// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "rocksdb/configurable.h" #include "logging/logging.h" #include "options/configurable_helper.h" #include "options/options_helper.h" #include "rocksdb/customizable.h" #include "rocksdb/status.h" #include "rocksdb/utilities/object_registry.h" #include "rocksdb/utilities/options_type.h" #include "util/coding.h" #include "util/string_util.h" namespace ROCKSDB_NAMESPACE { void Configurable::RegisterOptions( const std::string& name, void* opt_ptr, const std::unordered_map* type_map) { RegisteredOptions opts; opts.name = name; opts.type_map = type_map; opts.opt_ptr = opt_ptr; options_.emplace_back(opts); } //************************************************************************* // // Methods for Initializing and Validating Configurable Objects // //************************************************************************* Status Configurable::PrepareOptions(const ConfigOptions& opts) { // We ignore the invoke_prepare_options here intentionally, // as if you are here, you must have called PrepareOptions explicitly. Status status = Status::OK(); for (const auto& opt_iter : options_) { if (opt_iter.type_map != nullptr) { for (const auto& map_iter : *(opt_iter.type_map)) { auto& opt_info = map_iter.second; if (opt_info.ShouldPrepare()) { status = opt_info.Prepare(opts, map_iter.first, opt_iter.opt_ptr); if (!status.ok()) { return status; } } } } } return status; } Status Configurable::ValidateOptions(const DBOptions& db_opts, const ColumnFamilyOptions& cf_opts) const { Status status; for (const auto& opt_iter : options_) { if (opt_iter.type_map != nullptr) { for (const auto& map_iter : *(opt_iter.type_map)) { auto& opt_info = map_iter.second; if (opt_info.ShouldValidate()) { status = opt_info.Validate(db_opts, cf_opts, map_iter.first, opt_iter.opt_ptr); if (!status.ok()) { return status; } } } } } return status; } /*********************************************************************************/ /* */ /* Methods for Retrieving Options from Configurables */ /* */ /*********************************************************************************/ const void* Configurable::GetOptionsPtr(const std::string& name) const { for (const auto& o : options_) { if (o.name == name) { return o.opt_ptr; } } return nullptr; } std::string Configurable::GetOptionName(const std::string& opt_name) const { return opt_name; } const OptionTypeInfo* ConfigurableHelper::FindOption( const std::vector& options, const std::string& short_name, std::string* opt_name, void** opt_ptr) { for (const auto& iter : options) { if (iter.type_map != nullptr) { const auto opt_info = OptionTypeInfo::Find(short_name, *(iter.type_map), opt_name); if (opt_info != nullptr) { *opt_ptr = iter.opt_ptr; return opt_info; } } } return nullptr; } //************************************************************************* // // Methods for Configuring Options from Strings/Name-Value Pairs/Maps // //************************************************************************* Status Configurable::ConfigureFromMap( const ConfigOptions& config_options, const std::unordered_map& opts_map) { Status s = ConfigureFromMap(config_options, opts_map, nullptr); return s; } Status Configurable::ConfigureFromMap( const ConfigOptions& config_options, const std::unordered_map& opts_map, std::unordered_map* unused) { return ConfigureOptions(config_options, opts_map, unused); } Status Configurable::ConfigureOptions( const ConfigOptions& config_options, const std::unordered_map& opts_map, std::unordered_map* unused) { std::string curr_opts; Status s; if (!opts_map.empty()) { // There are options in the map. // Save the current configuration in curr_opts and then configure the // options, but do not prepare them now. We will do all the prepare when // the configuration is complete. ConfigOptions copy = config_options; copy.invoke_prepare_options = false; if (!config_options.ignore_unknown_options) { // If we are not ignoring unused, get the defaults in case we need to // reset copy.depth = ConfigOptions::kDepthDetailed; copy.delimiter = "; "; GetOptionString(copy, &curr_opts).PermitUncheckedError(); } s = ConfigurableHelper::ConfigureOptions(copy, *this, opts_map, unused); } if (config_options.invoke_prepare_options && s.ok()) { s = PrepareOptions(config_options); } if (!s.ok() && !curr_opts.empty()) { ConfigOptions reset = config_options; reset.ignore_unknown_options = true; reset.invoke_prepare_options = true; reset.ignore_unsupported_options = true; // There are some options to reset from this current error ConfigureFromString(reset, curr_opts).PermitUncheckedError(); } return s; } Status Configurable::ParseStringOptions(const ConfigOptions& /*config_options*/, const std::string& /*opts_str*/) { return Status::OK(); } Status Configurable::ConfigureFromString(const ConfigOptions& config_options, const std::string& opts_str) { Status s; if (!opts_str.empty()) { if (opts_str.find(';') != std::string::npos || opts_str.find('=') != std::string::npos) { std::unordered_map opt_map; s = StringToMap(opts_str, &opt_map); if (s.ok()) { s = ConfigureFromMap(config_options, opt_map, nullptr); } } else { s = ParseStringOptions(config_options, opts_str); if (s.ok() && config_options.invoke_prepare_options) { s = PrepareOptions(config_options); } } } else if (config_options.invoke_prepare_options) { s = PrepareOptions(config_options); } else { s = Status::OK(); } return s; } /** * Sets the value of the named property to the input value, returning OK on * succcess. */ Status Configurable::ConfigureOption(const ConfigOptions& config_options, const std::string& name, const std::string& value) { return ConfigurableHelper::ConfigureSingleOption(config_options, *this, name, value); } /** * Looks for the named option amongst the options for this type and sets * the value for it to be the input value. * If the name was found, found_option will be set to true and the resulting * status should be returned. */ Status Configurable::ParseOption(const ConfigOptions& config_options, const OptionTypeInfo& opt_info, const std::string& opt_name, const std::string& opt_value, void* opt_ptr) { if (opt_info.IsMutable()) { if (config_options.mutable_options_only) { // This option is mutable. Treat all of its children as mutable as well ConfigOptions copy = config_options; copy.mutable_options_only = false; return opt_info.Parse(copy, opt_name, opt_value, opt_ptr); } else { return opt_info.Parse(config_options, opt_name, opt_value, opt_ptr); } } else if (config_options.mutable_options_only) { return Status::InvalidArgument("Option not changeable: " + opt_name); } else { return opt_info.Parse(config_options, opt_name, opt_value, opt_ptr); } } Status ConfigurableHelper::ConfigureOptions( const ConfigOptions& config_options, Configurable& configurable, const std::unordered_map& opts_map, std::unordered_map* unused) { std::unordered_map remaining = opts_map; Status s = Status::OK(); if (!opts_map.empty()) { for (const auto& iter : configurable.options_) { if (iter.type_map != nullptr) { s = ConfigureSomeOptions(config_options, configurable, *(iter.type_map), &remaining, iter.opt_ptr); if (remaining.empty()) { // Are there more options left? break; } else if (!s.ok()) { break; } } } } if (unused != nullptr && !remaining.empty()) { unused->insert(remaining.begin(), remaining.end()); } if (config_options.ignore_unknown_options) { s = Status::OK(); } else if (s.ok() && unused == nullptr && !remaining.empty()) { s = Status::NotFound("Could not find option: ", remaining.begin()->first); } return s; } /** * Updates the object with the named-value property values, returning OK on * succcess. Any properties that were found are removed from the options list; * upon return only options that were not found in this opt_map remain. * Returns: * - OK if ignore_unknown_options is set * - InvalidArgument, if any option was invalid * - NotSupported, if any option is unsupported and ignore_unsupported_options is OFF * - OK, if no option was invalid or not supported (or ignored) */ Status ConfigurableHelper::ConfigureSomeOptions( const ConfigOptions& config_options, Configurable& configurable, const std::unordered_map& type_map, std::unordered_map* options, void* opt_ptr) { Status result = Status::OK(); // The last non-OK result (if any) Status notsup = Status::OK(); // The last NotSupported result (if any) std::string elem_name; int found = 1; std::unordered_set unsupported; // While there are unused properties and we processed at least one, // go through the remaining unused properties and attempt to configure them. while (found > 0 && !options->empty()) { found = 0; notsup = Status::OK(); for (auto it = options->begin(); it != options->end();) { const std::string& opt_name = configurable.GetOptionName(it->first); const std::string& opt_value = it->second; const auto opt_info = OptionTypeInfo::Find(opt_name, type_map, &elem_name); if (opt_info == nullptr) { // Did not find the option. Skip it ++it; } else { Status s = ConfigureOption(config_options, configurable, *opt_info, opt_name, elem_name, opt_value, opt_ptr); if (s.IsNotFound()) { ++it; } else if (s.IsNotSupported()) { notsup = s; unsupported.insert(it->first); ++it; // Skip it for now } else { found++; it = options->erase(it); if (!s.ok()) { result = s; } } } } // End for all remaining options } // End while found one or options remain // Now that we have been through the list, remove any unsupported for (const auto& u : unsupported) { auto it = options->find(u); if (it != options->end()) { options->erase(it); } } if (config_options.ignore_unknown_options) { if (!result.ok()) { result.PermitUncheckedError(); } if (!notsup.ok()) { notsup.PermitUncheckedError(); } return Status::OK(); } else if (!result.ok()) { if (!notsup.ok()) { notsup.PermitUncheckedError(); } return result; } else if (config_options.ignore_unsupported_options) { if (!notsup.ok()) { notsup.PermitUncheckedError(); } return Status::OK(); } else { return notsup; } } Status ConfigurableHelper::ConfigureSingleOption( const ConfigOptions& config_options, Configurable& configurable, const std::string& name, const std::string& value) { const std::string& opt_name = configurable.GetOptionName(name); std::string elem_name; void* opt_ptr = nullptr; const auto opt_info = FindOption(configurable.options_, opt_name, &elem_name, &opt_ptr); if (opt_info == nullptr) { return Status::NotFound("Could not find option: ", name); } else { return ConfigureOption(config_options, configurable, *opt_info, opt_name, elem_name, value, opt_ptr); } } Status ConfigurableHelper::ConfigureCustomizableOption( const ConfigOptions& config_options, Configurable& configurable, const OptionTypeInfo& opt_info, const std::string& opt_name, const std::string& name, const std::string& value, void* opt_ptr) { Customizable* custom = opt_info.AsRawPointer(opt_ptr); ConfigOptions copy = config_options; if (opt_info.IsMutable()) { // This option is mutable. Pass that property on to any subsequent calls copy.mutable_options_only = false; } if (opt_info.IsMutable() || !config_options.mutable_options_only) { // Either the option is mutable, or we are processing all of the options if (opt_name == name || name == OptionTypeInfo::kIdPropName() || EndsWith(opt_name, OptionTypeInfo::kIdPropSuffix())) { return configurable.ParseOption(copy, opt_info, name, value, opt_ptr); } else if (value.empty()) { return Status::OK(); } else if (custom == nullptr || !StartsWith(name, custom->GetId() + ".")) { return configurable.ParseOption(copy, opt_info, name, value, opt_ptr); } else if (value.find('=') != std::string::npos) { return custom->ConfigureFromString(copy, value); } else { return custom->ConfigureOption(copy, name, value); } } else { // We are processing immutable options, which means that we cannot change // the Customizable object itself, but could change its mutable properties. // Check to make sure that nothing is trying to change the Customizable if (custom == nullptr) { // We do not have a Customizable to configure. This is OK if the // value is empty (nothing being configured) but an error otherwise if (value.empty()) { return Status::OK(); } else { return Status::InvalidArgument("Option not changeable: " + opt_name); } } else if (EndsWith(opt_name, OptionTypeInfo::kIdPropSuffix()) || name == OptionTypeInfo::kIdPropName()) { // We have a property of the form "id=value" or "table.id=value" // This is OK if we ID/value matches the current customizable object if (custom->GetId() == value) { return Status::OK(); } else { return Status::InvalidArgument("Option not changeable: " + opt_name); } } else if (opt_name == name) { // The properties are of one of forms: // name = { id = id; prop1 = value1; ... } // name = { prop1=value1; prop2=value2; ... } // name = ID // Convert the value to a map and extract the ID // If the ID does not match that of the current customizable, return an // error. Otherwise, update the current customizable via the properties // map std::unordered_map props; std::string id; Status s = Configurable::GetOptionsMap(value, custom->GetId(), &id, &props); if (!s.ok()) { return s; } else if (custom->GetId() != id) { return Status::InvalidArgument("Option not changeable: " + opt_name); } else if (props.empty()) { return Status::OK(); } else { return custom->ConfigureFromMap(copy, props); } } else { // Attempting to configure one of the properties of the customizable // Let it through return custom->ConfigureOption(copy, name, value); } } } Status ConfigurableHelper::ConfigureOption( const ConfigOptions& config_options, Configurable& configurable, const OptionTypeInfo& opt_info, const std::string& opt_name, const std::string& name, const std::string& value, void* opt_ptr) { if (opt_info.IsCustomizable()) { return ConfigureCustomizableOption(config_options, configurable, opt_info, opt_name, name, value, opt_ptr); } else if (opt_name == name) { return configurable.ParseOption(config_options, opt_info, opt_name, value, opt_ptr); } else if (opt_info.IsStruct() || opt_info.IsConfigurable()) { return configurable.ParseOption(config_options, opt_info, name, value, opt_ptr); } else { return Status::NotFound("Could not find option: ", name); } } //******************************************************************************* // // Methods for Converting Options into strings // //******************************************************************************* Status Configurable::GetOptionString(const ConfigOptions& config_options, std::string* result) const { assert(result); result->clear(); return ConfigurableHelper::SerializeOptions(config_options, *this, "", result); } std::string Configurable::ToString(const ConfigOptions& config_options, const std::string& prefix) const { std::string result = SerializeOptions(config_options, prefix); if (result.empty() || result.find('=') == std::string::npos) { return result; } else { return "{" + result + "}"; } } std::string Configurable::SerializeOptions(const ConfigOptions& config_options, const std::string& header) const { std::string result; Status s = ConfigurableHelper::SerializeOptions(config_options, *this, header, &result); assert(s.ok()); return result; } Status Configurable::GetOption(const ConfigOptions& config_options, const std::string& name, std::string* value) const { return ConfigurableHelper::GetOption(config_options, *this, GetOptionName(name), value); } Status ConfigurableHelper::GetOption(const ConfigOptions& config_options, const Configurable& configurable, const std::string& short_name, std::string* value) { // Look for option directly assert(value); value->clear(); std::string opt_name; void* opt_ptr = nullptr; const auto opt_info = FindOption(configurable.options_, short_name, &opt_name, &opt_ptr); if (opt_info != nullptr) { ConfigOptions embedded = config_options; embedded.delimiter = ";"; if (short_name == opt_name) { return opt_info->Serialize(embedded, opt_name, opt_ptr, value); } else if (opt_info->IsStruct()) { return opt_info->Serialize(embedded, opt_name, opt_ptr, value); } else if (opt_info->IsConfigurable()) { auto const* config = opt_info->AsRawPointer(opt_ptr); if (config != nullptr) { return config->GetOption(embedded, opt_name, value); } } } return Status::NotFound("Cannot find option: ", short_name); } Status ConfigurableHelper::SerializeOptions(const ConfigOptions& config_options, const Configurable& configurable, const std::string& prefix, std::string* result) { assert(result); for (auto const& opt_iter : configurable.options_) { if (opt_iter.type_map != nullptr) { for (const auto& map_iter : *(opt_iter.type_map)) { const auto& opt_name = map_iter.first; const auto& opt_info = map_iter.second; if (opt_info.ShouldSerialize()) { std::string value; Status s; if (!config_options.mutable_options_only) { s = opt_info.Serialize(config_options, prefix + opt_name, opt_iter.opt_ptr, &value); } else if (opt_info.IsMutable()) { ConfigOptions copy = config_options; copy.mutable_options_only = false; s = opt_info.Serialize(copy, prefix + opt_name, opt_iter.opt_ptr, &value); } else if (opt_info.IsConfigurable()) { // If it is a Configurable and we are either printing all of the // details or not printing only the name, this option should be // included in the list if (config_options.IsDetailed() || !opt_info.IsEnabled(OptionTypeFlags::kStringNameOnly)) { s = opt_info.Serialize(config_options, prefix + opt_name, opt_iter.opt_ptr, &value); } } if (!s.ok()) { return s; } else if (!value.empty()) { // = result->append(prefix + opt_name + "=" + value + config_options.delimiter); } } } } } return Status::OK(); } //******************************************************************************** // // Methods for listing the options from Configurables // //******************************************************************************** Status Configurable::GetOptionNames( const ConfigOptions& config_options, std::unordered_set* result) const { assert(result); return ConfigurableHelper::ListOptions(config_options, *this, "", result); } Status ConfigurableHelper::ListOptions( const ConfigOptions& config_options, const Configurable& configurable, const std::string& prefix, std::unordered_set* result) { Status status; for (auto const& opt_iter : configurable.options_) { if (opt_iter.type_map != nullptr) { for (const auto& map_iter : *(opt_iter.type_map)) { const auto& opt_name = map_iter.first; const auto& opt_info = map_iter.second; // If the option is no longer used in rocksdb and marked as deprecated, // we skip it in the serialization. if (!opt_info.IsDeprecated() && !opt_info.IsAlias()) { if (!config_options.mutable_options_only) { result->emplace(prefix + opt_name); } else if (opt_info.IsMutable()) { result->emplace(prefix + opt_name); } } } } } return status; } //******************************************************************************* // // Methods for Comparing Configurables // //******************************************************************************* bool Configurable::AreEquivalent(const ConfigOptions& config_options, const Configurable* other, std::string* name) const { assert(name); name->clear(); if (this == other || config_options.IsCheckDisabled()) { return true; } else if (other != nullptr) { return ConfigurableHelper::AreEquivalent(config_options, *this, *other, name); } else { return false; } } bool Configurable::OptionsAreEqual(const ConfigOptions& config_options, const OptionTypeInfo& opt_info, const std::string& opt_name, const void* const this_ptr, const void* const that_ptr, std::string* mismatch) const { if (opt_info.AreEqual(config_options, opt_name, this_ptr, that_ptr, mismatch)) { return true; } else if (opt_info.AreEqualByName(config_options, opt_name, this_ptr, that_ptr)) { *mismatch = ""; return true; } else { return false; } } bool ConfigurableHelper::AreEquivalent(const ConfigOptions& config_options, const Configurable& this_one, const Configurable& that_one, std::string* mismatch) { assert(mismatch != nullptr); for (auto const& o : this_one.options_) { const auto this_offset = this_one.GetOptionsPtr(o.name); const auto that_offset = that_one.GetOptionsPtr(o.name); if (this_offset != that_offset) { if (this_offset == nullptr || that_offset == nullptr) { return false; } else if (o.type_map != nullptr) { for (const auto& map_iter : *(o.type_map)) { const auto& opt_info = map_iter.second; if (config_options.IsCheckEnabled(opt_info.GetSanityLevel())) { if (!config_options.mutable_options_only) { if (!this_one.OptionsAreEqual(config_options, opt_info, map_iter.first, this_offset, that_offset, mismatch)) { return false; } } else if (opt_info.IsMutable()) { ConfigOptions copy = config_options; copy.mutable_options_only = false; if (!this_one.OptionsAreEqual(copy, opt_info, map_iter.first, this_offset, that_offset, mismatch)) { return false; } } } } } } } return true; } Status Configurable::GetOptionsMap( const std::string& value, const std::string& default_id, std::string* id, std::unordered_map* props) { assert(id); assert(props); Status status; if (value.empty() || value == kNullptrString) { *id = default_id; } else if (value.find('=') == std::string::npos) { *id = value; } else { status = StringToMap(value, props); if (!status.ok()) { // There was an error creating the map. *id = value; // Treat the value as id props->clear(); // Clear the properties status = Status::OK(); // and ignore the error } else { auto iter = props->find(OptionTypeInfo::kIdPropName()); if (iter != props->end()) { *id = iter->second; props->erase(iter); if (*id == kNullptrString) { id->clear(); } } else if (!default_id.empty()) { *id = default_id; } else { // No id property and no default *id = value; // Treat the value as id props->clear(); // Clear the properties } } } return status; } } // namespace ROCKSDB_NAMESPACE