/* * Copyright (c) 2013-2024, The PurpleI2P Project * * This file is part of Purple i2pd project and licensed under BSD3 * * See full license text in LICENSE file at top of project tree */ #include #include #include #include #include #include #include #include "I2PEndian.h" #include "Base.h" #include "Crypto.h" #include "Log.h" #include "Timestamp.h" #include "I2NPProtocol.h" #include "Tunnel.h" #include "Transports.h" #include "NTCP2.h" #include "RouterContext.h" #include "Garlic.h" #include "ECIESX25519AEADRatchetSession.h" #include "Config.h" #include "NetDb.hpp" #include "util.h" using namespace i2p::transport; namespace i2p { namespace data { NetDb netdb; NetDb::NetDb (): m_IsRunning (false), m_Thread (nullptr), m_Reseeder (nullptr), m_Storage("netDb", "r", "routerInfo-", "dat"), m_PersistProfiles (true), m_LastExploratorySelectionUpdateTime (0) { } NetDb::~NetDb () { Stop (); delete m_Reseeder; } void NetDb::Start () { m_Storage.SetPlace(i2p::fs::GetDataDir()); m_Storage.Init(i2p::data::GetBase64SubstitutionTable(), 64); InitProfilesStorage (); m_Families.LoadCertificates (); Load (); if (!m_Requests) { m_Requests = std::make_shared(); m_Requests->Start (); } uint16_t threshold; i2p::config::GetOption("reseed.threshold", threshold); if (m_RouterInfos.size () < threshold || m_Floodfills.GetSize () < NETDB_MIN_FLOODFILLS) // reseed if # of router less than threshold or too few floodfiils { Reseed (); } else if (!GetRandomRouter (i2p::context.GetSharedRouterInfo (), false, false, false)) Reseed (); // we don't have a router we can connect to. Trying to reseed auto it = m_RouterInfos.find (i2p::context.GetIdentHash ()); if (it != m_RouterInfos.end ()) { // remove own router m_Floodfills.Remove (it->second->GetIdentHash ()); m_RouterInfos.erase (it); } // insert own router m_RouterInfos.emplace (i2p::context.GetIdentHash (), i2p::context.GetSharedRouterInfo ()); if (i2p::context.IsFloodfill ()) m_Floodfills.Insert (i2p::context.GetSharedRouterInfo ()); i2p::config::GetOption("persist.profiles", m_PersistProfiles); m_IsRunning = true; m_Thread = new std::thread (std::bind (&NetDb::Run, this)); } void NetDb::Stop () { if (m_Requests) m_Requests->Stop (); if (m_IsRunning) { if (m_PersistProfiles) SaveProfiles (); DeleteObsoleteProfiles (); m_RouterInfos.clear (); m_Floodfills.Clear (); if (m_Thread) { m_IsRunning = false; m_Queue.WakeUp (); m_Thread->join (); delete m_Thread; m_Thread = 0; } m_LeaseSets.clear(); } m_Requests = nullptr; } void NetDb::Run () { i2p::util::SetThreadName("NetDB"); uint64_t lastManage = 0; uint64_t lastProfilesCleanup = i2p::util::GetMonotonicMilliseconds (), lastObsoleteProfilesCleanup = lastProfilesCleanup; int16_t profilesCleanupVariance = 0, obsoleteProfilesCleanVariance = 0; std::list > msgs; while (m_IsRunning) { try { if (m_Queue.Wait (1,0)) // 1 sec { m_Queue.GetWholeQueue (msgs); while (!msgs.empty ()) { auto msg = msgs.front (); msgs.pop_front (); if (!msg) continue; LogPrint(eLogDebug, "NetDb: Got request with type ", (int) msg->GetTypeID ()); switch (msg->GetTypeID ()) { case eI2NPDatabaseStore: HandleDatabaseStoreMsg (msg); break; case eI2NPDatabaseLookup: HandleDatabaseLookupMsg (msg); break; default: // WTF? LogPrint (eLogError, "NetDb: Unexpected message type ", (int) msg->GetTypeID ()); //i2p::HandleI2NPMessage (msg); } } } if (!m_IsRunning) break; if (!i2p::transport::transports.IsOnline () || !i2p::transport::transports.IsRunning ()) continue; // don't manage netdb when offline or transports are not running uint64_t mts = i2p::util::GetMonotonicMilliseconds (); if (mts >= lastManage + 60000) // manage routers and leasesets every minute { if (lastManage) { ManageRouterInfos (); ManageLeaseSets (); } lastManage = mts; } if (mts >= lastProfilesCleanup + (uint64_t)(i2p::data::PEER_PROFILE_AUTOCLEAN_TIMEOUT + profilesCleanupVariance)*1000) { m_RouterProfilesPool.CleanUpMt (); if (m_PersistProfiles) { bool isSaving = m_SavingProfiles.valid (); if (isSaving && m_SavingProfiles.wait_for(std::chrono::seconds(0)) == std::future_status::ready) // still active? { m_SavingProfiles.get (); isSaving = false; } if (!isSaving) m_SavingProfiles = PersistProfiles (); else LogPrint (eLogWarning, "NetDb: Can't persist profiles. Profiles are being saved to disk"); } lastProfilesCleanup = mts; profilesCleanupVariance = rand () % i2p::data::PEER_PROFILE_AUTOCLEAN_VARIANCE; } if (mts >= lastObsoleteProfilesCleanup + (uint64_t)(i2p::data::PEER_PROFILE_OBSOLETE_PROFILES_CLEAN_TIMEOUT + obsoleteProfilesCleanVariance)*1000) { bool isDeleting = m_DeletingProfiles.valid (); if (isDeleting && m_DeletingProfiles.wait_for(std::chrono::seconds(0)) == std::future_status::ready) // still active? { m_DeletingProfiles.get (); isDeleting = false; } if (!isDeleting) m_DeletingProfiles = DeleteObsoleteProfiles (); else LogPrint (eLogWarning, "NetDb: Can't delete profiles. Profiles are being deleted from disk"); lastObsoleteProfilesCleanup = mts; obsoleteProfilesCleanVariance = rand () % i2p::data::PEER_PROFILE_OBSOLETE_PROFILES_CLEAN_VARIANCE; } } catch (std::exception& ex) { LogPrint (eLogError, "NetDb: Runtime exception: ", ex.what ()); } } } std::shared_ptr NetDb::AddRouterInfo (const uint8_t * buf, int len) { bool updated; return AddRouterInfo (buf, len, updated); } std::shared_ptr NetDb::AddRouterInfo (const uint8_t * buf, int len, bool& updated) { IdentityEx identity; if (identity.FromBuffer (buf, len)) return AddRouterInfo (identity.GetIdentHash (), buf, len, updated); updated = false; return nullptr; } bool NetDb::AddRouterInfo (const IdentHash& ident, const uint8_t * buf, int len) { bool updated; if (!AddRouterInfo (ident, buf, len, updated)) updated = false; return updated; } std::shared_ptr NetDb::AddRouterInfo (const IdentHash& ident, const uint8_t * buf, int len, bool& updated) { updated = true; auto r = FindRouter (ident); if (r) { if (r->IsNewer (buf, len)) { bool wasFloodfill = r->IsFloodfill (); { std::lock_guard l(m_RouterInfosMutex); if (!r->Update (buf, len)) { updated = false; m_Requests->RequestComplete (ident, r); return r; } if (r->IsUnreachable () || i2p::util::GetMillisecondsSinceEpoch () + NETDB_EXPIRATION_TIMEOUT_THRESHOLD*1000LL < r->GetTimestamp ()) { // delete router as invalid or from future after update m_RouterInfos.erase (ident); if (wasFloodfill) { std::lock_guard l(m_FloodfillsMutex); m_Floodfills.Remove (r->GetIdentHash ()); } m_Requests->RequestComplete (ident, nullptr); return nullptr; } } if (CheckLogLevel (eLogInfo)) LogPrint (eLogInfo, "NetDb: RouterInfo updated: ", ident.ToBase64()); if (wasFloodfill != r->IsFloodfill ()) // if floodfill status updated { if (CheckLogLevel (eLogDebug)) LogPrint (eLogDebug, "NetDb: RouterInfo floodfill status updated: ", ident.ToBase64()); std::lock_guard l(m_FloodfillsMutex); if (wasFloodfill) m_Floodfills.Remove (r->GetIdentHash ()); else if (r->IsEligibleFloodfill ()) { if (m_Floodfills.GetSize () < NETDB_NUM_FLOODFILLS_THRESHOLD || r->GetProfile ()->IsReal ()) m_Floodfills.Insert (r); else r->ResetFloodfill (); } } } else { if (CheckLogLevel (eLogDebug)) LogPrint (eLogDebug, "NetDb: RouterInfo is older: ", ident.ToBase64()); updated = false; } } else { r = std::make_shared (buf, len); bool isValid = !r->IsUnreachable () && r->HasValidAddresses () && (!r->IsFloodfill () || !r->GetProfile ()->IsUnreachable ()); if (isValid) { auto mts = i2p::util::GetMillisecondsSinceEpoch (); isValid = mts + NETDB_EXPIRATION_TIMEOUT_THRESHOLD*1000LL > r->GetTimestamp () && // from future (mts < r->GetTimestamp () + NETDB_MAX_EXPIRATION_TIMEOUT*1000LL || // too old context.GetUptime () < NETDB_CHECK_FOR_EXPIRATION_UPTIME/10); // enough uptime } if (isValid) { bool inserted = false; { std::lock_guard l(m_RouterInfosMutex); inserted = m_RouterInfos.insert ({r->GetIdentHash (), r}).second; } if (inserted) { if (CheckLogLevel (eLogInfo)) LogPrint (eLogInfo, "NetDb: RouterInfo added: ", ident.ToBase64()); if (r->IsFloodfill () && r->IsEligibleFloodfill ()) { if (m_Floodfills.GetSize () < NETDB_NUM_FLOODFILLS_THRESHOLD || r->GetProfile ()->IsReal ()) // don't insert floodfill until it's known real if we have enough { std::lock_guard l(m_FloodfillsMutex); m_Floodfills.Insert (r); } else r->ResetFloodfill (); } } else { LogPrint (eLogWarning, "NetDb: Duplicated RouterInfo ", ident.ToBase64()); updated = false; } } else updated = false; } // take care about requested destination m_Requests->RequestComplete (ident, r); return r; } bool NetDb::AddLeaseSet (const IdentHash& ident, const uint8_t * buf, int len) { std::lock_guard lock(m_LeaseSetsMutex); bool updated = false; auto it = m_LeaseSets.find(ident); if (it != m_LeaseSets.end () && it->second->GetStoreType () == i2p::data::NETDB_STORE_TYPE_LEASESET) { // we update only is existing LeaseSet is not LeaseSet2 uint64_t expires; if(LeaseSetBufferValidate(buf, len, expires)) { if(it->second->GetExpirationTime() < expires) { it->second->Update (buf, len, false); // signature is verified already if (CheckLogLevel (eLogInfo)) LogPrint (eLogInfo, "NetDb: LeaseSet updated: ", ident.ToBase32()); updated = true; } else if (CheckLogLevel (eLogDebug)) LogPrint(eLogDebug, "NetDb: LeaseSet is older: ", ident.ToBase32()); } else LogPrint(eLogError, "NetDb: LeaseSet is invalid: ", ident.ToBase32()); } else { auto leaseSet = std::make_shared (buf, len, false); // we don't need leases in netdb if (leaseSet->IsValid ()) { if (CheckLogLevel (eLogInfo)) LogPrint (eLogInfo, "NetDb: LeaseSet added: ", ident.ToBase32()); m_LeaseSets[ident] = leaseSet; updated = true; } else LogPrint (eLogError, "NetDb: New LeaseSet validation failed: ", ident.ToBase32()); } return updated; } bool NetDb::AddLeaseSet2 (const IdentHash& ident, const uint8_t * buf, int len, uint8_t storeType) { auto leaseSet = std::make_shared (storeType, buf, len, false); // we don't need leases in netdb if (leaseSet->IsValid ()) { std::lock_guard lock(m_LeaseSetsMutex); auto it = m_LeaseSets.find(ident); if (it == m_LeaseSets.end () || it->second->GetStoreType () != storeType || leaseSet->GetPublishedTimestamp () > it->second->GetPublishedTimestamp ()) { if (leaseSet->IsPublic () && !leaseSet->IsExpired ()) { // TODO: implement actual update if (CheckLogLevel (eLogInfo)) LogPrint (eLogInfo, "NetDb: LeaseSet2 updated: ", ident.ToBase32()); m_LeaseSets[ident] = leaseSet; return true; } else { LogPrint (eLogWarning, "NetDb: Unpublished or expired or future LeaseSet2 received: ", ident.ToBase32()); m_LeaseSets.erase (ident); } } } else LogPrint (eLogError, "NetDb: New LeaseSet2 validation failed: ", ident.ToBase32()); return false; } std::shared_ptr NetDb::FindRouter (const IdentHash& ident) const { std::lock_guard l(m_RouterInfosMutex); auto it = m_RouterInfos.find (ident); if (it != m_RouterInfos.end ()) return it->second; else return nullptr; } std::shared_ptr NetDb::FindLeaseSet (const IdentHash& destination) const { std::lock_guard lock(m_LeaseSetsMutex); auto it = m_LeaseSets.find (destination); if (it != m_LeaseSets.end ()) return it->second; else return nullptr; } std::shared_ptr NetDb::FindRouterProfile (const IdentHash& ident) const { if (!m_PersistProfiles) return nullptr; auto router = FindRouter (ident); return router ? router->GetProfile () : nullptr; } void NetDb::SetUnreachable (const IdentHash& ident, bool unreachable) { auto r = FindRouter (ident); if (r) { r->SetUnreachable (unreachable); auto profile = r->GetProfile (); if (profile) { profile->Unreachable (unreachable); if (!unreachable && r->IsDeclaredFloodfill () && !r->IsFloodfill () && r->IsEligibleFloodfill () && profile->IsReal ()) { // enable previously disabled floodfill r->SetFloodfill (); std::lock_guard l(m_FloodfillsMutex); m_Floodfills.Insert (r); } } } } void NetDb::ExcludeReachableTransports (const IdentHash& ident, RouterInfo::CompatibleTransports transports) { auto r = FindRouter (ident); if (r) { std::lock_guard l(m_RouterInfosMutex); r->ExcludeReachableTransports (transports); } } void NetDb::Reseed () { if (!m_Reseeder) { m_Reseeder = new Reseeder (); m_Reseeder->LoadCertificates (); // we need certificates for SU3 verification } m_Reseeder->Bootstrap (); } void NetDb::ReseedFromFloodfill(const RouterInfo & ri, int numRouters, int numFloodfills) { LogPrint(eLogInfo, "NetDB: Reseeding from floodfill ", ri.GetIdentHashBase64()); std::list > requests; i2p::data::IdentHash ourIdent = i2p::context.GetIdentHash(); i2p::data::IdentHash ih = ri.GetIdentHash(); i2p::data::IdentHash randomIdent; // make floodfill lookups while(numFloodfills > 0) { randomIdent.Randomize(); auto msg = i2p::CreateRouterInfoDatabaseLookupMsg(randomIdent, ourIdent, 0, false); requests.push_back(msg); numFloodfills --; } // make regular router lookups while(numRouters > 0) { randomIdent.Randomize(); auto msg = i2p::CreateRouterInfoDatabaseLookupMsg(randomIdent, ourIdent, 0, true); requests.push_back(msg); numRouters --; } // send them off i2p::transport::transports.SendMessages(ih, requests); } bool NetDb::LoadRouterInfo (const std::string& path, uint64_t ts) { auto r = std::make_shared(path); if (r->GetRouterIdentity () && !r->IsUnreachable () && r->HasValidAddresses () && ts < r->GetTimestamp () + 24*60*60*NETDB_MAX_OFFLINE_EXPIRATION_TIMEOUT*1000LL) // too old { r->DeleteBuffer (); if (m_RouterInfos.emplace (r->GetIdentHash (), r).second) { if (r->IsFloodfill () && r->IsEligibleFloodfill ()) m_Floodfills.Insert (r); } } else { LogPrint(eLogWarning, "NetDb: RI from ", path, " is invalid or too old. Delete"); i2p::fs::Remove(path); } return true; } void NetDb::VisitLeaseSets(LeaseSetVisitor v) { std::lock_guard lock(m_LeaseSetsMutex); for ( auto & entry : m_LeaseSets) v(entry.first, entry.second); } void NetDb::VisitStoredRouterInfos(RouterInfoVisitor v) { m_Storage.Iterate([v] (const std::string & filename) { auto ri = std::make_shared(filename); v(ri); }); } void NetDb::VisitRouterInfos(RouterInfoVisitor v) { std::lock_guard lock(m_RouterInfosMutex); for ( const auto & item : m_RouterInfos ) v(item.second); } size_t NetDb::VisitRandomRouterInfos(RouterInfoFilter filter, RouterInfoVisitor v, size_t n) { std::vector > found; const size_t max_iters_per_cyle = 3; size_t iters = max_iters_per_cyle; while(n > 0) { std::lock_guard lock(m_RouterInfosMutex); uint32_t idx = rand () % m_RouterInfos.size (); uint32_t i = 0; for (const auto & it : m_RouterInfos) { if(i >= idx) // are we at the random start point? { // yes, check if we want this one if(filter(it.second)) { // we have a match --n; found.push_back(it.second); // reset max iterations per cycle iters = max_iters_per_cyle; break; } } else // not there yet ++i; } // we have enough if(n == 0) break; --iters; // have we tried enough this cycle ? if(!iters) { // yes let's try the next cycle --n; iters = max_iters_per_cyle; } } // visit the ones we found size_t visited = 0; for(const auto & ri : found ) { v(ri); ++visited; } return visited; } void NetDb::Load () { // make sure we cleanup netDb from previous attempts m_RouterInfos.clear (); m_Floodfills.Clear (); uint64_t ts = i2p::util::GetMillisecondsSinceEpoch(); std::vector files; m_Storage.Traverse(files); for (const auto& path : files) LoadRouterInfo (path, ts); LogPrint (eLogInfo, "NetDb: ", m_RouterInfos.size(), " routers loaded (", m_Floodfills.GetSize (), " floodfils)"); } void NetDb::SaveUpdated () { if (m_PersistingRouters.valid ()) { if (m_PersistingRouters.wait_for(std::chrono::seconds(0)) == std::future_status::ready) m_PersistingRouters.get (); else { LogPrint (eLogWarning, "NetDb: Can't save updated routers. Routers are being saved to disk"); return; } } int updatedCount = 0, deletedCount = 0, deletedFloodfillsCount = 0; auto total = m_RouterInfos.size (); auto totalFloodfills = m_Floodfills.GetSize (); uint64_t expirationTimeout = NETDB_MAX_EXPIRATION_TIMEOUT*1000LL; uint64_t ts = i2p::util::GetMillisecondsSinceEpoch(); auto uptime = i2p::context.GetUptime (); double minTunnelCreationSuccessRate; i2p::config::GetOption("limits.zombies", minTunnelCreationSuccessRate); bool isLowRate = i2p::tunnel::tunnels.GetPreciseTunnelCreationSuccessRate () < minTunnelCreationSuccessRate; // routers don't expire if less than 90 or uptime is less than 1 hour bool checkForExpiration = total > NETDB_MIN_ROUTERS && uptime > NETDB_CHECK_FOR_EXPIRATION_UPTIME; // 10 minutes if (checkForExpiration && uptime > i2p::transport::SSU2_TO_INTRODUCER_SESSION_DURATION) // 1 hour expirationTimeout = i2p::context.IsFloodfill () ? NETDB_FLOODFILL_EXPIRATION_TIMEOUT*1000LL : NETDB_MIN_EXPIRATION_TIMEOUT*1000LL + (NETDB_MAX_EXPIRATION_TIMEOUT - NETDB_MIN_EXPIRATION_TIMEOUT)*1000LL*NETDB_MIN_ROUTERS/total; bool isOffline = checkForExpiration && i2p::transport::transports.GetNumPeers () < NETDB_MIN_TRANSPORTS; // enough routers and uptime, but no tranports std::list > > saveToDisk; std::list removeFromDisk; auto own = i2p::context.GetSharedRouterInfo (); for (auto [ident, r]: m_RouterInfos) { if (!r || r == own) continue; // skip own if (r->IsBufferScheduledToDelete ()) // from previous SaveUpdated, we assume m_PersistingRouters complete { std::lock_guard l(m_RouterInfosMutex); // possible collision between DeleteBuffer and Update r->DeleteBuffer (); } if (r->IsUpdated ()) { if (r->GetBuffer () && !r->IsUnreachable ()) { // we have something to save std::shared_ptr buffer; { std::lock_guard l(m_RouterInfosMutex); // possible collision between DeleteBuffer and Update buffer = r->CopyBuffer (); r->ScheduleBufferToDelete (); } if (buffer) saveToDisk.push_back(std::make_pair(ident.ToBase64 (), buffer)); } r->SetUpdated (false); updatedCount++; continue; } if (r->GetProfile ()->IsUnreachable ()) r->SetUnreachable (true); // make router reachable back if too few routers or floodfills if (r->IsUnreachable () && (total - deletedCount < NETDB_MIN_ROUTERS || isLowRate || isOffline || (r->IsFloodfill () && totalFloodfills - deletedFloodfillsCount < NETDB_MIN_FLOODFILLS))) r->SetUnreachable (false); if (!r->IsUnreachable ()) { // find & mark expired routers if (!r->GetCompatibleTransports (true)) // non reachable by any transport r->SetUnreachable (true); else if (ts + NETDB_EXPIRATION_TIMEOUT_THRESHOLD*1000LL < r->GetTimestamp ()) { LogPrint (eLogWarning, "NetDb: RouterInfo is from future for ", (r->GetTimestamp () - ts)/1000LL, " seconds"); r->SetUnreachable (true); } else if (checkForExpiration) { if (ts > r->GetTimestamp () + expirationTimeout) r->SetUnreachable (true); else if ((ts > r->GetTimestamp () + expirationTimeout/2) && // more than half of expiration total > NETDB_NUM_ROUTERS_THRESHOLD && !r->IsHighBandwidth() && // low bandwidth !r->IsFloodfill() && (!i2p::context.IsFloodfill () || // non floodfill (CreateRoutingKey (ident) ^ i2p::context.GetIdentHash ()).metric[0] >= 0x02)) // different first 7 bits r->SetUnreachable (true); } } // make router reachable back if connected now if (r->IsUnreachable () && i2p::transport::transports.IsConnected (ident)) r->SetUnreachable (false); if (r->IsUnreachable ()) { if (r->IsFloodfill ()) deletedFloodfillsCount++; // delete RI file removeFromDisk.push_back (ident.ToBase64()); deletedCount++; if (total - deletedCount < NETDB_MIN_ROUTERS) checkForExpiration = false; } } // m_RouterInfos iteration if (!saveToDisk.empty () || !removeFromDisk.empty ()) { m_PersistingRouters = std::async (std::launch::async, &NetDb::PersistRouters, this, std::move (saveToDisk), std::move (removeFromDisk)); } m_RouterInfoBuffersPool.CleanUpMt (); m_RouterInfoAddressesPool.CleanUpMt (); m_RouterInfoAddressVectorsPool.CleanUpMt (); m_IdentitiesPool.CleanUpMt (); if (updatedCount > 0) LogPrint (eLogInfo, "NetDb: Saved ", updatedCount, " new/updated routers"); if (deletedCount > 0) { LogPrint (eLogInfo, "NetDb: Deleting ", deletedCount, " unreachable routers"); // clean up RouterInfos table { std::lock_guard l(m_RouterInfosMutex); for (auto it = m_RouterInfos.begin (); it != m_RouterInfos.end ();) { if (!it->second || it->second->IsUnreachable ()) it = m_RouterInfos.erase (it); else { it->second->DropProfile (); it++; } } } // clean up expired floodfills or not floodfills anymore { std::lock_guard l(m_FloodfillsMutex); m_Floodfills.Cleanup ([](const std::shared_ptr& r)->bool { return r && r->IsFloodfill () && !r->IsUnreachable (); }); } } } void NetDb::PersistRouters (std::list > >&& update, std::list&& remove) { for (auto it: update) RouterInfo::SaveToFile (m_Storage.Path(it.first), it.second); for (auto it: remove) m_Storage.Remove (it); } void NetDb::RequestDestination (const IdentHash& destination, RequestedDestination::RequestComplete requestComplete, bool direct) { if (direct && (i2p::transport::transports.RoutesRestricted () || i2p::context.IsLimitedConnectivity ())) direct = false; // always use tunnels for restricted routes or limited connectivity if (m_Requests) m_Requests->PostRequestDestination (destination, requestComplete, direct); else LogPrint (eLogError, "NetDb: Requests is null"); } void NetDb::HandleNTCP2RouterInfoMsg (std::shared_ptr m) { uint8_t flood = m->GetPayload ()[0] & NTCP2_ROUTER_INFO_FLAG_REQUEST_FLOOD; bool updated; auto ri = AddRouterInfo (m->GetPayload () + 1, m->GetPayloadLength () - 1, updated); // without flags if (flood && updated && context.IsFloodfill () && ri) { auto floodMsg = CreateDatabaseStoreMsg (ri, 0); // replyToken = 0 Flood (ri->GetIdentHash (), floodMsg); } } void NetDb::HandleDatabaseStoreMsg (std::shared_ptr m) { const uint8_t * buf = m->GetPayload (); size_t len = m->GetSize (); if (len < DATABASE_STORE_HEADER_SIZE) { LogPrint (eLogError, "NetDb: Database store msg is too short ", len, ". Dropped"); return; } IdentHash ident (buf + DATABASE_STORE_KEY_OFFSET); if (ident.IsZero ()) { LogPrint (eLogDebug, "NetDb: Database store with zero ident, dropped"); return; } uint32_t replyToken = bufbe32toh (buf + DATABASE_STORE_REPLY_TOKEN_OFFSET); size_t offset = DATABASE_STORE_HEADER_SIZE; if (replyToken) { if (len < offset + 36) // 32 + 4 { LogPrint (eLogError, "NetDb: Database store msg with reply token is too short ", len, ". Dropped"); return; } uint32_t tunnelID = bufbe32toh (buf + offset); offset += 4; if (replyToken != 0xFFFFFFFFU) // if not caught on OBEP or IBGW { IdentHash replyIdent(buf + offset); auto deliveryStatus = CreateDeliveryStatusMsg (replyToken); if (!tunnelID) // send response directly transports.SendMessage (replyIdent, deliveryStatus); else { bool direct = true; if (!i2p::transport::transports.IsConnected (replyIdent)) { auto r = FindRouter (replyIdent); if (r && !r->IsReachableFrom (i2p::context.GetRouterInfo ())) direct = false; } if (direct) // send response directly to IBGW transports.SendMessage (replyIdent, i2p::CreateTunnelGatewayMsg (tunnelID, deliveryStatus)); else { // send response through exploratory tunnel auto pool = i2p::tunnel::tunnels.GetExploratoryPool (); auto outbound = pool ? pool->GetNextOutboundTunnel () : nullptr; if (outbound) outbound->SendTunnelDataMsgTo (replyIdent, tunnelID, deliveryStatus); else LogPrint (eLogWarning, "NetDb: No outbound tunnels for DatabaseStore reply found"); } } } offset += 32; } // we must send reply back before this check if (ident == i2p::context.GetIdentHash ()) { LogPrint (eLogDebug, "NetDb: Database store with own RouterInfo received, dropped"); return; } size_t payloadOffset = offset; bool updated = false; uint8_t storeType = buf[DATABASE_STORE_TYPE_OFFSET]; if (storeType) // LeaseSet or LeaseSet2 { if (len > MAX_LS_BUFFER_SIZE + offset) { LogPrint (eLogError, "NetDb: Database store message is too long ", len); return; } if (!context.IsFloodfill ()) { LogPrint (eLogInfo, "NetDb: Not Floodfill, LeaseSet store request ignored for ", ident.ToBase32()); return; } else if (!m->from) // unsolicited LS must be received directly { if (storeType == NETDB_STORE_TYPE_LEASESET) // 1 { if (CheckLogLevel (eLogDebug)) LogPrint (eLogDebug, "NetDb: Store request: LeaseSet for ", ident.ToBase32()); updated = AddLeaseSet (ident, buf + offset, len - offset); } else // all others are considered as LeaseSet2 { if (CheckLogLevel (eLogDebug)) LogPrint (eLogDebug, "NetDb: Store request: LeaseSet2 of type ", int(storeType), " for ", ident.ToBase32()); updated = AddLeaseSet2 (ident, buf + offset, len - offset, storeType); } } } else // RouterInfo { if (CheckLogLevel (eLogDebug)) LogPrint (eLogDebug, "NetDb: Store request: RouterInfo ", ident.ToBase64()); size_t size = bufbe16toh (buf + offset); offset += 2; if (size > MAX_RI_BUFFER_SIZE || size > len - offset) { LogPrint (eLogError, "NetDb: Invalid RouterInfo length ", (int)size); return; } uint8_t uncompressed[MAX_RI_BUFFER_SIZE]; size_t uncompressedSize = m_Inflator.Inflate (buf + offset, size, uncompressed, MAX_RI_BUFFER_SIZE); if (uncompressedSize && uncompressedSize < MAX_RI_BUFFER_SIZE) updated = AddRouterInfo (ident, uncompressed, uncompressedSize); else { LogPrint (eLogInfo, "NetDb: Decompression failed ", uncompressedSize); return; } } if (replyToken && context.IsFloodfill () && updated) { // flood updated auto floodMsg = NewI2NPShortMessage (); uint8_t * payload = floodMsg->GetPayload (); memcpy (payload, buf, 33); // key + type htobe32buf (payload + DATABASE_STORE_REPLY_TOKEN_OFFSET, 0); // zero reply token size_t msgLen = len - payloadOffset; floodMsg->len += DATABASE_STORE_HEADER_SIZE + msgLen; if (floodMsg->len < floodMsg->maxLen) { memcpy (payload + DATABASE_STORE_HEADER_SIZE, buf + payloadOffset, msgLen); floodMsg->FillI2NPMessageHeader (eI2NPDatabaseStore); int minutesBeforeMidnight = 24*60 - i2p::util::GetMinutesSinceEpoch () % (24*60); bool andNextDay = storeType ? minutesBeforeMidnight < NETDB_NEXT_DAY_LEASESET_THRESHOLD: minutesBeforeMidnight < NETDB_NEXT_DAY_ROUTER_INFO_THRESHOLD; Flood (ident, floodMsg, andNextDay); } else LogPrint (eLogError, "NetDb: Database store message is too long ", floodMsg->len); } } void NetDb::HandleDatabaseLookupMsg (std::shared_ptr msg) { const uint8_t * buf = msg->GetPayload (); IdentHash ident (buf); if (ident.IsZero ()) { LogPrint (eLogError, "NetDb: DatabaseLookup for zero ident. Ignored"); return; } char key[48]; int l = i2p::data::ByteStreamToBase64 (buf, 32, key, 48); key[l] = 0; IdentHash replyIdent(buf + 32); uint8_t flag = buf[64]; LogPrint (eLogDebug, "NetDb: DatabaseLookup for ", key, " received flags=", (int)flag); uint8_t lookupType = flag & DATABASE_LOOKUP_TYPE_FLAGS_MASK; const uint8_t * excluded = buf + 65; uint32_t replyTunnelID = 0; if (flag & DATABASE_LOOKUP_DELIVERY_FLAG) //reply to tunnel { replyTunnelID = bufbe32toh (excluded); excluded += 4; } uint16_t numExcluded = bufbe16toh (excluded); excluded += 2; if (numExcluded > 512 || (excluded - buf) + numExcluded*32 > (int)msg->GetPayloadLength ()) { LogPrint (eLogWarning, "NetDb: Number of excluded peers", numExcluded, " is too much"); return; } std::shared_ptr replyMsg; if (lookupType == DATABASE_LOOKUP_TYPE_EXPLORATORY_LOOKUP) { if (!context.IsFloodfill ()) { LogPrint (eLogWarning, "NetDb: Exploratory lookup to non-floodfill dropped"); return; } LogPrint (eLogInfo, "NetDb: Exploratory close to ", key, " ", numExcluded, " excluded"); std::unordered_set excludedRouters; const uint8_t * excluded_ident = excluded; for (int i = 0; i < numExcluded; i++) { excludedRouters.insert (excluded_ident); excluded_ident += 32; } replyMsg = CreateDatabaseSearchReply (ident, GetExploratoryNonFloodfill (ident, NETDB_MAX_NUM_SEARCH_REPLY_PEER_HASHES, excludedRouters)); } else { if (lookupType == DATABASE_LOOKUP_TYPE_ROUTERINFO_LOOKUP || lookupType == DATABASE_LOOKUP_TYPE_NORMAL_LOOKUP) { // try to find router auto router = FindRouter (ident); if (router && !router->IsUnreachable ()) { LogPrint (eLogDebug, "NetDb: Requested RouterInfo ", key, " found"); if (PopulateRouterInfoBuffer (router)) replyMsg = CreateDatabaseStoreMsg (router); } } if (!replyMsg && (lookupType == DATABASE_LOOKUP_TYPE_LEASESET_LOOKUP || lookupType == DATABASE_LOOKUP_TYPE_NORMAL_LOOKUP)) { // try to find leaseset if (context.IsFloodfill ()) { auto leaseSet = FindLeaseSet (ident); if (!leaseSet) { // no leaseset found LogPrint(eLogDebug, "NetDb: Requested LeaseSet not found for ", ident.ToBase32()); } else if (!leaseSet->IsExpired ()) // we don't send back expired leasesets { LogPrint (eLogDebug, "NetDb: Requested LeaseSet ", key, " found"); replyMsg = CreateDatabaseStoreMsg (ident, leaseSet); } } else if (lookupType == DATABASE_LOOKUP_TYPE_LEASESET_LOOKUP) { LogPrint (eLogWarning, "NetDb: Explicit LeaseSet lookup to non-floodfill dropped"); return; } } if (!replyMsg) { std::unordered_set excludedRouters; const uint8_t * exclude_ident = excluded; for (int i = 0; i < numExcluded; i++) { excludedRouters.insert (exclude_ident); exclude_ident += 32; } auto closestFloodfills = GetClosestFloodfills (ident, 3, excludedRouters, false); if (closestFloodfills.empty ()) LogPrint (eLogWarning, "NetDb: No more floodfills for ", key, " found. ", numExcluded, " peers excluded"); replyMsg = CreateDatabaseSearchReply (ident, closestFloodfills); } } excluded += numExcluded * 32; if (replyMsg) { if (replyTunnelID) { // encryption might be used though tunnel only if (flag & (DATABASE_LOOKUP_ENCRYPTION_FLAG | DATABASE_LOOKUP_ECIES_FLAG)) // encrypted reply requested { const uint8_t * sessionKey = excluded; const uint8_t numTags = excluded[32]; if (numTags) { if (flag & DATABASE_LOOKUP_ECIES_FLAG) { uint64_t tag; memcpy (&tag, excluded + 33, 8); replyMsg = i2p::garlic::WrapECIESX25519Message (replyMsg, sessionKey, tag); } else { const i2p::garlic::SessionTag sessionTag(excluded + 33); // take first tag i2p::garlic::ElGamalAESSession garlic (sessionKey, sessionTag); replyMsg = garlic.WrapSingleMessage (replyMsg); } if (!replyMsg) LogPrint (eLogError, "NetDb: Failed to wrap message"); } else LogPrint(eLogWarning, "NetDb: Encrypted reply requested but no tags provided"); } bool direct = true; if (!i2p::transport::transports.IsConnected (replyIdent)) { auto r = FindRouter (replyIdent); if (r && !r->IsReachableFrom (i2p::context.GetRouterInfo ())) direct = false; } if (direct) transports.SendMessage (replyIdent, i2p::CreateTunnelGatewayMsg (replyTunnelID, replyMsg)); else { auto exploratoryPool = i2p::tunnel::tunnels.GetExploratoryPool (); auto outbound = exploratoryPool ? exploratoryPool->GetNextOutboundTunnel () : nullptr; if (outbound) outbound->SendTunnelDataMsgTo (replyIdent, replyTunnelID, replyMsg); else LogPrint (eLogWarning, "NetDb: Can't send lookup reply to ", replyIdent.ToBase64 (), ". Non reachable and no outbound tunnels"); } } else transports.SendMessage (replyIdent, replyMsg); } } void NetDb::Flood (const IdentHash& ident, std::shared_ptr floodMsg, bool andNextDay) { std::unordered_set excluded; excluded.insert (i2p::context.GetIdentHash ()); // don't flood to itself excluded.insert (ident); // don't flood back for (int i = 0; i < 3; i++) { auto floodfill = GetClosestFloodfill (ident, excluded, false); // current day if (floodfill) { const auto& h = floodfill->GetIdentHash(); transports.SendMessage (h, CopyI2NPMessage(floodMsg)); excluded.insert (h); } else return; // no more floodfills } if (andNextDay) { // flood to two more closest flodfills for next day std::unordered_set excluded1; excluded1.insert (i2p::context.GetIdentHash ()); // don't flood to itself excluded1.insert (ident); // don't flood back for (int i = 0; i < 2; i++) { auto floodfill = GetClosestFloodfill (ident, excluded1, true); // next day if (floodfill) { const auto& h = floodfill->GetIdentHash(); if (!excluded.count (h)) // we didn't send for current day, otherwise skip transports.SendMessage (h, CopyI2NPMessage(floodMsg)); excluded1.insert (h); } else return; } } } std::shared_ptr NetDb::GetRandomRouter () const { return GetRandomRouter ( [](std::shared_ptr router)->bool { return !router->IsHidden (); }); } std::shared_ptr NetDb::GetRandomRouter (std::shared_ptr compatibleWith, bool reverse, bool endpoint, bool clientTunnel) const { bool checkIsReal = clientTunnel && i2p::tunnel::tunnels.GetPreciseTunnelCreationSuccessRate () < NETDB_TUNNEL_CREATION_RATE_THRESHOLD && // too low rate context.GetUptime () > NETDB_CHECK_FOR_EXPIRATION_UPTIME; // after 10 minutes uptime return GetRandomRouter ( [compatibleWith, reverse, endpoint, clientTunnel, checkIsReal](std::shared_ptr router)->bool { return !router->IsHidden () && router != compatibleWith && (reverse ? (compatibleWith->IsReachableFrom (*router) && router->GetCompatibleTransports (true)): router->IsReachableFrom (*compatibleWith)) && !router->IsNAT2NATOnly (*compatibleWith) && router->IsECIES () && !router->IsHighCongestion (clientTunnel) && (!checkIsReal || router->GetProfile ()->IsReal ()) && (!endpoint || (router->IsV4 () && (!reverse || router->IsPublished (true)))); // endpoint must be ipv4 and published if inbound(reverse) }); } std::shared_ptr NetDb::GetRandomSSU2PeerTestRouter (bool v4, const std::unordered_set& excluded) const { return GetRandomRouter ( [v4, &excluded](std::shared_ptr router)->bool { return !router->IsHidden () && router->IsECIES () && router->IsSSU2PeerTesting (v4) && !excluded.count (router->GetIdentHash ()); }); } std::shared_ptr NetDb::GetRandomSSU2Introducer (bool v4, const std::unordered_set& excluded) const { return GetRandomRouter ( [v4, &excluded](std::shared_ptr router)->bool { return !router->IsHidden () && router->IsSSU2Introducer (v4) && !excluded.count (router->GetIdentHash ()); }); } std::shared_ptr NetDb::GetHighBandwidthRandomRouter (std::shared_ptr compatibleWith, bool reverse, bool endpoint) const { bool checkIsReal = i2p::tunnel::tunnels.GetPreciseTunnelCreationSuccessRate () < NETDB_TUNNEL_CREATION_RATE_THRESHOLD && // too low rate context.GetUptime () > NETDB_CHECK_FOR_EXPIRATION_UPTIME; // after 10 minutes uptime return GetRandomRouter ( [compatibleWith, reverse, endpoint, checkIsReal](std::shared_ptr router)->bool { return !router->IsHidden () && router != compatibleWith && (reverse ? (compatibleWith->IsReachableFrom (*router) && router->GetCompatibleTransports (true)) : router->IsReachableFrom (*compatibleWith)) && !router->IsNAT2NATOnly (*compatibleWith) && (router->GetCaps () & RouterInfo::eHighBandwidth) && router->GetVersion () >= NETDB_MIN_HIGHBANDWIDTH_VERSION && router->IsECIES () && !router->IsHighCongestion (true) && (!checkIsReal || router->GetProfile ()->IsReal ()) && (!endpoint || (router->IsV4 () && (!reverse || router->IsPublished (true)))); // endpoint must be ipv4 and published if inbound(reverse) }); } template std::shared_ptr NetDb::GetRandomRouter (Filter filter) const { if (m_RouterInfos.empty()) return nullptr; uint16_t inds[3]; RAND_bytes ((uint8_t *)inds, sizeof (inds)); std::lock_guard l(m_RouterInfosMutex); auto count = m_RouterInfos.size (); if(count == 0) return nullptr; inds[0] %= count; auto it = m_RouterInfos.begin (); std::advance (it, inds[0]); // try random router if (it != m_RouterInfos.end () && !it->second->IsUnreachable () && filter (it->second)) return it->second; // try some routers around auto it1 = m_RouterInfos.begin (); if (inds[0]) { // before inds[1] %= inds[0]; std::advance (it1, (inds[1] + inds[0])/2); } else it1 = it; auto it2 = it; if (inds[0] < m_RouterInfos.size () - 1) { // after inds[2] %= (m_RouterInfos.size () - 1 - inds[0]); inds[2] /= 2; std::advance (it2, inds[2]); } // it1 - from, it2 - to it = it1; while (it != it2 && it != m_RouterInfos.end ()) { if (!it->second->IsUnreachable () && filter (it->second)) return it->second; it++; } // still not found, try from the beginning it = m_RouterInfos.begin (); while (it != it1 && it != m_RouterInfos.end ()) { if (!it->second->IsUnreachable () && filter (it->second)) return it->second; it++; } // still not found, try to the beginning it = it2; while (it != m_RouterInfos.end ()) { if (!it->second->IsUnreachable () && filter (it->second)) return it->second; it++; } return nullptr; // seems we have too few routers } void NetDb::PostI2NPMsg (std::shared_ptr msg) { if (msg) m_Queue.Put (msg); } void NetDb::PostDatabaseSearchReplyMsg (std::shared_ptr msg) { if (msg && m_Requests) m_Requests->PostDatabaseSearchReplyMsg (msg); } std::shared_ptr NetDb::GetClosestFloodfill (const IdentHash& destination, const std::unordered_set& excluded, bool nextDay) const { IdentHash destKey = CreateRoutingKey (destination, nextDay); std::lock_guard l(m_FloodfillsMutex); return m_Floodfills.FindClosest (destKey, [&excluded](const std::shared_ptr& r)->bool { return r && !r->IsUnreachable () && !r->GetProfile ()->IsUnreachable () && !excluded.count (r->GetIdentHash ()); }); } std::vector NetDb::GetClosestFloodfills (const IdentHash& destination, size_t num, std::unordered_set& excluded, bool closeThanUsOnly) const { std::vector res; IdentHash destKey = CreateRoutingKey (destination); std::vector > v; { std::lock_guard l(m_FloodfillsMutex); v = m_Floodfills.FindClosest (destKey, num, [&excluded](const std::shared_ptr& r)->bool { return r && !r->IsUnreachable () && !r->GetProfile ()->IsUnreachable () && !excluded.count (r->GetIdentHash ()); }); } if (v.empty ()) return res; XORMetric ourMetric; if (closeThanUsOnly) ourMetric = destKey ^ i2p::context.GetIdentHash (); for (auto& it: v) { if (closeThanUsOnly && ourMetric < (destKey ^ it->GetIdentHash ())) break; res.push_back (it->GetIdentHash ()); } return res; } std::shared_ptr NetDb::GetRandomRouterInFamily (FamilyID fam) const { return GetRandomRouter( [fam](std::shared_ptr router)->bool { return router->IsFamily(fam); }); } std::vector NetDb::GetExploratoryNonFloodfill (const IdentHash& destination, size_t num, const std::unordered_set& excluded) { std::vector ret; if (!num || m_RouterInfos.empty ()) return ret; // empty list auto ts = i2p::util::GetMonotonicSeconds (); if (ts > m_LastExploratorySelectionUpdateTime + NETDB_EXPLORATORY_SELECTION_UPDATE_INTERVAL) { // update selection m_ExploratorySelection.clear (); std::vector > eligible; eligible.reserve (m_RouterInfos.size ()); { // collect eligible from current netdb bool checkIsReal = i2p::tunnel::tunnels.GetPreciseTunnelCreationSuccessRate () < NETDB_TUNNEL_CREATION_RATE_THRESHOLD; // too low rate std::lock_guard l(m_RouterInfosMutex); for (const auto& it: m_RouterInfos) if (!it.second->IsDeclaredFloodfill () && (!checkIsReal || (it.second->HasProfile () && it.second->GetProfile ()->IsReal ()))) eligible.push_back (it.second); } if (eligible.size () > NETDB_MAX_EXPLORATORY_SELECTION_SIZE) { std::sample (eligible.begin(), eligible.end(), std::back_inserter(m_ExploratorySelection), NETDB_MAX_EXPLORATORY_SELECTION_SIZE, std::mt19937(ts)); } else std::swap (m_ExploratorySelection, eligible); m_LastExploratorySelectionUpdateTime = ts; } // sort by distance IdentHash destKey = CreateRoutingKey (destination); std::map > sorted; for (const auto& it: m_ExploratorySelection) if (!excluded.count (it->GetIdentHash ())) sorted.emplace (destKey ^ it->GetIdentHash (), it); // return first num closest routers for (const auto& it: sorted) { ret.push_back (it.second->GetIdentHash ()); if (ret.size () >= num) break; } return ret; } void NetDb::ManageRouterInfos () { auto ts = i2p::util::GetSecondsSinceEpoch (); { std::lock_guard l(m_RouterInfosMutex); for (auto& it: m_RouterInfos) it.second->UpdateIntroducers (ts); } SaveUpdated (); } void NetDb::ManageLeaseSets () { auto ts = i2p::util::GetMillisecondsSinceEpoch (); for (auto it = m_LeaseSets.begin (); it != m_LeaseSets.end ();) { if (!it->second->IsValid () || ts > it->second->GetExpirationTime () - LEASE_ENDDATE_THRESHOLD) { LogPrint (eLogInfo, "NetDb: LeaseSet ", it->first.ToBase64 (), " expired or invalid"); it = m_LeaseSets.erase (it); } else ++it; } m_LeasesPool.CleanUpMt (); } bool NetDb::PopulateRouterInfoBuffer (std::shared_ptr r) { if (!r) return false; if (r->GetBuffer ()) return true; return r->LoadBuffer (m_Storage.Path (r->GetIdentHashBase64 ())); } } }