// Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2022 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include // IWYU pragma: keep #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace { class DbNotFoundError : public std::exception { using std::exception::exception; }; template bool SerializeDB(Stream& stream, const Data& data) { // Write and commit header, data try { HashedSourceWriter hashwriter{stream}; hashwriter << Params().MessageStart() << data; stream << hashwriter.GetHash(); } catch (const std::exception& e) { LogError("%s: Serialize or I/O error - %s\n", __func__, e.what()); return false; } return true; } template bool SerializeFileDB(const std::string& prefix, const fs::path& path, const Data& data) { // Generate random temporary filename const uint16_t randv{FastRandomContext().rand()}; std::string tmpfn = strprintf("%s.%04x", prefix, randv); // open temp output file fs::path pathTmp = gArgs.GetDataDirNet() / fs::u8path(tmpfn); FILE *file = fsbridge::fopen(pathTmp, "wb"); AutoFile fileout{file}; if (fileout.IsNull()) { fileout.fclose(); remove(pathTmp); LogError("%s: Failed to open file %s\n", __func__, fs::PathToString(pathTmp)); return false; } // Serialize if (!SerializeDB(fileout, data)) { fileout.fclose(); remove(pathTmp); return false; } if (!fileout.Commit()) { fileout.fclose(); remove(pathTmp); LogError("%s: Failed to flush file %s\n", __func__, fs::PathToString(pathTmp)); return false; } fileout.fclose(); // replace existing file, if any, with new file if (!RenameOver(pathTmp, path)) { remove(pathTmp); LogError("%s: Rename-into-place failed\n", __func__); return false; } return true; } template void DeserializeDB(Stream& stream, Data&& data, bool fCheckSum = true) { HashVerifier verifier{stream}; // de-serialize file header (network specific magic number) and .. MessageStartChars pchMsgTmp; verifier >> pchMsgTmp; // ... verify the network matches ours if (pchMsgTmp != Params().MessageStart()) { throw std::runtime_error{"Invalid network magic number"}; } // de-serialize data verifier >> data; // verify checksum if (fCheckSum) { uint256 hashTmp; stream >> hashTmp; if (hashTmp != verifier.GetHash()) { throw std::runtime_error{"Checksum mismatch, data corrupted"}; } } } template void DeserializeFileDB(const fs::path& path, Data&& data) { FILE* file = fsbridge::fopen(path, "rb"); AutoFile filein{file}; if (filein.IsNull()) { throw DbNotFoundError{}; } DeserializeDB(filein, data); } } // namespace CBanDB::CBanDB(fs::path ban_list_path) : m_banlist_dat(ban_list_path + ".dat"), m_banlist_json(ban_list_path + ".json") { } bool CBanDB::Write(const banmap_t& banSet) { std::vector errors; if (common::WriteSettings(m_banlist_json, {{JSON_KEY, BanMapToJson(banSet)}}, errors)) { return true; } for (const auto& err : errors) { LogError("%s\n", err); } return false; } bool CBanDB::Read(banmap_t& banSet) { if (fs::exists(m_banlist_dat)) { LogPrintf("banlist.dat ignored because it can only be read by " PACKAGE_NAME " version 22.x. Remove %s to silence this warning.\n", fs::quoted(fs::PathToString(m_banlist_dat))); } // If the JSON banlist does not exist, then recreate it if (!fs::exists(m_banlist_json)) { return false; } std::map settings; std::vector errors; if (!common::ReadSettings(m_banlist_json, settings, errors)) { for (const auto& err : errors) { LogPrintf("Cannot load banlist %s: %s\n", fs::PathToString(m_banlist_json), err); } return false; } try { BanMapFromJson(settings[JSON_KEY], banSet); } catch (const std::runtime_error& e) { LogPrintf("Cannot parse banlist %s: %s\n", fs::PathToString(m_banlist_json), e.what()); return false; } return true; } bool DumpPeerAddresses(const ArgsManager& args, const AddrMan& addr) { const auto pathAddr = args.GetDataDirNet() / "peers.dat"; return SerializeFileDB("peers", pathAddr, addr); } void ReadFromStream(AddrMan& addr, DataStream& ssPeers) { DeserializeDB(ssPeers, addr, false); } util::Result> LoadAddrman(const NetGroupManager& netgroupman, const ArgsManager& args) { auto check_addrman = std::clamp(args.GetIntArg("-checkaddrman", DEFAULT_ADDRMAN_CONSISTENCY_CHECKS), 0, 1000000); bool deterministic = HasTestOption(args, "addrman"); // use a deterministic addrman only for tests auto addrman{std::make_unique(netgroupman, deterministic, /*consistency_check_ratio=*/check_addrman)}; const auto start{SteadyClock::now()}; const auto path_addr{args.GetDataDirNet() / "peers.dat"}; try { DeserializeFileDB(path_addr, *addrman); LogPrintf("Loaded %i addresses from peers.dat %dms\n", addrman->Size(), Ticks(SteadyClock::now() - start)); } catch (const DbNotFoundError&) { // Addrman can be in an inconsistent state after failure, reset it addrman = std::make_unique(netgroupman, deterministic, /*consistency_check_ratio=*/check_addrman); LogPrintf("Creating peers.dat because the file was not found (%s)\n", fs::quoted(fs::PathToString(path_addr))); DumpPeerAddresses(args, *addrman); } catch (const InvalidAddrManVersionError&) { if (!RenameOver(path_addr, (fs::path)path_addr + ".bak")) { return util::Error{strprintf(_("Failed to rename invalid peers.dat file. Please move or delete it and try again."))}; } // Addrman can be in an inconsistent state after failure, reset it addrman = std::make_unique(netgroupman, deterministic, /*consistency_check_ratio=*/check_addrman); LogPrintf("Creating new peers.dat because the file version was not compatible (%s). Original backed up to peers.dat.bak\n", fs::quoted(fs::PathToString(path_addr))); DumpPeerAddresses(args, *addrman); } catch (const std::exception& e) { return util::Error{strprintf(_("Invalid or corrupt peers.dat (%s). If you believe this is a bug, please report it to %s. As a workaround, you can move the file (%s) out of the way (rename, move, or delete) to have a new one created on the next start."), e.what(), PACKAGE_BUGREPORT, fs::quoted(fs::PathToString(path_addr)))}; } return addrman; } void DumpAnchors(const fs::path& anchors_db_path, const std::vector& anchors) { LOG_TIME_SECONDS(strprintf("Flush %d outbound block-relay-only peer addresses to anchors.dat", anchors.size())); SerializeFileDB("anchors", anchors_db_path, CAddress::V2_DISK(anchors)); } std::vector ReadAnchors(const fs::path& anchors_db_path) { std::vector anchors; try { DeserializeFileDB(anchors_db_path, CAddress::V2_DISK(anchors)); LogPrintf("Loaded %i addresses from %s\n", anchors.size(), fs::quoted(fs::PathToString(anchors_db_path.filename()))); } catch (const std::exception&) { anchors.clear(); } fs::remove(anchors_db_path); return anchors; }