// 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 #include #include #include #include #include #include #include #include #include #if (defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__DragonFly__)) #include #include #endif #ifndef WIN32 // for posix_fallocate, in configure.ac we check if it is present after this #ifdef __linux__ #ifdef _POSIX_C_SOURCE #undef _POSIX_C_SOURCE #endif #define _POSIX_C_SOURCE 200112L #endif // __linux__ #include #include #include #include #include #include #else #include #include /* for _commit */ #include #include #endif #ifdef HAVE_MALLOPT_ARENA_MAX #include #endif #include #include #include #include #include #include #include #include #include // Application startup time (used for uptime calculation) const int64_t nStartupTime = GetTime(); const char * const BITCOIN_CONF_FILENAME = "bitcoin.conf"; const char * const BITCOIN_SETTINGS_FILENAME = "settings.json"; ArgsManager gArgs; /** Mutex to protect dir_locks. */ static GlobalMutex cs_dir_locks; /** A map that contains all the currently held directory locks. After * successful locking, these will be held here until the global destructor * cleans them up and thus automatically unlocks them, or ReleaseDirectoryLocks * is called. */ static std::map> dir_locks GUARDED_BY(cs_dir_locks); bool LockDirectory(const fs::path& directory, const fs::path& lockfile_name, bool probe_only) { LOCK(cs_dir_locks); fs::path pathLockFile = directory / lockfile_name; // If a lock for this directory already exists in the map, don't try to re-lock it if (dir_locks.count(fs::PathToString(pathLockFile))) { return true; } // Create empty lock file if it doesn't exist. FILE* file = fsbridge::fopen(pathLockFile, "a"); if (file) fclose(file); auto lock = std::make_unique(pathLockFile); if (!lock->TryLock()) { return error("Error while attempting to lock directory %s: %s", fs::PathToString(directory), lock->GetReason()); } if (!probe_only) { // Lock successful and we're not just probing, put it into the map dir_locks.emplace(fs::PathToString(pathLockFile), std::move(lock)); } return true; } void UnlockDirectory(const fs::path& directory, const fs::path& lockfile_name) { LOCK(cs_dir_locks); dir_locks.erase(fs::PathToString(directory / lockfile_name)); } void ReleaseDirectoryLocks() { LOCK(cs_dir_locks); dir_locks.clear(); } bool DirIsWritable(const fs::path& directory) { fs::path tmpFile = GetUniquePath(directory); FILE* file = fsbridge::fopen(tmpFile, "a"); if (!file) return false; fclose(file); remove(tmpFile); return true; } bool CheckDiskSpace(const fs::path& dir, uint64_t additional_bytes) { constexpr uint64_t min_disk_space = 52428800; // 50 MiB uint64_t free_bytes_available = fs::space(dir).available; return free_bytes_available >= min_disk_space + additional_bytes; } std::streampos GetFileSize(const char* path, std::streamsize max) { std::ifstream file{path, std::ios::binary}; file.ignore(max); return file.gcount(); } /** * Interpret a string argument as a boolean. * * The definition of LocaleIndependentAtoi() requires that non-numeric string values * like "foo", return 0. This means that if a user unintentionally supplies a * non-integer argument here, the return value is always false. This means that * -foo=false does what the user probably expects, but -foo=true is well defined * but does not do what they probably expected. * * The return value of LocaleIndependentAtoi(...) is zero when given input not * representable as an int. * * For a more extensive discussion of this topic (and a wide range of opinions * on the Right Way to change this code), see PR12713. */ static bool InterpretBool(const std::string& strValue) { if (strValue.empty()) return true; return (LocaleIndependentAtoi(strValue) != 0); } static std::string SettingName(const std::string& arg) { return arg.size() > 0 && arg[0] == '-' ? arg.substr(1) : arg; } struct KeyInfo { std::string name; std::string section; bool negated{false}; }; /** * Parse "name", "section.name", "noname", "section.noname" settings keys. * * @note Where an option was negated can be later checked using the * IsArgNegated() method. One use case for this is to have a way to disable * options that are not normally boolean (e.g. using -nodebuglogfile to request * that debug log output is not sent to any file at all). */ KeyInfo InterpretKey(std::string key) { KeyInfo result; // Split section name from key name for keys like "testnet.foo" or "regtest.bar" size_t option_index = key.find('.'); if (option_index != std::string::npos) { result.section = key.substr(0, option_index); key.erase(0, option_index + 1); } if (key.substr(0, 2) == "no") { key.erase(0, 2); result.negated = true; } result.name = key; return result; } /** * Interpret settings value based on registered flags. * * @param[in] key key information to know if key was negated * @param[in] value string value of setting to be parsed * @param[in] flags ArgsManager registered argument flags * @param[out] error Error description if settings value is not valid * * @return parsed settings value if it is valid, otherwise nullopt accompanied * by a descriptive error string */ static std::optional InterpretValue(const KeyInfo& key, const std::string* value, unsigned int flags, std::string& error) { // Return negated settings as false values. if (key.negated) { if (flags & ArgsManager::DISALLOW_NEGATION) { error = strprintf("Negating of -%s is meaningless and therefore forbidden", key.name); return std::nullopt; } // Double negatives like -nofoo=0 are supported (but discouraged) if (value && !InterpretBool(*value)) { LogPrintf("Warning: parsed potentially confusing double-negative -%s=%s\n", key.name, *value); return true; } return false; } if (!value && (flags & ArgsManager::DISALLOW_ELISION)) { error = strprintf("Can not set -%s with no value. Please specify value with -%s=value.", key.name, key.name); return std::nullopt; } return value ? *value : ""; } // Define default constructor and destructor that are not inline, so code instantiating this class doesn't need to // #include class definitions for all members. // For example, m_settings has an internal dependency on univalue. ArgsManager::ArgsManager() = default; ArgsManager::~ArgsManager() = default; std::set ArgsManager::GetUnsuitableSectionOnlyArgs() const { std::set unsuitables; LOCK(cs_args); // if there's no section selected, don't worry if (m_network.empty()) return std::set {}; // if it's okay to use the default section for this network, don't worry if (m_network == CBaseChainParams::MAIN) return std::set {}; for (const auto& arg : m_network_only_args) { if (OnlyHasDefaultSectionSetting(m_settings, m_network, SettingName(arg))) { unsuitables.insert(arg); } } return unsuitables; } std::list ArgsManager::GetUnrecognizedSections() const { // Section names to be recognized in the config file. static const std::set available_sections{ CBaseChainParams::REGTEST, CBaseChainParams::SIGNET, CBaseChainParams::TESTNET, CBaseChainParams::MAIN }; LOCK(cs_args); std::list unrecognized = m_config_sections; unrecognized.remove_if([](const SectionInfo& appeared){ return available_sections.find(appeared.m_name) != available_sections.end(); }); return unrecognized; } void ArgsManager::SelectConfigNetwork(const std::string& network) { LOCK(cs_args); m_network = network; } bool ArgsManager::ParseParameters(int argc, const char* const argv[], std::string& error) { LOCK(cs_args); m_settings.command_line_options.clear(); for (int i = 1; i < argc; i++) { std::string key(argv[i]); #ifdef MAC_OSX // At the first time when a user gets the "App downloaded from the // internet" warning, and clicks the Open button, macOS passes // a unique process serial number (PSN) as -psn_... command-line // argument, which we filter out. if (key.substr(0, 5) == "-psn_") continue; #endif if (key == "-") break; //bitcoin-tx using stdin std::optional val; size_t is_index = key.find('='); if (is_index != std::string::npos) { val = key.substr(is_index + 1); key.erase(is_index); } #ifdef WIN32 key = ToLower(key); if (key[0] == '/') key[0] = '-'; #endif if (key[0] != '-') { if (!m_accept_any_command && m_command.empty()) { // The first non-dash arg is a registered command std::optional flags = GetArgFlags(key); if (!flags || !(*flags & ArgsManager::COMMAND)) { error = strprintf("Invalid command '%s'", argv[i]); return false; } } m_command.push_back(key); while (++i < argc) { // The remaining args are command args m_command.push_back(argv[i]); } break; } // Transform --foo to -foo if (key.length() > 1 && key[1] == '-') key.erase(0, 1); // Transform -foo to foo key.erase(0, 1); KeyInfo keyinfo = InterpretKey(key); std::optional flags = GetArgFlags('-' + keyinfo.name); // Unknown command line options and command line options with dot // characters (which are returned from InterpretKey with nonempty // section strings) are not valid. if (!flags || !keyinfo.section.empty()) { error = strprintf("Invalid parameter %s", argv[i]); return false; } std::optional value = InterpretValue(keyinfo, val ? &*val : nullptr, *flags, error); if (!value) return false; m_settings.command_line_options[keyinfo.name].push_back(*value); } // we do not allow -includeconf from command line, only -noincludeconf if (auto* includes = util::FindKey(m_settings.command_line_options, "includeconf")) { const util::SettingsSpan values{*includes}; // Range may be empty if -noincludeconf was passed if (!values.empty()) { error = "-includeconf cannot be used from commandline; -includeconf=" + values.begin()->write(); return false; // pick first value as example } } return true; } std::optional ArgsManager::GetArgFlags(const std::string& name) const { LOCK(cs_args); for (const auto& arg_map : m_available_args) { const auto search = arg_map.second.find(name); if (search != arg_map.second.end()) { return search->second.m_flags; } } return std::nullopt; } fs::path ArgsManager::GetPathArg(std::string arg, const fs::path& default_value) const { if (IsArgNegated(arg)) return fs::path{}; std::string path_str = GetArg(arg, ""); if (path_str.empty()) return default_value; fs::path result = fs::PathFromString(path_str).lexically_normal(); // Remove trailing slash, if present. return result.has_filename() ? result : result.parent_path(); } const fs::path& ArgsManager::GetBlocksDirPath() const { LOCK(cs_args); fs::path& path = m_cached_blocks_path; // Cache the path to avoid calling fs::create_directories on every call of // this function if (!path.empty()) return path; if (IsArgSet("-blocksdir")) { path = fs::absolute(GetPathArg("-blocksdir")); if (!fs::is_directory(path)) { path = ""; return path; } } else { path = GetDataDirBase(); } path /= fs::PathFromString(BaseParams().DataDir()); path /= "blocks"; fs::create_directories(path); return path; } const fs::path& ArgsManager::GetDataDir(bool net_specific) const { LOCK(cs_args); fs::path& path = net_specific ? m_cached_network_datadir_path : m_cached_datadir_path; // Cache the path to avoid calling fs::create_directories on every call of // this function if (!path.empty()) return path; const fs::path datadir{GetPathArg("-datadir")}; if (!datadir.empty()) { path = fs::absolute(datadir); if (!fs::is_directory(path)) { path = ""; return path; } } else { path = GetDefaultDataDir(); } if (!fs::exists(path)) { fs::create_directories(path / "wallets"); } if (net_specific && !BaseParams().DataDir().empty()) { path /= fs::PathFromString(BaseParams().DataDir()); if (!fs::exists(path)) { fs::create_directories(path / "wallets"); } } return path; } void ArgsManager::ClearPathCache() { LOCK(cs_args); m_cached_datadir_path = fs::path(); m_cached_network_datadir_path = fs::path(); m_cached_blocks_path = fs::path(); } std::optional ArgsManager::GetCommand() const { Command ret; LOCK(cs_args); auto it = m_command.begin(); if (it == m_command.end()) { // No command was passed return std::nullopt; } if (!m_accept_any_command) { // The registered command ret.command = *(it++); } while (it != m_command.end()) { // The unregistered command and args (if any) ret.args.push_back(*(it++)); } return ret; } std::vector ArgsManager::GetArgs(const std::string& strArg) const { std::vector result; for (const util::SettingsValue& value : GetSettingsList(strArg)) { result.push_back(value.isFalse() ? "0" : value.isTrue() ? "1" : value.get_str()); } return result; } bool ArgsManager::IsArgSet(const std::string& strArg) const { return !GetSetting(strArg).isNull(); } bool ArgsManager::InitSettings(std::string& error) { if (!GetSettingsPath()) { return true; // Do nothing if settings file disabled. } std::vector errors; if (!ReadSettingsFile(&errors)) { error = strprintf("Failed loading settings file:\n%s\n", MakeUnorderedList(errors)); return false; } if (!WriteSettingsFile(&errors)) { error = strprintf("Failed saving settings file:\n%s\n", MakeUnorderedList(errors)); return false; } return true; } bool ArgsManager::GetSettingsPath(fs::path* filepath, bool temp, bool backup) const { fs::path settings = GetPathArg("-settings", BITCOIN_SETTINGS_FILENAME); if (settings.empty()) { return false; } if (backup) { settings += ".bak"; } if (filepath) { *filepath = fsbridge::AbsPathJoin(GetDataDirNet(), temp ? settings + ".tmp" : settings); } return true; } static void SaveErrors(const std::vector errors, std::vector* error_out) { for (const auto& error : errors) { if (error_out) { error_out->emplace_back(error); } else { LogPrintf("%s\n", error); } } } bool ArgsManager::ReadSettingsFile(std::vector* errors) { fs::path path; if (!GetSettingsPath(&path, /* temp= */ false)) { return true; // Do nothing if settings file disabled. } LOCK(cs_args); m_settings.rw_settings.clear(); std::vector read_errors; if (!util::ReadSettings(path, m_settings.rw_settings, read_errors)) { SaveErrors(read_errors, errors); return false; } for (const auto& setting : m_settings.rw_settings) { KeyInfo key = InterpretKey(setting.first); // Split setting key into section and argname if (!GetArgFlags('-' + key.name)) { LogPrintf("Ignoring unknown rw_settings value %s\n", setting.first); } } return true; } bool ArgsManager::WriteSettingsFile(std::vector* errors, bool backup) const { fs::path path, path_tmp; if (!GetSettingsPath(&path, /*temp=*/false, backup) || !GetSettingsPath(&path_tmp, /*temp=*/true, backup)) { throw std::logic_error("Attempt to write settings file when dynamic settings are disabled."); } LOCK(cs_args); std::vector write_errors; if (!util::WriteSettings(path_tmp, m_settings.rw_settings, write_errors)) { SaveErrors(write_errors, errors); return false; } if (!RenameOver(path_tmp, path)) { SaveErrors({strprintf("Failed renaming settings file %s to %s\n", fs::PathToString(path_tmp), fs::PathToString(path))}, errors); return false; } return true; } util::SettingsValue ArgsManager::GetPersistentSetting(const std::string& name) const { LOCK(cs_args); return util::GetSetting(m_settings, m_network, name, !UseDefaultSection("-" + name), /*ignore_nonpersistent=*/true, /*get_chain_name=*/false); } bool ArgsManager::IsArgNegated(const std::string& strArg) const { return GetSetting(strArg).isFalse(); } std::string ArgsManager::GetArg(const std::string& strArg, const std::string& strDefault) const { return GetArg(strArg).value_or(strDefault); } std::optional ArgsManager::GetArg(const std::string& strArg) const { const util::SettingsValue value = GetSetting(strArg); return SettingToString(value); } std::optional SettingToString(const util::SettingsValue& value) { if (value.isNull()) return std::nullopt; if (value.isFalse()) return "0"; if (value.isTrue()) return "1"; if (value.isNum()) return value.getValStr(); return value.get_str(); } std::string SettingToString(const util::SettingsValue& value, const std::string& strDefault) { return SettingToString(value).value_or(strDefault); } int64_t ArgsManager::GetIntArg(const std::string& strArg, int64_t nDefault) const { return GetIntArg(strArg).value_or(nDefault); } std::optional ArgsManager::GetIntArg(const std::string& strArg) const { const util::SettingsValue value = GetSetting(strArg); return SettingToInt(value); } std::optional SettingToInt(const util::SettingsValue& value) { if (value.isNull()) return std::nullopt; if (value.isFalse()) return 0; if (value.isTrue()) return 1; if (value.isNum()) return value.getInt(); return LocaleIndependentAtoi(value.get_str()); } int64_t SettingToInt(const util::SettingsValue& value, int64_t nDefault) { return SettingToInt(value).value_or(nDefault); } bool ArgsManager::GetBoolArg(const std::string& strArg, bool fDefault) const { return GetBoolArg(strArg).value_or(fDefault); } std::optional ArgsManager::GetBoolArg(const std::string& strArg) const { const util::SettingsValue value = GetSetting(strArg); return SettingToBool(value); } std::optional SettingToBool(const util::SettingsValue& value) { if (value.isNull()) return std::nullopt; if (value.isBool()) return value.get_bool(); return InterpretBool(value.get_str()); } bool SettingToBool(const util::SettingsValue& value, bool fDefault) { return SettingToBool(value).value_or(fDefault); } bool ArgsManager::SoftSetArg(const std::string& strArg, const std::string& strValue) { LOCK(cs_args); if (IsArgSet(strArg)) return false; ForceSetArg(strArg, strValue); return true; } bool ArgsManager::SoftSetBoolArg(const std::string& strArg, bool fValue) { if (fValue) return SoftSetArg(strArg, std::string("1")); else return SoftSetArg(strArg, std::string("0")); } void ArgsManager::ForceSetArg(const std::string& strArg, const std::string& strValue) { LOCK(cs_args); m_settings.forced_settings[SettingName(strArg)] = strValue; } void ArgsManager::AddCommand(const std::string& cmd, const std::string& help) { Assert(cmd.find('=') == std::string::npos); Assert(cmd.at(0) != '-'); LOCK(cs_args); m_accept_any_command = false; // latch to false std::map& arg_map = m_available_args[OptionsCategory::COMMANDS]; auto ret = arg_map.emplace(cmd, Arg{"", help, ArgsManager::COMMAND}); Assert(ret.second); // Fail on duplicate commands } void ArgsManager::AddArg(const std::string& name, const std::string& help, unsigned int flags, const OptionsCategory& cat) { Assert((flags & ArgsManager::COMMAND) == 0); // use AddCommand // Split arg name from its help param size_t eq_index = name.find('='); if (eq_index == std::string::npos) { eq_index = name.size(); } std::string arg_name = name.substr(0, eq_index); LOCK(cs_args); std::map& arg_map = m_available_args[cat]; auto ret = arg_map.emplace(arg_name, Arg{name.substr(eq_index, name.size() - eq_index), help, flags}); assert(ret.second); // Make sure an insertion actually happened if (flags & ArgsManager::NETWORK_ONLY) { m_network_only_args.emplace(arg_name); } } void ArgsManager::AddHiddenArgs(const std::vector& names) { for (const std::string& name : names) { AddArg(name, "", ArgsManager::ALLOW_ANY, OptionsCategory::HIDDEN); } } std::string ArgsManager::GetHelpMessage() const { const bool show_debug = GetBoolArg("-help-debug", false); std::string usage; LOCK(cs_args); for (const auto& arg_map : m_available_args) { switch(arg_map.first) { case OptionsCategory::OPTIONS: usage += HelpMessageGroup("Options:"); break; case OptionsCategory::CONNECTION: usage += HelpMessageGroup("Connection options:"); break; case OptionsCategory::ZMQ: usage += HelpMessageGroup("ZeroMQ notification options:"); break; case OptionsCategory::DEBUG_TEST: usage += HelpMessageGroup("Debugging/Testing options:"); break; case OptionsCategory::NODE_RELAY: usage += HelpMessageGroup("Node relay options:"); break; case OptionsCategory::BLOCK_CREATION: usage += HelpMessageGroup("Block creation options:"); break; case OptionsCategory::RPC: usage += HelpMessageGroup("RPC server options:"); break; case OptionsCategory::WALLET: usage += HelpMessageGroup("Wallet options:"); break; case OptionsCategory::WALLET_DEBUG_TEST: if (show_debug) usage += HelpMessageGroup("Wallet debugging/testing options:"); break; case OptionsCategory::CHAINPARAMS: usage += HelpMessageGroup("Chain selection options:"); break; case OptionsCategory::GUI: usage += HelpMessageGroup("UI Options:"); break; case OptionsCategory::COMMANDS: usage += HelpMessageGroup("Commands:"); break; case OptionsCategory::REGISTER_COMMANDS: usage += HelpMessageGroup("Register Commands:"); break; default: break; } // When we get to the hidden options, stop if (arg_map.first == OptionsCategory::HIDDEN) break; for (const auto& arg : arg_map.second) { if (show_debug || !(arg.second.m_flags & ArgsManager::DEBUG_ONLY)) { std::string name; if (arg.second.m_help_param.empty()) { name = arg.first; } else { name = arg.first + arg.second.m_help_param; } usage += HelpMessageOpt(name, arg.second.m_help_text); } } } return usage; } bool HelpRequested(const ArgsManager& args) { return args.IsArgSet("-?") || args.IsArgSet("-h") || args.IsArgSet("-help") || args.IsArgSet("-help-debug"); } void SetupHelpOptions(ArgsManager& args) { args.AddArg("-?", "Print this help message and exit", ArgsManager::ALLOW_ANY, OptionsCategory::OPTIONS); args.AddHiddenArgs({"-h", "-help"}); } static const int screenWidth = 79; static const int optIndent = 2; static const int msgIndent = 7; std::string HelpMessageGroup(const std::string &message) { return std::string(message) + std::string("\n\n"); } std::string HelpMessageOpt(const std::string &option, const std::string &message) { return std::string(optIndent,' ') + std::string(option) + std::string("\n") + std::string(msgIndent,' ') + FormatParagraph(message, screenWidth - msgIndent, msgIndent) + std::string("\n\n"); } static std::string FormatException(const std::exception* pex, std::string_view thread_name) { #ifdef WIN32 char pszModule[MAX_PATH] = ""; GetModuleFileNameA(nullptr, pszModule, sizeof(pszModule)); #else const char* pszModule = "bitcoin"; #endif if (pex) return strprintf( "EXCEPTION: %s \n%s \n%s in %s \n", typeid(*pex).name(), pex->what(), pszModule, thread_name); else return strprintf( "UNKNOWN EXCEPTION \n%s in %s \n", pszModule, thread_name); } void PrintExceptionContinue(const std::exception* pex, std::string_view thread_name) { std::string message = FormatException(pex, thread_name); LogPrintf("\n\n************************\n%s\n", message); tfm::format(std::cerr, "\n\n************************\n%s\n", message); } fs::path GetDefaultDataDir() { // Windows: C:\Users\Username\AppData\Roaming\Bitcoin // macOS: ~/Library/Application Support/Bitcoin // Unix-like: ~/.bitcoin #ifdef WIN32 // Windows return GetSpecialFolderPath(CSIDL_APPDATA) / "Bitcoin"; #else fs::path pathRet; char* pszHome = getenv("HOME"); if (pszHome == nullptr || strlen(pszHome) == 0) pathRet = fs::path("/"); else pathRet = fs::path(pszHome); #ifdef MAC_OSX // macOS return pathRet / "Library/Application Support/Bitcoin"; #else // Unix-like return pathRet / ".bitcoin"; #endif #endif } bool CheckDataDirOption() { const fs::path datadir{gArgs.GetPathArg("-datadir")}; return datadir.empty() || fs::is_directory(fs::absolute(datadir)); } fs::path GetConfigFile(const fs::path& configuration_file_path) { return AbsPathForConfigVal(configuration_file_path, /*net_specific=*/false); } static bool GetConfigOptions(std::istream& stream, const std::string& filepath, std::string& error, std::vector>& options, std::list& sections) { std::string str, prefix; std::string::size_type pos; int linenr = 1; while (std::getline(stream, str)) { bool used_hash = false; if ((pos = str.find('#')) != std::string::npos) { str = str.substr(0, pos); used_hash = true; } const static std::string pattern = " \t\r\n"; str = TrimString(str, pattern); if (!str.empty()) { if (*str.begin() == '[' && *str.rbegin() == ']') { const std::string section = str.substr(1, str.size() - 2); sections.emplace_back(SectionInfo{section, filepath, linenr}); prefix = section + '.'; } else if (*str.begin() == '-') { error = strprintf("parse error on line %i: %s, options in configuration file must be specified without leading -", linenr, str); return false; } else if ((pos = str.find('=')) != std::string::npos) { std::string name = prefix + TrimString(std::string_view{str}.substr(0, pos), pattern); std::string_view value = TrimStringView(std::string_view{str}.substr(pos + 1), pattern); if (used_hash && name.find("rpcpassword") != std::string::npos) { error = strprintf("parse error on line %i, using # in rpcpassword can be ambiguous and should be avoided", linenr); return false; } options.emplace_back(name, value); if ((pos = name.rfind('.')) != std::string::npos && prefix.length() <= pos) { sections.emplace_back(SectionInfo{name.substr(0, pos), filepath, linenr}); } } else { error = strprintf("parse error on line %i: %s", linenr, str); if (str.size() >= 2 && str.substr(0, 2) == "no") { error += strprintf(", if you intended to specify a negated option, use %s=1 instead", str); } return false; } } ++linenr; } return true; } bool IsConfSupported(KeyInfo& key, std::string& error) { if (key.name == "conf") { error = "conf cannot be set in the configuration file; use includeconf= if you want to include additional config files"; return false; } if (key.name == "reindex") { // reindex can be set in a config file but it is strongly discouraged as this will cause the node to reindex on // every restart. Allow the config but throw a warning LogPrintf("Warning: reindex=1 is set in the configuration file, which will significantly slow down startup. Consider removing or commenting out this option for better performance, unless there is currently a condition which makes rebuilding the indexes necessary\n"); return true; } return true; } bool ArgsManager::ReadConfigStream(std::istream& stream, const std::string& filepath, std::string& error, bool ignore_invalid_keys) { LOCK(cs_args); std::vector> options; if (!GetConfigOptions(stream, filepath, error, options, m_config_sections)) { return false; } for (const std::pair& option : options) { KeyInfo key = InterpretKey(option.first); std::optional flags = GetArgFlags('-' + key.name); if (!IsConfSupported(key, error)) return false; if (flags) { std::optional value = InterpretValue(key, &option.second, *flags, error); if (!value) { return false; } m_settings.ro_config[key.section][key.name].push_back(*value); } else { if (ignore_invalid_keys) { LogPrintf("Ignoring unknown configuration value %s\n", option.first); } else { error = strprintf("Invalid configuration value %s", option.first); return false; } } } return true; } bool ArgsManager::ReadConfigFiles(std::string& error, bool ignore_invalid_keys) { { LOCK(cs_args); m_settings.ro_config.clear(); m_config_sections.clear(); } const fs::path conf_path = GetPathArg("-conf", BITCOIN_CONF_FILENAME); std::ifstream stream{GetConfigFile(conf_path)}; // not ok to have a config file specified that cannot be opened if (IsArgSet("-conf") && !stream.good()) { error = strprintf("specified config file \"%s\" could not be opened.", fs::PathToString(conf_path)); return false; } // ok to not have a config file if (stream.good()) { if (!ReadConfigStream(stream, fs::PathToString(conf_path), error, ignore_invalid_keys)) { return false; } // `-includeconf` cannot be included in the command line arguments except // as `-noincludeconf` (which indicates that no included conf file should be used). bool use_conf_file{true}; { LOCK(cs_args); if (auto* includes = util::FindKey(m_settings.command_line_options, "includeconf")) { // ParseParameters() fails if a non-negated -includeconf is passed on the command-line assert(util::SettingsSpan(*includes).last_negated()); use_conf_file = false; } } if (use_conf_file) { std::string chain_id = GetChainName(); std::vector conf_file_names; auto add_includes = [&](const std::string& network, size_t skip = 0) { size_t num_values = 0; LOCK(cs_args); if (auto* section = util::FindKey(m_settings.ro_config, network)) { if (auto* values = util::FindKey(*section, "includeconf")) { for (size_t i = std::max(skip, util::SettingsSpan(*values).negated()); i < values->size(); ++i) { conf_file_names.push_back((*values)[i].get_str()); } num_values = values->size(); } } return num_values; }; // We haven't set m_network yet (that happens in SelectParams()), so manually check // for network.includeconf args. const size_t chain_includes = add_includes(chain_id); const size_t default_includes = add_includes({}); for (const std::string& conf_file_name : conf_file_names) { std::ifstream conf_file_stream{GetConfigFile(fs::PathFromString(conf_file_name))}; if (conf_file_stream.good()) { if (!ReadConfigStream(conf_file_stream, conf_file_name, error, ignore_invalid_keys)) { return false; } LogPrintf("Included configuration file %s\n", conf_file_name); } else { error = "Failed to include configuration file " + conf_file_name; return false; } } // Warn about recursive -includeconf conf_file_names.clear(); add_includes(chain_id, /* skip= */ chain_includes); add_includes({}, /* skip= */ default_includes); std::string chain_id_final = GetChainName(); if (chain_id_final != chain_id) { // Also warn about recursive includeconf for the chain that was specified in one of the includeconfs add_includes(chain_id_final); } for (const std::string& conf_file_name : conf_file_names) { tfm::format(std::cerr, "warning: -includeconf cannot be used from included files; ignoring -includeconf=%s\n", conf_file_name); } } } // If datadir is changed in .conf file: gArgs.ClearPathCache(); if (!CheckDataDirOption()) { error = strprintf("specified data directory \"%s\" does not exist.", GetArg("-datadir", "")); return false; } return true; } std::string ArgsManager::GetChainName() const { auto get_net = [&](const std::string& arg) { LOCK(cs_args); util::SettingsValue value = util::GetSetting(m_settings, /* section= */ "", SettingName(arg), /* ignore_default_section_config= */ false, /*ignore_nonpersistent=*/false, /* get_chain_name= */ true); return value.isNull() ? false : value.isBool() ? value.get_bool() : InterpretBool(value.get_str()); }; const bool fRegTest = get_net("-regtest"); const bool fSigNet = get_net("-signet"); const bool fTestNet = get_net("-testnet"); const bool is_chain_arg_set = IsArgSet("-chain"); if ((int)is_chain_arg_set + (int)fRegTest + (int)fSigNet + (int)fTestNet > 1) { throw std::runtime_error("Invalid combination of -regtest, -signet, -testnet and -chain. Can use at most one."); } if (fRegTest) return CBaseChainParams::REGTEST; if (fSigNet) { return CBaseChainParams::SIGNET; } if (fTestNet) return CBaseChainParams::TESTNET; return GetArg("-chain", CBaseChainParams::MAIN); } bool ArgsManager::UseDefaultSection(const std::string& arg) const { return m_network == CBaseChainParams::MAIN || m_network_only_args.count(arg) == 0; } util::SettingsValue ArgsManager::GetSetting(const std::string& arg) const { LOCK(cs_args); return util::GetSetting( m_settings, m_network, SettingName(arg), !UseDefaultSection(arg), /*ignore_nonpersistent=*/false, /*get_chain_name=*/false); } std::vector ArgsManager::GetSettingsList(const std::string& arg) const { LOCK(cs_args); return util::GetSettingsList(m_settings, m_network, SettingName(arg), !UseDefaultSection(arg)); } void ArgsManager::logArgsPrefix( const std::string& prefix, const std::string& section, const std::map>& args) const { std::string section_str = section.empty() ? "" : "[" + section + "] "; for (const auto& arg : args) { for (const auto& value : arg.second) { std::optional flags = GetArgFlags('-' + arg.first); if (flags) { std::string value_str = (*flags & SENSITIVE) ? "****" : value.write(); LogPrintf("%s %s%s=%s\n", prefix, section_str, arg.first, value_str); } } } } void ArgsManager::LogArgs() const { LOCK(cs_args); for (const auto& section : m_settings.ro_config) { logArgsPrefix("Config file arg:", section.first, section.second); } for (const auto& setting : m_settings.rw_settings) { LogPrintf("Setting file arg: %s = %s\n", setting.first, setting.second.write()); } logArgsPrefix("Command-line arg:", "", m_settings.command_line_options); } bool RenameOver(fs::path src, fs::path dest) { #ifdef __MINGW64__ // This is a workaround for a bug in libstdc++ which // implements std::filesystem::rename with _wrename function. // This bug has been fixed in upstream: // - GCC 10.3: 8dd1c1085587c9f8a21bb5e588dfe1e8cdbba79e // - GCC 11.1: 1dfd95f0a0ca1d9e6cbc00e6cbfd1fa20a98f312 // For more details see the commits mentioned above. return MoveFileExW(src.wstring().c_str(), dest.wstring().c_str(), MOVEFILE_REPLACE_EXISTING) != 0; #else std::error_code error; fs::rename(src, dest, error); return !error; #endif } /** * Ignores exceptions thrown by create_directories if the requested directory exists. * Specifically handles case where path p exists, but it wasn't possible for the user to * write to the parent directory. */ bool TryCreateDirectories(const fs::path& p) { try { return fs::create_directories(p); } catch (const fs::filesystem_error&) { if (!fs::exists(p) || !fs::is_directory(p)) throw; } // create_directories didn't create the directory, it had to have existed already return false; } bool FileCommit(FILE *file) { if (fflush(file) != 0) { // harmless if redundantly called LogPrintf("%s: fflush failed: %d\n", __func__, errno); return false; } #ifdef WIN32 HANDLE hFile = (HANDLE)_get_osfhandle(_fileno(file)); if (FlushFileBuffers(hFile) == 0) { LogPrintf("%s: FlushFileBuffers failed: %d\n", __func__, GetLastError()); return false; } #elif defined(MAC_OSX) && defined(F_FULLFSYNC) if (fcntl(fileno(file), F_FULLFSYNC, 0) == -1) { // Manpage says "value other than -1" is returned on success LogPrintf("%s: fcntl F_FULLFSYNC failed: %d\n", __func__, errno); return false; } #elif HAVE_FDATASYNC if (fdatasync(fileno(file)) != 0 && errno != EINVAL) { // Ignore EINVAL for filesystems that don't support sync LogPrintf("%s: fdatasync failed: %d\n", __func__, errno); return false; } #else if (fsync(fileno(file)) != 0 && errno != EINVAL) { LogPrintf("%s: fsync failed: %d\n", __func__, errno); return false; } #endif return true; } void DirectoryCommit(const fs::path &dirname) { #ifndef WIN32 FILE* file = fsbridge::fopen(dirname, "r"); if (file) { fsync(fileno(file)); fclose(file); } #endif } bool TruncateFile(FILE *file, unsigned int length) { #if defined(WIN32) return _chsize(_fileno(file), length) == 0; #else return ftruncate(fileno(file), length) == 0; #endif } /** * this function tries to raise the file descriptor limit to the requested number. * It returns the actual file descriptor limit (which may be more or less than nMinFD) */ int RaiseFileDescriptorLimit(int nMinFD) { #if defined(WIN32) return 2048; #else struct rlimit limitFD; if (getrlimit(RLIMIT_NOFILE, &limitFD) != -1) { if (limitFD.rlim_cur < (rlim_t)nMinFD) { limitFD.rlim_cur = nMinFD; if (limitFD.rlim_cur > limitFD.rlim_max) limitFD.rlim_cur = limitFD.rlim_max; setrlimit(RLIMIT_NOFILE, &limitFD); getrlimit(RLIMIT_NOFILE, &limitFD); } return limitFD.rlim_cur; } return nMinFD; // getrlimit failed, assume it's fine #endif } /** * this function tries to make a particular range of a file allocated (corresponding to disk space) * it is advisory, and the range specified in the arguments will never contain live data */ void AllocateFileRange(FILE *file, unsigned int offset, unsigned int length) { #if defined(WIN32) // Windows-specific version HANDLE hFile = (HANDLE)_get_osfhandle(_fileno(file)); LARGE_INTEGER nFileSize; int64_t nEndPos = (int64_t)offset + length; nFileSize.u.LowPart = nEndPos & 0xFFFFFFFF; nFileSize.u.HighPart = nEndPos >> 32; SetFilePointerEx(hFile, nFileSize, 0, FILE_BEGIN); SetEndOfFile(hFile); #elif defined(MAC_OSX) // OSX specific version // NOTE: Contrary to other OS versions, the OSX version assumes that // NOTE: offset is the size of the file. fstore_t fst; fst.fst_flags = F_ALLOCATECONTIG; fst.fst_posmode = F_PEOFPOSMODE; fst.fst_offset = 0; fst.fst_length = length; // mac os fst_length takes the # of free bytes to allocate, not desired file size fst.fst_bytesalloc = 0; if (fcntl(fileno(file), F_PREALLOCATE, &fst) == -1) { fst.fst_flags = F_ALLOCATEALL; fcntl(fileno(file), F_PREALLOCATE, &fst); } ftruncate(fileno(file), static_cast(offset) + length); #else #if defined(HAVE_POSIX_FALLOCATE) // Version using posix_fallocate off_t nEndPos = (off_t)offset + length; if (0 == posix_fallocate(fileno(file), 0, nEndPos)) return; #endif // Fallback version // TODO: just write one byte per block static const char buf[65536] = {}; if (fseek(file, offset, SEEK_SET)) { return; } while (length > 0) { unsigned int now = 65536; if (length < now) now = length; fwrite(buf, 1, now, file); // allowed to fail; this function is advisory anyway length -= now; } #endif } #ifdef WIN32 fs::path GetSpecialFolderPath(int nFolder, bool fCreate) { WCHAR pszPath[MAX_PATH] = L""; if(SHGetSpecialFolderPathW(nullptr, pszPath, nFolder, fCreate)) { return fs::path(pszPath); } LogPrintf("SHGetSpecialFolderPathW() failed, could not obtain requested path.\n"); return fs::path(""); } #endif #ifndef WIN32 std::string ShellEscape(const std::string& arg) { std::string escaped = arg; ReplaceAll(escaped, "'", "'\"'\"'"); return "'" + escaped + "'"; } #endif #if HAVE_SYSTEM void runCommand(const std::string& strCommand) { if (strCommand.empty()) return; #ifndef WIN32 int nErr = ::system(strCommand.c_str()); #else int nErr = ::_wsystem(std::wstring_convert,wchar_t>().from_bytes(strCommand).c_str()); #endif if (nErr) LogPrintf("runCommand error: system(%s) returned %d\n", strCommand, nErr); } #endif void SetupEnvironment() { #ifdef HAVE_MALLOPT_ARENA_MAX // glibc-specific: On 32-bit systems set the number of arenas to 1. // By default, since glibc 2.10, the C library will create up to two heap // arenas per core. This is known to cause excessive virtual address space // usage in our usage. Work around it by setting the maximum number of // arenas to 1. if (sizeof(void*) == 4) { mallopt(M_ARENA_MAX, 1); } #endif // On most POSIX systems (e.g. Linux, but not BSD) the environment's locale // may be invalid, in which case the "C.UTF-8" locale is used as fallback. #if !defined(WIN32) && !defined(MAC_OSX) && !defined(__FreeBSD__) && !defined(__OpenBSD__) && !defined(__NetBSD__) try { std::locale(""); // Raises a runtime error if current locale is invalid } catch (const std::runtime_error&) { setenv("LC_ALL", "C.UTF-8", 1); } #elif defined(WIN32) // Set the default input/output charset is utf-8 SetConsoleCP(CP_UTF8); SetConsoleOutputCP(CP_UTF8); #endif #ifndef WIN32 constexpr mode_t private_umask = 0077; umask(private_umask); #endif } bool SetupNetworking() { #ifdef WIN32 // Initialize Windows Sockets WSADATA wsadata; int ret = WSAStartup(MAKEWORD(2,2), &wsadata); if (ret != NO_ERROR || LOBYTE(wsadata.wVersion ) != 2 || HIBYTE(wsadata.wVersion) != 2) return false; #endif return true; } int GetNumCores() { return std::thread::hardware_concurrency(); } // Obtain the application startup time (used for uptime calculation) int64_t GetStartupTime() { return nStartupTime; } fs::path AbsPathForConfigVal(const fs::path& path, bool net_specific) { if (path.is_absolute()) { return path; } return fsbridge::AbsPathJoin(net_specific ? gArgs.GetDataDirNet() : gArgs.GetDataDirBase(), path); } void ScheduleBatchPriority() { #ifdef SCHED_BATCH const static sched_param param{}; const int rc = pthread_setschedparam(pthread_self(), SCHED_BATCH, ¶m); if (rc != 0) { LogPrintf("Failed to pthread_setschedparam: %s\n", SysErrorString(rc)); } #endif } namespace util { #ifdef WIN32 WinCmdLineArgs::WinCmdLineArgs() { wchar_t** wargv = CommandLineToArgvW(GetCommandLineW(), &argc); std::wstring_convert, wchar_t> utf8_cvt; argv = new char*[argc]; args.resize(argc); for (int i = 0; i < argc; i++) { args[i] = utf8_cvt.to_bytes(wargv[i]); argv[i] = &*args[i].begin(); } LocalFree(wargv); } WinCmdLineArgs::~WinCmdLineArgs() { delete[] argv; } std::pair WinCmdLineArgs::get() { return std::make_pair(argc, argv); } #endif } // namespace util