero()) { rc = otherRC; return true; } if(compare(llarp::dht::Key_t{otherRC.pubkey.as_array()}, llarp::dht::Key_t{rc.pubkey.as_array()})) rc = otherRC; return true; }); return rc; } /// skiplist directory is hex encoded first nibble /// skiplist filename is .snode.signed std::string llarp_nodedb::getRCFilePath(const llarp::RouterID &pubkey) const { char ftmp[68] = {0}; const char *hexname = llarp::HexEncode< llarp::AlignedBuffer< 32 >, decltype(ftmp) >(pubkey, ftmp); std::string hexString(hexname); std::string skiplistDir; llarp::RouterID r(pubkey); std::string fname = r.ToString(); skiplistDir += hexString[0]; fname += RC_FILE_EXT; fs::path filepath = nodePath / skiplistDir / fname; return filepath.string(); } void llarp_nodedb::InsertAsync(llarp::RouterContact rc, std::shared_ptr< llarp::Logic > logic, std::function< void(void) > completionHandler) { disk->addJob([this, rc, logic, completionHandler]() { this->Insert(rc); if(logic && completionHandler) { LogicCall(logic, completionHandler); } }); } bool llarp_nodedb::UpdateAsyncIfNewer(llarp::RouterContact rc, std::shared_ptr< llarp::Logic > logic, std::function< void(void) > completionHandler) { llarp::util::Lock lock(&access); auto itr = entries.find(rc.pubkey); if(itr == entries.end() || itr->second.rc.OtherIsNewer(rc)) { InsertAsync(rc, logic, completionHandler); return true; } if(itr != entries.end()) { // insertion time is set on...insertion. But it should be updated here // even if there is no insertion of a new RC, to show that the existing one // is not "stale" itr->second.inserted = llarp::time_now_ms(); } return false; } /// insert bool llarp_nodedb::Insert(const llarp::RouterContact &rc) { llarp::util::Lock lock(&access); auto itr = entries.find(rc.pubkey.as_array()); if(itr != entries.end()) entries.erase(itr); entries.emplace(rc.pubkey.as_array(), rc); LogDebug("Added or updated RC for ", llarp::RouterID(rc.pubkey), " to nodedb. Current nodedb count is: ", entries.size()); return true; } ssize_t llarp_nodedb::Load(const fs::path &path) { std::error_code ec; if(!fs::exists(path, ec)) { return -1; } ssize_t loaded = 0; for(const char &ch : skiplist_subdirs) { if(!ch) continue; std::string p; p += ch; fs::path sub = path / p; ssize_t l = loadSubdir(sub); if(l > 0) loaded += l; } m_NextSaveToDisk = llarp::time_now_ms() + m_SaveInterval; return loaded; } void llarp_nodedb::SaveAll() { std::array< byte_t, MAX_RC_SIZE > tmp; llarp::util::Lock lock(&access); for(const auto &item : entries) { llarp_buffer_t buf(tmp); if(!item.second.rc.BEncode(&buf)) continue; buf.sz = buf.cur - buf.base; const auto filepath = getRCFilePath(item.second.rc.pubkey); auto optional_ofs = llarp::util::OpenFileStream< std::ofstream >( filepath, std::ofstream::out | std::ofstream::binary | std::ofstream::trunc); if(!optional_ofs) continue; auto &ofs = optional_ofs.value(); ofs.write((char *)buf.base, buf.sz); ofs.flush(); ofs.close(); } } bool llarp_nodedb::ShouldSaveToDisk(llarp_time_t now) const { if(now == 0) now = llarp::time_now_ms(); return m_NextSaveToDisk > 0 && m_NextSaveToDisk <= now; } void llarp_nodedb::AsyncFlushToDisk() { disk->addJob(std::bind(&llarp_nodedb::SaveAll, this)); m_NextSaveToDisk = llarp::time_now_ms() + m_SaveInterval; } ssize_t llarp_nodedb::loadSubdir(const fs::path &dir) { ssize_t sz = 0; llarp::util::IterDir(dir, [&](const fs::path &f) -> bool { if(fs::is_regular_file(f) && loadfile(f)) sz++; return true; }); return sz; } bool llarp_nodedb::loadfile(const fs::path &fpath) { if(fpath.extension() != RC_FILE_EXT) return false; llarp::RouterContact rc; if(!rc.Read(fpath.string().c_str())) { llarp::LogError("failed to read file ", fpath); return false; } if(!rc.Verify(llarp::time_now_ms())) { llarp::LogError(fpath, " contains invalid RC"); return false; } { llarp::util::Lock lock(&access); entries.emplace(rc.pubkey.as_array(), rc); } return true; } void llarp_nodedb::visit(std::function< bool(const llarp::RouterContact &) > visit) { llarp::util::Lock lock(&access); auto itr = entries.begin(); while(itr != entries.end()) { if(!visit(itr->second.rc)) return; ++itr; } } void llarp_nodedb::VisitInsertedBefore( std::function< void(const llarp::RouterContact &) > visit, llarp_time_t insertedAfter) { llarp::util::Lock lock(&access); auto itr = entries.begin(); while(itr != entries.end()) { if(itr->second.inserted < insertedAfter) visit(itr->second.rc); ++itr; } } void llarp_nodedb::RemoveStaleRCs(const std::set< llarp::RouterID > &keep, llarp_time_t cutoff) { std::set< llarp::RouterID > removeStale; // remove stale routers VisitInsertedBefore( [&](const llarp::RouterContact &rc) { if(keep.find(rc.pubkey) != keep.end()) return; LogInfo("removing stale router: ", llarp::RouterID(rc.pubkey)); removeStale.insert(rc.pubkey); }, cutoff); RemoveIf([&removeStale](const llarp::RouterContact &rc) -> bool { return removeStale.count(rc.pubkey) > 0; }); } /* bool llarp_nodedb::Save() { auto itr = entries.begin(); while(itr != entries.end()) { llarp::pubkey pk = itr->first; llarp_rc *rc= itr->second; itr++; // advance } return true; } */ // call request hook void logic_threadworker_callback(void *user) { auto *verify_request = static_cast< llarp_async_verify_rc * >(user); if(verify_request->hook) verify_request->hook(verify_request); } // write it to disk void disk_threadworker_setRC(llarp_async_verify_rc *verify_request) { verify_request->valid = verify_request->nodedb->Insert(verify_request->rc); if(verify_request->logic) verify_request->logic->queue_job( {verify_request, &logic_threadworker_callback}); } // we run the crypto verify in the crypto threadpool worker void crypto_threadworker_verifyrc(void *user) { auto *verify_request = static_cast< llarp_async_verify_rc * >(user); llarp::RouterContact rc = verify_request->rc; verify_request->valid = rc.Verify(llarp::time_now_ms()); // if it's valid we need to set it if(verify_request->valid && rc.IsPublicRouter()) { if(verify_request->diskworker) { llarp::LogDebug("RC is valid, saving to disk"); verify_request->diskworker->addJob( std::bind(&disk_threadworker_setRC, verify_request)); return; } } // callback to logic thread verify_request->logic->queue_job( {verify_request, &logic_threadworker_callback}); } void nodedb_inform_load_rc(void *user) { auto *job = static_cast< llarp_async_load_rc * >(user); job->hook(job); } void llarp_nodedb_async_verify(struct llarp_async_verify_rc *job) { job->cryptoworker->addJob(std::bind(&crypto_threadworker_verifyrc, job)); } void nodedb_async_load_rc(void *user) { auto *job = static_cast< llarp_async_load_rc * >(user); auto fpath = job->nodedb->getRCFilePath(job->pubkey); job->loaded = job->nodedb->loadfile(fpath); if(job->loaded) { job->nodedb->Get(job->pubkey, job->result); } job->logic->queue_job({job, &nodedb_inform_load_rc}); } bool llarp_nodedb::ensure_dir(const char *dir) { fs::path path(dir); std::error_code ec; if(!fs::exists(dir, ec)) fs::create_directory(path, ec); if(ec) return false; if(!fs::is_directory(path)) return false; for(const char &ch : skiplist_subdirs) { // this seems to be a problem on all targets // perhaps cpp17::fs is just as screwed-up // attempting to create a folder with no name if(!ch) return true; std::string p; p += ch; fs::path sub = path / p; fs::create_directory(sub, ec); if(ec) return false; } return true; } ssize_t llarp_nodedb::LoadAll() { return Load(nodePath.c_str()); } size_t llarp_nodedb::num_loaded() const { absl::ReaderMutexLock l(&access); return entries.size(); } bool llarp_nodedb::select_random_exit(llarp::RouterContact &result) { llarp::util::Lock lock(&access); const auto sz = entries.size(); auto itr = entries.begin(); if(sz < 3) return false; auto idx = llarp::randint() % sz; if(idx) std::advance(itr, idx - 1); while(itr != entries.end()) { if(itr->second.rc.IsExit()) { result = itr->second.rc; return true; } ++itr; } // wrap around itr = entries.begin(); while(idx--) { if(itr->second.rc.IsExit()) { result = itr->second.rc; return true; } ++itr; } return false; } bool llarp_nodedb::select_random_hop(const llarp::RouterContact &prev, llarp::RouterContact &result, size_t N) { llarp::util::Lock lock(&access); /// checking for "guard" status for N = 0 is done by caller inside of /// pathbuilder's scope size_t sz = entries.size(); if(sz < 3) return false; if(!N) return false; llarp_time_t now = llarp::time_now_ms(); auto itr = entries.begin(); size_t pos = llarp::randint() % sz; std::advance(itr, pos); auto start = itr; while(itr == entries.end()) { if(prev.pubkey != itr->second.rc.pubkey) { if(itr->second.rc.addrs.size() && !itr->second.rc.IsExpired(now)) { result = itr->second.rc; return true; } } itr++; } itr = entries.begin(); while(itr != start) { if(prev.pubkey != itr->second.rc.pubkey) { if(itr->second.rc.addrs.size() && !itr->second.rc.IsExpired(now)) { result = itr->second.rc; return true; } } ++itr; } return false; } bool llarp_nodedb::select_random_hop_excluding( llarp::RouterContact &result, const std::set< llarp::RouterID > &exclude) { llarp::util::Lock lock(&access); /// checking for "guard" status for N = 0 is done by caller inside of /// pathbuilder's scope const size_t sz = entries.size(); if(sz < 3) { return false; } llarp_time_t now = llarp::time_now_ms(); auto itr = entries.begin(); size_t pos = llarp::randint() % sz; std::advance(itr, pos); auto start = itr; while(itr == entries.end()) { if(exclude.count(itr->first) == 0) { if(itr->second.rc.addrs.size() && !itr->second.rc.IsExpired(now)) { result = itr->second.rc; return true; } } itr++; } itr = entries.begin(); while(itr != start) { if(exclude.count(itr->first) == 0) { if(itr->second.rc.addrs.size() && !itr->second.rc.IsExpired(now)) { result = itr->second.rc; return true; } } ++itr; } return false; }