#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace fs = std::filesystem; namespace ProfileEvents { extern const Event ContextLock; extern const Event CompiledCacheSizeBytes; } namespace CurrentMetrics { extern const Metric ContextLockWait; extern const Metric BackgroundMovePoolTask; extern const Metric BackgroundSchedulePoolTask; extern const Metric BackgroundBufferFlushSchedulePoolTask; extern const Metric BackgroundDistributedSchedulePoolTask; extern const Metric BackgroundMessageBrokerSchedulePoolTask; extern const Metric DelayedInserts; extern const Metric BackgroundMergesAndMutationsPoolTask; extern const Metric BackgroundMovePoolTask; extern const Metric BackgroundFetchesPoolTask; extern const Metric BackgroundCommonPoolTask; } namespace DB { namespace ErrorCodes { extern const int BAD_ARGUMENTS; extern const int BAD_GET; extern const int UNKNOWN_DATABASE; extern const int UNKNOWN_TABLE; extern const int TABLE_ALREADY_EXISTS; extern const int THERE_IS_NO_SESSION; extern const int THERE_IS_NO_QUERY; extern const int NO_ELEMENTS_IN_CONFIG; extern const int TABLE_SIZE_EXCEEDS_MAX_DROP_SIZE_LIMIT; extern const int LOGICAL_ERROR; extern const int NOT_IMPLEMENTED; extern const int INVALID_SETTING_VALUE; extern const int UNKNOWN_READ_METHOD; } /** Set of known objects (environment), that could be used in query. * Shared (global) part. Order of members (especially, order of destruction) is very important. */ struct ContextSharedPart { Poco::Logger * log = &Poco::Logger::get("Context"); /// For access of most of shared objects. Recursive mutex. mutable std::recursive_mutex mutex; /// Separate mutex for access of dictionaries. Separate mutex to avoid locks when server doing request to itself. mutable std::mutex embedded_dictionaries_mutex; mutable std::mutex external_dictionaries_mutex; mutable std::mutex external_user_defined_executable_functions_mutex; mutable std::mutex external_models_mutex; /// Separate mutex for storage policies. During server startup we may /// initialize some important storages (system logs with MergeTree engine) /// under context lock. mutable std::mutex storage_policies_mutex; /// Separate mutex for re-initialization of zookeeper session. This operation could take a long time and must not interfere with another operations. mutable std::mutex zookeeper_mutex; mutable zkutil::ZooKeeperPtr zookeeper; /// Client for ZooKeeper. ConfigurationPtr zookeeper_config; /// Stores zookeeper configs #if USE_NURAFT mutable std::mutex keeper_storage_dispatcher_mutex; mutable std::shared_ptr keeper_storage_dispatcher; #endif mutable std::mutex auxiliary_zookeepers_mutex; mutable std::map auxiliary_zookeepers; /// Map for auxiliary ZooKeeper clients. ConfigurationPtr auxiliary_zookeepers_config; /// Stores auxiliary zookeepers configs String interserver_io_host; /// The host name by which this server is available for other servers. UInt16 interserver_io_port = 0; /// and port. String interserver_scheme; /// http or https MultiVersion interserver_io_credentials; String path; /// Path to the data directory, with a slash at the end. String flags_path; /// Path to the directory with some control flags for server maintenance. String user_files_path; /// Path to the directory with user provided files, usable by 'file' table function. String dictionaries_lib_path; /// Path to the directory with user provided binaries and libraries for external dictionaries. String user_scripts_path; /// Path to the directory with user provided scripts. ConfigurationPtr config; /// Global configuration settings. String tmp_path; /// Path to the temporary files that occur when processing the request. mutable VolumePtr tmp_volume; /// Volume for the the temporary files that occur when processing the request. mutable VolumePtr backups_volume; /// Volume for all the backups. mutable std::optional embedded_dictionaries; /// Metrica's dictionaries. Have lazy initialization. mutable std::optional external_dictionaries_loader; mutable std::optional external_user_defined_executable_functions_loader; mutable std::optional external_models_loader; ExternalLoaderXMLConfigRepository * external_models_config_repository = nullptr; scope_guard models_repository_guard; ExternalLoaderXMLConfigRepository * external_dictionaries_config_repository = nullptr; scope_guard dictionaries_xmls; ExternalLoaderXMLConfigRepository * user_defined_executable_functions_config_repository = nullptr; scope_guard user_defined_executable_functions_xmls; #if USE_NLP mutable std::optional synonyms_extensions; mutable std::optional lemmatizers; #endif String default_profile_name; /// Default profile name used for default values. String system_profile_name; /// Profile used by system processes String buffer_profile_name; /// Profile used by Buffer engine for flushing to the underlying std::unique_ptr access_control_manager; mutable UncompressedCachePtr uncompressed_cache; /// The cache of decompressed blocks. mutable MarkCachePtr mark_cache; /// Cache of marks in compressed files. mutable MMappedFileCachePtr mmap_cache; /// Cache of mmapped files to avoid frequent open/map/unmap/close and to reuse from several threads. ProcessList process_list; /// Executing queries at the moment. MergeList merge_list; /// The list of executable merge (for (Replicated)?MergeTree) ReplicatedFetchList replicated_fetch_list; ConfigurationPtr users_config; /// Config with the users, profiles and quotas sections. InterserverIOHandler interserver_io_handler; /// Handler for interserver communication. mutable std::optional buffer_flush_schedule_pool; /// A thread pool that can do background flush for Buffer tables. mutable std::optional schedule_pool; /// A thread pool that can run different jobs in background (used in replicated tables) mutable std::optional distributed_schedule_pool; /// A thread pool that can run different jobs in background (used for distributed sends) mutable std::optional message_broker_schedule_pool; /// A thread pool that can run different jobs in background (used for message brokers, like RabbitMQ and Kafka) mutable ThrottlerPtr replicated_fetches_throttler; /// A server-wide throttler for replicated fetches mutable ThrottlerPtr replicated_sends_throttler; /// A server-wide throttler for replicated sends MultiVersion macros; /// Substitutions extracted from config. std::unique_ptr ddl_worker; /// Process ddl commands from zk. /// Rules for selecting the compression settings, depending on the size of the part. mutable std::unique_ptr compression_codec_selector; /// Storage disk chooser for MergeTree engines mutable std::shared_ptr merge_tree_disk_selector; /// Storage policy chooser for MergeTree engines mutable std::shared_ptr merge_tree_storage_policy_selector; std::optional merge_tree_settings; /// Settings of MergeTree* engines. std::optional replicated_merge_tree_settings; /// Settings of ReplicatedMergeTree* engines. std::atomic_size_t max_table_size_to_drop = 50000000000lu; /// Protects MergeTree tables from accidental DROP (50GB by default) std::atomic_size_t max_partition_size_to_drop = 50000000000lu; /// Protects MergeTree partitions from accidental DROP (50GB by default) String format_schema_path; /// Path to a directory that contains schema files used by input formats. ActionLocksManagerPtr action_locks_manager; /// Set of storages' action lockers std::unique_ptr system_logs; /// Used to log queries and operations on parts std::optional storage_s3_settings; /// Settings of S3 storage std::vector warnings; /// Store warning messages about server configuration. /// Background executors for *MergeTree tables MergeMutateBackgroundExecutorPtr merge_mutate_executor; OrdinaryBackgroundExecutorPtr moves_executor; OrdinaryBackgroundExecutorPtr fetch_executor; OrdinaryBackgroundExecutorPtr common_executor; RemoteHostFilter remote_host_filter; /// Allowed URL from config.xml std::optional trace_collector; /// Thread collecting traces from threads executing queries /// Clusters for distributed tables /// Initialized on demand (on distributed storages initialization) since Settings should be initialized std::shared_ptr clusters; ConfigurationPtr clusters_config; /// Stores updated configs mutable std::mutex clusters_mutex; /// Guards clusters and clusters_config std::shared_ptr async_insert_queue; std::map server_ports; bool shutdown_called = false; Stopwatch uptime_watch; Context::ApplicationType application_type = Context::ApplicationType::SERVER; /// vector of xdbc-bridge commands, they will be killed when Context will be destroyed std::vector> bridge_commands; Context::ConfigReloadCallback config_reload_callback; ContextSharedPart() : access_control_manager(std::make_unique()), macros(std::make_unique()) { /// TODO: make it singleton (?) static std::atomic num_calls{0}; if (++num_calls > 1) { std::cerr << "Attempting to create multiple ContextShared instances. Stack trace:\n" << StackTrace().toString(); std::cerr.flush(); std::terminate(); } } ~ContextSharedPart() { try { shutdown(); } catch (...) { tryLogCurrentException(__PRETTY_FUNCTION__); } } /** Perform a complex job of destroying objects in advance. */ void shutdown() { if (shutdown_called) return; shutdown_called = true; Session::shutdownNamedSessions(); /** After system_logs have been shut down it is guaranteed that no system table gets created or written to. * Note that part changes at shutdown won't be logged to part log. */ if (system_logs) system_logs->shutdown(); DatabaseCatalog::shutdown(); if (merge_mutate_executor) merge_mutate_executor->wait(); if (fetch_executor) fetch_executor->wait(); if (moves_executor) moves_executor->wait(); if (common_executor) common_executor->wait(); std::unique_ptr delete_system_logs; { auto lock = std::lock_guard(mutex); /** Compiled expressions stored in cache need to be destroyed before destruction of static objects. * Because CHJIT instance can be static object. */ #if USE_EMBEDDED_COMPILER if (auto * cache = CompiledExpressionCacheFactory::instance().tryGetCache()) cache->reset(); #endif /// Preemptive destruction is important, because these objects may have a refcount to ContextShared (cyclic reference). /// TODO: Get rid of this. /// Dictionaries may be required: /// - for storage shutdown (during final flush of the Buffer engine) /// - before storage startup (because of some streaming of, i.e. Kafka, to /// the table with materialized column that has dictGet) /// /// So they should be created before any storages and preserved until storages will be terminated. /// /// But they cannot be created before storages since they may required table as a source, /// but at least they can be preserved for storage termination. dictionaries_xmls.reset(); user_defined_executable_functions_xmls.reset(); delete_system_logs = std::move(system_logs); embedded_dictionaries.reset(); external_dictionaries_loader.reset(); external_user_defined_executable_functions_loader.reset(); models_repository_guard.reset(); external_models_loader.reset(); buffer_flush_schedule_pool.reset(); schedule_pool.reset(); distributed_schedule_pool.reset(); message_broker_schedule_pool.reset(); ddl_worker.reset(); access_control_manager.reset(); /// Stop trace collector if any trace_collector.reset(); /// Stop zookeeper connection zookeeper.reset(); } /// Can be removed w/o context lock delete_system_logs.reset(); } bool hasTraceCollector() const { return trace_collector.has_value(); } void initializeTraceCollector(std::shared_ptr trace_log) { if (!trace_log) return; if (hasTraceCollector()) return; trace_collector.emplace(std::move(trace_log)); } void addWarningMessage(const String & message) { /// A warning goes both: into server's log; stored to be placed in `system.warnings` table. log->warning(message); warnings.push_back(message); } }; Context::Context() = default; Context::Context(const Context &) = default; Context & Context::operator=(const Context &) = default; SharedContextHolder::SharedContextHolder(SharedContextHolder &&) noexcept = default; SharedContextHolder & SharedContextHolder::operator=(SharedContextHolder &&) = default; SharedContextHolder::SharedContextHolder() = default; SharedContextHolder::~SharedContextHolder() = default; SharedContextHolder::SharedContextHolder(std::unique_ptr shared_context) : shared(std::move(shared_context)) {} void SharedContextHolder::reset() { shared.reset(); } ContextMutablePtr Context::createGlobal(ContextSharedPart * shared) { auto res = std::shared_ptr(new Context); res->shared = shared; return res; } void Context::initGlobal() { DatabaseCatalog::init(shared_from_this()); } SharedContextHolder Context::createShared() { return SharedContextHolder(std::make_unique()); } ContextMutablePtr Context::createCopy(const ContextPtr & other) { return std::shared_ptr(new Context(*other)); } ContextMutablePtr Context::createCopy(const ContextWeakPtr & other) { auto ptr = other.lock(); if (!ptr) throw Exception("Can't copy an expired context", ErrorCodes::LOGICAL_ERROR); return createCopy(ptr); } ContextMutablePtr Context::createCopy(const ContextMutablePtr & other) { return createCopy(std::const_pointer_cast(other)); } Context::~Context() = default; InterserverIOHandler & Context::getInterserverIOHandler() { return shared->interserver_io_handler; } std::unique_lock Context::getLock() const { ProfileEvents::increment(ProfileEvents::ContextLock); CurrentMetrics::Increment increment{CurrentMetrics::ContextLockWait}; return std::unique_lock(shared->mutex); } ProcessList & Context::getProcessList() { return shared->process_list; } const ProcessList & Context::getProcessList() const { return shared->process_list; } MergeList & Context::getMergeList() { return shared->merge_list; } const MergeList & Context::getMergeList() const { return shared->merge_list; } ReplicatedFetchList & Context::getReplicatedFetchList() { return shared->replicated_fetch_list; } const ReplicatedFetchList & Context::getReplicatedFetchList() const { return shared->replicated_fetch_list; } String Context::resolveDatabase(const String & database_name) const { String res = database_name.empty() ? getCurrentDatabase() : database_name; if (res.empty()) throw Exception("Default database is not selected", ErrorCodes::UNKNOWN_DATABASE); return res; } String Context::getPath() const { auto lock = getLock(); return shared->path; } String Context::getFlagsPath() const { auto lock = getLock(); return shared->flags_path; } String Context::getUserFilesPath() const { auto lock = getLock(); return shared->user_files_path; } String Context::getDictionariesLibPath() const { auto lock = getLock(); return shared->dictionaries_lib_path; } String Context::getUserScriptsPath() const { auto lock = getLock(); return shared->user_scripts_path; } std::vector Context::getWarnings() const { auto lock = getLock(); return shared->warnings; } VolumePtr Context::getTemporaryVolume() const { auto lock = getLock(); return shared->tmp_volume; } void Context::setPath(const String & path) { auto lock = getLock(); shared->path = path; if (shared->tmp_path.empty() && !shared->tmp_volume) shared->tmp_path = shared->path + "tmp/"; if (shared->flags_path.empty()) shared->flags_path = shared->path + "flags/"; if (shared->user_files_path.empty()) shared->user_files_path = shared->path + "user_files/"; if (shared->dictionaries_lib_path.empty()) shared->dictionaries_lib_path = shared->path + "dictionaries_lib/"; if (shared->user_scripts_path.empty()) shared->user_scripts_path = shared->path + "user_scripts/"; } VolumePtr Context::setTemporaryStorage(const String & path, const String & policy_name) { std::lock_guard lock(shared->storage_policies_mutex); if (policy_name.empty()) { shared->tmp_path = path; if (!shared->tmp_path.ends_with('/')) shared->tmp_path += '/'; auto disk = std::make_shared("_tmp_default", shared->tmp_path, 0); shared->tmp_volume = std::make_shared("_tmp_default", disk, 0); } else { StoragePolicyPtr tmp_policy = getStoragePolicySelector(lock)->get(policy_name); if (tmp_policy->getVolumes().size() != 1) throw Exception("Policy " + policy_name + " is used temporary files, such policy should have exactly one volume", ErrorCodes::NO_ELEMENTS_IN_CONFIG); shared->tmp_volume = tmp_policy->getVolume(0); } if (shared->tmp_volume->getDisks().empty()) throw Exception("No disks volume for temporary files", ErrorCodes::NO_ELEMENTS_IN_CONFIG); return shared->tmp_volume; } void Context::setBackupsVolume(const String & path, const String & policy_name) { std::lock_guard lock(shared->storage_policies_mutex); if (policy_name.empty()) { String path_with_separator = path; if (!path_with_separator.ends_with('/')) path_with_separator += '/'; auto disk = std::make_shared("_backups_default", path_with_separator, 0); shared->backups_volume = std::make_shared("_backups_default", disk, 0); } else { StoragePolicyPtr policy = getStoragePolicySelector(lock)->get(policy_name); if (policy->getVolumes().size() != 1) throw Exception("Policy " + policy_name + " is used for backups, such policy should have exactly one volume", ErrorCodes::NO_ELEMENTS_IN_CONFIG); shared->backups_volume = policy->getVolume(0); } BackupFactory::instance().setBackupsVolume(shared->backups_volume); } VolumePtr Context::getBackupsVolume() const { std::lock_guard lock(shared->storage_policies_mutex); return shared->backups_volume; } void Context::setFlagsPath(const String & path) { auto lock = getLock(); shared->flags_path = path; } void Context::setUserFilesPath(const String & path) { auto lock = getLock(); shared->user_files_path = path; } void Context::setDictionariesLibPath(const String & path) { auto lock = getLock(); shared->dictionaries_lib_path = path; } void Context::setUserScriptsPath(const String & path) { auto lock = getLock(); shared->user_scripts_path = path; } void Context::addWarningMessage(const String & msg) { auto lock = getLock(); shared->addWarningMessage(msg); } void Context::setConfig(const ConfigurationPtr & config) { auto lock = getLock(); shared->config = config; shared->access_control_manager->setExternalAuthenticatorsConfig(*shared->config); } const Poco::Util::AbstractConfiguration & Context::getConfigRef() const { auto lock = getLock(); return shared->config ? *shared->config : Poco::Util::Application::instance().config(); } AccessControlManager & Context::getAccessControlManager() { return *shared->access_control_manager; } const AccessControlManager & Context::getAccessControlManager() const { return *shared->access_control_manager; } void Context::setExternalAuthenticatorsConfig(const Poco::Util::AbstractConfiguration & config) { auto lock = getLock(); shared->access_control_manager->setExternalAuthenticatorsConfig(config); } std::unique_ptr Context::makeGSSAcceptorContext() const { auto lock = getLock(); return std::make_unique(shared->access_control_manager->getExternalAuthenticators().getKerberosParams()); } void Context::setUsersConfig(const ConfigurationPtr & config) { auto lock = getLock(); shared->users_config = config; shared->access_control_manager->setUsersConfig(*shared->users_config); } ConfigurationPtr Context::getUsersConfig() { auto lock = getLock(); return shared->users_config; } void Context::setUser(const UUID & user_id_) { auto lock = getLock(); user_id = user_id_; access = getAccessControlManager().getContextAccess( user_id_, /* current_roles = */ {}, /* use_default_roles = */ true, settings, current_database, client_info); auto user = access->getUser(); current_roles = std::make_shared>(user->granted_roles.findGranted(user->default_roles)); auto default_profile_info = access->getDefaultProfileInfo(); settings_constraints_and_current_profiles = default_profile_info->getConstraintsAndProfileIDs(); applySettingsChanges(default_profile_info->settings); if (!user->default_database.empty()) setCurrentDatabase(user->default_database); } std::shared_ptr Context::getUser() const { return getAccess()->getUser(); } String Context::getUserName() const { return getAccess()->getUserName(); } std::optional Context::getUserID() const { auto lock = getLock(); return user_id; } void Context::setQuotaKey(String quota_key_) { auto lock = getLock(); client_info.quota_key = std::move(quota_key_); } void Context::setCurrentRoles(const std::vector & current_roles_) { auto lock = getLock(); if (current_roles ? (*current_roles == current_roles_) : current_roles_.empty()) return; current_roles = std::make_shared>(current_roles_); calculateAccessRights(); } void Context::setCurrentRolesDefault() { auto user = getUser(); setCurrentRoles(user->granted_roles.findGranted(user->default_roles)); } boost::container::flat_set Context::getCurrentRoles() const { return getRolesInfo()->current_roles; } boost::container::flat_set Context::getEnabledRoles() const { return getRolesInfo()->enabled_roles; } std::shared_ptr Context::getRolesInfo() const { return getAccess()->getRolesInfo(); } void Context::calculateAccessRights() { auto lock = getLock(); if (user_id) access = getAccessControlManager().getContextAccess( *user_id, current_roles ? *current_roles : std::vector{}, /* use_default_roles = */ false, settings, current_database, client_info); } template void Context::checkAccessImpl(const Args &... args) const { return getAccess()->checkAccess(args...); } void Context::checkAccess(const AccessFlags & flags) const { return checkAccessImpl(flags); } void Context::checkAccess(const AccessFlags & flags, const std::string_view & database) const { return checkAccessImpl(flags, database); } void Context::checkAccess(const AccessFlags & flags, const std::string_view & database, const std::string_view & table) const { return checkAccessImpl(flags, database, table); } void Context::checkAccess(const AccessFlags & flags, const std::string_view & database, const std::string_view & table, const std::string_view & column) const { return checkAccessImpl(flags, database, table, column); } void Context::checkAccess(const AccessFlags & flags, const std::string_view & database, const std::string_view & table, const std::vector & columns) const { return checkAccessImpl(flags, database, table, columns); } void Context::checkAccess(const AccessFlags & flags, const std::string_view & database, const std::string_view & table, const Strings & columns) const { return checkAccessImpl(flags, database, table, columns); } void Context::checkAccess(const AccessFlags & flags, const StorageID & table_id) const { checkAccessImpl(flags, table_id.getDatabaseName(), table_id.getTableName()); } void Context::checkAccess(const AccessFlags & flags, const StorageID & table_id, const std::string_view & column) const { checkAccessImpl(flags, table_id.getDatabaseName(), table_id.getTableName(), column); } void Context::checkAccess(const AccessFlags & flags, const StorageID & table_id, const std::vector & columns) const { checkAccessImpl(flags, table_id.getDatabaseName(), table_id.getTableName(), columns); } void Context::checkAccess(const AccessFlags & flags, const StorageID & table_id, const Strings & columns) const { checkAccessImpl(flags, table_id.getDatabaseName(), table_id.getTableName(), columns); } void Context::checkAccess(const AccessRightsElement & element) const { return checkAccessImpl(element); } void Context::checkAccess(const AccessRightsElements & elements) const { return checkAccessImpl(elements); } std::shared_ptr Context::getAccess() const { auto lock = getLock(); return access ? access : ContextAccess::getFullAccess(); } ASTPtr Context::getRowPolicyCondition(const String & database, const String & table_name, RowPolicy::ConditionType type) const { auto lock = getLock(); auto initial_condition = initial_row_policy ? initial_row_policy->getCondition(database, table_name, type) : nullptr; return getAccess()->getRowPolicyCondition(database, table_name, type, initial_condition); } void Context::setInitialRowPolicy() { auto lock = getLock(); initial_row_policy = nullptr; if (client_info.initial_user == client_info.current_user) return; auto initial_user_id = getAccessControlManager().find(client_info.initial_user); if (!initial_user_id) return; initial_row_policy = getAccessControlManager().getEnabledRowPolicies(*initial_user_id, {}); } std::shared_ptr Context::getQuota() const { return getAccess()->getQuota(); } std::optional Context::getQuotaUsage() const { return getAccess()->getQuotaUsage(); } void Context::setCurrentProfile(const String & profile_name) { auto lock = getLock(); try { UUID profile_id = getAccessControlManager().getID(profile_name); setCurrentProfile(profile_id); } catch (Exception & e) { e.addMessage(", while trying to set settings profile {}", profile_name); throw; } } void Context::setCurrentProfile(const UUID & profile_id) { auto lock = getLock(); auto profile_info = getAccessControlManager().getSettingsProfileInfo(profile_id); checkSettingsConstraints(profile_info->settings); applySettingsChanges(profile_info->settings); settings_constraints_and_current_profiles = profile_info->getConstraintsAndProfileIDs(settings_constraints_and_current_profiles); } std::vector Context::getCurrentProfiles() const { auto lock = getLock(); return settings_constraints_and_current_profiles->current_profiles; } std::vector Context::getEnabledProfiles() const { auto lock = getLock(); return settings_constraints_and_current_profiles->enabled_profiles; } const Scalars & Context::getScalars() const { return scalars; } const Block & Context::getScalar(const String & name) const { auto it = scalars.find(name); if (scalars.end() == it) { // This should be a logical error, but it fails the sql_fuzz test too // often, so 'bad arguments' for now. throw Exception("Scalar " + backQuoteIfNeed(name) + " doesn't exist (internal bug)", ErrorCodes::BAD_ARGUMENTS); } return it->second; } const Block * Context::tryGetLocalScalar(const String & name) const { auto it = local_scalars.find(name); if (local_scalars.end() == it) return nullptr; return &it->second; } Tables Context::getExternalTables() const { assert(!isGlobalContext() || getApplicationType() == ApplicationType::LOCAL); auto lock = getLock(); Tables res; for (const auto & table : external_tables_mapping) res[table.first] = table.second->getTable(); auto query_context_ptr = query_context.lock(); auto session_context_ptr = session_context.lock(); if (query_context_ptr && query_context_ptr.get() != this) { Tables buf = query_context_ptr->getExternalTables(); res.insert(buf.begin(), buf.end()); } else if (session_context_ptr && session_context_ptr.get() != this) { Tables buf = session_context_ptr->getExternalTables(); res.insert(buf.begin(), buf.end()); } return res; } void Context::addExternalTable(const String & table_name, TemporaryTableHolder && temporary_table) { assert(!isGlobalContext() || getApplicationType() == ApplicationType::LOCAL); auto lock = getLock(); if (external_tables_mapping.end() != external_tables_mapping.find(table_name)) throw Exception("Temporary table " + backQuoteIfNeed(table_name) + " already exists.", ErrorCodes::TABLE_ALREADY_EXISTS); external_tables_mapping.emplace(table_name, std::make_shared(std::move(temporary_table))); } std::shared_ptr Context::removeExternalTable(const String & table_name) { assert(!isGlobalContext() || getApplicationType() == ApplicationType::LOCAL); std::shared_ptr holder; { auto lock = getLock(); auto iter = external_tables_mapping.find(table_name); if (iter == external_tables_mapping.end()) return {}; holder = iter->second; external_tables_mapping.erase(iter); } return holder; } void Context::addScalar(const String & name, const Block & block) { assert(!isGlobalContext() || getApplicationType() == ApplicationType::LOCAL); scalars[name] = block; } void Context::addLocalScalar(const String & name, const Block & block) { assert(!isGlobalContext() || getApplicationType() == ApplicationType::LOCAL); local_scalars[name] = block; } bool Context::hasScalar(const String & name) const { assert(!isGlobalContext() || getApplicationType() == ApplicationType::LOCAL); return scalars.count(name); } void Context::addQueryAccessInfo( const String & quoted_database_name, const String & full_quoted_table_name, const Names & column_names, const String & projection_name, const String & view_name) { assert(!isGlobalContext() || getApplicationType() == ApplicationType::LOCAL); std::lock_guard lock(query_access_info.mutex); query_access_info.databases.emplace(quoted_database_name); query_access_info.tables.emplace(full_quoted_table_name); for (const auto & column_name : column_names) query_access_info.columns.emplace(full_quoted_table_name + "." + backQuoteIfNeed(column_name)); if (!projection_name.empty()) query_access_info.projections.emplace(full_quoted_table_name + "." + backQuoteIfNeed(projection_name)); if (!view_name.empty()) query_access_info.views.emplace(view_name); } void Context::addQueryFactoriesInfo(QueryLogFactories factory_type, const String & created_object) const { assert(!isGlobalContext() || getApplicationType() == ApplicationType::LOCAL); auto lock = getLock(); switch (factory_type) { case QueryLogFactories::AggregateFunction: query_factories_info.aggregate_functions.emplace(created_object); break; case QueryLogFactories::AggregateFunctionCombinator: query_factories_info.aggregate_function_combinators.emplace(created_object); break; case QueryLogFactories::Database: query_factories_info.database_engines.emplace(created_object); break; case QueryLogFactories::DataType: query_factories_info.data_type_families.emplace(created_object); break; case QueryLogFactories::Dictionary: query_factories_info.dictionaries.emplace(created_object); break; case QueryLogFactories::Format: query_factories_info.formats.emplace(created_object); break; case QueryLogFactories::Function: query_factories_info.functions.emplace(created_object); break; case QueryLogFactories::Storage: query_factories_info.storages.emplace(created_object); break; case QueryLogFactories::TableFunction: query_factories_info.table_functions.emplace(created_object); } } StoragePtr Context::executeTableFunction(const ASTPtr & table_expression) { /// Slightly suboptimal. auto hash = table_expression->getTreeHash(); String key = toString(hash.first) + '_' + toString(hash.second); StoragePtr & res = table_function_results[key]; if (!res) { TableFunctionPtr table_function_ptr = TableFunctionFactory::instance().get(table_expression, shared_from_this()); /// Run it and remember the result res = table_function_ptr->execute(table_expression, shared_from_this(), table_function_ptr->getName()); } return res; } void Context::addViewSource(const StoragePtr & storage) { if (view_source) throw Exception( "Temporary view source storage " + backQuoteIfNeed(view_source->getName()) + " already exists.", ErrorCodes::TABLE_ALREADY_EXISTS); view_source = storage; } StoragePtr Context::getViewSource() const { return view_source; } Settings Context::getSettings() const { auto lock = getLock(); return settings; } void Context::setSettings(const Settings & settings_) { auto lock = getLock(); auto old_readonly = settings.readonly; auto old_allow_ddl = settings.allow_ddl; auto old_allow_introspection_functions = settings.allow_introspection_functions; settings = settings_; if ((settings.readonly != old_readonly) || (settings.allow_ddl != old_allow_ddl) || (settings.allow_introspection_functions != old_allow_introspection_functions)) calculateAccessRights(); } void Context::setSetting(const StringRef & name, const String & value) { auto lock = getLock(); if (name == "profile") { setCurrentProfile(value); return; } settings.set(std::string_view{name}, value); if (name == "readonly" || name == "allow_ddl" || name == "allow_introspection_functions") calculateAccessRights(); } void Context::setSetting(const StringRef & name, const Field & value) { auto lock = getLock(); if (name == "profile") { setCurrentProfile(value.safeGet()); return; } settings.set(std::string_view{name}, value); if (name == "readonly" || name == "allow_ddl" || name == "allow_introspection_functions") calculateAccessRights(); } void Context::applySettingChange(const SettingChange & change) { try { setSetting(change.name, change.value); } catch (Exception & e) { e.addMessage(fmt::format("in attempt to set the value of setting '{}' to {}", change.name, applyVisitor(FieldVisitorToString(), change.value))); throw; } } void Context::applySettingsChanges(const SettingsChanges & changes) { auto lock = getLock(); for (const SettingChange & change : changes) applySettingChange(change); applySettingsQuirks(settings); } void Context::checkSettingsConstraints(const SettingChange & change) const { getSettingsConstraintsAndCurrentProfiles()->constraints.check(settings, change); } void Context::checkSettingsConstraints(const SettingsChanges & changes) const { getSettingsConstraintsAndCurrentProfiles()->constraints.check(settings, changes); } void Context::checkSettingsConstraints(SettingsChanges & changes) const { getSettingsConstraintsAndCurrentProfiles()->constraints.check(settings, changes); } void Context::clampToSettingsConstraints(SettingsChanges & changes) const { getSettingsConstraintsAndCurrentProfiles()->constraints.clamp(settings, changes); } std::shared_ptr Context::getSettingsConstraintsAndCurrentProfiles() const { auto lock = getLock(); if (settings_constraints_and_current_profiles) return settings_constraints_and_current_profiles; static auto no_constraints_or_profiles = std::make_shared(getAccessControlManager()); return no_constraints_or_profiles; } String Context::getCurrentDatabase() const { auto lock = getLock(); return current_database; } String Context::getInitialQueryId() const { return client_info.initial_query_id; } void Context::setCurrentDatabaseNameInGlobalContext(const String & name) { if (!isGlobalContext()) throw Exception("Cannot set current database for non global context, this method should be used during server initialization", ErrorCodes::LOGICAL_ERROR); auto lock = getLock(); if (!current_database.empty()) throw Exception("Default database name cannot be changed in global context without server restart", ErrorCodes::LOGICAL_ERROR); current_database = name; } void Context::setCurrentDatabase(const String & name) { DatabaseCatalog::instance().assertDatabaseExists(name); auto lock = getLock(); current_database = name; calculateAccessRights(); } void Context::setCurrentQueryId(const String & query_id) { /// Generate random UUID, but using lower quality RNG, /// because Poco::UUIDGenerator::generateRandom method is using /dev/random, that is very expensive. /// NOTE: Actually we don't need to use UUIDs for query identifiers. /// We could use any suitable string instead. union { char bytes[16]; struct { UInt64 a; UInt64 b; } words; UUID uuid{}; } random; random.words.a = thread_local_rng(); //-V656 random.words.b = thread_local_rng(); //-V656 if (client_info.client_trace_context.trace_id != UUID()) { // Use the OpenTelemetry trace context we received from the client, and // create a new span for the query. query_trace_context = client_info.client_trace_context; query_trace_context.span_id = thread_local_rng(); } else if (client_info.query_kind == ClientInfo::QueryKind::INITIAL_QUERY) { // If this is an initial query without any parent OpenTelemetry trace, we // might start the trace ourselves, with some configurable probability. std::bernoulli_distribution should_start_trace{ settings.opentelemetry_start_trace_probability}; if (should_start_trace(thread_local_rng)) { // Use the randomly generated default query id as the new trace id. query_trace_context.trace_id = random.uuid; query_trace_context.span_id = thread_local_rng(); // Mark this trace as sampled in the flags. query_trace_context.trace_flags = 1; } } String query_id_to_set = query_id; if (query_id_to_set.empty()) /// If the user did not submit his query_id, then we generate it ourselves. { /// Use protected constructor. struct QueryUUID : Poco::UUID { QueryUUID(const char * bytes, Poco::UUID::Version version) : Poco::UUID(bytes, version) {} }; query_id_to_set = QueryUUID(random.bytes, Poco::UUID::UUID_RANDOM).toString(); } client_info.current_query_id = query_id_to_set; if (client_info.query_kind == ClientInfo::QueryKind::INITIAL_QUERY) client_info.initial_query_id = client_info.current_query_id; } void Context::killCurrentQuery() { if (process_list_elem) { process_list_elem->cancelQuery(true); } }; String Context::getDefaultFormat() const { return default_format.empty() ? "TabSeparated" : default_format; } void Context::setDefaultFormat(const String & name) { default_format = name; } MultiVersion::Version Context::getMacros() const { return shared->macros.get(); } void Context::setMacros(std::unique_ptr && macros) { shared->macros.set(std::move(macros)); } ContextMutablePtr Context::getQueryContext() const { auto ptr = query_context.lock(); if (!ptr) throw Exception("There is no query or query context has expired", ErrorCodes::THERE_IS_NO_QUERY); return ptr; } bool Context::isInternalSubquery() const { auto ptr = query_context.lock(); return ptr && ptr.get() != this; } ContextMutablePtr Context::getSessionContext() const { auto ptr = session_context.lock(); if (!ptr) throw Exception("There is no session or session context has expired", ErrorCodes::THERE_IS_NO_SESSION); return ptr; } ContextMutablePtr Context::getGlobalContext() const { auto ptr = global_context.lock(); if (!ptr) throw Exception("There is no global context or global context has expired", ErrorCodes::LOGICAL_ERROR); return ptr; } ContextMutablePtr Context::getBufferContext() const { if (!buffer_context) throw Exception("There is no buffer context", ErrorCodes::LOGICAL_ERROR); return buffer_context; } const EmbeddedDictionaries & Context::getEmbeddedDictionaries() const { return getEmbeddedDictionariesImpl(false); } EmbeddedDictionaries & Context::getEmbeddedDictionaries() { return getEmbeddedDictionariesImpl(false); } const ExternalDictionariesLoader & Context::getExternalDictionariesLoader() const { return const_cast(this)->getExternalDictionariesLoader(); } ExternalDictionariesLoader & Context::getExternalDictionariesLoader() { std::lock_guard lock(shared->external_dictionaries_mutex); return getExternalDictionariesLoaderUnlocked(); } ExternalDictionariesLoader & Context::getExternalDictionariesLoaderUnlocked() { if (!shared->external_dictionaries_loader) shared->external_dictionaries_loader.emplace(getGlobalContext()); return *shared->external_dictionaries_loader; } const ExternalUserDefinedExecutableFunctionsLoader & Context::getExternalUserDefinedExecutableFunctionsLoader() const { return const_cast(this)->getExternalUserDefinedExecutableFunctionsLoader(); } ExternalUserDefinedExecutableFunctionsLoader & Context::getExternalUserDefinedExecutableFunctionsLoader() { std::lock_guard lock(shared->external_user_defined_executable_functions_mutex); return getExternalUserDefinedExecutableFunctionsLoaderUnlocked(); } ExternalUserDefinedExecutableFunctionsLoader & Context::getExternalUserDefinedExecutableFunctionsLoaderUnlocked() { if (!shared->external_user_defined_executable_functions_loader) shared->external_user_defined_executable_functions_loader.emplace(getGlobalContext()); return *shared->external_user_defined_executable_functions_loader; } const ExternalModelsLoader & Context::getExternalModelsLoader() const { return const_cast(this)->getExternalModelsLoader(); } ExternalModelsLoader & Context::getExternalModelsLoader() { std::lock_guard lock(shared->external_models_mutex); return getExternalModelsLoaderUnlocked(); } ExternalModelsLoader & Context::getExternalModelsLoaderUnlocked() { if (!shared->external_models_loader) shared->external_models_loader.emplace(getGlobalContext()); return *shared->external_models_loader; } void Context::loadOrReloadModels(const Poco::Util::AbstractConfiguration & config) { auto patterns_values = getMultipleValuesFromConfig(config, "", "models_config"); std::unordered_set patterns(patterns_values.begin(), patterns_values.end()); std::lock_guard lock(shared->external_models_mutex); auto & external_models_loader = getExternalModelsLoaderUnlocked(); if (shared->external_models_config_repository) { shared->external_models_config_repository->updatePatterns(patterns); external_models_loader.reloadConfig(shared->external_models_config_repository->getName()); return; } auto app_path = getPath(); auto config_path = getConfigRef().getString("config-file", "config.xml"); auto repository = std::make_unique(app_path, config_path, patterns); shared->external_models_config_repository = repository.get(); shared->models_repository_guard = external_models_loader.addConfigRepository(std::move(repository)); } EmbeddedDictionaries & Context::getEmbeddedDictionariesImpl(const bool throw_on_error) const { std::lock_guard lock(shared->embedded_dictionaries_mutex); if (!shared->embedded_dictionaries) { auto geo_dictionaries_loader = std::make_unique(); shared->embedded_dictionaries.emplace( std::move(geo_dictionaries_loader), getGlobalContext(), throw_on_error); } return *shared->embedded_dictionaries; } void Context::tryCreateEmbeddedDictionaries(const Poco::Util::AbstractConfiguration & config) const { if (!config.getBool("dictionaries_lazy_load", true)) static_cast(getEmbeddedDictionariesImpl(true)); } void Context::loadOrReloadDictionaries(const Poco::Util::AbstractConfiguration & config) { bool dictionaries_lazy_load = config.getBool("dictionaries_lazy_load", true); auto patterns_values = getMultipleValuesFromConfig(config, "", "dictionaries_config"); std::unordered_set patterns(patterns_values.begin(), patterns_values.end()); std::lock_guard lock(shared->external_dictionaries_mutex); auto & external_dictionaries_loader = getExternalDictionariesLoaderUnlocked(); external_dictionaries_loader.enableAlwaysLoadEverything(!dictionaries_lazy_load); if (shared->external_dictionaries_config_repository) { shared->external_dictionaries_config_repository->updatePatterns(patterns); external_dictionaries_loader.reloadConfig(shared->external_dictionaries_config_repository->getName()); return; } auto app_path = getPath(); auto config_path = getConfigRef().getString("config-file", "config.xml"); auto repository = std::make_unique(app_path, config_path, patterns); shared->external_dictionaries_config_repository = repository.get(); shared->dictionaries_xmls = external_dictionaries_loader.addConfigRepository(std::move(repository)); } void Context::loadOrReloadUserDefinedExecutableFunctions(const Poco::Util::AbstractConfiguration & config) { auto patterns_values = getMultipleValuesFromConfig(config, "", "user_defined_executable_functions_config"); std::unordered_set patterns(patterns_values.begin(), patterns_values.end()); std::lock_guard lock(shared->external_user_defined_executable_functions_mutex); auto & external_user_defined_executable_functions_loader = getExternalUserDefinedExecutableFunctionsLoaderUnlocked(); if (shared->user_defined_executable_functions_config_repository) { shared->user_defined_executable_functions_config_repository->updatePatterns(patterns); external_user_defined_executable_functions_loader.reloadConfig(shared->user_defined_executable_functions_config_repository->getName()); return; } auto app_path = getPath(); auto config_path = getConfigRef().getString("config-file", "config.xml"); auto repository = std::make_unique(app_path, config_path, patterns); shared->user_defined_executable_functions_config_repository = repository.get(); shared->user_defined_executable_functions_xmls = external_user_defined_executable_functions_loader.addConfigRepository(std::move(repository)); } #if USE_NLP SynonymsExtensions & Context::getSynonymsExtensions() const { auto lock = getLock(); if (!shared->synonyms_extensions) shared->synonyms_extensions.emplace(getConfigRef()); return *shared->synonyms_extensions; } Lemmatizers & Context::getLemmatizers() const { auto lock = getLock(); if (!shared->lemmatizers) shared->lemmatizers.emplace(getConfigRef()); return *shared->lemmatizers; } #endif void Context::setProgressCallback(ProgressCallback callback) { /// Callback is set to a session or to a query. In the session, only one query is processed at a time. Therefore, the lock is not needed. progress_callback = callback; } ProgressCallback Context::getProgressCallback() const { return progress_callback; } void Context::setProcessListElement(ProcessList::Element * elem) { /// Set to a session or query. In the session, only one query is processed at a time. Therefore, the lock is not needed. process_list_elem = elem; } ProcessList::Element * Context::getProcessListElement() const { return process_list_elem; } void Context::setUncompressedCache(size_t max_size_in_bytes) { auto lock = getLock(); if (shared->uncompressed_cache) throw Exception("Uncompressed cache has been already created.", ErrorCodes::LOGICAL_ERROR); shared->uncompressed_cache = std::make_shared(max_size_in_bytes); } UncompressedCachePtr Context::getUncompressedCache() const { auto lock = getLock(); return shared->uncompressed_cache; } void Context::dropUncompressedCache() const { auto lock = getLock(); if (shared->uncompressed_cache) shared->uncompressed_cache->reset(); } void Context::setMarkCache(size_t cache_size_in_bytes) { auto lock = getLock(); if (shared->mark_cache) throw Exception("Mark cache has been already created.", ErrorCodes::LOGICAL_ERROR); shared->mark_cache = std::make_shared(cache_size_in_bytes); } MarkCachePtr Context::getMarkCache() const { auto lock = getLock(); return shared->mark_cache; } void Context::dropMarkCache() const { auto lock = getLock(); if (shared->mark_cache) shared->mark_cache->reset(); } void Context::setMMappedFileCache(size_t cache_size_in_num_entries) { auto lock = getLock(); if (shared->mmap_cache) throw Exception("Mapped file cache has been already created.", ErrorCodes::LOGICAL_ERROR); shared->mmap_cache = std::make_shared(cache_size_in_num_entries); } MMappedFileCachePtr Context::getMMappedFileCache() const { auto lock = getLock(); return shared->mmap_cache; } void Context::dropMMappedFileCache() const { auto lock = getLock(); if (shared->mmap_cache) shared->mmap_cache->reset(); } void Context::dropCaches() const { auto lock = getLock(); if (shared->uncompressed_cache) shared->uncompressed_cache->reset(); if (shared->mark_cache) shared->mark_cache->reset(); if (shared->mmap_cache) shared->mmap_cache->reset(); } BackgroundSchedulePool & Context::getBufferFlushSchedulePool() const { auto lock = getLock(); if (!shared->buffer_flush_schedule_pool) shared->buffer_flush_schedule_pool.emplace( settings.background_buffer_flush_schedule_pool_size, CurrentMetrics::BackgroundBufferFlushSchedulePoolTask, "BgBufSchPool"); return *shared->buffer_flush_schedule_pool; } BackgroundTaskSchedulingSettings Context::getBackgroundProcessingTaskSchedulingSettings() const { BackgroundTaskSchedulingSettings task_settings; const auto & config = getConfigRef(); task_settings.thread_sleep_seconds = config.getDouble("background_processing_pool_thread_sleep_seconds", 10); task_settings.thread_sleep_seconds_random_part = config.getDouble("background_processing_pool_thread_sleep_seconds_random_part", 1.0); task_settings.thread_sleep_seconds_if_nothing_to_do = config.getDouble("background_processing_pool_thread_sleep_seconds_if_nothing_to_do", 0.1); task_settings.task_sleep_seconds_when_no_work_min = config.getDouble("background_processing_pool_task_sleep_seconds_when_no_work_min", 10); task_settings.task_sleep_seconds_when_no_work_max = config.getDouble("background_processing_pool_task_sleep_seconds_when_no_work_max", 600); task_settings.task_sleep_seconds_when_no_work_multiplier = config.getDouble("background_processing_pool_task_sleep_seconds_when_no_work_multiplier", 1.1); task_settings.task_sleep_seconds_when_no_work_random_part = config.getDouble("background_processing_pool_task_sleep_seconds_when_no_work_random_part", 1.0); return task_settings; } BackgroundTaskSchedulingSettings Context::getBackgroundMoveTaskSchedulingSettings() const { BackgroundTaskSchedulingSettings task_settings; const auto & config = getConfigRef(); task_settings.thread_sleep_seconds = config.getDouble("background_move_processing_pool_thread_sleep_seconds", 10); task_settings.thread_sleep_seconds_random_part = config.getDouble("background_move_processing_pool_thread_sleep_seconds_random_part", 1.0); task_settings.thread_sleep_seconds_if_nothing_to_do = config.getDouble("background_move_processing_pool_thread_sleep_seconds_if_nothing_to_do", 0.1); task_settings.task_sleep_seconds_when_no_work_min = config.getDouble("background_move_processing_pool_task_sleep_seconds_when_no_work_min", 10); task_settings.task_sleep_seconds_when_no_work_max = config.getDouble("background_move_processing_pool_task_sleep_seconds_when_no_work_max", 600); task_settings.task_sleep_seconds_when_no_work_multiplier = config.getDouble("background_move_processing_pool_task_sleep_seconds_when_no_work_multiplier", 1.1); task_settings.task_sleep_seconds_when_no_work_random_part = config.getDouble("background_move_processing_pool_task_sleep_seconds_when_no_work_random_part", 1.0); return task_settings; } BackgroundSchedulePool & Context::getSchedulePool() const { auto lock = getLock(); if (!shared->schedule_pool) shared->schedule_pool.emplace( settings.background_schedule_pool_size, CurrentMetrics::BackgroundSchedulePoolTask, "BgSchPool"); return *shared->schedule_pool; } BackgroundSchedulePool & Context::getDistributedSchedulePool() const { auto lock = getLock(); if (!shared->distributed_schedule_pool) shared->distributed_schedule_pool.emplace( settings.background_distributed_schedule_pool_size, CurrentMetrics::BackgroundDistributedSchedulePoolTask, "BgDistSchPool"); return *shared->distributed_schedule_pool; } BackgroundSchedulePool & Context::getMessageBrokerSchedulePool() const { auto lock = getLock(); if (!shared->message_broker_schedule_pool) shared->message_broker_schedule_pool.emplace( settings.background_message_broker_schedule_pool_size, CurrentMetrics::BackgroundMessageBrokerSchedulePoolTask, "BgMBSchPool"); return *shared->message_broker_schedule_pool; } ThrottlerPtr Context::getReplicatedFetchesThrottler() const { auto lock = getLock(); if (!shared->replicated_fetches_throttler) shared->replicated_fetches_throttler = std::make_shared( settings.max_replicated_fetches_network_bandwidth_for_server); return shared->replicated_fetches_throttler; } ThrottlerPtr Context::getReplicatedSendsThrottler() const { auto lock = getLock(); if (!shared->replicated_sends_throttler) shared->replicated_sends_throttler = std::make_shared( settings.max_replicated_sends_network_bandwidth_for_server); return shared->replicated_sends_throttler; } bool Context::hasDistributedDDL() const { return getConfigRef().has("distributed_ddl"); } void Context::setDDLWorker(std::unique_ptr ddl_worker) { auto lock = getLock(); if (shared->ddl_worker) throw Exception("DDL background thread has already been initialized", ErrorCodes::LOGICAL_ERROR); ddl_worker->startup(); shared->ddl_worker = std::move(ddl_worker); } DDLWorker & Context::getDDLWorker() const { auto lock = getLock(); if (!shared->ddl_worker) { if (!hasZooKeeper()) throw Exception("There is no Zookeeper configuration in server config", ErrorCodes::NO_ELEMENTS_IN_CONFIG); if (!hasDistributedDDL()) throw Exception("There is no DistributedDDL configuration in server config", ErrorCodes::NO_ELEMENTS_IN_CONFIG); throw Exception("DDL background thread is not initialized", ErrorCodes::NO_ELEMENTS_IN_CONFIG); } return *shared->ddl_worker; } zkutil::ZooKeeperPtr Context::getZooKeeper() const { std::lock_guard lock(shared->zookeeper_mutex); const auto & config = shared->zookeeper_config ? *shared->zookeeper_config : getConfigRef(); if (!shared->zookeeper) shared->zookeeper = std::make_shared(config, "zookeeper", getZooKeeperLog()); else if (shared->zookeeper->expired()) shared->zookeeper = shared->zookeeper->startNewSession(); return shared->zookeeper; } UInt32 Context::getZooKeeperSessionUptime() const { std::lock_guard lock(shared->zookeeper_mutex); if (!shared->zookeeper || shared->zookeeper->expired()) return 0; return shared->zookeeper->getSessionUptime(); } void Context::setSystemZooKeeperLogAfterInitializationIfNeeded() { /// It can be nearly impossible to understand in which order global objects are initialized on server startup. /// If getZooKeeper() is called before initializeSystemLogs(), then zkutil::ZooKeeper gets nullptr /// instead of pointer to system table and it logs nothing. /// This method explicitly sets correct pointer to system log after its initialization. /// TODO get rid of this if possible std::lock_guard lock(shared->zookeeper_mutex); if (!shared->system_logs || !shared->system_logs->zookeeper_log) return; if (shared->zookeeper) shared->zookeeper->setZooKeeperLog(shared->system_logs->zookeeper_log); for (auto & zk : shared->auxiliary_zookeepers) zk.second->setZooKeeperLog(shared->system_logs->zookeeper_log); } void Context::initializeKeeperDispatcher() const { #if USE_NURAFT std::lock_guard lock(shared->keeper_storage_dispatcher_mutex); if (shared->keeper_storage_dispatcher) throw Exception(ErrorCodes::LOGICAL_ERROR, "Trying to initialize Keeper multiple times"); const auto & config = getConfigRef(); if (config.has("keeper_server")) { shared->keeper_storage_dispatcher = std::make_shared(); shared->keeper_storage_dispatcher->initialize(config, getApplicationType() == ApplicationType::KEEPER); } #endif } #if USE_NURAFT std::shared_ptr & Context::getKeeperDispatcher() const { std::lock_guard lock(shared->keeper_storage_dispatcher_mutex); if (!shared->keeper_storage_dispatcher) throw Exception(ErrorCodes::LOGICAL_ERROR, "Keeper must be initialized before requests"); return shared->keeper_storage_dispatcher; } #endif void Context::shutdownKeeperDispatcher() const { #if USE_NURAFT std::lock_guard lock(shared->keeper_storage_dispatcher_mutex); if (shared->keeper_storage_dispatcher) { shared->keeper_storage_dispatcher->shutdown(); shared->keeper_storage_dispatcher.reset(); } #endif } zkutil::ZooKeeperPtr Context::getAuxiliaryZooKeeper(const String & name) const { std::lock_guard lock(shared->auxiliary_zookeepers_mutex); auto zookeeper = shared->auxiliary_zookeepers.find(name); if (zookeeper == shared->auxiliary_zookeepers.end()) { const auto & config = shared->auxiliary_zookeepers_config ? *shared->auxiliary_zookeepers_config : getConfigRef(); if (!config.has("auxiliary_zookeepers." + name)) throw Exception( ErrorCodes::BAD_ARGUMENTS, "Unknown auxiliary ZooKeeper name '{}'. If it's required it can be added to the section in " "config.xml", name); zookeeper = shared->auxiliary_zookeepers.emplace(name, std::make_shared(config, "auxiliary_zookeepers." + name, getZooKeeperLog())).first; } else if (zookeeper->second->expired()) zookeeper->second = zookeeper->second->startNewSession(); return zookeeper->second; } void Context::resetZooKeeper() const { std::lock_guard lock(shared->zookeeper_mutex); shared->zookeeper.reset(); } static void reloadZooKeeperIfChangedImpl(const ConfigurationPtr & config, const std::string & config_name, zkutil::ZooKeeperPtr & zk, std::shared_ptr zk_log) { if (!zk || zk->configChanged(*config, config_name)) { if (zk) zk->finalize("Config changed"); zk = std::make_shared(*config, config_name, std::move(zk_log)); } } void Context::reloadZooKeeperIfChanged(const ConfigurationPtr & config) const { std::lock_guard lock(shared->zookeeper_mutex); shared->zookeeper_config = config; reloadZooKeeperIfChangedImpl(config, "zookeeper", shared->zookeeper, getZooKeeperLog()); } void Context::reloadAuxiliaryZooKeepersConfigIfChanged(const ConfigurationPtr & config) { std::lock_guard lock(shared->auxiliary_zookeepers_mutex); shared->auxiliary_zookeepers_config = config; for (auto it = shared->auxiliary_zookeepers.begin(); it != shared->auxiliary_zookeepers.end();) { if (!config->has("auxiliary_zookeepers." + it->first)) it = shared->auxiliary_zookeepers.erase(it); else { reloadZooKeeperIfChangedImpl(config, "auxiliary_zookeepers." + it->first, it->second, getZooKeeperLog()); ++it; } } } bool Context::hasZooKeeper() const { return getConfigRef().has("zookeeper"); } bool Context::hasAuxiliaryZooKeeper(const String & name) const { return getConfigRef().has("auxiliary_zookeepers." + name); } InterserverCredentialsPtr Context::getInterserverCredentials() { return shared->interserver_io_credentials.get(); } void Context::updateInterserverCredentials(const Poco::Util::AbstractConfiguration & config) { auto credentials = InterserverCredentials::make(config, "interserver_http_credentials"); shared->interserver_io_credentials.set(std::move(credentials)); } void Context::setInterserverIOAddress(const String & host, UInt16 port) { shared->interserver_io_host = host; shared->interserver_io_port = port; } std::pair Context::getInterserverIOAddress() const { if (shared->interserver_io_host.empty() || shared->interserver_io_port == 0) throw Exception("Parameter 'interserver_http(s)_port' required for replication is not specified in configuration file.", ErrorCodes::NO_ELEMENTS_IN_CONFIG); return { shared->interserver_io_host, shared->interserver_io_port }; } void Context::setInterserverScheme(const String & scheme) { shared->interserver_scheme = scheme; } String Context::getInterserverScheme() const { return shared->interserver_scheme; } void Context::setRemoteHostFilter(const Poco::Util::AbstractConfiguration & config) { shared->remote_host_filter.setValuesFromConfig(config); } const RemoteHostFilter & Context::getRemoteHostFilter() const { return shared->remote_host_filter; } UInt16 Context::getTCPPort() const { auto lock = getLock(); const auto & config = getConfigRef(); return config.getInt("tcp_port", DBMS_DEFAULT_PORT); } std::optional Context::getTCPPortSecure() const { auto lock = getLock(); const auto & config = getConfigRef(); if (config.has("tcp_port_secure")) return config.getInt("tcp_port_secure"); return {}; } void Context::registerServerPort(String port_name, UInt16 port) { shared->server_ports.emplace(std::move(port_name), port); } UInt16 Context::getServerPort(const String & port_name) const { auto it = shared->server_ports.find(port_name); if (it == shared->server_ports.end()) throw Exception(ErrorCodes::BAD_GET, "There is no port named {}", port_name); else return it->second; } std::shared_ptr Context::getCluster(const std::string & cluster_name) const { auto res = getClusters()->getCluster(cluster_name); if (res) return res; if (!cluster_name.empty()) res = tryGetReplicatedDatabaseCluster(cluster_name); if (res) return res; throw Exception("Requested cluster '" + cluster_name + "' not found", ErrorCodes::BAD_GET); } std::shared_ptr Context::tryGetCluster(const std::string & cluster_name) const { return getClusters()->getCluster(cluster_name); } void Context::reloadClusterConfig() const { while (true) { ConfigurationPtr cluster_config; { std::lock_guard lock(shared->clusters_mutex); cluster_config = shared->clusters_config; } const auto & config = cluster_config ? *cluster_config : getConfigRef(); auto new_clusters = std::make_shared(config, settings); { std::lock_guard lock(shared->clusters_mutex); if (shared->clusters_config.get() == cluster_config.get()) { shared->clusters = std::move(new_clusters); return; } // Clusters config has been suddenly changed, recompute clusters } } } std::shared_ptr Context::getClusters() const { std::lock_guard lock(shared->clusters_mutex); if (!shared->clusters) { const auto & config = shared->clusters_config ? *shared->clusters_config : getConfigRef(); shared->clusters = std::make_shared(config, settings); } return shared->clusters; } /// On repeating calls updates existing clusters and adds new clusters, doesn't delete old clusters void Context::setClustersConfig(const ConfigurationPtr & config, const String & config_name) { std::lock_guard lock(shared->clusters_mutex); /// Do not update clusters if this part of config wasn't changed. if (shared->clusters && isSameConfiguration(*config, *shared->clusters_config, config_name)) return; auto old_clusters_config = shared->clusters_config; shared->clusters_config = config; if (!shared->clusters) shared->clusters = std::make_unique(*shared->clusters_config, settings, config_name); else shared->clusters->updateClusters(*shared->clusters_config, settings, config_name, old_clusters_config); } void Context::setCluster(const String & cluster_name, const std::shared_ptr & cluster) { std::lock_guard lock(shared->clusters_mutex); if (!shared->clusters) throw Exception("Clusters are not set", ErrorCodes::LOGICAL_ERROR); shared->clusters->setCluster(cluster_name, cluster); } void Context::initializeSystemLogs() { auto lock = getLock(); shared->system_logs = std::make_unique(getGlobalContext(), getConfigRef()); } void Context::initializeTraceCollector() { shared->initializeTraceCollector(getTraceLog()); } bool Context::hasTraceCollector() const { return shared->hasTraceCollector(); } std::shared_ptr Context::getQueryLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->query_log; } std::shared_ptr Context::getQueryThreadLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->query_thread_log; } std::shared_ptr Context::getQueryViewsLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->query_views_log; } std::shared_ptr Context::getPartLog(const String & part_database) const { auto lock = getLock(); /// No part log or system logs are shutting down. if (!shared->system_logs) return {}; /// Will not log operations on system tables (including part_log itself). /// It doesn't make sense and not allow to destruct PartLog correctly due to infinite logging and flushing, /// and also make troubles on startup. if (part_database == DatabaseCatalog::SYSTEM_DATABASE) return {}; return shared->system_logs->part_log; } std::shared_ptr Context::getTraceLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->trace_log; } std::shared_ptr Context::getTextLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->text_log; } std::shared_ptr Context::getMetricLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->metric_log; } std::shared_ptr Context::getAsynchronousMetricLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->asynchronous_metric_log; } std::shared_ptr Context::getOpenTelemetrySpanLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->opentelemetry_span_log; } std::shared_ptr Context::getSessionLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->session_log; } std::shared_ptr Context::getZooKeeperLog() const { auto lock = getLock(); if (!shared->system_logs) return {}; return shared->system_logs->zookeeper_log; } CompressionCodecPtr Context::chooseCompressionCodec(size_t part_size, double part_size_ratio) const { auto lock = getLock(); if (!shared->compression_codec_selector) { constexpr auto config_name = "compression"; const auto & config = getConfigRef(); if (config.has(config_name)) shared->compression_codec_selector = std::make_unique(config, "compression"); else shared->compression_codec_selector = std::make_unique(); } return shared->compression_codec_selector->choose(part_size, part_size_ratio); } DiskPtr Context::getDisk(const String & name) const { std::lock_guard lock(shared->storage_policies_mutex); auto disk_selector = getDiskSelector(lock); return disk_selector->get(name); } StoragePolicyPtr Context::getStoragePolicy(const String & name) const { std::lock_guard lock(shared->storage_policies_mutex); auto policy_selector = getStoragePolicySelector(lock); return policy_selector->get(name); } DisksMap Context::getDisksMap() const { std::lock_guard lock(shared->storage_policies_mutex); return getDiskSelector(lock)->getDisksMap(); } StoragePoliciesMap Context::getPoliciesMap() const { std::lock_guard lock(shared->storage_policies_mutex); return getStoragePolicySelector(lock)->getPoliciesMap(); } DiskSelectorPtr Context::getDiskSelector(std::lock_guard & /* lock */) const { if (!shared->merge_tree_disk_selector) { constexpr auto config_name = "storage_configuration.disks"; const auto & config = getConfigRef(); shared->merge_tree_disk_selector = std::make_shared(config, config_name, shared_from_this()); } return shared->merge_tree_disk_selector; } StoragePolicySelectorPtr Context::getStoragePolicySelector(std::lock_guard & lock) const { if (!shared->merge_tree_storage_policy_selector) { constexpr auto config_name = "storage_configuration.policies"; const auto & config = getConfigRef(); shared->merge_tree_storage_policy_selector = std::make_shared(config, config_name, getDiskSelector(lock)); } return shared->merge_tree_storage_policy_selector; } void Context::updateStorageConfiguration(const Poco::Util::AbstractConfiguration & config) { std::lock_guard lock(shared->storage_policies_mutex); if (shared->merge_tree_disk_selector) shared->merge_tree_disk_selector = shared->merge_tree_disk_selector->updateFromConfig(config, "storage_configuration.disks", shared_from_this()); if (shared->merge_tree_storage_policy_selector) { try { shared->merge_tree_storage_policy_selector = shared->merge_tree_storage_policy_selector->updateFromConfig( config, "storage_configuration.policies", shared->merge_tree_disk_selector); } catch (Exception & e) { LOG_ERROR( shared->log, "An error has occurred while reloading storage policies, storage policies were not applied: {}", e.message()); } } #if !defined(ARCADIA_BUILD) if (shared->storage_s3_settings) { shared->storage_s3_settings->loadFromConfig("s3", config); } #endif } const MergeTreeSettings & Context::getMergeTreeSettings() const { auto lock = getLock(); if (!shared->merge_tree_settings) { const auto & config = getConfigRef(); MergeTreeSettings mt_settings; mt_settings.loadFromConfig("merge_tree", config); shared->merge_tree_settings.emplace(mt_settings); } return *shared->merge_tree_settings; } const MergeTreeSettings & Context::getReplicatedMergeTreeSettings() const { auto lock = getLock(); if (!shared->replicated_merge_tree_settings) { const auto & config = getConfigRef(); MergeTreeSettings mt_settings; mt_settings.loadFromConfig("merge_tree", config); mt_settings.loadFromConfig("replicated_merge_tree", config); shared->replicated_merge_tree_settings.emplace(mt_settings); } return *shared->replicated_merge_tree_settings; } const StorageS3Settings & Context::getStorageS3Settings() const { #if !defined(ARCADIA_BUILD) auto lock = getLock(); if (!shared->storage_s3_settings) { const auto & config = getConfigRef(); shared->storage_s3_settings.emplace().loadFromConfig("s3", config); } return *shared->storage_s3_settings; #else throw Exception("S3 is unavailable in Arcadia", ErrorCodes::NOT_IMPLEMENTED); #endif } void Context::checkCanBeDropped(const String & database, const String & table, const size_t & size, const size_t & max_size_to_drop) const { if (!max_size_to_drop || size <= max_size_to_drop) return; fs::path force_file(getFlagsPath() + "force_drop_table"); bool force_file_exists = fs::exists(force_file); if (force_file_exists) { try { fs::remove(force_file); return; } catch (...) { /// User should recreate force file on each drop, it shouldn't be protected tryLogCurrentException("Drop table check", "Can't remove force file to enable table or partition drop"); } } String size_str = formatReadableSizeWithDecimalSuffix(size); String max_size_to_drop_str = formatReadableSizeWithDecimalSuffix(max_size_to_drop); throw Exception(ErrorCodes::TABLE_SIZE_EXCEEDS_MAX_DROP_SIZE_LIMIT, "Table or Partition in {}.{} was not dropped.\nReason:\n" "1. Size ({}) is greater than max_[table/partition]_size_to_drop ({})\n" "2. File '{}' intended to force DROP {}\n" "How to fix this:\n" "1. Either increase (or set to zero) max_[table/partition]_size_to_drop in server config\n" "2. Either create forcing file {} and make sure that ClickHouse has write permission for it.\n" "Example:\nsudo touch '{}' && sudo chmod 666 '{}'", backQuoteIfNeed(database), backQuoteIfNeed(table), size_str, max_size_to_drop_str, force_file.string(), force_file_exists ? "exists but not writeable (could not be removed)" : "doesn't exist", force_file.string(), force_file.string(), force_file.string()); } void Context::setMaxTableSizeToDrop(size_t max_size) { // Is initialized at server startup and updated at config reload shared->max_table_size_to_drop.store(max_size, std::memory_order_relaxed); } void Context::checkTableCanBeDropped(const String & database, const String & table, const size_t & table_size) const { size_t max_table_size_to_drop = shared->max_table_size_to_drop.load(std::memory_order_relaxed); checkCanBeDropped(database, table, table_size, max_table_size_to_drop); } void Context::setMaxPartitionSizeToDrop(size_t max_size) { // Is initialized at server startup and updated at config reload shared->max_partition_size_to_drop.store(max_size, std::memory_order_relaxed); } void Context::checkPartitionCanBeDropped(const String & database, const String & table, const size_t & partition_size) const { size_t max_partition_size_to_drop = shared->max_partition_size_to_drop.load(std::memory_order_relaxed); checkCanBeDropped(database, table, partition_size, max_partition_size_to_drop); } InputFormatPtr Context::getInputFormat(const String & name, ReadBuffer & buf, const Block & sample, UInt64 max_block_size, const std::optional & format_settings) const { return FormatFactory::instance().getInput(name, buf, sample, shared_from_this(), max_block_size, format_settings); } OutputFormatPtr Context::getOutputFormat(const String & name, WriteBuffer & buf, const Block & sample) const { return FormatFactory::instance().getOutputFormat(name, buf, sample, shared_from_this()); } OutputFormatPtr Context::getOutputFormatParallelIfPossible(const String & name, WriteBuffer & buf, const Block & sample) const { return FormatFactory::instance().getOutputFormatParallelIfPossible(name, buf, sample, shared_from_this()); } time_t Context::getUptimeSeconds() const { auto lock = getLock(); return shared->uptime_watch.elapsedSeconds(); } void Context::setConfigReloadCallback(ConfigReloadCallback && callback) { /// Is initialized at server startup, so lock isn't required. Otherwise use mutex. shared->config_reload_callback = std::move(callback); } void Context::reloadConfig() const { /// Use mutex if callback may be changed after startup. if (!shared->config_reload_callback) throw Exception("Can't reload config because config_reload_callback is not set.", ErrorCodes::LOGICAL_ERROR); shared->config_reload_callback(); } void Context::shutdown() { // Disk selector might not be initialized if there was some error during // its initialization. Don't try to initialize it again on shutdown. if (shared->merge_tree_disk_selector) { for (auto & [disk_name, disk] : getDisksMap()) { LOG_INFO(shared->log, "Shutdown disk {}", disk_name); disk->shutdown(); } } shared->shutdown(); } Context::ApplicationType Context::getApplicationType() const { return shared->application_type; } void Context::setApplicationType(ApplicationType type) { /// Lock isn't required, you should set it at start shared->application_type = type; } void Context::setDefaultProfiles(const Poco::Util::AbstractConfiguration & config) { shared->default_profile_name = config.getString("default_profile", "default"); getAccessControlManager().setDefaultProfileName(shared->default_profile_name); shared->system_profile_name = config.getString("system_profile", shared->default_profile_name); setCurrentProfile(shared->system_profile_name); applySettingsQuirks(settings, &Poco::Logger::get("SettingsQuirks")); shared->buffer_profile_name = config.getString("buffer_profile", shared->system_profile_name); buffer_context = Context::createCopy(shared_from_this()); buffer_context->setCurrentProfile(shared->buffer_profile_name); } String Context::getDefaultProfileName() const { return shared->default_profile_name; } String Context::getSystemProfileName() const { return shared->system_profile_name; } String Context::getFormatSchemaPath() const { return shared->format_schema_path; } void Context::setFormatSchemaPath(const String & path) { shared->format_schema_path = path; } Context::SampleBlockCache & Context::getSampleBlockCache() const { return getQueryContext()->sample_block_cache; } bool Context::hasQueryParameters() const { return !query_parameters.empty(); } const NameToNameMap & Context::getQueryParameters() const { return query_parameters; } void Context::setQueryParameter(const String & name, const String & value) { if (!query_parameters.emplace(name, value).second) throw Exception("Duplicate name " + backQuote(name) + " of query parameter", ErrorCodes::BAD_ARGUMENTS); } void Context::addBridgeCommand(std::unique_ptr cmd) const { auto lock = getLock(); shared->bridge_commands.emplace_back(std::move(cmd)); } IHostContextPtr & Context::getHostContext() { return host_context; } const IHostContextPtr & Context::getHostContext() const { return host_context; } std::shared_ptr Context::getActionLocksManager() { auto lock = getLock(); if (!shared->action_locks_manager) shared->action_locks_manager = std::make_shared(shared_from_this()); return shared->action_locks_manager; } void Context::setExternalTablesInitializer(ExternalTablesInitializer && initializer) { if (external_tables_initializer_callback) throw Exception("External tables initializer is already set", ErrorCodes::LOGICAL_ERROR); external_tables_initializer_callback = std::move(initializer); } void Context::initializeExternalTablesIfSet() { if (external_tables_initializer_callback) { external_tables_initializer_callback(shared_from_this()); /// Reset callback external_tables_initializer_callback = {}; } } void Context::setInputInitializer(InputInitializer && initializer) { if (input_initializer_callback) throw Exception("Input initializer is already set", ErrorCodes::LOGICAL_ERROR); input_initializer_callback = std::move(initializer); } void Context::initializeInput(const StoragePtr & input_storage) { if (!input_initializer_callback) throw Exception("Input initializer is not set", ErrorCodes::LOGICAL_ERROR); input_initializer_callback(shared_from_this(), input_storage); /// Reset callback input_initializer_callback = {}; } void Context::setInputBlocksReaderCallback(InputBlocksReader && reader) { if (input_blocks_reader) throw Exception("Input blocks reader is already set", ErrorCodes::LOGICAL_ERROR); input_blocks_reader = std::move(reader); } InputBlocksReader Context::getInputBlocksReaderCallback() const { return input_blocks_reader; } void Context::resetInputCallbacks() { if (input_initializer_callback) input_initializer_callback = {}; if (input_blocks_reader) input_blocks_reader = {}; } StorageID Context::resolveStorageID(StorageID storage_id, StorageNamespace where) const { if (storage_id.uuid != UUIDHelpers::Nil) return storage_id; StorageID resolved = StorageID::createEmpty(); std::optional exc; { auto lock = getLock(); resolved = resolveStorageIDImpl(std::move(storage_id), where, &exc); } if (exc) throw Exception(*exc); if (!resolved.hasUUID() && resolved.database_name != DatabaseCatalog::TEMPORARY_DATABASE) resolved.uuid = DatabaseCatalog::instance().getDatabase(resolved.database_name)->tryGetTableUUID(resolved.table_name); return resolved; } StorageID Context::tryResolveStorageID(StorageID storage_id, StorageNamespace where) const { if (storage_id.uuid != UUIDHelpers::Nil) return storage_id; StorageID resolved = StorageID::createEmpty(); { auto lock = getLock(); resolved = resolveStorageIDImpl(std::move(storage_id), where, nullptr); } if (resolved && !resolved.hasUUID() && resolved.database_name != DatabaseCatalog::TEMPORARY_DATABASE) { auto db = DatabaseCatalog::instance().tryGetDatabase(resolved.database_name); if (db) resolved.uuid = db->tryGetTableUUID(resolved.table_name); } return resolved; } StorageID Context::resolveStorageIDImpl(StorageID storage_id, StorageNamespace where, std::optional * exception) const { if (storage_id.uuid != UUIDHelpers::Nil) return storage_id; if (!storage_id) { if (exception) exception->emplace("Both table name and UUID are empty", ErrorCodes::UNKNOWN_TABLE); return storage_id; } bool look_for_external_table = where & StorageNamespace::ResolveExternal; bool in_current_database = where & StorageNamespace::ResolveCurrentDatabase; bool in_specified_database = where & StorageNamespace::ResolveGlobal; if (!storage_id.database_name.empty()) { if (in_specified_database) return storage_id; /// NOTE There is no guarantees that table actually exists in database. if (exception) exception->emplace("External and temporary tables have no database, but " + storage_id.database_name + " is specified", ErrorCodes::UNKNOWN_TABLE); return StorageID::createEmpty(); } /// Database name is not specified. It's temporary table or table in current database. if (look_for_external_table) { /// Global context should not contain temporary tables assert(!isGlobalContext() || getApplicationType() == ApplicationType::LOCAL); auto resolved_id = StorageID::createEmpty(); auto try_resolve = [&](ContextPtr context) -> bool { const auto & tables = context->external_tables_mapping; auto it = tables.find(storage_id.getTableName()); if (it == tables.end()) return false; resolved_id = it->second->getGlobalTableID(); return true; }; /// Firstly look for temporary table in current context if (try_resolve(shared_from_this())) return resolved_id; /// If not found and current context was created from some query context, look for temporary table in query context auto query_context_ptr = query_context.lock(); bool is_local_context = query_context_ptr && query_context_ptr.get() != this; if (is_local_context && try_resolve(query_context_ptr)) return resolved_id; /// If not found and current context was created from some session context, look for temporary table in session context auto session_context_ptr = session_context.lock(); bool is_local_or_query_context = session_context_ptr && session_context_ptr.get() != this; if (is_local_or_query_context && try_resolve(session_context_ptr)) return resolved_id; } /// Temporary table not found. It's table in current database. if (in_current_database) { if (current_database.empty()) { if (exception) exception->emplace("Default database is not selected", ErrorCodes::UNKNOWN_DATABASE); return StorageID::createEmpty(); } storage_id.database_name = current_database; /// NOTE There is no guarantees that table actually exists in database. return storage_id; } if (exception) exception->emplace("Cannot resolve database name for table " + storage_id.getNameForLogs(), ErrorCodes::UNKNOWN_TABLE); return StorageID::createEmpty(); } void Context::initZooKeeperMetadataTransaction(ZooKeeperMetadataTransactionPtr txn, [[maybe_unused]] bool attach_existing) { assert(!metadata_transaction); assert(attach_existing || query_context.lock().get() == this); metadata_transaction = std::move(txn); } ZooKeeperMetadataTransactionPtr Context::getZooKeeperMetadataTransaction() const { assert(!metadata_transaction || hasQueryContext()); return metadata_transaction; } void Context::resetZooKeeperMetadataTransaction() { assert(metadata_transaction); assert(hasQueryContext()); metadata_transaction = nullptr; } PartUUIDsPtr Context::getPartUUIDs() const { auto lock = getLock(); if (!part_uuids) /// For context itself, only this initialization is not const. /// We could have done in constructor. /// TODO: probably, remove this from Context. const_cast(part_uuids) = std::make_shared(); return part_uuids; } ReadTaskCallback Context::getReadTaskCallback() const { if (!next_task_callback.has_value()) throw Exception(fmt::format("Next task callback is not set for query {}", getInitialQueryId()), ErrorCodes::LOGICAL_ERROR); return next_task_callback.value(); } void Context::setReadTaskCallback(ReadTaskCallback && callback) { next_task_callback = callback; } PartUUIDsPtr Context::getIgnoredPartUUIDs() const { auto lock = getLock(); if (!ignored_part_uuids) const_cast(ignored_part_uuids) = std::make_shared(); return ignored_part_uuids; } AsynchronousInsertQueue * Context::getAsynchronousInsertQueue() const { return shared->async_insert_queue.get(); } void Context::setAsynchronousInsertQueue(const std::shared_ptr & ptr) { using namespace std::chrono; if (std::chrono::milliseconds(settings.async_insert_busy_timeout_ms) == 0ms) throw Exception("Setting async_insert_busy_timeout_ms can't be zero", ErrorCodes::INVALID_SETTING_VALUE); shared->async_insert_queue = ptr; } void Context::initializeBackgroundExecutors() { const size_t max_merges_and_mutations = getSettingsRef().background_pool_size * getSettingsRef().background_merges_mutations_concurrency_ratio; /// With this executor we can execute more tasks than threads we have shared->merge_mutate_executor = MergeMutateBackgroundExecutor::create ( "MergeMutate", /*max_threads_count*/getSettingsRef().background_pool_size, /*max_tasks_count*/max_merges_and_mutations, CurrentMetrics::BackgroundMergesAndMutationsPoolTask ); LOG_INFO(shared->log, "Initialized background executor for merges and mutations with num_threads={}, num_tasks={}", getSettingsRef().background_pool_size, max_merges_and_mutations); shared->moves_executor = OrdinaryBackgroundExecutor::create ( "Move", getSettingsRef().background_move_pool_size, getSettingsRef().background_move_pool_size, CurrentMetrics::BackgroundMovePoolTask ); LOG_INFO(shared->log, "Initialized background executor for move operations with num_threads={}, num_tasks={}", getSettingsRef().background_move_pool_size, getSettingsRef().background_move_pool_size); shared->fetch_executor = OrdinaryBackgroundExecutor::create ( "Fetch", getSettingsRef().background_fetches_pool_size, getSettingsRef().background_fetches_pool_size, CurrentMetrics::BackgroundFetchesPoolTask ); LOG_INFO(shared->log, "Initialized background executor for fetches with num_threads={}, num_tasks={}", getSettingsRef().background_fetches_pool_size, getSettingsRef().background_fetches_pool_size); shared->common_executor = OrdinaryBackgroundExecutor::create ( "Common", getSettingsRef().background_common_pool_size, getSettingsRef().background_common_pool_size, CurrentMetrics::BackgroundCommonPoolTask ); LOG_INFO(shared->log, "Initialized background executor for common operations (e.g. clearing old parts) with num_threads={}, num_tasks={}", getSettingsRef().background_common_pool_size, getSettingsRef().background_common_pool_size); } MergeMutateBackgroundExecutorPtr Context::getMergeMutateExecutor() const { return shared->merge_mutate_executor; } OrdinaryBackgroundExecutorPtr Context::getMovesExecutor() const { return shared->moves_executor; } OrdinaryBackgroundExecutorPtr Context::getFetchesExecutor() const { return shared->fetch_executor; } OrdinaryBackgroundExecutorPtr Context::getCommonExecutor() const { return shared->common_executor; } ReadSettings Context::getReadSettings() const { ReadSettings res; std::string_view read_method_str = settings.local_filesystem_read_method.value; if (auto opt_method = magic_enum::enum_cast(read_method_str)) res.local_fs_method = *opt_method; else throw Exception(ErrorCodes::UNKNOWN_READ_METHOD, "Unknown read method '{}'", read_method_str); res.local_fs_prefetch = settings.local_filesystem_read_prefetch; res.remote_fs_prefetch = settings.remote_filesystem_read_prefetch; res.remote_fs_backoff_threshold = settings.remote_fs_read_backoff_threshold; res.remote_fs_backoff_max_tries = settings.remote_fs_read_backoff_max_tries; res.local_fs_buffer_size = settings.max_read_buffer_size; res.direct_io_threshold = settings.min_bytes_to_use_direct_io; res.mmap_threshold = settings.min_bytes_to_use_mmap_io; res.priority = settings.read_priority; res.mmap_cache = getMMappedFileCache().get(); return res; } }