#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 #if !defined(ARCADIA_BUILD) # include "config_core.h" #endif namespace DB { namespace ErrorCodes { extern const int LOGICAL_ERROR; extern const int BAD_ARGUMENTS; extern const int CANNOT_KILL; extern const int NOT_IMPLEMENTED; extern const int TIMEOUT_EXCEEDED; extern const int TABLE_WAS_NOT_DROPPED; extern const int NO_ZOOKEEPER; } namespace ActionLocks { extern StorageActionBlockType PartsMerge; extern StorageActionBlockType PartsFetch; extern StorageActionBlockType PartsSend; extern StorageActionBlockType ReplicationQueue; extern StorageActionBlockType DistributedSend; extern StorageActionBlockType PartsTTLMerge; extern StorageActionBlockType PartsMove; } namespace { ExecutionStatus getOverallExecutionStatusOfCommands() { return ExecutionStatus(0); } /// Consequently tries to execute all commands and generates final exception message for failed commands template ExecutionStatus getOverallExecutionStatusOfCommands(Callable && command, Callables && ... commands) { ExecutionStatus status_head(0); try { command(); } catch (...) { status_head = ExecutionStatus::fromCurrentException(); } ExecutionStatus status_tail = getOverallExecutionStatusOfCommands(std::forward(commands)...); auto res_status = status_head.code != 0 ? status_head.code : status_tail.code; auto res_message = status_head.message + (status_tail.message.empty() ? "" : ("\n" + status_tail.message)); return ExecutionStatus(res_status, res_message); } /// Consequently tries to execute all commands and throws exception with info about failed commands template void executeCommandsAndThrowIfError(Callables && ... commands) { auto status = getOverallExecutionStatusOfCommands(std::forward(commands)...); if (status.code != 0) throw Exception(status.message, status.code); } AccessType getRequiredAccessType(StorageActionBlockType action_type) { if (action_type == ActionLocks::PartsMerge) return AccessType::SYSTEM_MERGES; else if (action_type == ActionLocks::PartsFetch) return AccessType::SYSTEM_FETCHES; else if (action_type == ActionLocks::PartsSend) return AccessType::SYSTEM_REPLICATED_SENDS; else if (action_type == ActionLocks::ReplicationQueue) return AccessType::SYSTEM_REPLICATION_QUEUES; else if (action_type == ActionLocks::DistributedSend) return AccessType::SYSTEM_DISTRIBUTED_SENDS; else if (action_type == ActionLocks::PartsTTLMerge) return AccessType::SYSTEM_TTL_MERGES; else if (action_type == ActionLocks::PartsMove) return AccessType::SYSTEM_MOVES; else throw Exception("Unknown action type: " + std::to_string(action_type), ErrorCodes::LOGICAL_ERROR); } constexpr std::string_view table_is_not_replicated = "Table {} is not replicated"; } /// Implements SYSTEM [START|STOP] void InterpreterSystemQuery::startStopAction(StorageActionBlockType action_type, bool start) { auto manager = getContext()->getActionLocksManager(); manager->cleanExpired(); if (volume_ptr && action_type == ActionLocks::PartsMerge) { volume_ptr->setAvoidMergesUserOverride(!start); } else if (table_id) { auto table = DatabaseCatalog::instance().tryGetTable(table_id, getContext()); if (table) { if (start) { manager->remove(table, action_type); table->onActionLockRemove(action_type); } else manager->add(table, action_type); } } else { auto access = getContext()->getAccess(); for (auto & elem : DatabaseCatalog::instance().getDatabases()) { for (auto iterator = elem.second->getTablesIterator(getContext()); iterator->isValid(); iterator->next()) { StoragePtr table = iterator->table(); if (!table) continue; if (!access->isGranted(getRequiredAccessType(action_type), elem.first, iterator->name())) { LOG_INFO( log, "Access {} denied, skipping {}.{}", toString(getRequiredAccessType(action_type)), elem.first, iterator->name()); continue; } if (start) { manager->remove(table, action_type); table->onActionLockRemove(action_type); } else manager->add(table, action_type); } } } } InterpreterSystemQuery::InterpreterSystemQuery(const ASTPtr & query_ptr_, ContextMutablePtr context_) : WithMutableContext(context_), query_ptr(query_ptr_->clone()), log(&Poco::Logger::get("InterpreterSystemQuery")) { } BlockIO InterpreterSystemQuery::execute() { auto & query = query_ptr->as(); if (!query.cluster.empty()) return executeDDLQueryOnCluster(query_ptr, getContext(), getRequiredAccessForDDLOnCluster()); using Type = ASTSystemQuery::Type; /// Use global context with fresh system profile settings auto system_context = Context::createCopy(getContext()->getGlobalContext()); system_context->setSetting("profile", getContext()->getSystemProfileName()); /// Make canonical query for simpler processing if (query.type == Type::RELOAD_DICTIONARY) { if (!query.database.empty()) query.table = query.database + "." + query.table; } else if (!query.table.empty()) { table_id = getContext()->resolveStorageID(StorageID(query.database, query.table), Context::ResolveOrdinary); } volume_ptr = {}; if (!query.storage_policy.empty() && !query.volume.empty()) volume_ptr = getContext()->getStoragePolicy(query.storage_policy)->getVolumeByName(query.volume); switch (query.type) { case Type::SHUTDOWN: { getContext()->checkAccess(AccessType::SYSTEM_SHUTDOWN); if (kill(0, SIGTERM)) throwFromErrno("System call kill(0, SIGTERM) failed", ErrorCodes::CANNOT_KILL); break; } case Type::KILL: { getContext()->checkAccess(AccessType::SYSTEM_SHUTDOWN); /// Exit with the same code as it is usually set by shell when process is terminated by SIGKILL. /// It's better than doing 'raise' or 'kill', because they have no effect for 'init' process (with pid = 0, usually in Docker). LOG_INFO(log, "Exit immediately as the SYSTEM KILL command has been issued."); _exit(128 + SIGKILL); // break; /// unreachable } case Type::SUSPEND: { auto command = fmt::format("kill -STOP {0} && sleep {1} && kill -CONT {0}", getpid(), query.seconds); LOG_DEBUG(log, "Will run {}", command); auto res = ShellCommand::execute(command); res->in.close(); WriteBufferFromOwnString out; copyData(res->out, out); copyData(res->err, out); if (!out.str().empty()) LOG_DEBUG(log, "The command returned output: {}", command, out.str()); res->wait(); break; } case Type::DROP_DNS_CACHE: { getContext()->checkAccess(AccessType::SYSTEM_DROP_DNS_CACHE); DNSResolver::instance().dropCache(); /// Reinitialize clusters to update their resolved_addresses system_context->reloadClusterConfig(); break; } case Type::DROP_MARK_CACHE: getContext()->checkAccess(AccessType::SYSTEM_DROP_MARK_CACHE); system_context->dropMarkCache(); break; case Type::DROP_UNCOMPRESSED_CACHE: getContext()->checkAccess(AccessType::SYSTEM_DROP_UNCOMPRESSED_CACHE); system_context->dropUncompressedCache(); break; case Type::DROP_MMAP_CACHE: getContext()->checkAccess(AccessType::SYSTEM_DROP_MMAP_CACHE); system_context->dropMMappedFileCache(); break; #if USE_EMBEDDED_COMPILER case Type::DROP_COMPILED_EXPRESSION_CACHE: getContext()->checkAccess(AccessType::SYSTEM_DROP_COMPILED_EXPRESSION_CACHE); if (auto * cache = CompiledExpressionCacheFactory::instance().tryGetCache()) cache->reset(); break; #endif case Type::RELOAD_DICTIONARY: { getContext()->checkAccess(AccessType::SYSTEM_RELOAD_DICTIONARY); auto & external_dictionaries_loader = system_context->getExternalDictionariesLoader(); external_dictionaries_loader.reloadDictionary(query.table, getContext()); ExternalDictionariesLoader::resetAll(); break; } case Type::RELOAD_DICTIONARIES: { getContext()->checkAccess(AccessType::SYSTEM_RELOAD_DICTIONARY); executeCommandsAndThrowIfError( [&] { system_context->getExternalDictionariesLoader().reloadAllTriedToLoad(); }, [&] { system_context->getEmbeddedDictionaries().reload(); } ); ExternalDictionariesLoader::resetAll(); break; } case Type::RELOAD_MODEL: { getContext()->checkAccess(AccessType::SYSTEM_RELOAD_MODEL); auto & external_models_loader = system_context->getExternalModelsLoader(); external_models_loader.reloadModel(query.target_model); break; } case Type::RELOAD_MODELS: { getContext()->checkAccess(AccessType::SYSTEM_RELOAD_MODEL); auto & external_models_loader = system_context->getExternalModelsLoader(); external_models_loader.reloadAllTriedToLoad(); break; } case Type::RELOAD_EMBEDDED_DICTIONARIES: getContext()->checkAccess(AccessType::SYSTEM_RELOAD_EMBEDDED_DICTIONARIES); system_context->getEmbeddedDictionaries().reload(); break; case Type::RELOAD_CONFIG: getContext()->checkAccess(AccessType::SYSTEM_RELOAD_CONFIG); system_context->reloadConfig(); break; case Type::RELOAD_SYMBOLS: { #if defined(__ELF__) && !defined(__FreeBSD__) getContext()->checkAccess(AccessType::SYSTEM_RELOAD_SYMBOLS); (void)SymbolIndex::instance(true); break; #else throw Exception("SYSTEM RELOAD SYMBOLS is not supported on current platform", ErrorCodes::NOT_IMPLEMENTED); #endif } case Type::STOP_MERGES: startStopAction(ActionLocks::PartsMerge, false); break; case Type::START_MERGES: startStopAction(ActionLocks::PartsMerge, true); break; case Type::STOP_TTL_MERGES: startStopAction(ActionLocks::PartsTTLMerge, false); break; case Type::START_TTL_MERGES: startStopAction(ActionLocks::PartsTTLMerge, true); break; case Type::STOP_MOVES: startStopAction(ActionLocks::PartsMove, false); break; case Type::START_MOVES: startStopAction(ActionLocks::PartsMove, true); break; case Type::STOP_FETCHES: startStopAction(ActionLocks::PartsFetch, false); break; case Type::START_FETCHES: startStopAction(ActionLocks::PartsFetch, true); break; case Type::STOP_REPLICATED_SENDS: startStopAction(ActionLocks::PartsSend, false); break; case Type::START_REPLICATED_SENDS: startStopAction(ActionLocks::PartsSend, true); break; case Type::STOP_REPLICATION_QUEUES: startStopAction(ActionLocks::ReplicationQueue, false); break; case Type::START_REPLICATION_QUEUES: startStopAction(ActionLocks::ReplicationQueue, true); break; case Type::STOP_DISTRIBUTED_SENDS: startStopAction(ActionLocks::DistributedSend, false); break; case Type::START_DISTRIBUTED_SENDS: startStopAction(ActionLocks::DistributedSend, true); break; case Type::DROP_REPLICA: dropReplica(query); break; case Type::SYNC_REPLICA: syncReplica(query); break; case Type::FLUSH_DISTRIBUTED: flushDistributed(query); break; case Type::RESTART_REPLICAS: restartReplicas(system_context); break; case Type::RESTART_REPLICA: if (!tryRestartReplica(table_id, system_context)) throw Exception(ErrorCodes::BAD_ARGUMENTS, table_is_not_replicated.data(), table_id.getNameForLogs()); break; case Type::RESTORE_REPLICA: restoreReplica(); break; case Type::RESTART_DISK: restartDisk(query.disk); break; case Type::FLUSH_LOGS: { getContext()->checkAccess(AccessType::SYSTEM_FLUSH_LOGS); executeCommandsAndThrowIfError( [&] { if (auto query_log = getContext()->getQueryLog()) query_log->flush(true); }, [&] { if (auto part_log = getContext()->getPartLog("")) part_log->flush(true); }, [&] { if (auto query_thread_log = getContext()->getQueryThreadLog()) query_thread_log->flush(true); }, [&] { if (auto trace_log = getContext()->getTraceLog()) trace_log->flush(true); }, [&] { if (auto text_log = getContext()->getTextLog()) text_log->flush(true); }, [&] { if (auto metric_log = getContext()->getMetricLog()) metric_log->flush(true); }, [&] { if (auto asynchronous_metric_log = getContext()->getAsynchronousMetricLog()) asynchronous_metric_log->flush(true); }, [&] { if (auto opentelemetry_span_log = getContext()->getOpenTelemetrySpanLog()) opentelemetry_span_log->flush(true); }, [&] () { if (auto query_views_log = getContext()->getQueryViewsLog()) query_views_log->flush(true); } ); break; } case Type::STOP_LISTEN_QUERIES: case Type::START_LISTEN_QUERIES: throw Exception(String(ASTSystemQuery::typeToString(query.type)) + " is not supported yet", ErrorCodes::NOT_IMPLEMENTED); default: throw Exception("Unknown type of SYSTEM query", ErrorCodes::BAD_ARGUMENTS); } return BlockIO(); } void InterpreterSystemQuery::restoreReplica() { getContext()->checkAccess(AccessType::SYSTEM_RESTORE_REPLICA, table_id); const zkutil::ZooKeeperPtr& zookeeper = getContext()->getZooKeeper(); if (zookeeper->expired()) throw Exception(ErrorCodes::NO_ZOOKEEPER, "Cannot restore table metadata because ZooKeeper session has expired"); const StoragePtr table_ptr = DatabaseCatalog::instance().getTable(table_id, getContext()); auto * const table_replicated_ptr = dynamic_cast(table_ptr.get()); if (table_replicated_ptr == nullptr) throw Exception(ErrorCodes::BAD_ARGUMENTS, table_is_not_replicated.data(), table_id.getNameForLogs()); auto & table_replicated = *table_replicated_ptr; StorageReplicatedMergeTree::Status status; table_replicated.getStatus(status); if (!status.is_readonly) throw Exception(ErrorCodes::BAD_ARGUMENTS, "Replica must be readonly"); const String replica_name = table_replicated.getReplicaName(); const String& zk_root_path = status.zookeeper_path; if (String replica_path = zk_root_path + "replicas/" + replica_name; zookeeper->exists(replica_path)) throw Exception(ErrorCodes::BAD_ARGUMENTS, "Replica path is present at {} -- nothing to restore. " "If you are sure that metadata it lost and replica path contain some garbage, " "then use SYSTEM DROP REPLICA query first.", replica_path); table_replicated.restoreMetadataInZooKeeper(); } StoragePtr InterpreterSystemQuery::tryRestartReplica(const StorageID & replica, ContextMutablePtr system_context, bool need_ddl_guard) { getContext()->checkAccess(AccessType::SYSTEM_RESTART_REPLICA, replica); auto table_ddl_guard = need_ddl_guard ? DatabaseCatalog::instance().getDDLGuard(replica.getDatabaseName(), replica.getTableName()) : nullptr; auto [database, table] = DatabaseCatalog::instance().tryGetDatabaseAndTable(replica, getContext()); ASTPtr create_ast; /// Detach actions if (!table || !dynamic_cast(table.get())) return nullptr; table->flushAndShutdown(); { /// If table was already dropped by anyone, an exception will be thrown auto table_lock = table->lockExclusively(getContext()->getCurrentQueryId(), getContext()->getSettingsRef().lock_acquire_timeout); create_ast = database->getCreateTableQuery(replica.table_name, getContext()); database->detachTable(replica.table_name); } table.reset(); /// Attach actions /// getCreateTableQuery must return canonical CREATE query representation, there are no need for AST postprocessing auto & create = create_ast->as(); create.attach = true; auto columns = InterpreterCreateQuery::getColumnsDescription(*create.columns_list->columns, system_context, true); auto constraints = InterpreterCreateQuery::getConstraintsDescription(create.columns_list->constraints); auto data_path = database->getTableDataPath(create); table = StorageFactory::instance().get(create, data_path, system_context, system_context->getGlobalContext(), columns, constraints, false); database->attachTable(replica.table_name, table, data_path); table->startup(); return table; } void InterpreterSystemQuery::restartReplicas(ContextMutablePtr system_context) { std::vector replica_names; auto & catalog = DatabaseCatalog::instance(); for (auto & elem : catalog.getDatabases()) for (auto it = elem.second->getTablesIterator(getContext()); it->isValid(); it->next()) if (dynamic_cast(it->table().get())) replica_names.emplace_back(it->databaseName(), it->name()); if (replica_names.empty()) return; TableGuards guards; for (const auto & name : replica_names) guards.emplace(UniqueTableName{name.database_name, name.table_name}, nullptr); for (auto & guard : guards) guard.second = catalog.getDDLGuard(guard.first.database_name, guard.first.table_name); ThreadPool pool(std::min(size_t(getNumberOfPhysicalCPUCores()), replica_names.size())); for (auto & replica : replica_names) { LOG_TRACE(log, "Restarting replica on {}", replica.getNameForLogs()); pool.scheduleOrThrowOnError([&]() { tryRestartReplica(replica, system_context, false); }); } pool.wait(); } void InterpreterSystemQuery::dropReplica(ASTSystemQuery & query) { if (query.replica.empty()) throw Exception("Replica name is empty", ErrorCodes::BAD_ARGUMENTS); if (!table_id.empty()) { getContext()->checkAccess(AccessType::SYSTEM_DROP_REPLICA, table_id); StoragePtr table = DatabaseCatalog::instance().getTable(table_id, getContext()); if (!dropReplicaImpl(query, table)) throw Exception(ErrorCodes::BAD_ARGUMENTS, table_is_not_replicated.data(), table_id.getNameForLogs()); } else if (!query.database.empty()) { getContext()->checkAccess(AccessType::SYSTEM_DROP_REPLICA, query.database); DatabasePtr database = DatabaseCatalog::instance().getDatabase(query.database); for (auto iterator = database->getTablesIterator(getContext()); iterator->isValid(); iterator->next()) dropReplicaImpl(query, iterator->table()); LOG_TRACE(log, "Dropped replica {} from database {}", query.replica, backQuoteIfNeed(database->getDatabaseName())); } else if (query.is_drop_whole_replica) { getContext()->checkAccess(AccessType::SYSTEM_DROP_REPLICA); auto databases = DatabaseCatalog::instance().getDatabases(); for (auto & elem : databases) { DatabasePtr & database = elem.second; for (auto iterator = database->getTablesIterator(getContext()); iterator->isValid(); iterator->next()) dropReplicaImpl(query, iterator->table()); LOG_TRACE(log, "Dropped replica {} from database {}", query.replica, backQuoteIfNeed(database->getDatabaseName())); } } else if (!query.replica_zk_path.empty()) { getContext()->checkAccess(AccessType::SYSTEM_DROP_REPLICA); String remote_replica_path = fs::path(query.replica_zk_path) / "replicas" / query.replica; /// This check is actually redundant, but it may prevent from some user mistakes for (auto & elem : DatabaseCatalog::instance().getDatabases()) { DatabasePtr & database = elem.second; for (auto iterator = database->getTablesIterator(getContext()); iterator->isValid(); iterator->next()) { if (auto * storage_replicated = dynamic_cast(iterator->table().get())) { StorageReplicatedMergeTree::Status status; storage_replicated->getStatus(status); if (status.zookeeper_path == query.replica_zk_path) throw Exception("There is a local table " + storage_replicated->getStorageID().getNameForLogs() + ", which has the same table path in ZooKeeper. Please check the path in query. " "If you want to drop replica of this table, use `DROP TABLE` " "or `SYSTEM DROP REPLICA 'name' FROM db.table`", ErrorCodes::TABLE_WAS_NOT_DROPPED); } } } auto zookeeper = getContext()->getZooKeeper(); bool looks_like_table_path = zookeeper->exists(query.replica_zk_path + "/replicas") || zookeeper->exists(query.replica_zk_path + "/dropped"); if (!looks_like_table_path) throw Exception("Specified path " + query.replica_zk_path + " does not look like a table path", ErrorCodes::TABLE_WAS_NOT_DROPPED); if (zookeeper->exists(remote_replica_path + "/is_active")) throw Exception("Can't remove replica: " + query.replica + ", because it's active", ErrorCodes::TABLE_WAS_NOT_DROPPED); StorageReplicatedMergeTree::dropReplica(zookeeper, query.replica_zk_path, query.replica, log); LOG_INFO(log, "Dropped replica {}", remote_replica_path); } else throw Exception("Invalid query", ErrorCodes::LOGICAL_ERROR); } bool InterpreterSystemQuery::dropReplicaImpl(ASTSystemQuery & query, const StoragePtr & table) { auto * storage_replicated = dynamic_cast(table.get()); if (!storage_replicated) return false; StorageReplicatedMergeTree::Status status; auto zookeeper = getContext()->getZooKeeper(); storage_replicated->getStatus(status); /// Do not allow to drop local replicas and active remote replicas if (query.replica == status.replica_name) throw Exception("We can't drop local replica, please use `DROP TABLE` " "if you want to clean the data and drop this replica", ErrorCodes::TABLE_WAS_NOT_DROPPED); /// NOTE it's not atomic: replica may become active after this check, but before dropReplica(...) /// However, the main usecase is to drop dead replica, which cannot become active. /// This check prevents only from accidental drop of some other replica. if (zookeeper->exists(status.zookeeper_path + "/replicas/" + query.replica + "/is_active")) throw Exception("Can't drop replica: " + query.replica + ", because it's active", ErrorCodes::TABLE_WAS_NOT_DROPPED); storage_replicated->dropReplica(zookeeper, status.zookeeper_path, query.replica, log); LOG_TRACE(log, "Dropped replica {} of {}", query.replica, table->getStorageID().getNameForLogs()); return true; } void InterpreterSystemQuery::syncReplica(ASTSystemQuery &) { getContext()->checkAccess(AccessType::SYSTEM_SYNC_REPLICA, table_id); StoragePtr table = DatabaseCatalog::instance().getTable(table_id, getContext()); if (auto * storage_replicated = dynamic_cast(table.get())) { LOG_TRACE(log, "Synchronizing entries in replica's queue with table's log and waiting for it to become empty"); if (!storage_replicated->waitForShrinkingQueueSize(0, getContext()->getSettingsRef().receive_timeout.totalMilliseconds())) { LOG_ERROR(log, "SYNC REPLICA {}: Timed out!", table_id.getNameForLogs()); throw Exception( "SYNC REPLICA " + table_id.getNameForLogs() + ": command timed out. " "See the 'receive_timeout' setting", ErrorCodes::TIMEOUT_EXCEEDED); } LOG_TRACE(log, "SYNC REPLICA {}: OK", table_id.getNameForLogs()); } else throw Exception(ErrorCodes::BAD_ARGUMENTS, table_is_not_replicated.data(), table_id.getNameForLogs()); } void InterpreterSystemQuery::flushDistributed(ASTSystemQuery &) { getContext()->checkAccess(AccessType::SYSTEM_FLUSH_DISTRIBUTED, table_id); if (auto * storage_distributed = dynamic_cast(DatabaseCatalog::instance().getTable(table_id, getContext()).get())) storage_distributed->flushClusterNodesAllData(getContext()); else throw Exception("Table " + table_id.getNameForLogs() + " is not distributed", ErrorCodes::BAD_ARGUMENTS); } void InterpreterSystemQuery::restartDisk(String & name) { getContext()->checkAccess(AccessType::SYSTEM_RESTART_DISK); auto disk = getContext()->getDisk(name); if (DiskRestartProxy * restart_proxy = dynamic_cast(disk.get())) restart_proxy->restart(); else throw Exception("Disk " + name + " doesn't have possibility to restart", ErrorCodes::BAD_ARGUMENTS); } AccessRightsElements InterpreterSystemQuery::getRequiredAccessForDDLOnCluster() const { const auto & query = query_ptr->as(); using Type = ASTSystemQuery::Type; AccessRightsElements required_access; switch (query.type) { case Type::SHUTDOWN: [[fallthrough]]; case Type::KILL: [[fallthrough]]; case Type::SUSPEND: { required_access.emplace_back(AccessType::SYSTEM_SHUTDOWN); break; } case Type::DROP_DNS_CACHE: [[fallthrough]]; case Type::DROP_MARK_CACHE: [[fallthrough]]; case Type::DROP_MMAP_CACHE: [[fallthrough]]; #if USE_EMBEDDED_COMPILER case Type::DROP_COMPILED_EXPRESSION_CACHE: [[fallthrough]]; #endif case Type::DROP_UNCOMPRESSED_CACHE: { required_access.emplace_back(AccessType::SYSTEM_DROP_CACHE); break; } case Type::RELOAD_DICTIONARY: [[fallthrough]]; case Type::RELOAD_DICTIONARIES: [[fallthrough]]; case Type::RELOAD_EMBEDDED_DICTIONARIES: { required_access.emplace_back(AccessType::SYSTEM_RELOAD_DICTIONARY); break; } case Type::RELOAD_MODEL: [[fallthrough]]; case Type::RELOAD_MODELS: { required_access.emplace_back(AccessType::SYSTEM_RELOAD_MODEL); break; } case Type::RELOAD_CONFIG: { required_access.emplace_back(AccessType::SYSTEM_RELOAD_CONFIG); break; } case Type::RELOAD_SYMBOLS: { required_access.emplace_back(AccessType::SYSTEM_RELOAD_SYMBOLS); break; } case Type::STOP_MERGES: [[fallthrough]]; case Type::START_MERGES: { if (query.table.empty()) required_access.emplace_back(AccessType::SYSTEM_MERGES); else required_access.emplace_back(AccessType::SYSTEM_MERGES, query.database, query.table); break; } case Type::STOP_TTL_MERGES: [[fallthrough]]; case Type::START_TTL_MERGES: { if (query.table.empty()) required_access.emplace_back(AccessType::SYSTEM_TTL_MERGES); else required_access.emplace_back(AccessType::SYSTEM_TTL_MERGES, query.database, query.table); break; } case Type::STOP_MOVES: [[fallthrough]]; case Type::START_MOVES: { if (query.table.empty()) required_access.emplace_back(AccessType::SYSTEM_MOVES); else required_access.emplace_back(AccessType::SYSTEM_MOVES, query.database, query.table); break; } case Type::STOP_FETCHES: [[fallthrough]]; case Type::START_FETCHES: { if (query.table.empty()) required_access.emplace_back(AccessType::SYSTEM_FETCHES); else required_access.emplace_back(AccessType::SYSTEM_FETCHES, query.database, query.table); break; } case Type::STOP_DISTRIBUTED_SENDS: [[fallthrough]]; case Type::START_DISTRIBUTED_SENDS: { if (query.table.empty()) required_access.emplace_back(AccessType::SYSTEM_DISTRIBUTED_SENDS); else required_access.emplace_back(AccessType::SYSTEM_DISTRIBUTED_SENDS, query.database, query.table); break; } case Type::STOP_REPLICATED_SENDS: [[fallthrough]]; case Type::START_REPLICATED_SENDS: { if (query.table.empty()) required_access.emplace_back(AccessType::SYSTEM_REPLICATED_SENDS); else required_access.emplace_back(AccessType::SYSTEM_REPLICATED_SENDS, query.database, query.table); break; } case Type::STOP_REPLICATION_QUEUES: [[fallthrough]]; case Type::START_REPLICATION_QUEUES: { if (query.table.empty()) required_access.emplace_back(AccessType::SYSTEM_REPLICATION_QUEUES); else required_access.emplace_back(AccessType::SYSTEM_REPLICATION_QUEUES, query.database, query.table); break; } case Type::DROP_REPLICA: { required_access.emplace_back(AccessType::SYSTEM_DROP_REPLICA, query.database, query.table); break; } case Type::RESTORE_REPLICA: { required_access.emplace_back(AccessType::SYSTEM_RESTORE_REPLICA, query.database, query.table); break; } case Type::SYNC_REPLICA: { required_access.emplace_back(AccessType::SYSTEM_SYNC_REPLICA, query.database, query.table); break; } case Type::RESTART_REPLICA: { required_access.emplace_back(AccessType::SYSTEM_RESTART_REPLICA, query.database, query.table); break; } case Type::RESTART_REPLICAS: { required_access.emplace_back(AccessType::SYSTEM_RESTART_REPLICA); break; } case Type::FLUSH_DISTRIBUTED: { required_access.emplace_back(AccessType::SYSTEM_FLUSH_DISTRIBUTED, query.database, query.table); break; } case Type::FLUSH_LOGS: { required_access.emplace_back(AccessType::SYSTEM_FLUSH_LOGS); break; } case Type::RESTART_DISK: { required_access.emplace_back(AccessType::SYSTEM_RESTART_DISK); break; } case Type::STOP_LISTEN_QUERIES: break; case Type::START_LISTEN_QUERIES: break; case Type::UNKNOWN: break; case Type::END: break; } return required_access; } void InterpreterSystemQuery::extendQueryLogElemImpl(QueryLogElement & elem, const ASTPtr & /*ast*/, ContextPtr) const { elem.query_kind = "System"; } }