Catalog_Namespace::Catalog Class Reference

class for a per-database catalog. also includes metadata for the current database and the current user. More...

#include <Catalog.h>

Collaboration diagram for Catalog_Namespace::Catalog:

Public Member Functions
	Catalog (const std::string &basePath, const DBMetadata &curDB, std::shared_ptr< Data_Namespace::DataMgr > dataMgr, const std::vector< LeafHostInfo > &string_dict_hosts, std::shared_ptr< Calcite > calcite, bool is_new_db)
	Constructor - takes basePath to already extant data directory for writing. More...
	Catalog ()
	Constructor builds a hollow catalog used during constructor of other catalogs. More...
	~Catalog ()
	Destructor - deletes all ColumnDescriptor and TableDescriptor structures which were allocated on the heap and writes Catalog to Sqlite. More...
void	createTable (TableDescriptor &td, const std::list< ColumnDescriptor > &columns, const std::vector< Parser::SharedDictionaryDef > &shared_dict_defs, bool isLogicalTable)
void	createShardedTable (TableDescriptor &td, const std::list< ColumnDescriptor > &columns, const std::vector< Parser::SharedDictionaryDef > &shared_dict_defs)
int32_t	createDashboard (DashboardDescriptor &vd)
void	replaceDashboard (DashboardDescriptor &vd)
std::string	createLink (LinkDescriptor &ld, size_t min_length)
void	dropTable (const TableDescriptor *td)
void	truncateTable (const TableDescriptor *td)
void	renameTable (const TableDescriptor *td, const std::string &newTableName)
void	renameTable (std::vector< std::pair< std::string, std::string >> &names)
void	renameColumn (const TableDescriptor *td, const ColumnDescriptor *cd, const std::string &newColumnName)
void	addColumn (const TableDescriptor &td, ColumnDescriptor &cd)
void	dropColumn (const TableDescriptor &td, const ColumnDescriptor &cd)
void	invalidateCachesForTable (const int table_id)
void	removeFragmenterForTable (const int table_id) const
const std::map< int, const ColumnDescriptor * >	getDictionaryToColumnMapping ()
const TableDescriptor *	getMetadataForTable (const std::string &tableName, const bool populateFragmenter=true) const
	Returns a pointer to a const TableDescriptor struct matching the provided tableName. More...
const TableDescriptor *	getMetadataForTable (int tableId, bool populateFragmenter=true) const
std::optional< std::string >	getTableName (int32_t table_id) const
std::optional< int32_t >	getTableId (const std::string &table_name) const
const ColumnDescriptor *	getMetadataForColumn (int tableId, const std::string &colName) const
const ColumnDescriptor *	getMetadataForColumn (int tableId, int columnId) const
const std::optional< std::string >	getColumnName (int table_id, int column_id) const
const int	getColumnIdBySpi (const int tableId, const size_t spi) const
const ColumnDescriptor *	getMetadataForColumnBySpi (const int tableId, const size_t spi) const
const DashboardDescriptor *	getMetadataForDashboard (const std::string &userId, const std::string &dashName) const
const DashboardDescriptor *	getMetadataForDashboard (const int32_t dashboard_id) const
void	deleteMetadataForDashboards (const std::vector< int32_t > ids, const UserMetadata &user)
const LinkDescriptor *	getMetadataForLink (const std::string &link) const
const LinkDescriptor *	getMetadataForLink (int linkId) const
const foreign_storage::ForeignTable *	getForeignTable (const std::string &tableName) const
const foreign_storage::ForeignTable *	getForeignTable (int table_id) const
std::list< const ColumnDescriptor * >	getAllColumnMetadataForTable (const int tableId, const bool fetchSystemColumns, const bool fetchVirtualColumns, const bool fetchPhysicalColumns) const
	Returns a list of pointers to constant ColumnDescriptor structs for all the columns from a particular table specified by table id. More...
std::list< const TableDescriptor * >	getAllTableMetadata () const
std::vector< TableDescriptor >	getAllTableMetadataCopy () const
std::list< const DashboardDescriptor * >	getAllDashboardsMetadata () const
std::vector< DashboardDescriptor >	getAllDashboardsMetadataCopy () const
const DBMetadata &	getCurrentDB () const
Data_Namespace::DataMgr &	getDataMgr () const
std::shared_ptr< Calcite >	getCalciteMgr () const
const std::string &	getCatalogBasePath () const
const DictDescriptor *	getMetadataForDict (int dict_ref, bool loadDict=true) const
const std::vector< LeafHostInfo > &	getStringDictionaryHosts () const
const ColumnDescriptor *	getShardColumnMetadataForTable (const TableDescriptor *td) const
std::vector< const TableDescriptor * >	getPhysicalTablesDescriptors (const TableDescriptor *logical_table_desc, bool populate_fragmenter=true) const
std::vector< std::pair < int32_t, int32_t > >	getAllPersistedTableAndShardIds () const
std::vector< std::string >	getTableNamesForUser (const UserMetadata &user, const GetTablesType get_tables_type) const
std::vector< TableMetadata >	getTablesMetadataForUser (const UserMetadata &user_metadata, const GetTablesType get_tables_type, const std::string &filter_table_name) const
int32_t	getTableEpoch (const int32_t db_id, const int32_t table_id) const
void	setTableEpoch (const int db_id, const int table_id, const int new_epoch)
void	setMaxRollbackEpochs (const int32_t table_id, const int32_t max_rollback_epochs)
void	setMaxRows (const int32_t table_id, const int64_t max_rows)
std::vector< TableEpochInfo >	getTableEpochs (const int32_t db_id, const int32_t table_id) const
void	setTableEpochs (const int32_t db_id, const std::vector< TableEpochInfo > &table_epochs) const
void	setTableEpochsLogExceptions (const int32_t db_id, const std::vector< TableEpochInfo > &table_epochs) const
int	getDatabaseId () const
SqliteConnector &	getSqliteConnector ()
void	roll (const bool forward)
DictRef	addDictionary (ColumnDescriptor &cd)
void	delDictionary (const ColumnDescriptor &cd)
void	getDictionary (const ColumnDescriptor &cd, std::map< int, StringDictionary * > &stringDicts)
const bool	checkMetadataForDeletedRecs (const TableDescriptor *td, int column_id) const
const ColumnDescriptor *	getDeletedColumn (const TableDescriptor *td) const
const ColumnDescriptor *	getDeletedColumnIfRowsDeleted (const TableDescriptor *td) const
void	setDeletedColumn (const TableDescriptor *td, const ColumnDescriptor *cd)
int	getLogicalTableId (const int physicalTableId) const
void	checkpoint (const int logicalTableId) const
void	checkpointWithAutoRollback (const int logical_table_id) const
void	resetTableEpochFloor (const int logicalTableId) const
std::string	name () const
void	eraseDbMetadata ()
void	eraseDbPhysicalData ()
void	eraseTablePhysicalData (const TableDescriptor *td)
void	setForReload (const int32_t tableId)
std::vector< std::string >	getTableDataDirectories (const TableDescriptor *td) const
std::vector< std::string >	getTableDictDirectories (const TableDescriptor *td) const
std::set< std::string >	getTableDictDirectoryPaths (int32_t table_id) const
std::string	getColumnDictDirectory (const ColumnDescriptor *cd, bool file_name_only=true) const
std::string	dumpSchema (const TableDescriptor *td) const
std::string	dumpCreateTable (const TableDescriptor *td, bool multiline_formatting=true, bool dump_defaults=false) const
std::optional< std::string >	dumpCreateTable (int32_t table_id, bool multiline_formatting=true, bool dump_defaults=false) const
std::string	dumpCreateServer (const std::string &name, bool multiline_formatting=true) const
void	createForeignServer (std::unique_ptr< foreign_storage::ForeignServer > foreign_server, bool if_not_exists)
const foreign_storage::ForeignServer *	getForeignServer (const std::string &server_name) const
const std::unique_ptr< const foreign_storage::ForeignServer >	getForeignServerFromStorage (const std::string &server_name)
const std::unique_ptr< const foreign_storage::ForeignTable >	getForeignTableFromStorage (int table_id)
void	changeForeignServerOwner (const std::string &server_name, const int new_owner_id)
void	setForeignServerDataWrapper (const std::string &server_name, const std::string &data_wrapper)
void	setForeignServerOptions (const std::string &server_name, const std::string &options)
void	renameForeignServer (const std::string &server_name, const std::string &name)
void	dropForeignServer (const std::string &server_name)
std::vector< const foreign_storage::ForeignTable * >	getAllForeignTablesForForeignServer (const int32_t foreign_server_id)
	Get all of the foreign tables for associated with a foreign server id. More...
void	getForeignServersForUser (const rapidjson::Value *filters, const UserMetadata &user, std::vector< const foreign_storage::ForeignServer * > &results)
void	createDefaultServersIfNotExists ()
bool	validateNonExistentTableOrView (const std::string &name, const bool if_not_exists)
std::vector< const TableDescriptor * >	getAllForeignTablesForRefresh () const
void	updateForeignTableRefreshTimes (const int32_t table_id)
void	setForeignTableOptions (const std::string &table_name, foreign_storage::OptionsMap &options_map, bool clear_existing_options=true)
void	updateLeaf (const LeafHostInfo &string_dict_host)
void	setUncappedTableEpoch (const std::string &table_name)
int32_t	createCustomExpression (std::unique_ptr< CustomExpression > custom_expression)
const CustomExpression *	getCustomExpression (int32_t custom_expression_id) const
const std::unique_ptr< const CustomExpression >	getCustomExpressionFromStorage (int32_t custom_expression_id)
std::vector< const CustomExpression * >	getCustomExpressionsForUser (const UserMetadata &user) const
void	updateCustomExpression (int32_t custom_expression_id, const std::string &expression_json)
void	deleteCustomExpressions (const std::vector< int32_t > &custom_expression_ids, bool do_soft_delete)
void	reassignOwners (const std::set< std::string > &old_owners, const std::string &new_owner)
bool	isInfoSchemaDb () const

Static Public Member Functions
static void	expandGeoColumn (const ColumnDescriptor &cd, std::list< ColumnDescriptor > &columns)
static const std::string	getForeignTableSchema (bool if_not_exists=false)
static const std::string	getForeignServerSchema (bool if_not_exists=false)
static const std::string	getCustomExpressionsSchema (bool if_not_exists=false)

Public Attributes
std::unique_ptr < heavyai::DistributedSharedMutex >	dcatalogMutex_
std::unique_ptr < heavyai::DistributedSharedMutex >	dsqliteMutex_
std::mutex	sqliteMutex_
heavyai::shared_mutex	sharedMutex_
std::atomic< std::thread::id >	thread_holding_sqlite_lock
std::atomic< std::thread::id >	thread_holding_write_lock
bool	initialized_ = false

Static Public Attributes
static thread_local bool	thread_holds_read_lock = false

Protected Types
using	ColumnDescriptorsForRoll = std::vector< std::pair< ColumnDescriptor *, ColumnDescriptor * >>

Protected Member Functions
void	CheckAndExecuteMigrations ()
void	CheckAndExecuteMigrationsPostBuildMaps ()
void	updateDictionaryNames ()
void	updateTableDescriptorSchema ()
void	updateFixlenArrayColumns ()
void	updateGeoColumns ()
void	updateFrontendViewSchema ()
void	updateLinkSchema ()
void	updateFrontendViewAndLinkUsers ()
void	updateLogicalToPhysicalTableLinkSchema ()
void	updateLogicalToPhysicalTableMap (const int32_t logical_tb_id)
void	updateDictionarySchema ()
void	updatePageSize ()
void	updateDeletedColumnIndicator ()
void	updateDefaultColumnValues ()
void	updateFrontendViewsToDashboards ()
void	updateCustomExpressionsSchema ()
void	updateFsiSchemas ()
void	renameLegacyDataWrappers ()
void	recordOwnershipOfObjectsInObjectPermissions ()
void	checkDateInDaysColumnMigration ()
void	createDashboardSystemRoles ()
void	buildMaps ()
void	addTableToMap (const TableDescriptor *td, const std::list< ColumnDescriptor > &columns, const std::list< DictDescriptor > &dicts)
void	addReferenceToForeignDict (ColumnDescriptor &referencing_column, Parser::SharedDictionaryDef shared_dict_def, const bool persist_reference)
bool	setColumnSharedDictionary (ColumnDescriptor &cd, std::list< ColumnDescriptor > &cdd, std::list< DictDescriptor > &dds, const TableDescriptor td, const std::vector< Parser::SharedDictionaryDef > &shared_dict_defs)
void	setColumnDictionary (ColumnDescriptor &cd, std::list< DictDescriptor > &dds, const TableDescriptor &td, bool is_logical_table, bool use_temp_dictionary=false)
void	addFrontendViewToMap (DashboardDescriptor &vd)
void	addFrontendViewToMapNoLock (DashboardDescriptor &vd)
void	addLinkToMap (LinkDescriptor &ld)
void	removeTableFromMap (const std::string &tableName, const int tableId, const bool is_on_error=false)
void	eraseTableMetadata (const TableDescriptor *td)
void	executeDropTableSqliteQueries (const TableDescriptor *td)
void	doTruncateTable (const TableDescriptor *td)
void	renamePhysicalTable (const TableDescriptor *td, const std::string &newTableName)
void	renamePhysicalTable (std::vector< std::pair< std::string, std::string >> &names, std::vector< int > &tableIds)
void	instantiateFragmenter (TableDescriptor *td) const
void	getAllColumnMetadataForTableImpl (const TableDescriptor *td, std::list< const ColumnDescriptor * > &colDescs, const bool fetchSystemColumns, const bool fetchVirtualColumns, const bool fetchPhysicalColumns) const
std::string	calculateSHA1 (const std::string &data)
std::string	generatePhysicalTableName (const std::string &logicalTableName, const int32_t &shardNumber)
std::vector< DBObject >	parseDashboardObjects (const std::string &view_meta, const int &user_id)
void	createOrUpdateDashboardSystemRole (const std::string &view_meta, const int32_t &user_id, const std::string &dash_role_name)
const int	getColumnIdBySpiUnlocked (const int table_id, const size_t spi) const
void	serializeTableJsonUnlocked (const TableDescriptor *td, const std::list< ColumnDescriptor > &cds) const
void	dropTableFromJsonUnlocked (const std::string &table_name) const

Protected Attributes
std::string	basePath_
TableDescriptorMap	tableDescriptorMap_
TableDescriptorMapById	tableDescriptorMapById_
ColumnDescriptorMap	columnDescriptorMap_
ColumnDescriptorMapById	columnDescriptorMapById_
DictDescriptorMapById	dictDescriptorMapByRef_
DashboardDescriptorMap	dashboardDescriptorMap_
LinkDescriptorMap	linkDescriptorMap_
LinkDescriptorMapById	linkDescriptorMapById_
ForeignServerMap	foreignServerMap_
ForeignServerMapById	foreignServerMapById_
CustomExpressionMapById	custom_expr_map_by_id_
TableDictColumnsMap	dict_columns_by_table_id_
SqliteConnector	sqliteConnector_
const DBMetadata	currentDB_
std::shared_ptr < Data_Namespace::DataMgr >	dataMgr_
const std::vector< LeafHostInfo >	string_dict_hosts_
std::shared_ptr< Calcite >	calciteMgr_
LogicalToPhysicalTableMapById	logicalToPhysicalTableMapById_
int	nextTempTableId_
int	nextTempDictId_
ColumnDescriptorsForRoll	columnDescriptorsForRoll

Static Protected Attributes
static const std::string	physicalTableNameTag_

Private Member Functions
void	buildDictionaryMapUnlocked ()
void	reloadTableMetadata (int table_id)
void	reloadTableMetadataUnlocked (int table_id)
void	reloadCatalogMetadata (const std::map< int32_t, std::string > &user_name_by_user_id)
void	reloadCatalogMetadataUnlocked (const std::map< int32_t, std::string > &user_name_by_user_id)
void	refreshDictionaryCachesForTableUnlocked (const TableDescriptor &td)
void	buildTablesMapUnlocked ()
void	buildColumnsMapUnlocked ()
void	updateViewsInMapUnlocked ()
void	updateViewUnlocked (TableDescriptor &)
void	buildDashboardsMapUnlocked (const std::map< int32_t, std::string > &user_name_by_user_id)
void	buildLinksMapUnlocked ()
void	buildLogicalToPhysicalMapUnlocked ()
void	updateForeignTablesInMapUnlocked ()
void	gatherAdditionalInfo (std::vector< std::string > &additional_info, std::set< std::string > &shared_dict_column_names, const TableDescriptor *td) const
std::string	quoteIfRequired (const std::string &column_name) const
void	adjustAlteredTableFiles (const std::string &temp_data_dir, const std::unordered_map< int, int > &all_column_ids_map) const
void	renameTableDirectories (const std::string &temp_data_dir, const std::vector< std::string > &target_paths, const std::string &name_prefix) const
void	buildForeignServerMapUnlocked ()
void	setForeignServerProperty (const std::string &server_name, const std::string &property, const std::string &value)
void	setForeignTableProperty (const foreign_storage::ForeignTable *table, const std::string &property, const std::string &value)
void	alterPhysicalTableMetadata (const TableDescriptor *td, const TableDescriptorUpdateParams &table_update_params)
void	alterTableMetadata (const TableDescriptor *td, const TableDescriptorUpdateParams &table_update_params)
void	setTableFileMgrParams (const int table_id, const File_Namespace::FileMgrParams &file_mgr_params)
bool	filterTableByTypeAndUser (const TableDescriptor *td, const UserMetadata &user_metadata, const GetTablesType get_tables_type) const
TableDescriptor *	getMutableMetadataForTableUnlocked (int table_id) const
TableDescriptor *	getMutableMetadataForTableUnlocked (const std::string &table_name) const
void	createForeignServerNoLocks (std::unique_ptr< foreign_storage::ForeignServer > foreign_server, bool if_not_exists)
foreign_storage::ForeignTable *	getForeignTableUnlocked (const std::string &tableName) const
const Catalog *	getObjForLock ()
void	removeChunks (const int table_id) const
void	buildCustomExpressionsMapUnlocked ()
std::unique_ptr< CustomExpression >	getCustomExpressionFromConnector (size_t row)
void	restoreOldOwners (const std::map< int32_t, std::string > &old_owners_user_name_by_id, const std::map< int32_t, std::vector< DBObject >> &old_owner_db_objects, int32_t new_owner_id)
void	restoreOldOwnersInMemory (const std::map< int32_t, std::string > &old_owners_user_name_by_id, const std::map< int32_t, std::vector< DBObject >> &old_owner_db_objects, int32_t new_owner_id)
void	conditionallyInitializeSystemObjects ()
void	initializeSystemServers ()
void	initializeSystemTables ()
void	initializeUsersSystemTable ()
void	initializeDatabasesSystemTable ()
void	initializePermissionsSystemTable ()
void	initializeRolesSystemTable ()
void	initializeTablesSystemTable ()
void	initializeDashboardsSystemTable ()
void	initializeRoleAssignmentsSystemTable ()
void	initializeMemorySummarySystemTable ()
void	initializeMemoryDetailsSystemTable ()
void	initializeStorageDetailsSystemTable ()
void	initializeServerLogsSystemTables ()
void	initializeRequestLogsSystemTables ()
void	initializeWebServerLogsSystemTables ()
void	initializeWebServerAccessLogsSystemTables ()
void	createSystemTableServer (const std::string &server_name, const std::string &data_wrapper_type, const foreign_storage::OptionsMap &options={})
std::pair < foreign_storage::ForeignTable, std::list< ColumnDescriptor > >	getSystemTableSchema (const std::string &table_name, const std::string &server_name, const std::vector< std::pair< std::string, SQLTypeInfo >> &column_type_by_name, bool is_in_memory_system_table)
bool	recreateSystemTableIfUpdated (foreign_storage::ForeignTable &foreign_table, const std::list< ColumnDescriptor > &columns)
void	setDeletedColumnUnlocked (const TableDescriptor *td, const ColumnDescriptor *cd)
void	addToColumnMap (ColumnDescriptor *cd)
void	removeFromColumnMap (ColumnDescriptor *cd)
void	deleteTableCatalogMetadata (const TableDescriptor *logical_table, const std::vector< const TableDescriptor * > &physical_tables)
std::string	dumpCreateTableUnlocked (const TableDescriptor *td, bool multiline_formatting, bool dump_defaults) const

Private Attributes
DeletedColumnPerTableMap	deletedColumnPerTable_

Static Private Attributes
static constexpr const char *	CATALOG_SERVER_NAME {"system_catalog_server"}
static constexpr const char *	MEMORY_STATS_SERVER_NAME {"system_memory_stats_server"}
static constexpr const char *	STORAGE_STATS_SERVER_NAME {"system_storage_stats_server"}
static constexpr const char *	LOGS_SERVER_NAME {"system_logs_server"}
static constexpr std::array < const char *, 4 >	INTERNAL_SERVERS

Friends
template<class T >
class	lockmgr::TableLockMgrImpl

Detailed Description

class for a per-database catalog. also includes metadata for the current database and the current user.

Catalog

Definition at line 132 of file Catalog.h.

Member Typedef Documentation

using Catalog_Namespace::Catalog::ColumnDescriptorsForRoll = std::vector<std::pair<ColumnDescriptor*, ColumnDescriptor*>>

protected

Definition at line 710 of file Catalog.h.

Constructor & Destructor Documentation

Catalog_Namespace::Catalog::Catalog	(	const std::string &	basePath,
		const DBMetadata &	curDB,
		std::shared_ptr< Data_Namespace::DataMgr >	dataMgr,
		const std::vector< LeafHostInfo > &	string_dict_hosts,
		std::shared_ptr< Calcite >	calcite,
		bool	is_new_db
	)

Constructor - takes basePath to already extant data directory for writing.

Parameters

basePath	directory path for writing catalog
dbName	name of the database
fragmenter	Fragmenter object metadata - expects for this directory to already exist

Catalog_Namespace::Catalog::Catalog

(

)

Constructor builds a hollow catalog used during constructor of other catalogs.

Definition at line 171 of file Catalog.cpp.

{}

Catalog_Namespace::Catalog::~Catalog

(

)

Destructor - deletes all ColumnDescriptor and TableDescriptor structures which were allocated on the heap and writes Catalog to Sqlite.

Definition at line 231 of file Catalog.cpp.

References basePath_, columnDescriptorMap_, currentDB_, Catalog_Namespace::DBMetadata::dbName, g_serialize_temp_tables, Catalog_Namespace::anonymous_namespace{Catalog.cpp}::table_json_filepath(), and tableDescriptorMap_.

                  {
  // cat_write_lock write_lock(this);

  // must clean up heap-allocated TableDescriptor and ColumnDescriptor structs
  for (TableDescriptorMap::iterator tableDescIt = tableDescriptorMap_.begin();
       tableDescIt != tableDescriptorMap_.end();
       ++tableDescIt) {
    tableDescIt->second->fragmenter = nullptr;
    delete tableDescIt->second;
  }

  // TableDescriptorMapById points to the same descriptors.  No need to delete

  for (ColumnDescriptorMap::iterator columnDescIt = columnDescriptorMap_.begin();
       columnDescIt != columnDescriptorMap_.end();
       ++columnDescIt) {
    delete columnDescIt->second;
  }

  // ColumnDescriptorMapById points to the same descriptors.  No need to delete

  if (g_serialize_temp_tables) {
    boost::filesystem::remove(table_json_filepath(basePath_, currentDB_.dbName));
  }
}

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Member Function Documentation

void Catalog_Namespace::Catalog::addColumn	(	const TableDescriptor &	td,
		ColumnDescriptor &	cd
	)

Definition at line 2418 of file Catalog.cpp.

References ColumnDescriptor::columnId, ColumnDescriptor::columnName, ColumnDescriptor::columnType, ColumnDescriptor::db_id, ColumnDescriptor::default_value, SQLTypeInfo::get_comp_param(), SQLTypeInfo::get_compression(), SQLTypeInfo::get_dimension(), SQLTypeInfo::get_notnull(), SQLTypeInfo::get_scale(), SQLTypeInfo::get_size(), SQLTypeInfo::get_subtype(), SQLTypeInfo::get_type(), ColumnDescriptor::isDeletedCol, ColumnDescriptor::isSystemCol, ColumnDescriptor::isVirtualCol, kENCODING_DICT, TableDescriptor::nShards, TableDescriptor::shard, ColumnDescriptor::tableId, TableDescriptor::tableId, to_string(), and ColumnDescriptor::virtualExpr.

                                                                       {
  // caller must handle sqlite/chunk transaction TOGETHER
  cd.tableId = td.tableId;
  cd.db_id = getDatabaseId();
  if (td.nShards > 0 && td.shard < 0) {
    for (const auto shard : getPhysicalTablesDescriptors(&td)) {
      auto shard_cd = cd;
      addColumn(*shard, shard_cd);
    }
  }
  if (cd.columnType.get_compression() == kENCODING_DICT) {
    addDictionary(cd);
  }

  using BindType = SqliteConnector::BindType;
  std::vector<BindType> types(17, BindType::TEXT);
  if (!cd.default_value.has_value()) {
    types[16] = BindType::NULL_TYPE;
  }
  sqliteConnector_.query_with_text_params(
      "INSERT INTO mapd_columns (tableid, columnid, name, coltype, colsubtype, coldim, "
      "colscale, is_notnull, "
      "compression, comp_param, size, chunks, is_systemcol, is_virtualcol, virtual_expr, "
      "is_deletedcol, default_value) "
      "VALUES (?, "
      "(SELECT max(columnid) + 1 FROM mapd_columns WHERE tableid = ?), "
      "?, ?, ?, "
      "?, "
      "?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)",
      std::vector<std::string>{std::to_string(td.tableId),
                               std::to_string(td.tableId),
                               cd.columnName,
                               std::to_string(cd.columnType.get_type()),
                               std::to_string(cd.columnType.get_subtype()),
                               std::to_string(cd.columnType.get_dimension()),
                               std::to_string(cd.columnType.get_scale()),
                               std::to_string(cd.columnType.get_notnull()),
                               std::to_string(cd.columnType.get_compression()),
                               std::to_string(cd.columnType.get_comp_param()),
                               std::to_string(cd.columnType.get_size()),
                               "",
                               std::to_string(cd.isSystemCol),
                               std::to_string(cd.isVirtualCol),
                               cd.virtualExpr,
                               std::to_string(cd.isDeletedCol),
                               cd.default_value.value_or("NULL")},
      types);

  sqliteConnector_.query_with_text_params(
      "UPDATE mapd_tables SET ncolumns = ncolumns + 1 WHERE tableid = ?",
      std::vector<std::string>{std::to_string(td.tableId)});

  sqliteConnector_.query_with_text_params(
      "SELECT columnid FROM mapd_columns WHERE tableid = ? AND name = ?",
      std::vector<std::string>{std::to_string(td.tableId), cd.columnName});
  cd.columnId = sqliteConnector_.getData<int>(0, 0);

  ++tableDescriptorMapById_[td.tableId]->nColumns;
  auto ncd = new ColumnDescriptor(cd);
  addToColumnMap(ncd);
  columnDescriptorsForRoll.emplace_back(nullptr, ncd);
}

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DictRef Catalog_Namespace::Catalog::addDictionary

(

ColumnDescriptor &

cd

)

Definition at line 2322 of file Catalog.cpp.

References CHECK, DictDescriptor::dictFolderPath, and ColumnDescriptor::tableId.

                                                   {
  cat_write_lock write_lock(this);
  const auto& td = *tableDescriptorMapById_[cd.tableId];
  list<DictDescriptor> dds;
  setColumnDictionary(cd, dds, td, true);
  auto& dd = dds.back();
  CHECK(dd.dictRef.dictId);

  std::unique_ptr<StringDictionaryClient> client;
  if (!string_dict_hosts_.empty()) {
    client.reset(new StringDictionaryClient(
        string_dict_hosts_.front(), DictRef(currentDB_.dbId, -1), true));
  }
  if (client) {
    client->create(dd.dictRef, dd.dictIsTemp);
  }

  DictDescriptor* new_dd = new DictDescriptor(dd);
  dictDescriptorMapByRef_[dd.dictRef].reset(new_dd);
  if (!dd.dictIsTemp) {
    boost::filesystem::create_directory(new_dd->dictFolderPath);
  }
  return dd.dictRef;
}

void Catalog_Namespace::Catalog::addFrontendViewToMap ( DashboardDescriptor &  vd )

protected

Definition at line 1778 of file Catalog.cpp.

                                                          {
  cat_write_lock write_lock(this);
  addFrontendViewToMapNoLock(vd);
}

void Catalog_Namespace::Catalog::addFrontendViewToMapNoLock ( DashboardDescriptor &  vd )

protected

Definition at line 1783 of file Catalog.cpp.

References DashboardDescriptor::dashboardName, to_string(), and DashboardDescriptor::userId.

                                                                {
  cat_write_lock write_lock(this);
  dashboardDescriptorMap_[std::to_string(vd.userId) + ":" + vd.dashboardName] =
      std::make_shared<DashboardDescriptor>(vd);
}

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void Catalog_Namespace::Catalog::addLinkToMap ( LinkDescriptor &  ld )

protected

Definition at line 1865 of file Catalog.cpp.

References LinkDescriptor::link, LinkDescriptor::linkId, and to_string().

                                             {
  cat_write_lock write_lock(this);
  LinkDescriptor* new_ld = new LinkDescriptor();
  *new_ld = ld;
  linkDescriptorMap_[std::to_string(currentDB_.dbId) + ld.link] = new_ld;
  linkDescriptorMapById_[ld.linkId] = new_ld;
}

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void Catalog_Namespace::Catalog::addReferenceToForeignDict ( ColumnDescriptor &  referencing_column, Parser::SharedDictionaryDef  shared_dict_def, const bool  persist_reference  )

protected

Definition at line 3774 of file Catalog.cpp.

References CHECK, CHECK_GE, ColumnDescriptor::columnType, SQLTypeInfo::get_comp_param(), Catalog_Namespace::anonymous_namespace{Catalog.cpp}::get_foreign_col(), and to_string().

                                                                      {
  cat_write_lock write_lock(this);
  const auto foreign_ref_col = get_foreign_col(*this, shared_dict_def);
  CHECK(foreign_ref_col);
  referencing_column.columnType = foreign_ref_col->columnType;
  const int dict_id = referencing_column.columnType.get_comp_param();
  const DictRef dict_ref(currentDB_.dbId, dict_id);
  const auto dictIt = dictDescriptorMapByRef_.find(dict_ref);
  CHECK(dictIt != dictDescriptorMapByRef_.end());
  const auto& dd = dictIt->second;
  CHECK_GE(dd->refcount, 1);
  ++dd->refcount;
  if (persist_reference) {
    cat_sqlite_lock sqlite_lock(getObjForLock());
    sqliteConnector_.query_with_text_params(
        "UPDATE mapd_dictionaries SET refcount = refcount + 1 WHERE dictid = ?",
        {std::to_string(dict_id)});
  }
}

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void Catalog_Namespace::Catalog::addTableToMap ( const TableDescriptor *  td, const std::list< ColumnDescriptor > &  columns, const std::list< DictDescriptor > &  dicts  )

protected

Definition at line 1637 of file Catalog.cpp.

References anonymous_namespace{Utm.h}::a, CHECK, TableDescriptor::columnIdBySpi_, DictDescriptor::dictFolderPath, dict_ref_t::dictId, TableDescriptor::hasDeletedCol, ColumnDescriptor::isDeletedCol, TableDescriptor::mutex_, gpu_enabled::sort(), TableDescriptor::tableId, TableDescriptor::tableName, and to_upper().

                                                               {
  cat_write_lock write_lock(this);
  TableDescriptor* new_td;

  auto foreign_table = dynamic_cast<const foreign_storage::ForeignTable*>(td);
  if (foreign_table) {
    auto new_foreign_table = new foreign_storage::ForeignTable();
    *new_foreign_table = *foreign_table;
    new_td = new_foreign_table;
  } else {
    new_td = new TableDescriptor();
    *new_td = *td;
  }

  new_td->mutex_ = std::make_shared<std::mutex>();
  tableDescriptorMap_[to_upper(td->tableName)] = new_td;
  tableDescriptorMapById_[td->tableId] = new_td;
  for (auto cd : columns) {
    ColumnDescriptor* new_cd = new ColumnDescriptor();
    *new_cd = cd;
    addToColumnMap(new_cd);

    // Add deleted column to the map
    if (cd.isDeletedCol) {
      CHECK(new_td->hasDeletedCol);
      setDeletedColumnUnlocked(new_td, new_cd);
    }
  }

  std::sort(new_td->columnIdBySpi_.begin(),
            new_td->columnIdBySpi_.end(),
            [](const size_t a, const size_t b) -> bool { return a < b; });
  // TODO(sy): Why does addTableToMap() sort columnIdBySpi_ but not insert into it while
  // buildColumnsMapUnlocked() does both?

  std::unique_ptr<StringDictionaryClient> client;
  DictRef dict_ref(currentDB_.dbId, -1);
  if (!string_dict_hosts_.empty()) {
    client.reset(new StringDictionaryClient(string_dict_hosts_.front(), dict_ref, true));
  }
  for (auto dd : dicts) {
    if (!dd.dictRef.dictId) {
      // Dummy entry created for a shard of a logical table, nothing to do.
      continue;
    }
    dict_ref.dictId = dd.dictRef.dictId;
    if (client) {
      client->create(dict_ref, dd.dictIsTemp);
    }
    DictDescriptor* new_dd = new DictDescriptor(dd);
    dictDescriptorMapByRef_[dict_ref].reset(new_dd);
    if (!dd.dictIsTemp) {
      boost::filesystem::create_directory(new_dd->dictFolderPath);
    }
  }
}

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void Catalog_Namespace::Catalog::addToColumnMap ( ColumnDescriptor *  cd )

private

Definition at line 6561 of file Catalog.cpp.

References ColumnDescriptor::columnId, ColumnDescriptor::columnName, ColumnDescriptor::columnType, SQLTypeInfo::is_dict_encoded_type(), ColumnDescriptor::tableId, and to_upper().

                                                 {
  columnDescriptorMap_[ColumnKey{cd->tableId, to_upper(cd->columnName)}] = cd;
  columnDescriptorMapById_[ColumnIdKey{cd->tableId, cd->columnId}] = cd;
  if (cd->columnType.is_dict_encoded_type()) {
    dict_columns_by_table_id_[cd->tableId].emplace(cd);
  }
}

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void Catalog_Namespace::Catalog::adjustAlteredTableFiles ( const std::string &  temp_data_dir, const std::unordered_map< int, int > &  all_column_ids_map  ) const

private

void Catalog_Namespace::Catalog::alterPhysicalTableMetadata ( const TableDescriptor *  td, const TableDescriptorUpdateParams &  table_update_params  )

private

Definition at line 3488 of file Catalog.cpp.

References CHECK, TableDescriptorUpdateParams::max_rollback_epochs, TableDescriptorUpdateParams::max_rows, TableDescriptor::maxRollbackEpochs, TableDescriptor::maxRows, TableDescriptor::tableId, and to_string().

                                                            {
  // Only called from parent alterTableParamMetadata, expect already to have catalog and
  // sqlite write locks

  // Sqlite transaction should have already been begun in parent alterTableCatalogMetadata

  TableDescriptor* mutable_td = getMutableMetadataForTableUnlocked(td->tableId);
  CHECK(mutable_td);
  if (td->maxRollbackEpochs != table_update_params.max_rollback_epochs) {
    sqliteConnector_.query_with_text_params(
        "UPDATE mapd_tables SET max_rollback_epochs = ? WHERE tableid = ?",
        std::vector<std::string>{std::to_string(table_update_params.max_rollback_epochs),
                                 std::to_string(td->tableId)});
    mutable_td->maxRollbackEpochs = table_update_params.max_rollback_epochs;
  }

  if (td->maxRows != table_update_params.max_rows) {
    sqliteConnector_.query_with_text_params(
        "UPDATE mapd_tables SET max_rows = ? WHERE tableid = ?",
        std::vector<std::string>{std::to_string(table_update_params.max_rows),
                                 std::to_string(td->tableId)});
    mutable_td->maxRows = table_update_params.max_rows;
  }
}

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void Catalog_Namespace::Catalog::alterTableMetadata ( const TableDescriptor *  td, const TableDescriptorUpdateParams &  table_update_params  )

private

Definition at line 3515 of file Catalog.cpp.

References CHECK, logger::FATAL, LOG, TableDescriptor::tableId, and TableDescriptor::tableName.

                                                                                         {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());
  sqliteConnector_.query("BEGIN TRANSACTION");
  try {
    const auto physical_table_it = logicalToPhysicalTableMapById_.find(td->tableId);
    if (physical_table_it != logicalToPhysicalTableMapById_.end()) {
      const auto physical_tables = physical_table_it->second;
      CHECK(!physical_tables.empty());
      for (size_t i = 0; i < physical_tables.size(); i++) {
        int32_t physical_tb_id = physical_tables[i];
        const TableDescriptor* phys_td = getMetadataForTable(physical_tb_id, false);
        CHECK(phys_td);
        alterPhysicalTableMetadata(phys_td, table_update_params);
      }
    }
    alterPhysicalTableMetadata(td, table_update_params);
  } catch (std::exception& e) {
    sqliteConnector_.query("ROLLBACK TRANSACTION");
    LOG(FATAL) << "Table '" << td->tableName << "' catalog update failed";
  }
  sqliteConnector_.query("END TRANSACTION");
}

void Catalog_Namespace::Catalog::buildColumnsMapUnlocked ( )

private

Definition at line 1428 of file Catalog.cpp.

References anonymous_namespace{Utm.h}::a, CHECK, ColumnDescriptor::chunks, ColumnDescriptor::columnId, ColumnDescriptor::columnName, ColumnDescriptor::columnType, ColumnDescriptor::db_id, ColumnDescriptor::default_value, SQLTypeInfo::get_physical_cols(), SQLTypeInfo::is_geometry(), ColumnDescriptor::isDeletedCol, ColumnDescriptor::isGeoPhyCol, ColumnDescriptor::isSystemCol, ColumnDescriptor::isVirtualCol, SQLTypeInfo::set_comp_param(), SQLTypeInfo::set_compression(), Catalog_Namespace::anonymous_namespace{Catalog.cpp}::set_dict_key(), SQLTypeInfo::set_dimension(), SQLTypeInfo::set_notnull(), SQLTypeInfo::set_scale(), SQLTypeInfo::set_size(), SQLTypeInfo::set_subtype(), SQLTypeInfo::set_type(), gpu_enabled::sort(), ColumnDescriptor::tableId, and ColumnDescriptor::virtualExpr.

                                      {
  std::string columnQuery(
      "SELECT tableid, columnid, name, coltype, colsubtype, coldim, colscale, "
      "is_notnull, compression, comp_param, "
      "size, chunks, is_systemcol, is_virtualcol, virtual_expr, is_deletedcol, "
      "default_value from "
      "mapd_columns ORDER BY tableid, "
      "columnid");
  sqliteConnector_.query(columnQuery);
  auto numRows = sqliteConnector_.getNumRows();
  int32_t skip_physical_cols = 0;
  for (size_t r = 0; r < numRows; ++r) {
    ColumnDescriptor* cd = new ColumnDescriptor();
    cd->tableId = sqliteConnector_.getData<int>(r, 0);
    cd->columnId = sqliteConnector_.getData<int>(r, 1);
    cd->columnName = sqliteConnector_.getData<string>(r, 2);
    cd->columnType.set_type((SQLTypes)sqliteConnector_.getData<int>(r, 3));
    cd->columnType.set_subtype((SQLTypes)sqliteConnector_.getData<int>(r, 4));
    cd->columnType.set_dimension(sqliteConnector_.getData<int>(r, 5));
    cd->columnType.set_scale(sqliteConnector_.getData<int>(r, 6));
    cd->columnType.set_notnull(sqliteConnector_.getData<bool>(r, 7));
    cd->columnType.set_compression((EncodingType)sqliteConnector_.getData<int>(r, 8));
    cd->columnType.set_comp_param(sqliteConnector_.getData<int>(r, 9));
    cd->columnType.set_size(sqliteConnector_.getData<int>(r, 10));
    cd->chunks = sqliteConnector_.getData<string>(r, 11);
    cd->isSystemCol = sqliteConnector_.getData<bool>(r, 12);
    cd->isVirtualCol = sqliteConnector_.getData<bool>(r, 13);
    cd->virtualExpr = sqliteConnector_.getData<string>(r, 14);
    cd->isDeletedCol = sqliteConnector_.getData<bool>(r, 15);
    if (sqliteConnector_.isNull(r, 16)) {
      cd->default_value = std::nullopt;
    } else {
      cd->default_value = std::make_optional(sqliteConnector_.getData<string>(r, 16));
    }
    cd->isGeoPhyCol = skip_physical_cols > 0;
    cd->db_id = getDatabaseId();
    set_dict_key(*cd);
    addToColumnMap(cd);

    if (skip_physical_cols <= 0) {
      skip_physical_cols = cd->columnType.get_physical_cols();
    }

    auto td_itr = tableDescriptorMapById_.find(cd->tableId);
    CHECK(td_itr != tableDescriptorMapById_.end());

    if (cd->isDeletedCol) {
      td_itr->second->hasDeletedCol = true;
      setDeletedColumnUnlocked(td_itr->second, cd);
    } else if (cd->columnType.is_geometry() || skip_physical_cols-- <= 0) {
      tableDescriptorMapById_[cd->tableId]->columnIdBySpi_.push_back(cd->columnId);
    }
  }

  // sort columnIdBySpi_ based on columnId
  for (auto& tit : tableDescriptorMapById_) {
    std::sort(tit.second->columnIdBySpi_.begin(),
              tit.second->columnIdBySpi_.end(),
              [](const size_t a, const size_t b) -> bool { return a < b; });
  }
}

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void Catalog_Namespace::Catalog::buildCustomExpressionsMapUnlocked ( )

private

Definition at line 1609 of file Catalog.cpp.

                                                {
  sqliteConnector_.query(
      "SELECT id, name, expression_json, data_source_type, data_source_id, "
      "is_deleted "
      "FROM omnisci_custom_expressions");
  auto num_rows = sqliteConnector_.getNumRows();
  for (size_t row = 0; row < num_rows; row++) {
    auto custom_expr = getCustomExpressionFromConnector(row);
    custom_expr_map_by_id_[custom_expr->id] = std::move(custom_expr);
  }
}

void Catalog_Namespace::Catalog::buildDashboardsMapUnlocked ( const std::map< int32_t, std::string > &  user_name_by_user_id )

private

Definition at line 1512 of file Catalog.cpp.

References generate_dashboard_system_rolename(), Catalog_Namespace::anonymous_namespace{Catalog.cpp}::get_user_name_from_id(), and to_string().

                                                            {
  std::string frontendViewQuery(
      "SELECT id, state, name, image_hash, strftime('%Y-%m-%dT%H:%M:%SZ', update_time), "
      "userid, "
      "metadata "
      "FROM mapd_dashboards");
  sqliteConnector_.query(frontendViewQuery);
  auto numRows = sqliteConnector_.getNumRows();
  for (size_t r = 0; r < numRows; ++r) {
    auto vd = std::make_shared<DashboardDescriptor>();
    vd->dashboardId = sqliteConnector_.getData<int>(r, 0);
    vd->dashboardState = sqliteConnector_.getData<string>(r, 1);
    vd->dashboardName = sqliteConnector_.getData<string>(r, 2);
    vd->imageHash = sqliteConnector_.getData<string>(r, 3);
    vd->updateTime = sqliteConnector_.getData<string>(r, 4);
    vd->userId = sqliteConnector_.getData<int>(r, 5);
    vd->dashboardMetadata = sqliteConnector_.getData<string>(r, 6);
    vd->user = get_user_name_from_id(vd->userId, user_name_by_user_id);
    vd->dashboardSystemRoleName = generate_dashboard_system_rolename(
        std::to_string(currentDB_.dbId), sqliteConnector_.getData<string>(r, 0));
    dashboardDescriptorMap_[std::to_string(vd->userId) + ":" + vd->dashboardName] = vd;
  }
}

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void Catalog_Namespace::Catalog::buildDictionaryMapUnlocked ( )

private

Definition at line 1067 of file Catalog.cpp.

References currentDB_, Catalog_Namespace::DBMetadata::dbId, dictDescriptorMapByRef_, g_base_path, SqliteConnector::getData(), SqliteConnector::getNumRows(), shared::kDataDirectoryName, SqliteConnector::query(), sqliteConnector_, and to_string().

                                         {
  std::string dictQuery(
      "SELECT dictid, name, nbits, is_shared, refcount from mapd_dictionaries");
  sqliteConnector_.query(dictQuery);
  auto numRows = sqliteConnector_.getNumRows();
  for (size_t r = 0; r < numRows; ++r) {
    auto dictId = sqliteConnector_.getData<int>(r, 0);
    auto dictName = sqliteConnector_.getData<string>(r, 1);
    auto dictNBits = sqliteConnector_.getData<int>(r, 2);
    auto is_shared = sqliteConnector_.getData<bool>(r, 3);
    auto refcount = sqliteConnector_.getData<int>(r, 4);
    auto fname = g_base_path + "/" + shared::kDataDirectoryName + "/DB_" +
                 std::to_string(currentDB_.dbId) + "_DICT_" + std::to_string(dictId);
    DictRef dict_ref(currentDB_.dbId, dictId);
    auto dd = new DictDescriptor(
        dict_ref, dictName, dictNBits, is_shared, refcount, fname, false);
    dictDescriptorMapByRef_[dict_ref].reset(dd);
  }
}

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void Catalog_Namespace::Catalog::buildForeignServerMapUnlocked ( )

private

Definition at line 4923 of file Catalog.cpp.

References CHECK, and g_enable_fsi.

                                            {
  CHECK(g_enable_fsi);
  sqliteConnector_.query(
      "SELECT id, name, data_wrapper_type, options, owner_user_id, creation_time FROM "
      "omnisci_foreign_servers");
  auto num_rows = sqliteConnector_.getNumRows();

  for (size_t row = 0; row < num_rows; row++) {
    auto foreign_server = std::make_shared<foreign_storage::ForeignServer>(
        sqliteConnector_.getData<int>(row, 0),
        sqliteConnector_.getData<std::string>(row, 1),
        sqliteConnector_.getData<std::string>(row, 2),
        sqliteConnector_.getData<std::string>(row, 3),
        sqliteConnector_.getData<std::int32_t>(row, 4),
        sqliteConnector_.getData<std::int32_t>(row, 5));
    foreignServerMap_[foreign_server->name] = foreign_server;
    foreignServerMapById_[foreign_server->id] = foreign_server;
  }
}

void Catalog_Namespace::Catalog::buildLinksMapUnlocked ( )

private

Definition at line 1537 of file Catalog.cpp.

References to_string().

                                    {
  std::string linkQuery(
      "SELECT linkid, userid, link, view_state, strftime('%Y-%m-%dT%H:%M:%SZ', "
      "update_time), view_metadata "
      "FROM mapd_links");
  sqliteConnector_.query(linkQuery);
  auto numRows = sqliteConnector_.getNumRows();
  for (size_t r = 0; r < numRows; ++r) {
    auto ld = new LinkDescriptor();
    ld->linkId = sqliteConnector_.getData<int>(r, 0);
    ld->userId = sqliteConnector_.getData<int>(r, 1);
    ld->link = sqliteConnector_.getData<string>(r, 2);
    ld->viewState = sqliteConnector_.getData<string>(r, 3);
    ld->updateTime = sqliteConnector_.getData<string>(r, 4);
    ld->viewMetadata = sqliteConnector_.getData<string>(r, 5);
    linkDescriptorMap_[std::to_string(currentDB_.dbId) + ld->link] = ld;
    linkDescriptorMapById_[ld->linkId] = ld;
  }
}

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void Catalog_Namespace::Catalog::buildLogicalToPhysicalMapUnlocked ( )

private

Definition at line 1557 of file Catalog.cpp.

References CHECK.

                                                {
  /* rebuild map linking logical tables to corresponding physical ones */
  std::string logicalToPhysicalTableMapQuery(
      "SELECT logical_table_id, physical_table_id "
      "FROM mapd_logical_to_physical");
  sqliteConnector_.query(logicalToPhysicalTableMapQuery);
  auto numRows = sqliteConnector_.getNumRows();
  for (size_t r = 0; r < numRows; ++r) {
    auto logical_tb_id = sqliteConnector_.getData<int>(r, 0);
    auto physical_tb_id = sqliteConnector_.getData<int>(r, 1);
    const auto physicalTableIt = logicalToPhysicalTableMapById_.find(logical_tb_id);
    if (physicalTableIt == logicalToPhysicalTableMapById_.end()) {
      /* add new entity to the map logicalToPhysicalTableMapById_ */
      std::vector<int32_t> physicalTables{physical_tb_id};
      const auto it_ok =
          logicalToPhysicalTableMapById_.emplace(logical_tb_id, physicalTables);
      CHECK(it_ok.second);
    } else {
      /* update map logicalToPhysicalTableMapById_ */
      physicalTableIt->second.push_back(physical_tb_id);
    }
  }
}

void Catalog_Namespace::Catalog::buildMaps ( )

protected

Definition at line 1584 of file Catalog.cpp.

References g_enable_fsi, and Catalog_Namespace::anonymous_namespace{Catalog.cpp}::get_user_id_to_user_name_map().

                        {
  // Get all user id to username mapping here in order to avoid making a call to
  // SysCatalog (and attempting to acquire SysCatalog locks) while holding locks for this
  // catalog.
  const auto user_name_by_user_id = get_user_id_to_user_name_map();

  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());

  buildDictionaryMapUnlocked();
  buildTablesMapUnlocked();

  if (g_enable_fsi) {
    buildForeignServerMapUnlocked();
    updateForeignTablesInMapUnlocked();
  }

  buildColumnsMapUnlocked();
  updateViewsInMapUnlocked();
  buildDashboardsMapUnlocked(user_name_by_user_id);
  buildLinksMapUnlocked();
  buildLogicalToPhysicalMapUnlocked();
  buildCustomExpressionsMapUnlocked();
}

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void Catalog_Namespace::Catalog::buildTablesMapUnlocked ( )

private

Definition at line 1369 of file Catalog.cpp.

References logger::FATAL, StorageType::FOREIGN_TABLE, TableDescriptor::fragmenter, TableDescriptor::fragments, TableDescriptor::fragPageSize, TableDescriptor::fragType, TableDescriptor::hasDeletedCol, TableDescriptor::is_system_table, TableDescriptor::isView, TableDescriptor::keyMetainfo, LOG, TableDescriptor::maxChunkSize, TableDescriptor::maxFragRows, TableDescriptor::maxRollbackEpochs, TableDescriptor::maxRows, TableDescriptor::nColumns, TableDescriptor::nShards, TableDescriptor::partitions, TableDescriptor::shard, TableDescriptor::shardedColumnId, TableDescriptor::sortedColumnId, TableDescriptor::storageType, TableDescriptor::tableId, TableDescriptor::tableName, to_upper(), and TableDescriptor::userId.

                                     {
  std::string tableQuery(
      "SELECT tableid, name, ncolumns, isview, fragments, frag_type, max_frag_rows, "
      "max_chunk_size, frag_page_size, "
      "max_rows, partitions, shard_column_id, shard, num_shards, key_metainfo, userid, "
      "sort_column_id, storage_type, max_rollback_epochs, is_system_table "
      "from mapd_tables");
  sqliteConnector_.query(tableQuery);
  auto numRows = sqliteConnector_.getNumRows();
  for (size_t r = 0; r < numRows; ++r) {
    TableDescriptor* td;
    const auto& storage_type = sqliteConnector_.getData<string>(r, 17);
    if (!storage_type.empty() && storage_type != StorageType::FOREIGN_TABLE) {
      const auto table_id = sqliteConnector_.getData<int>(r, 0);
      const auto& table_name = sqliteConnector_.getData<string>(r, 1);
      LOG(FATAL) << "Unable to read Catalog metadata: storage type is currently not a "
                    "supported table option (table "
                 << table_name << " [" << table_id << "] in database "
                 << currentDB_.dbName << ").";
    }

    if (storage_type == StorageType::FOREIGN_TABLE) {
      td = new foreign_storage::ForeignTable();
    } else {
      td = new TableDescriptor();
    }

    td->storageType = storage_type;
    td->tableId = sqliteConnector_.getData<int>(r, 0);
    td->tableName = sqliteConnector_.getData<string>(r, 1);
    td->nColumns = sqliteConnector_.getData<int>(r, 2);
    td->isView = sqliteConnector_.getData<bool>(r, 3);
    td->fragments = sqliteConnector_.getData<string>(r, 4);
    td->fragType =
        (Fragmenter_Namespace::FragmenterType)sqliteConnector_.getData<int>(r, 5);
    td->maxFragRows = sqliteConnector_.getData<int>(r, 6);
    td->maxChunkSize = sqliteConnector_.getData<int64_t>(r, 7);
    td->fragPageSize = sqliteConnector_.getData<int>(r, 8);
    td->maxRows = sqliteConnector_.getData<int64_t>(r, 9);
    td->partitions = sqliteConnector_.getData<string>(r, 10);
    td->shardedColumnId = sqliteConnector_.getData<int>(r, 11);
    td->shard = sqliteConnector_.getData<int>(r, 12);
    td->nShards = sqliteConnector_.getData<int>(r, 13);
    td->keyMetainfo = sqliteConnector_.getData<string>(r, 14);
    td->userId = sqliteConnector_.getData<int>(r, 15);
    td->sortedColumnId =
        sqliteConnector_.isNull(r, 16) ? 0 : sqliteConnector_.getData<int>(r, 16);
    if (!td->isView) {
      td->fragmenter = nullptr;
    }
    td->maxRollbackEpochs = sqliteConnector_.getData<int>(r, 18);
    td->is_system_table = sqliteConnector_.getData<bool>(r, 19);
    td->hasDeletedCol = false;

    tableDescriptorMap_[to_upper(td->tableName)] = td;
    tableDescriptorMapById_[td->tableId] = td;
  }
}

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std::string Catalog_Namespace::Catalog::calculateSHA1 ( const std::string &  data )

protected

Definition at line 4632 of file Catalog.cpp.

                                                      {
  boost::uuids::detail::sha1 sha1;
  unsigned int digest[5];
  sha1.process_bytes(data.c_str(), data.length());
  sha1.get_digest(digest);
  std::stringstream ss;
  for (size_t i = 0; i < 5; i++) {
    ss << std::hex << digest[i];
  }
  return ss.str();
}

void Catalog_Namespace::Catalog::changeForeignServerOwner	(	const std::string &	server_name,
		const int	new_owner_id
	)

Change the owner of a Foreign Server to a new owner.

Parameters

server_name	- Name of the foreign server whose owner to change
new_owner_id	- New owner's user id

Definition at line 3194 of file Catalog.cpp.

References CHECK, to_string(), and foreign_storage::ForeignServer::user_id.

                                                               {
  cat_write_lock write_lock(this);
  foreign_storage::ForeignServer* foreign_server =
      foreignServerMap_.find(server_name)->second.get();
  CHECK(foreign_server);
  setForeignServerProperty(server_name, "owner_user_id", std::to_string(new_owner_id));
  // update in-memory server
  foreign_server->user_id = new_owner_id;
}

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void Catalog_Namespace::Catalog::CheckAndExecuteMigrations ( )

protected

Definition at line 1007 of file Catalog.cpp.

References g_enable_fsi, getObjForLock(), recordOwnershipOfObjectsInObjectPermissions(), renameLegacyDataWrappers(), updateCustomExpressionsSchema(), updateDefaultColumnValues(), updateDeletedColumnIndicator(), updateDictionaryNames(), updateDictionarySchema(), updateFixlenArrayColumns(), updateFrontendViewAndLinkUsers(), updateFrontendViewSchema(), updateFrontendViewsToDashboards(), updateFsiSchemas(), updateGeoColumns(), updateLinkSchema(), updateLogicalToPhysicalTableLinkSchema(), updatePageSize(), and updateTableDescriptorSchema().

                                        {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());
  updateTableDescriptorSchema();
  updateFixlenArrayColumns();
  updateGeoColumns();
  updateFrontendViewAndLinkUsers();
  updateFrontendViewSchema();
  updateLinkSchema();
  updateDictionaryNames();
  updateLogicalToPhysicalTableLinkSchema();
  updateDictionarySchema();
  updatePageSize();
  updateDeletedColumnIndicator();
  updateFrontendViewsToDashboards();
  recordOwnershipOfObjectsInObjectPermissions();
  if (g_enable_fsi) {
    updateFsiSchemas();
    renameLegacyDataWrappers();
  }
  updateCustomExpressionsSchema();
  updateDefaultColumnValues();
}

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void Catalog_Namespace::Catalog::CheckAndExecuteMigrationsPostBuildMaps ( )

protected

Definition at line 1031 of file Catalog.cpp.

References checkDateInDaysColumnMigration(), and createDashboardSystemRoles().

                                                     {
  checkDateInDaysColumnMigration();
  createDashboardSystemRoles();
}

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void Catalog_Namespace::Catalog::checkDateInDaysColumnMigration ( )

protected

Definition at line 925 of file Catalog.cpp.

References getCurrentDB(), getObjForLock(), migrations::MigrationMgr::migrateDateInDaysMetadata(), sqliteConnector_, and tableDescriptorMapById_.

Referenced by CheckAndExecuteMigrationsPostBuildMaps().

                                             {
  cat_sqlite_lock sqlite_lock(getObjForLock());
  migrations::MigrationMgr::migrateDateInDaysMetadata(
      tableDescriptorMapById_, getCurrentDB().dbId, this, sqliteConnector_);
}

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const bool Catalog_Namespace::Catalog::checkMetadataForDeletedRecs	(	const TableDescriptor *	td,
		int	column_id
	)		const

Definition at line 3712 of file Catalog.cpp.

References CHECK, and TableDescriptor::fragmenter.

                                                                            {
  // check if there are rows deleted by examining the deletedColumn metadata
  CHECK(td);
  auto fragmenter = td->fragmenter;
  if (fragmenter) {
    return fragmenter->hasDeletedRows(delete_column_id);
  } else {
    return false;
  }
}

void Catalog_Namespace::Catalog::checkpoint

(

const int

logicalTableId

)

const

Definition at line 4853 of file Catalog.cpp.

Referenced by UpdelRoll::commitUpdate(), TableOptimizer::vacuumDeletedRows(), and TableOptimizer::vacuumFragmentsAboveMinSelectivity().

                                                       {
  const auto td = getMetadataForTable(logicalTableId);
  const auto shards = getPhysicalTablesDescriptors(td);
  for (const auto shard : shards) {
    getDataMgr().checkpoint(getCurrentDB().dbId, shard->tableId);
  }
}

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void Catalog_Namespace::Catalog::checkpointWithAutoRollback

(

const int

logical_table_id

)

const

Definition at line 4861 of file Catalog.cpp.

Referenced by Fragmenter_Namespace::LocalInsertConnector::checkpoint(), import_export::Loader::checkpoint(), StorageIOFacility::TransactionParameters::finalizeTransaction(), and TableOptimizer::vacuumFragmentsAboveMinSelectivity().

                                                                         {
  auto table_epochs = getTableEpochs(getDatabaseId(), logical_table_id);
  try {
    checkpoint(logical_table_id);
  } catch (...) {
    setTableEpochsLogExceptions(getDatabaseId(), table_epochs);
    throw;
  }
}

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void Catalog_Namespace::Catalog::conditionallyInitializeSystemObjects ( )

private

Definition at line 6045 of file Catalog.cpp.

References g_enable_system_tables.

                                                   {
  if (g_enable_system_tables && isInfoSchemaDb()) {
    initializeSystemServers();
    initializeSystemTables();
  }
}

int32_t Catalog_Namespace::Catalog::createCustomExpression

(

std::unique_ptr< CustomExpression >

custom_expression

)

Creates a new custom expression.

Parameters

custom_expression

- unique pointer to struct containing custom expression details.

Returns

id of created custom expression

Definition at line 5607 of file Catalog.cpp.

References CHECK, CHECK_EQ, CHECK_GT, and to_string().

                                                       {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());
  sqliteConnector_.query("BEGIN TRANSACTION");
  int32_t custom_expression_id{-1};
  try {
    auto data_source_type_str =
        CustomExpression::dataSourceTypeToString(custom_expression->data_source_type);
    auto data_source_id_str = std::to_string(custom_expression->data_source_id);
    std::string custom_expr_select_query{
        "SELECT id FROM omnisci_custom_expressions WHERE name = ? and data_source_type = "
        "? and data_source_id = ? and is_deleted = ?"};
    std::vector<std::string> custom_expr_select_params{custom_expression->name,
                                                       data_source_type_str,
                                                       data_source_id_str,
                                                       std::to_string(false)};
    sqliteConnector_.query_with_text_params(custom_expr_select_query,
                                            custom_expr_select_params);
    if (sqliteConnector_.getNumRows() > 0) {
      throw std::runtime_error{
          "A custom expression with the given "
          "name and data source already exists."};
    }
    sqliteConnector_.query_with_text_params(
        "INSERT INTO omnisci_custom_expressions(name, expression_json, "
        "data_source_type, data_source_id, is_deleted) VALUES (?,?,?,?,?)",
        std::vector<std::string>{custom_expression->name,
                                 custom_expression->expression_json,
                                 data_source_type_str,
                                 data_source_id_str,
                                 std::to_string(false)});
    sqliteConnector_.query_with_text_params(custom_expr_select_query,
                                            custom_expr_select_params);
    CHECK_EQ(sqliteConnector_.getNumRows(), static_cast<size_t>(1));
    custom_expression->id = sqliteConnector_.getData<int32_t>(0, 0);
    custom_expression_id = custom_expression->id;
    CHECK(custom_expr_map_by_id_.find(custom_expression->id) ==
          custom_expr_map_by_id_.end());
    custom_expr_map_by_id_[custom_expression->id] = std::move(custom_expression);
  } catch (std::exception& e) {
    sqliteConnector_.query("ROLLBACK TRANSACTION");
    throw;
  }
  sqliteConnector_.query("END TRANSACTION");
  CHECK_GT(custom_expression_id, 0);
  return custom_expression_id;
}

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int32_t Catalog_Namespace::Catalog::createDashboard

(

DashboardDescriptor &

vd

)

Definition at line 4491 of file Catalog.cpp.

References DashboardDescriptor::dashboardId, DashboardDescriptor::dashboardMetadata, DashboardDescriptor::dashboardName, DashboardDescriptor::dashboardState, DashboardDescriptor::dashboardSystemRoleName, generate_dashboard_system_rolename(), DashboardDescriptor::imageHash, to_string(), Catalog_Namespace::sqlite_lock< T >::unlock(), Catalog_Namespace::write_lock< T >::unlock(), DashboardDescriptor::updateTime, and DashboardDescriptor::userId.

                                                        {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());
  sqliteConnector_.query("BEGIN TRANSACTION");
  try {
    // TODO(andrew): this should be an upsert
    sqliteConnector_.query_with_text_params(
        "SELECT id FROM mapd_dashboards WHERE name = ? and userid = ?",
        std::vector<std::string>{vd.dashboardName, std::to_string(vd.userId)});
    if (sqliteConnector_.getNumRows() > 0) {
      sqliteConnector_.query_with_text_params(
          "UPDATE mapd_dashboards SET state = ?, image_hash = ?, metadata = ?, "
          "update_time = "
          "datetime('now') where name = ? "
          "and userid = ?",
          std::vector<std::string>{vd.dashboardState,
                                   vd.imageHash,
                                   vd.dashboardMetadata,
                                   vd.dashboardName,
                                   std::to_string(vd.userId)});
    } else {
      sqliteConnector_.query_with_text_params(
          "INSERT INTO mapd_dashboards (name, state, image_hash, metadata, "
          "update_time, "
          "userid) "
          "VALUES "
          "(?,?,?,?, "
          "datetime('now'), ?)",
          std::vector<std::string>{vd.dashboardName,
                                   vd.dashboardState,
                                   vd.imageHash,
                                   vd.dashboardMetadata,
                                   std::to_string(vd.userId)});
    }
  } catch (std::exception& e) {
    sqliteConnector_.query("ROLLBACK TRANSACTION");
    throw;
  }
  sqliteConnector_.query("END TRANSACTION");

  // now get the auto generated dashboardId
  try {
    sqliteConnector_.query_with_text_params(
        "SELECT id, strftime('%Y-%m-%dT%H:%M:%SZ', update_time) FROM mapd_dashboards "
        "WHERE name = ? and userid = ?",
        std::vector<std::string>{vd.dashboardName, std::to_string(vd.userId)});
    vd.dashboardId = sqliteConnector_.getData<int>(0, 0);
    vd.updateTime = sqliteConnector_.getData<std::string>(0, 1);
  } catch (std::exception& e) {
    throw;
  }
  vd.dashboardSystemRoleName = generate_dashboard_system_rolename(
      std::to_string(currentDB_.dbId), std::to_string(vd.dashboardId));
  addFrontendViewToMap(vd);
  sqlite_lock.unlock();
  write_lock.unlock();
  if (!isInfoSchemaDb()) {
    // NOTE(wamsi): Transactionally unsafe
    createOrUpdateDashboardSystemRole(
        vd.dashboardMetadata, vd.userId, vd.dashboardSystemRoleName);
  }
  return vd.dashboardId;
}

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void Catalog_Namespace::Catalog::createDashboardSystemRoles ( )

protected

Definition at line 931 of file Catalog.cpp.

References createOrUpdateDashboardSystemRole(), currentDB_, Catalog_Namespace::DBMetadata::dbId, logger::ERROR, generate_dashboard_system_rolename(), SqliteConnector::getData(), Catalog_Namespace::SysCatalog::getGranteesOfSharedDashboards(), SqliteConnector::getNumRows(), getObjForLock(), Catalog_Namespace::SysCatalog::getRoleGrantee(), Catalog_Namespace::SysCatalog::grantRoleBatch(), logger::INFO, Catalog_Namespace::SysCatalog::instance(), LOG, MAPD_VERSION, SqliteConnector::query(), SqliteConnector::query_with_text_params(), run_benchmark_import::result, sqliteConnector_, and to_string().

Referenced by CheckAndExecuteMigrationsPostBuildMaps().

                                         {
  std::unordered_map<std::string, std::pair<int, std::string>> dashboards;
  std::vector<std::string> dashboard_ids;
  static const std::string migration_name{"dashboard_roles_migration"};
  {
    cat_sqlite_lock sqlite_lock(getObjForLock());
    sqliteConnector_.query("BEGIN TRANSACTION");
    try {
      // migration_history should be present in all catalogs by now
      // if not then would be created before this migration
      sqliteConnector_.query(
          "select * from mapd_version_history where migration_history = '" +
          migration_name + "'");
      if (sqliteConnector_.getNumRows() != 0) {
        // no need for further execution
        sqliteConnector_.query("END TRANSACTION");
        return;
      }
      LOG(INFO) << "Performing dashboard internal roles Migration.";
      sqliteConnector_.query("select id, userid, metadata from mapd_dashboards");
      for (size_t i = 0; i < sqliteConnector_.getNumRows(); ++i) {
        if (SysCatalog::instance().getRoleGrantee(generate_dashboard_system_rolename(
                std::to_string(currentDB_.dbId),
                sqliteConnector_.getData<string>(i, 0)))) {
          // Successfully created roles during previous migration/crash
          // No need to include them
          continue;
        }
        dashboards[sqliteConnector_.getData<string>(i, 0)] = std::make_pair(
            sqliteConnector_.getData<int>(i, 1), sqliteConnector_.getData<string>(i, 2));
        dashboard_ids.push_back(sqliteConnector_.getData<string>(i, 0));
      }
    } catch (const std::exception& e) {
      sqliteConnector_.query("ROLLBACK TRANSACTION");
      throw;
    }
    sqliteConnector_.query("END TRANSACTION");
  }
  // All current grantees with shared dashboards.
  const auto active_grantees =
      SysCatalog::instance().getGranteesOfSharedDashboards(dashboard_ids);

  try {
    // NOTE(wamsi): Transactionally unsafe
    for (auto dash : dashboards) {
      createOrUpdateDashboardSystemRole(dash.second.second,
                                        dash.second.first,
                                        generate_dashboard_system_rolename(
                                            std::to_string(currentDB_.dbId), dash.first));
      auto result = active_grantees.find(dash.first);
      if (result != active_grantees.end()) {
        SysCatalog::instance().grantRoleBatch(
            {generate_dashboard_system_rolename(std::to_string(currentDB_.dbId),
                                                dash.first)},
            result->second);
      }
    }
    cat_sqlite_lock sqlite_lock(getObjForLock());
    // check if this has already been completed
    sqliteConnector_.query(
        "select * from mapd_version_history where migration_history = '" +
        migration_name + "'");
    if (sqliteConnector_.getNumRows() != 0) {
      return;
    }
    sqliteConnector_.query_with_text_params(
        "INSERT INTO mapd_version_history(version, migration_history) values(?,?)",
        std::vector<std::string>{std::to_string(MAPD_VERSION), migration_name});
  } catch (const std::exception& e) {
    LOG(ERROR) << "Failed to create dashboard system roles during migration: "
               << e.what();
    throw;
  }
  LOG(INFO) << "Successfully created dashboard system roles during migration.";
}

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void Catalog_Namespace::Catalog::createDefaultServersIfNotExists

(

)

Creates default local file servers (if they don't already exist).

Definition at line 4994 of file Catalog.cpp.

References CHECK, foreign_storage::DataWrapperType::CSV, g_enable_fsi, shared::kRootUserId, foreign_storage::AbstractFileStorageDataWrapper::LOCAL_FILE_STORAGE_TYPE, foreign_storage::DataWrapperType::PARQUET, foreign_storage::DataWrapperType::REGEX_PARSER, and foreign_storage::AbstractFileStorageDataWrapper::STORAGE_TYPE_KEY.

                                              {
  CHECK(g_enable_fsi);
  foreign_storage::OptionsMap options;
  options[foreign_storage::AbstractFileStorageDataWrapper::STORAGE_TYPE_KEY] =
      foreign_storage::AbstractFileStorageDataWrapper::LOCAL_FILE_STORAGE_TYPE;

  auto local_csv_server = std::make_unique<foreign_storage::ForeignServer>(
      "default_local_delimited",
      foreign_storage::DataWrapperType::CSV,
      options,
      shared::kRootUserId);
  local_csv_server->validate();
  createForeignServerNoLocks(std::move(local_csv_server), true);

#ifdef ENABLE_IMPORT_PARQUET
  auto local_parquet_server = std::make_unique<foreign_storage::ForeignServer>(
      "default_local_parquet",
      foreign_storage::DataWrapperType::PARQUET,
      options,
      shared::kRootUserId);
  local_parquet_server->validate();
  createForeignServerNoLocks(std::move(local_parquet_server), true);
#endif

  auto local_regex_parser_server = std::make_unique<foreign_storage::ForeignServer>(
      "default_local_regex_parsed",
      foreign_storage::DataWrapperType::REGEX_PARSER,
      options,
      shared::kRootUserId);
  local_regex_parser_server->validate();
  createForeignServerNoLocks(std::move(local_regex_parser_server), true);
}

void Catalog_Namespace::Catalog::createForeignServer	(	std::unique_ptr< foreign_storage::ForeignServer >	foreign_server,
		bool	if_not_exists
	)

Creates a new foreign server DB object.

Parameters

foreign_server	- unique pointer to struct containing foreign server details
if_not_exists	- flag indicating whether or not an attempt to create a new foreign server should occur if a server with the same name already exists. An exception is thrown if this flag is set to "false" and an attempt is made to create a pre-existing foreign server

Definition at line 3091 of file Catalog.cpp.

                        {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());
  createForeignServerNoLocks(std::move(foreign_server), if_not_exists);
}

void Catalog_Namespace::Catalog::createForeignServerNoLocks ( std::unique_ptr< foreign_storage::ForeignServer >  foreign_server, bool  if_not_exists  )

private

Same as createForeignServer() but without acquiring locks. This should only be called from within a function/code block that already acquires appropriate locks.

Definition at line 3099 of file Catalog.cpp.

References CHECK, CHECK_EQ, setup::name, and to_string().

                        {
  const auto& name = foreign_server->name;

  sqliteConnector_.query_with_text_params(
      "SELECT name from omnisci_foreign_servers where name = ?",
      std::vector<std::string>{name});

  if (sqliteConnector_.getNumRows() == 0) {
    foreign_server->creation_time = std::time(nullptr);
    sqliteConnector_.query_with_text_params(
        "INSERT INTO omnisci_foreign_servers (name, data_wrapper_type, owner_user_id, "
        "creation_time,  "
        "options) "
        "VALUES (?, ?, ?, ?, ?)",
        std::vector<std::string>{name,
                                 foreign_server->data_wrapper_type,
                                 std::to_string(foreign_server->user_id),
                                 std::to_string(foreign_server->creation_time),
                                 foreign_server->getOptionsAsJsonString()});
    sqliteConnector_.query_with_text_params(
        "SELECT id from omnisci_foreign_servers where name = ?",
        std::vector<std::string>{name});
    CHECK_EQ(sqliteConnector_.getNumRows(), size_t(1));
    foreign_server->id = sqliteConnector_.getData<int32_t>(0, 0);
    std::shared_ptr<foreign_storage::ForeignServer> foreign_server_shared =
        std::move(foreign_server);
    CHECK(foreignServerMap_.find(name) == foreignServerMap_.end())
        << "Attempting to insert a foreign server into foreign server map that already "
           "exists.";
    foreignServerMap_[name] = foreign_server_shared;
    foreignServerMapById_[foreign_server_shared->id] = foreign_server_shared;
  } else if (!if_not_exists) {
    throw std::runtime_error{"A foreign server with name \"" + foreign_server->name +
                             "\" already exists."};
  }

  const auto& server_it = foreignServerMap_.find(name);
  CHECK(server_it != foreignServerMap_.end());
  CHECK(foreignServerMapById_.find(server_it->second->id) != foreignServerMapById_.end());
}

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std::string Catalog_Namespace::Catalog::createLink	(	LinkDescriptor &	ld,
		size_t	min_length
	)

Definition at line 4644 of file Catalog.cpp.

References LinkDescriptor::link, LinkDescriptor::linkId, to_string(), LinkDescriptor::updateTime, LinkDescriptor::userId, LinkDescriptor::viewMetadata, and LinkDescriptor::viewState.

                                                                   {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());
  sqliteConnector_.query("BEGIN TRANSACTION");
  try {
    ld.link = calculateSHA1(ld.viewState + ld.viewMetadata + std::to_string(ld.userId))
                  .substr(0, 8);
    sqliteConnector_.query_with_text_params(
        "SELECT linkid FROM mapd_links WHERE link = ? and userid = ?",
        std::vector<std::string>{ld.link, std::to_string(ld.userId)});
    if (sqliteConnector_.getNumRows() > 0) {
      sqliteConnector_.query_with_text_params(
          "UPDATE mapd_links SET update_time = datetime('now') WHERE userid = ? AND "
          "link = ?",
          std::vector<std::string>{std::to_string(ld.userId), ld.link});
    } else {
      sqliteConnector_.query_with_text_params(
          "INSERT INTO mapd_links (userid, link, view_state, view_metadata, "
          "update_time) VALUES (?,?,?,?, datetime('now'))",
          std::vector<std::string>{
              std::to_string(ld.userId), ld.link, ld.viewState, ld.viewMetadata});
    }
    // now get the auto generated dashid
    sqliteConnector_.query_with_text_param(
        "SELECT linkid, strftime('%Y-%m-%dT%H:%M:%SZ', update_time) FROM mapd_links "
        "WHERE link = ?",
        ld.link);
    ld.linkId = sqliteConnector_.getData<int>(0, 0);
    ld.updateTime = sqliteConnector_.getData<std::string>(0, 1);
  } catch (std::exception& e) {
    sqliteConnector_.query("ROLLBACK TRANSACTION");
    throw;
  }
  sqliteConnector_.query("END TRANSACTION");
  addLinkToMap(ld);
  return ld.link;
}

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void Catalog_Namespace::Catalog::createOrUpdateDashboardSystemRole ( const std::string &  view_meta, const int32_t &  user_id, const std::string &  dash_role_name  )

protected

Definition at line 1819 of file Catalog.cpp.

References Grantee::findDbObject(), Grantee::getDbObjects(), TableDBObjectType, and ViewDBObjectType.

Referenced by createDashboardSystemRoles().

                                                                                 {
  auto objects = parseDashboardObjects(view_meta, user_id);
  Role* rl = SysCatalog::instance().getRoleGrantee(dash_role_name);
  if (!rl) {
    // Dashboard role does not exist
    // create role and grant privileges
    // NOTE(wamsi): Transactionally unsafe
    SysCatalog::instance().createRole(
        dash_role_name, /*user_private_role=*/false, /*is_temporary=*/false);
    SysCatalog::instance().grantDBObjectPrivilegesBatch({dash_role_name}, objects, *this);
  } else {
    // Dashboard system role already exists
    // Add/remove privileges on objects
    std::set<DBObjectKey> revoke_keys;
    auto ex_objects = rl->getDbObjects(true);
    for (auto key : *ex_objects | boost::adaptors::map_keys) {
      if (key.permissionType != TableDBObjectType &&
          key.permissionType != ViewDBObjectType) {
        continue;
      }
      bool found = false;
      for (auto obj : objects) {
        found = key == obj.getObjectKey() ? true : false;
        if (found) {
          break;
        }
      }
      if (!found) {
        revoke_keys.insert(key);
      }
    }
    for (auto& key : revoke_keys) {
      // revoke privs on object since the object is no
      // longer used by the dashboard as source
      // NOTE(wamsi): Transactionally unsafe
      SysCatalog::instance().revokeDBObjectPrivileges(
          dash_role_name, *rl->findDbObject(key, true), *this);
    }
    // Update privileges on remaining objects
    // NOTE(wamsi): Transactionally unsafe
    SysCatalog::instance().grantDBObjectPrivilegesBatch({dash_role_name}, objects, *this);
  }
}

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void Catalog_Namespace::Catalog::createShardedTable	(	TableDescriptor &	td,
		const std::list< ColumnDescriptor > &	columns,
		const std::vector< Parser::SharedDictionaryDef > &	shared_dict_defs
	)

Definition at line 3908 of file Catalog.cpp.

References CHECK, TableDescriptor::nShards, TableDescriptor::shard, table_is_temporary(), TableDescriptor::tableId, and TableDescriptor::tableName.

                                                                  {
  /* create logical table */
  TableDescriptor* tdl = &td;
  createTable(*tdl, cols, shared_dict_defs, true);  // create logical table
  int32_t logical_tb_id = tdl->tableId;
  std::string logical_table_name = tdl->tableName;

  /* create physical tables and link them to the logical table */
  std::vector<int32_t> physicalTables;
  for (int32_t i = 1; i <= td.nShards; i++) {
    TableDescriptor* tdp = &td;
    tdp->tableName = generatePhysicalTableName(logical_table_name, i);
    tdp->shard = i - 1;
    createTable(*tdp, cols, shared_dict_defs, false);  // create physical table
    int32_t physical_tb_id = tdp->tableId;

    /* add physical table to the vector of physical tables */
    physicalTables.push_back(physical_tb_id);
  }

  if (!physicalTables.empty()) {
    cat_write_lock write_lock(this);
    /* add logical to physical tables correspondence to the map */
    const auto it_ok =
        logicalToPhysicalTableMapById_.emplace(logical_tb_id, physicalTables);
    CHECK(it_ok.second);
    /* update sqlite mapd_logical_to_physical in sqlite database */
    if (!table_is_temporary(&td)) {
      updateLogicalToPhysicalTableMap(logical_tb_id);
    }
  }
}

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void Catalog_Namespace::Catalog::createSystemTableServer ( const std::string &  server_name, const std::string &  data_wrapper_type, const foreign_storage::OptionsMap &  options = {}  )

private

Definition at line 6442 of file Catalog.cpp.

References logger::INFO, shared::kRootUserId, LOG, and run_benchmark_import::tables.

                                                                                {
  auto server = std::make_unique<foreign_storage::ForeignServer>(
      server_name, data_wrapper_type, options, shared::kRootUserId);
  server->validate();
  auto stored_server = getForeignServer(server_name);
  if (stored_server && stored_server->options != server->options) {
    // Drop all tables for server before dropping server.
    auto tables = getAllForeignTablesForForeignServer(stored_server->id);
    for (const auto table : tables) {
      LOG(INFO) << "Dropping existing \"" << table->tableName << "\" system table for \""
                << server_name << "\" foreign server.";
      dropTable(table);
    }
    LOG(INFO) << "Dropping existing \"" << server_name
              << "\" system table foreign server.";
    dropForeignServer(server_name);
    stored_server = nullptr;
  }
  if (!stored_server) {
    LOG(INFO) << "Creating a new \"" << server_name << "\" system table foreign server.";
    createForeignServer(std::move(server), true);
  }
}

void Catalog_Namespace::Catalog::createTable	(	TableDescriptor &	td,
		const std::list< ColumnDescriptor > &	columns,
		const std::vector< Parser::SharedDictionaryDef > &	shared_dict_defs,
		bool	isLogicalTable
	)

Definition at line 2743 of file Catalog.cpp.

References CHECK, ColumnDescriptor::columnId, TableDescriptor::columnIdBySpi_, ColumnDescriptor::columnName, ColumnDescriptor::columnType, ColumnDescriptor::default_value, dict_ref_t::dictId, Data_Namespace::DISK_LEVEL, StorageType::FOREIGN_TABLE, TableDescriptor::fragPageSize, TableDescriptor::fragType, g_enable_fsi, g_serialize_temp_tables, SQLTypeInfo::get_comp_param(), SQLTypeInfo::get_compression(), SQLTypeInfo::get_dimension(), Catalog_Namespace::anonymous_namespace{Catalog.cpp}::get_next_refresh_time(), SQLTypeInfo::get_notnull(), SQLTypeInfo::get_scale(), SQLTypeInfo::get_size(), SQLTypeInfo::get_subtype(), SQLTypeInfo::get_type(), TableDescriptor::hasDeletedCol, SQLTypeInfo::is_array(), SQLTypeInfo::is_geometry(), TableDescriptor::is_system_table, ColumnDescriptor::isDeletedCol, ColumnDescriptor::isGeoPhyCol, ColumnDescriptor::isSystemCol, TableDescriptor::isView, ColumnDescriptor::isVirtualCol, kBIGINT, kBOOLEAN, kENCODING_DICT, TableDescriptor::keyMetainfo, TableDescriptor::maxChunkSize, TableDescriptor::maxFragRows, TableDescriptor::maxRollbackEpochs, TableDescriptor::maxRows, TableDescriptor::nColumns, foreign_storage::ForeignTable::next_refresh_time, TableDescriptor::nShards, TableDescriptor::partitions, TableDescriptor::persistenceLevel, SQLTypeInfo::set_comp_param(), Catalog_Namespace::anonymous_namespace{Catalog.cpp}::set_dict_key(), SQLTypeInfo::set_size(), TableDescriptor::shard, TableDescriptor::shardedColumnId, TableDescriptor::sortedColumnId, TableDescriptor::storageType, ColumnDescriptor::tableId, TableDescriptor::tableId, TableDescriptor::tableName, to_string(), TableDescriptor::userId, TableDescriptor::viewSQL, and ColumnDescriptor::virtualExpr.

                         {
  cat_write_lock write_lock(this);
  list<ColumnDescriptor> cds = cols;
  list<DictDescriptor> dds;
  std::set<std::string> toplevel_column_names;
  list<ColumnDescriptor> columns;

  if (!td.storageType.empty() &&
      (!g_enable_fsi || td.storageType != StorageType::FOREIGN_TABLE)) {
    if (td.persistenceLevel == Data_Namespace::MemoryLevel::DISK_LEVEL) {
      throw std::runtime_error("Only temporary tables can be backed by foreign storage.");
    }
    dataMgr_->getForeignStorageInterface()->prepareTable(getCurrentDB().dbId, td, cds);
  }

  for (auto cd : cds) {
    if (cd.columnName == "rowid") {
      throw std::runtime_error(
          "Cannot create column with name rowid. rowid is a system defined column.");
    }
    columns.push_back(cd);
    toplevel_column_names.insert(cd.columnName);
    if (cd.columnType.is_geometry()) {
      expandGeoColumn(cd, columns);
    }
  }
  cds.clear();

  ColumnDescriptor cd;
  // add row_id column -- Must be last column in the table
  cd.columnName = "rowid";
  cd.isSystemCol = true;
  cd.columnType = SQLTypeInfo(kBIGINT, true);
#ifdef MATERIALIZED_ROWID
  cd.isVirtualCol = false;
#else
  cd.isVirtualCol = true;
  cd.virtualExpr = "MAPD_FRAG_ID * MAPD_ROWS_PER_FRAG + MAPD_FRAG_ROW_ID";
#endif
  columns.push_back(cd);
  toplevel_column_names.insert(cd.columnName);

  if (td.hasDeletedCol) {
    ColumnDescriptor cd_del;
    cd_del.columnName = "$deleted$";
    cd_del.isSystemCol = true;
    cd_del.isVirtualCol = false;
    cd_del.columnType = SQLTypeInfo(kBOOLEAN, true);
    cd_del.isDeletedCol = true;

    columns.push_back(cd_del);
  }

  for (auto& column : columns) {
    column.db_id = getDatabaseId();
  }

  td.nColumns = columns.size();
  // TODO(sy): don't take disk locks or touch sqlite connector for temporary tables
  cat_sqlite_lock sqlite_lock(getObjForLock());
  sqliteConnector_.query("BEGIN TRANSACTION");
  if (td.persistenceLevel == Data_Namespace::MemoryLevel::DISK_LEVEL) {
    try {
      sqliteConnector_.query_with_text_params(
          R"(INSERT INTO mapd_tables (name, userid, ncolumns, isview, fragments, frag_type, max_frag_rows, max_chunk_size, frag_page_size, max_rows, partitions, shard_column_id, shard, num_shards, sort_column_id, storage_type, max_rollback_epochs, is_system_table, key_metainfo) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?))",
          std::vector<std::string>{td.tableName,
                                   std::to_string(td.userId),
                                   std::to_string(td.nColumns),
                                   std::to_string(td.isView),
                                   "",
                                   std::to_string(td.fragType),
                                   std::to_string(td.maxFragRows),
                                   std::to_string(td.maxChunkSize),
                                   std::to_string(td.fragPageSize),
                                   std::to_string(td.maxRows),
                                   td.partitions,
                                   std::to_string(td.shardedColumnId),
                                   std::to_string(td.shard),
                                   std::to_string(td.nShards),
                                   std::to_string(td.sortedColumnId),
                                   td.storageType,
                                   std::to_string(td.maxRollbackEpochs),
                                   std::to_string(td.is_system_table),
                                   td.keyMetainfo});

      // now get the auto generated tableid
      sqliteConnector_.query_with_text_param(
          "SELECT tableid FROM mapd_tables WHERE name = ?", td.tableName);
      td.tableId = sqliteConnector_.getData<int>(0, 0);
      int colId = 1;
      for (auto cd : columns) {
        if (cd.columnType.get_compression() == kENCODING_DICT) {
          const bool is_foreign_col =
              setColumnSharedDictionary(cd, cds, dds, td, shared_dict_defs);
          if (!is_foreign_col) {
            // Ideally we would like to not persist string dictionaries for system tables,
            // since system table content can be highly dynamic and string dictionaries
            // are not currently vacuumed.  However, in distributed this causes issues
            // when the cluster is out of sync (when the agg resets but leaves persist) so
            // for the sake of testing we need to leave this as normal dictionaries until
            // we solve the distributed issue.
            auto use_temp_dictionary = false;  // td.is_system_table;
            setColumnDictionary(cd, dds, td, isLogicalTable, use_temp_dictionary);
          }
        }

        if (toplevel_column_names.count(cd.columnName)) {
          if (!cd.isGeoPhyCol) {
            td.columnIdBySpi_.push_back(colId);
          }
        }

        using BindType = SqliteConnector::BindType;
        std::vector<BindType> types(17, BindType::TEXT);
        if (!cd.default_value.has_value()) {
          types[16] = BindType::NULL_TYPE;
        }
        sqliteConnector_.query_with_text_params(
            "INSERT INTO mapd_columns (tableid, columnid, name, coltype, colsubtype, "
            "coldim, colscale, is_notnull, "
            "compression, comp_param, size, chunks, is_systemcol, is_virtualcol, "
            "virtual_expr, is_deletedcol, default_value) "
            "VALUES (?, ?, ?, ?, ?, "
            "?, "
            "?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)",
            std::vector<std::string>{std::to_string(td.tableId),
                                     std::to_string(colId),
                                     cd.columnName,
                                     std::to_string(cd.columnType.get_type()),
                                     std::to_string(cd.columnType.get_subtype()),
                                     std::to_string(cd.columnType.get_dimension()),
                                     std::to_string(cd.columnType.get_scale()),
                                     std::to_string(cd.columnType.get_notnull()),
                                     std::to_string(cd.columnType.get_compression()),
                                     std::to_string(cd.columnType.get_comp_param()),
                                     std::to_string(cd.columnType.get_size()),
                                     "",
                                     std::to_string(cd.isSystemCol),
                                     std::to_string(cd.isVirtualCol),
                                     cd.virtualExpr,
                                     std::to_string(cd.isDeletedCol),
                                     cd.default_value.value_or("NULL")},
            types);
        cd.tableId = td.tableId;
        cd.columnId = colId++;
        cds.push_back(cd);
      }
      if (td.isView) {
        sqliteConnector_.query_with_text_params(
            "INSERT INTO mapd_views (tableid, sql) VALUES (?,?)",
            std::vector<std::string>{std::to_string(td.tableId), td.viewSQL});
      }
      if (td.storageType == StorageType::FOREIGN_TABLE) {
        auto& foreign_table = dynamic_cast<foreign_storage::ForeignTable&>(td);
        foreign_table.next_refresh_time = get_next_refresh_time(foreign_table);
        sqliteConnector_.query_with_text_params(
            "INSERT INTO omnisci_foreign_tables (table_id, server_id, options, "
            "last_refresh_time, next_refresh_time) VALUES (?, ?, ?, ?, ?)",
            std::vector<std::string>{std::to_string(foreign_table.tableId),
                                     std::to_string(foreign_table.foreign_server->id),
                                     foreign_table.getOptionsAsJsonString(),
                                     std::to_string(foreign_table.last_refresh_time),
                                     std::to_string(foreign_table.next_refresh_time)});
      }
    } catch (std::exception& e) {
      sqliteConnector_.query("ROLLBACK TRANSACTION");
      throw;
    }
  } else {  // Temporary table
    td.tableId = nextTempTableId_++;
    int colId = 1;
    for (auto cd : columns) {
      if (cd.columnType.get_compression() == kENCODING_DICT) {
        const bool is_foreign_col =
            setColumnSharedDictionary(cd, cds, dds, td, shared_dict_defs);

        if (!is_foreign_col) {
          // Create a new temporary dictionary
          std::string fileName("");
          std::string folderPath("");
          DictRef dict_ref(currentDB_.dbId, nextTempDictId_);
          nextTempDictId_++;
          DictDescriptor dd(dict_ref,
                            fileName,
                            cd.columnType.get_comp_param(),
                            false,
                            1,
                            folderPath,
                            true);  // Is dictName (2nd argument) used?
          dds.push_back(dd);
          if (!cd.columnType.is_array()) {
            cd.columnType.set_size(cd.columnType.get_comp_param() / 8);
          }
          cd.columnType.set_comp_param(dict_ref.dictId);
          set_dict_key(cd);
        }
      }
      if (toplevel_column_names.count(cd.columnName)) {
        if (!cd.isGeoPhyCol) {
          td.columnIdBySpi_.push_back(colId);
        }
      }
      cd.tableId = td.tableId;
      cd.columnId = colId++;
      cds.push_back(cd);
    }

    if (g_serialize_temp_tables) {
      serializeTableJsonUnlocked(&td, cds);
    }
  }

  try {
    auto cache = dataMgr_->getPersistentStorageMgr()->getDiskCache();
    if (cache) {
      CHECK(!cache->hasCachedMetadataForKeyPrefix({getCurrentDB().dbId, td.tableId}))
          << "Disk cache at " + cache->getCacheDirectory()
          << " contains preexisting data for new table.  Please "
             "delete or clear cache before continuing";
    }

    addTableToMap(&td, cds, dds);
    calciteMgr_->updateMetadata(currentDB_.dbName, td.tableName);
    if (!td.storageType.empty() && td.storageType != StorageType::FOREIGN_TABLE) {
      dataMgr_->getForeignStorageInterface()->registerTable(this, td, cds);
    }
  } catch (std::exception& e) {
    sqliteConnector_.query("ROLLBACK TRANSACTION");
    removeTableFromMap(td.tableName, td.tableId, true);
    throw;
  }
  sqliteConnector_.query("END TRANSACTION");

  if (td.storageType != StorageType::FOREIGN_TABLE) {
    write_lock.unlock();
    sqlite_lock.unlock();
    getMetadataForTable(td.tableName,
                        true);  // cause instantiateFragmenter() to be called
  }
}

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void Catalog_Namespace::Catalog::delDictionary

(

const ColumnDescriptor &

cd

)

Definition at line 2347 of file Catalog.cpp.

References CHECK, CHECK_GT, ColumnDescriptor::columnType, g_base_path, SQLTypeInfo::get_comp_param(), SQLTypeInfo::get_compression(), SQLTypeInfo::is_string(), SQLTypeInfo::is_string_array(), shared::kDataDirectoryName, kENCODING_DICT, File_Namespace::renameForDelete(), ColumnDescriptor::tableId, to_string(), and VLOG.

                                                      {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());
  if (!(cd.columnType.is_string() || cd.columnType.is_string_array())) {
    return;
  }
  if (!(cd.columnType.get_compression() == kENCODING_DICT)) {
    return;
  }
  const auto dictId = cd.columnType.get_comp_param();
  CHECK_GT(dictId, 0);
  // decrement and zero check dict ref count
  const auto td = getMetadataForTable(cd.tableId, false);
  CHECK(td);
  sqliteConnector_.query_with_text_param(
      "UPDATE mapd_dictionaries SET refcount = refcount - 1 WHERE dictid = ?",
      std::to_string(dictId));
  sqliteConnector_.query_with_text_param(
      "SELECT refcount FROM mapd_dictionaries WHERE dictid = ?", std::to_string(dictId));
  const auto refcount = sqliteConnector_.getData<int>(0, 0);
  VLOG(3) << "Dictionary " << dictId << "from dropped table has reference count "
          << refcount;
  if (refcount > 0) {
    return;
  }
  const DictRef dictRef(currentDB_.dbId, dictId);
  sqliteConnector_.query_with_text_param("DELETE FROM mapd_dictionaries WHERE dictid = ?",
                                         std::to_string(dictId));
  File_Namespace::renameForDelete(g_base_path + "/" + shared::kDataDirectoryName +
                                  "/DB_" + std::to_string(currentDB_.dbId) + "_DICT_" +
                                  std::to_string(dictId));

  std::unique_ptr<StringDictionaryClient> client;
  if (!string_dict_hosts_.empty()) {
    client.reset(new StringDictionaryClient(string_dict_hosts_.front(), dictRef, true));
  }
  if (client) {
    client->drop(dictRef);
  }

  dictDescriptorMapByRef_.erase(dictRef);
}

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void Catalog_Namespace::Catalog::deleteCustomExpressions	(	const std::vector< int32_t > &	custom_expression_ids,
		bool	do_soft_delete
	)

Deletes custom expressions with the given ids.

Parameters

custom_expression_ids	- ids of custom expressions to delete
do_soft_delete	- flag indicating whether or not to do a soft delete

Definition at line 5732 of file Catalog.cpp.

References CHECK, CHECK_EQ, join(), and to_string().

                                                           {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());

  std::vector<int32_t> invalid_ids;
  for (const auto id : custom_expression_ids) {
    if (custom_expr_map_by_id_.find(id) == custom_expr_map_by_id_.end()) {
      invalid_ids.emplace_back(id);
    }
  }
  if (!invalid_ids.empty()) {
    throw std::runtime_error{"Custom expressions with ids: " + join(invalid_ids, ",") +
                             " do not exist."};
  }
  sqliteConnector_.query("BEGIN TRANSACTION");
  try {
    for (const auto id : custom_expression_ids) {
      sqliteConnector_.query_with_text_params(
          "SELECT id FROM omnisci_custom_expressions WHERE id = ?",
          std::vector<std::string>{std::to_string(id)});
      CHECK_EQ(sqliteConnector_.getNumRows(), static_cast<size_t>(1));
      if (do_soft_delete) {
        sqliteConnector_.query_with_text_params(
            "UPDATE omnisci_custom_expressions SET is_deleted = ? WHERE id = ?",
            std::vector<std::string>{std::to_string(true), std::to_string(id)});
      } else {
        sqliteConnector_.query_with_text_params(
            "DELETE FROM omnisci_custom_expressions WHERE id = ?",
            std::vector<std::string>{std::to_string(id)});
      }
    }

    for (const auto id : custom_expression_ids) {
      if (do_soft_delete) {
        auto it = custom_expr_map_by_id_.find(id);
        CHECK(it != custom_expr_map_by_id_.end());
        it->second->is_deleted = true;
      } else {
        custom_expr_map_by_id_.erase(id);
      }
    }
  } catch (std::exception& e) {
    sqliteConnector_.query("ROLLBACK TRANSACTION");
    throw;
  }
  sqliteConnector_.query("END TRANSACTION");
}

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void Catalog_Namespace::Catalog::deleteMetadataForDashboards	(	const std::vector< int32_t >	ids,
		const UserMetadata &	user
	)

Definition at line 2106 of file Catalog.cpp.

References DashboardDBObjectType, AccessPrivileges::DELETE_DASHBOARD, and to_string().

                                                                    {
  std::stringstream invalid_ids, restricted_ids;

  for (int32_t dashboard_id : dashboard_ids) {
    if (!getMetadataForDashboard(dashboard_id)) {
      invalid_ids << (!invalid_ids.str().empty() ? ", " : "") << dashboard_id;
      continue;
    }
    DBObject object(dashboard_id, DashboardDBObjectType);
    object.loadKey(*this);
    object.setPrivileges(AccessPrivileges::DELETE_DASHBOARD);
    std::vector<DBObject> privs = {object};
    if (!SysCatalog::instance().checkPrivileges(user, privs)) {
      restricted_ids << (!restricted_ids.str().empty() ? ", " : "") << dashboard_id;
    }
  }

  if (invalid_ids.str().size() > 0 || restricted_ids.str().size() > 0) {
    std::stringstream error_message;
    error_message << "Delete dashboard(s) failed with error(s):";
    if (invalid_ids.str().size() > 0) {
      error_message << "\nDashboard id: " << invalid_ids.str()
                    << " - Dashboard id does not exist";
    }
    if (restricted_ids.str().size() > 0) {
      error_message
          << "\nDashboard id: " << restricted_ids.str()
          << " - User should be either owner of dashboard or super user to delete it";
    }
    throw std::runtime_error(error_message.str());
  }
  std::vector<DBObject> dash_objs;

  for (int32_t dashboard_id : dashboard_ids) {
    dash_objs.emplace_back(dashboard_id, DashboardDBObjectType);
  }
  // BE-5245: Transactionally unsafe (like other combined Catalog/Syscatalog operations)
  SysCatalog::instance().revokeDBObjectPrivilegesFromAllBatch(dash_objs, this);
  {
    cat_write_lock write_lock(this);
    cat_sqlite_lock sqlite_lock(getObjForLock());

    sqliteConnector_.query("BEGIN TRANSACTION");
    try {
      for (int32_t dashboard_id : dashboard_ids) {
        auto dash = getMetadataForDashboard(dashboard_id);
        // Dash should still exist if revokeDBObjectPrivileges passed but throw and
        // rollback if already deleted
        if (!dash) {
          throw std::runtime_error(
              std::string("Delete dashboard(s) failed with error(s):\nDashboard id: ") +
              std::to_string(dashboard_id) + " - Dashboard id does not exist ");
        }
        std::string user_id = std::to_string(dash->userId);
        std::string dash_name = dash->dashboardName;
        auto viewDescIt = dashboardDescriptorMap_.find(user_id + ":" + dash_name);
        dashboardDescriptorMap_.erase(viewDescIt);
        sqliteConnector_.query_with_text_params(
            "DELETE FROM mapd_dashboards WHERE name = ? and userid = ?",
            std::vector<std::string>{dash_name, user_id});
      }
    } catch (std::exception& e) {
      sqliteConnector_.query("ROLLBACK TRANSACTION");
      throw;
    }
    sqliteConnector_.query("END TRANSACTION");
  }
}

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void Catalog_Namespace::Catalog::deleteTableCatalogMetadata ( const TableDescriptor *  logical_table, const std::vector< const TableDescriptor * > &  physical_tables  )

private

Definition at line 4114 of file Catalog.cpp.

References TableDescriptor::tableId, and to_string().

                                                              {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());
  sqliteConnector_.query("BEGIN TRANSACTION");
  try {
    // remove corresponding record from the logicalToPhysicalTableMap in sqlite database
    sqliteConnector_.query_with_text_param(
        "DELETE FROM mapd_logical_to_physical WHERE logical_table_id = ?",
        std::to_string(logical_table->tableId));
    logicalToPhysicalTableMapById_.erase(logical_table->tableId);
    for (auto table : physical_tables) {
      eraseTableMetadata(table);
    }
  } catch (std::exception& e) {
    sqliteConnector_.query("ROLLBACK TRANSACTION");
    throw;
  }
  sqliteConnector_.query("END TRANSACTION");
}

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void Catalog_Namespace::Catalog::doTruncateTable ( const TableDescriptor *  td )

protected

Definition at line 3952 of file Catalog.cpp.

References CHECK, CHECK_GE, ColumnDescriptor::columnType, Data_Namespace::CPU_LEVEL, dict_ref_t::dictId, DictDescriptor::dictIsTemp, DictDescriptor::dictRef, SQLTypeInfo::get_comp_param(), SQLTypeInfo::get_compression(), Data_Namespace::GPU_LEVEL, kENCODING_DICT, File_Namespace::renameForDelete(), ColumnDescriptor::tableId, and TableDescriptor::tableId.

                                                       {
  // must destroy fragmenter before deleteChunks is called.
  removeFragmenterForTable(td->tableId);

  const int tableId = td->tableId;
  ChunkKey chunkKeyPrefix = {currentDB_.dbId, tableId};
  // assuming deleteChunksWithPrefix is atomic
  dataMgr_->deleteChunksWithPrefix(chunkKeyPrefix, MemoryLevel::CPU_LEVEL);
  dataMgr_->deleteChunksWithPrefix(chunkKeyPrefix, MemoryLevel::GPU_LEVEL);

  dataMgr_->removeTableRelatedDS(currentDB_.dbId, tableId);

  cat_write_lock write_lock(this);
  std::unique_ptr<StringDictionaryClient> client;
  if (SysCatalog::instance().isAggregator()) {
    CHECK(!string_dict_hosts_.empty());
    DictRef dict_ref(currentDB_.dbId, -1);
    client.reset(new StringDictionaryClient(string_dict_hosts_.front(), dict_ref, true));
  }
  // clean up any dictionaries
  // delete all column descriptors for the table
  for (const auto& columnDescriptor : columnDescriptorMapById_) {
    auto cd = columnDescriptor.second;
    if (cd->tableId != td->tableId) {
      continue;
    }
    const int dict_id = cd->columnType.get_comp_param();
    // Dummy dictionaries created for a shard of a logical table have the id set to zero.
    if (cd->columnType.get_compression() == kENCODING_DICT && dict_id) {
      const DictRef dict_ref(currentDB_.dbId, dict_id);
      const auto dictIt = dictDescriptorMapByRef_.find(dict_ref);
      CHECK(dictIt != dictDescriptorMapByRef_.end());
      const auto& dd = dictIt->second;
      CHECK_GE(dd->refcount, 1);
      // if this is the only table using this dict reset the dict
      if (dd->refcount == 1) {
        // close the dictionary
        dd->stringDict.reset();
        File_Namespace::renameForDelete(dd->dictFolderPath);
        if (client) {
          client->drop(dd->dictRef);
        }
        if (!dd->dictIsTemp) {
          boost::filesystem::create_directory(dd->dictFolderPath);
        }
      }

      DictDescriptor* new_dd = new DictDescriptor(dd->dictRef,
                                                  dd->dictName,
                                                  dd->dictNBits,
                                                  dd->dictIsShared,
                                                  dd->refcount,
                                                  dd->dictFolderPath,
                                                  dd->dictIsTemp);
      dictDescriptorMapByRef_.erase(dictIt);
      // now create new Dict -- need to figure out what to do here for temp tables
      if (client) {
        client->create(new_dd->dictRef, new_dd->dictIsTemp);
      }
      dictDescriptorMapByRef_[new_dd->dictRef].reset(new_dd);
      getMetadataForDict(new_dd->dictRef.dictId);
    }
  }
}

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void Catalog_Namespace::Catalog::dropColumn	(	const TableDescriptor &	td,
		const ColumnDescriptor &	cd
	)

Definition at line 2481 of file Catalog.cpp.

References CHECK, ColumnDescriptor::columnId, ColumnDescriptor::columnName, TableDescriptor::nShards, TableDescriptor::shard, ColumnDescriptor::tableId, TableDescriptor::tableId, to_string(), and to_upper().

                                                                              {
  {
    cat_write_lock write_lock(this);
    cat_sqlite_lock sqlite_lock(getObjForLock());
    // caller must handle sqlite/chunk transaction TOGETHER
    sqliteConnector_.query_with_text_params(
        "DELETE FROM mapd_columns where tableid = ? and columnid = ?",
        std::vector<std::string>{std::to_string(td.tableId),
                                 std::to_string(cd.columnId)});

    sqliteConnector_.query_with_text_params(
        "UPDATE mapd_tables SET ncolumns = ncolumns - 1 WHERE tableid = ?",
        std::vector<std::string>{std::to_string(td.tableId)});

    ColumnDescriptorMap::iterator columnDescIt =
        columnDescriptorMap_.find(ColumnKey(cd.tableId, to_upper(cd.columnName)));
    CHECK(columnDescIt != columnDescriptorMap_.end());

    columnDescriptorsForRoll.emplace_back(columnDescIt->second, nullptr);
    removeFromColumnMap(columnDescIt->second);
    --tableDescriptorMapById_[td.tableId]->nColumns;
  }

  // for each shard
  if (td.nShards > 0 && td.shard < 0) {
    for (const auto shard : getPhysicalTablesDescriptors(&td)) {
      const auto shard_cd = getMetadataForColumn(shard->tableId, cd.columnId);
      CHECK(shard_cd);
      dropColumn(*shard, *shard_cd);
    }
  }
}

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void Catalog_Namespace::Catalog::dropForeignServer

(

const std::string &

server_name

)

Drops/deletes a foreign server DB object.

Parameters

server_name

- Name of foreign server that will be deleted

Definition at line 3258 of file Catalog.cpp.

References CHECK_EQ, and to_string().

                                                            {
  cat_write_lock write_lock(this);
  cat_sqlite_lock sqlite_lock(getObjForLock());

  sqliteConnector_.query_with_text_params(
      "SELECT id from omnisci_foreign_servers where name = ?",
      std::vector<std::string>{server_name});
  auto num_rows = sqliteConnector_.getNumRows();
  if (num_rows > 0) {
    CHECK_EQ(size_t(1), num_rows);
    auto server_id = sqliteConnector_.getData<int32_t>(0, 0);
    sqliteConnector_.query_with_text_param(
        "SELECT table_id from omnisci_foreign_tables where server_id = ?",
        std::to_string(server_id));
    if (sqliteConnector_.getNumRows() > 0) {
      throw std::runtime_error{"Foreign server \"" + server_name +
                               "\" is referenced "
                               "by existing foreign tables and cannot be dropped."};
    }
    sqliteConnector_.query("BEGIN TRANSACTION");
    try {
      sqliteConnector_.query_with_text_params(
          "DELETE FROM omnisci_foreign_servers WHERE name = ?",
          std::vector<std::string>{server_name});
    } catch (const std::exception& e) {
      sqliteConnector_.query("ROLLBACK TRANSACTION");
      throw;
    }
    sqliteConnector_.query("END TRANSACTION");
    foreignServerMap_.erase(server_name);
    foreignServerMapById_.erase(server_id);
  }
}

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void Catalog_Namespace::Catalog::dropTable

(

const TableDescriptor *

td

)

Definition at line 4086 of file Catalog.cpp.

References CHECK, TableDescriptor::isView, TableDBObjectType, TableDescriptor::tableId, TableDescriptor::tableName, and ViewDBObjectType.

Referenced by Catalog_Namespace::anonymous_namespace{Catalog.cpp}::drop_tables().

                                                 {
  SysCatalog::instance().revokeDBObjectPrivilegesFromAll(
      DBObject(td->tableName, td->isView ? ViewDBObjectType : TableDBObjectType), this);
  std::vector<const TableDescriptor*> tables_to_drop;
  {
    cat_read_lock read_lock(this);
    const auto physicalTableIt = logicalToPhysicalTableMapById_.find(td->tableId);
    if (physicalTableIt != logicalToPhysicalTableMapById_.end()) {
      // remove all corresponding physical tables if this is a logical table
      const auto physicalTables = physicalTableIt->second;
      CHECK(!physicalTables.empty());
      for (size_t i = 0; i < physicalTables.size(); i++) {
        int32_t physical_tb_id = physicalTables[i];
        const TableDescriptor* phys_td =
            getMutableMetadataForTableUnlocked(physical_tb_id);
        CHECK(phys_td);
        tables_to_drop.emplace_back(phys_td);
      }
    }
    tables_to_drop.emplace_back(td);
  }

  for (auto table : tables_to_drop) {
    eraseTablePhysicalData(table);
  }
  deleteTableCatalogMetadata(td, tables_to_drop);
}

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void Catalog_Namespace::Catalog::dropTableFromJsonUnlocked ( const std::string &  table_name ) const

protected

Definition at line 3059 of file Catalog.cpp.

References CHECK, Catalog_Namespace::anonymous_namespace{Catalog.cpp}::table_json_filepath(), and VLOG.

                                                                         {
  // relies on the catalog write lock
  using namespace rapidjson;

  VLOG(1) << "Dropping temporary table " << table_name << " to JSON for Calcite.";

  const auto db_name = currentDB_.dbName;
  const auto file_path = table_json_filepath(basePath_, db_name);

  CHECK(boost::filesystem::exists(file_path));
  Document d;

  std::ifstream reader(file_path.string());
  CHECK(reader.is_open());
  IStreamWrapper json_read_wrapper(reader);
  d.ParseStream(json_read_wrapper);

  CHECK(d.IsObject());
  auto table_name_ref = StringRef(table_name.c_str());
  CHECK(d.HasMember(table_name_ref));
  CHECK(d.RemoveMember(table_name_ref));

  // Overwrite the existing file
  std::ofstream writer(file_path.string(), std::ios::trunc | std::ios::out);
  CHECK(writer.is_open());
  OStreamWrapper json_wrapper(writer);

  Writer<OStreamWrapper> json_writer(json_wrapper);
  d.Accept(json_writer);
  writer.close();
}

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std::string Catalog_Namespace::Catalog::dumpCreateServer	(	const std::string &	name,
		bool	multiline_formatting = true
	)		const

Definition at line 5409 of file Catalog.cpp.

References join().

                                                                       {
  cat_read_lock read_lock(this);
  auto server_it = foreignServerMap_.find(name);
  if (server_it == foreignServerMap_.end()) {
    throw std::runtime_error("Foreign server " + name + " does not exist.");
  }
  auto server = server_it->second.get();
  std::ostringstream os;
  os << "CREATE SERVER " << name << " FOREIGN DATA WRAPPER " << server->data_wrapper_type;
  std::vector<std::string> with_options;
  for (const auto& [option, value] : server->options) {
    with_options.emplace_back(option + "='" + value + "'");
  }
  if (!with_options.empty()) {
    if (!multiline_formatting) {
      os << " ";
    } else {
      os << "\n";
    }
    os << "WITH (" + boost::algorithm::join(with_options, ", ") + ")";
  }
  os << ";";
  return os.str();
}

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std::string Catalog_Namespace::Catalog::dumpCreateTable	(	const TableDescriptor *	td,
		bool	multiline_formatting = true,
		bool	dump_defaults = false
	)		const

Definition at line 5230 of file Catalog.cpp.

                                                               {
  cat_read_lock read_lock(this);
  return dumpCreateTableUnlocked(td, multiline_formatting, dump_defaults);
}

std::optional< std::string > Catalog_Namespace::Catalog::dumpCreateTable	(	int32_t	table_id,
		bool	multiline_formatting = true,
		bool	dump_defaults = false
	)		const

Definition at line 5237 of file Catalog.cpp.

                                                                              {
  cat_read_lock read_lock(this);
  const auto td = getMutableMetadataForTableUnlocked(table_id);
  if (!td) {
    return {};
  }
  return dumpCreateTableUnlocked(td, multiline_formatting, dump_defaults);
}

std::string Catalog_Namespace::Catalog::dumpCreateTableUnlocked ( const TableDescriptor *  td, bool  multiline_formatting, bool  dump_defaults  ) const

private

Definition at line 5248 of file Catalog.cpp.

References CHECK, ColumnDescriptor::columnName, ColumnDescriptor::columnType, Data_Namespace::CPU_LEVEL, DEFAULT_FRAGMENT_ROWS, DEFAULT_MAX_CHUNK_SIZE, DEFAULT_MAX_ROLLBACK_EPOCHS, DEFAULT_MAX_ROWS, DEFAULT_PAGE_SIZE, ColumnDescriptor::default_value, TableDescriptor::fragPageSize, g_leaf_count, ColumnDescriptor::getDefaultValueLiteral(), TableDescriptor::hasDeletedCol, TableDescriptor::is_system_table, ColumnDescriptor::isSystemCol, TableDescriptor::isView, ColumnDescriptor::isVirtualCol, join(), kCHAR, kENCODING_DICT, kENCODING_GEOINT, kTEXT, TableDescriptor::maxChunkSize, TableDescriptor::maxFragRows, TableDescriptor::maxRollbackEpochs, TableDescriptor::maxRows, TableDescriptor::nShards, TableDescriptor::partitions, TableDescriptor::persistenceLevel, TableDescriptor::shardedColumnId, TableDescriptor::sortedColumnId, TableDescriptor::tableId, TableDescriptor::tableName, to_string(), and TableDescriptor::viewSQL.

                                                                       {
  auto foreign_table = dynamic_cast<const foreign_storage::ForeignTable*>(td);
  std::ostringstream os;

  if (foreign_table && !td->is_system_table) {
    os << "CREATE FOREIGN TABLE " << td->tableName << " (";
  } else if (!td->isView) {
    os << "CREATE ";
    if (td->persistenceLevel == Data_Namespace::MemoryLevel::CPU_LEVEL) {
      os << "TEMPORARY ";
    }
    os << "TABLE " + td->tableName + " (";
  } else {
    os << "CREATE VIEW " + td->tableName + " AS " << td->viewSQL;
    return os.str();
  }
  // scan column defines
  std::vector<std::string> additional_info;
  std::set<std::string> shared_dict_column_names;

  gatherAdditionalInfo(additional_info, shared_dict_column_names, td);

  // gather column defines
  const auto cds = getAllColumnMetadataForTable(td->tableId, false, false, false);
  std::map<const std::string, const ColumnDescriptor*> dict_root_cds;
  bool first = true;
  for (const auto cd : cds) {
    if (!(cd->isSystemCol || cd->isVirtualCol)) {
      const auto& ti = cd->columnType;
      if (!first) {
        os << ",";
        if (!multiline_formatting) {
          os << " ";
        }
      } else {
        first = false;
      }
      if (multiline_formatting) {
        os << "\n  ";
      }
      // column name
      os << quoteIfRequired(cd->columnName);
      // CHAR is perculiar... better dump it as TEXT(32) like \d does
      if (ti.get_type() == SQLTypes::kCHAR) {
        os << " "
           << "TEXT";
      } else if (ti.get_subtype() == SQLTypes::kCHAR) {
        os << " "
           << "TEXT[]";
      } else {
        os << " " << ti.get_type_name();
      }
      os << (ti.get_notnull() ? " NOT NULL" : "");
      if (cd->default_value.has_value()) {
        os << " DEFAULT " << cd->getDefaultValueLiteral();
      }
      if (shared_dict_column_names.find(cd->columnName) ==
          shared_dict_column_names.end()) {
        // avoids "Column ... shouldn't specify an encoding, it borrows it
        //    from the referenced column"
        if (ti.is_string() || (ti.is_array() && ti.get_subtype() == kTEXT)) {
          auto size = ti.is_array() ? ti.get_logical_size() : ti.get_size();
          if (ti.get_compression() == kENCODING_DICT) {
            os << " ENCODING " << ti.get_compression_name() << "(" << (size * 8) << ")";
          } else {
            os << " ENCODING NONE";
          }
        } else if (ti.is_date_in_days() ||
                   (ti.get_size() > 0 && ti.get_size() != ti.get_logical_size())) {
          const auto comp_param = ti.get_comp_param() ? ti.get_comp_param() : 32;
          os << " ENCODING " << ti.get_compression_name() << "(" << comp_param << ")";
        } else if (ti.is_geometry()) {
          if (ti.get_compression() == kENCODING_GEOINT) {
            os << " ENCODING " << ti.get_compression_name() << "(" << ti.get_comp_param()
               << ")";
          } else {
            os << " ENCODING NONE";
          }
        }
      }
    }
  }
  // gather SHARED DICTIONARYs
  if (additional_info.size()) {
    std::string comma;
    if (!multiline_formatting) {
      comma = ", ";
    } else {
      comma = ",\n  ";
    }
    os << comma;
    os << boost::algorithm::join(additional_info, comma);
  }
  os << ")";

  std::vector<std::string> with_options;
  if (foreign_table && !td->is_system_table) {
    if (multiline_formatting) {
      os << "\n";
    } else {
      os << " ";
    }
    os << "SERVER " << foreign_table->foreign_server->name;

    // gather WITH options ...
    for (const auto& [option, value] : foreign_table->options) {
      with_options.emplace_back(option + "='" + value + "'");
    }
  }

  if (dump_defaults || td->maxFragRows != DEFAULT_FRAGMENT_ROWS) {
    with_options.push_back("FRAGMENT_SIZE=" + std::to_string(td->maxFragRows));
  }
  if (dump_defaults || td->maxChunkSize != DEFAULT_MAX_CHUNK_SIZE) {
    with_options.push_back("MAX_CHUNK_SIZE=" + std::to_string(td->maxChunkSize));
  }
  if (!foreign_table && (dump_defaults || td->fragPageSize != DEFAULT_PAGE_SIZE)) {
    with_options.push_back("PAGE_SIZE=" + std::to_string(td->fragPageSize));
  }
  if (!foreign_table && (dump_defaults || td->maxRows != DEFAULT_MAX_ROWS)) {
    with_options.push_back("MAX_ROWS=" + std::to_string(td->maxRows));
  }
  if ((dump_defaults || td->maxRollbackEpochs != DEFAULT_MAX_ROLLBACK_EPOCHS) &&
      td->maxRollbackEpochs != -1) {
    with_options.push_back("MAX_ROLLBACK_EPOCHS=" +
                           std::to_string(td->maxRollbackEpochs));
  }
  if (!foreign_table && (dump_defaults || !td->hasDeletedCol)) {
    with_options.emplace_back(td->hasDeletedCol ? "VACUUM='DELAYED'"
                                                : "VACUUM='IMMEDIATE'");
  }
  if (!foreign_table && !td->partitions.empty()) {
    with_options.push_back("PARTITIONS='" + td->partitions + "'");
  }
  if (!foreign_table && td->nShards > 0) {
    const auto shard_cd = getMetadataForColumn(td->tableId, td->shardedColumnId);
    CHECK(shard_cd);
    with_options.push_back(
        "SHARD_COUNT=" +
        std::to_string(td->nShards * std::max(g_leaf_count, static_cast<size_t>(1))));
  }
  if (!foreign_table && td->sortedColumnId > 0) {
    const auto sort_cd = getMetadataForColumn(td->tableId, td->sortedColumnId);
    CHECK(sort_cd);
    with_options.push_back("SORT_COLUMN='" + sort_cd->columnName + "'");
  }

  if (!with_options.empty()) {
    if (!multiline_formatting) {
      os << " ";
    } else {
      os << "\n";
    }
    os << "WITH (" + boost::algorithm::join(with_options, ", ") + ")";
  }
  os << ";";
  return os.str();
}

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std::string Catalog_Namespace::Catalog::dumpSchema

(

const TableDescriptor *

td

)

const

Definition at line 5103 of file Catalog.cpp.

References CHECK, ColumnDescriptor::columnName, ColumnDescriptor::columnType, DEFAULT_MAX_ROLLBACK_EPOCHS, ColumnDescriptor::default_value, TableDescriptor::fragPageSize, g_leaf_count, ColumnDescriptor::getDefaultValueLiteral(), TableDescriptor::hasDeletedCol, TableDescriptor::is_system_table, ColumnDescriptor::isSystemCol, ColumnDescriptor::isVirtualCol, join(), kCHAR, kENCODING_DICT, kENCODING_GEOINT, kTEXT, TableDescriptor::maxChunkSize, TableDescriptor::maxFragRows, TableDescriptor::maxRollbackEpochs, TableDescriptor::maxRows, TableDescriptor::nShards, TableDescriptor::partitions, TableDescriptor::shardedColumnId, TableDescriptor::sortedColumnId, TableDescriptor::tableId, and to_string().

Referenced by TableArchiver::dumpTable().

                                                             {
  CHECK(!td->is_system_table);
  cat_read_lock read_lock(this);

  std::ostringstream os;
  os << "CREATE TABLE @T (";
  // gather column defines
  const auto cds = getAllColumnMetadataForTable(td->tableId, false, false, false);
  std::string comma;
  std::vector<std::string> shared_dicts;
  std::map<const std::string, const ColumnDescriptor*> dict_root_cds;
  for (const auto cd : cds) {
    if (!(cd->isSystemCol || cd->isVirtualCol)) {
      const auto& ti = cd->columnType;
      os << comma << cd->columnName;
      // CHAR is perculiar... better dump it as TEXT(32) like \d does
      if (ti.get_type() == SQLTypes::kCHAR) {
        os << " "
           << "TEXT";
      } else if (ti.get_subtype() == SQLTypes::kCHAR) {
        os << " "
           << "TEXT[]";
      } else {
        os << " " << ti.get_type_name();
      }
      os << (ti.get_notnull() ? " NOT NULL" : "");
      if (cd->default_value.has_value()) {
        os << " DEFAULT " << cd->getDefaultValueLiteral();
      }
      if (ti.is_string() || (ti.is_array() && ti.get_subtype() == kTEXT)) {
        auto size = ti.is_array() ? ti.get_logical_size() : ti.get_size();
        if (ti.get_compression() == kENCODING_DICT) {
          // if foreign reference, get referenced tab.col
          const auto dict_id = ti.get_comp_param();
          const DictRef dict_ref(currentDB_.dbId, dict_id);
          const auto dict_it = dictDescriptorMapByRef_.find(dict_ref);
          CHECK(dict_it != dictDescriptorMapByRef_.end());
          const auto dict_name = dict_it->second->dictName;
          // when migrating a table, any foreign dict ref will be dropped
          // and the first cd of a dict will become root of the dict
          if (dict_root_cds.end() == dict_root_cds.find(dict_name)) {
            dict_root_cds[dict_name] = cd;
            os << " ENCODING " << ti.get_compression_name() << "(" << (size * 8) << ")";
          } else {
            const auto dict_root_cd = dict_root_cds[dict_name];
            shared_dicts.push_back("SHARED DICTIONARY (" + cd->columnName +
                                   ") REFERENCES @T(" + dict_root_cd->columnName + ")");
            // "... shouldn't specify an encoding, it borrows from the referenced
            // column"
          }
        } else {
          os << " ENCODING NONE";
        }
      } else if (ti.is_date_in_days() ||
                 (ti.get_size() > 0 && ti.get_size() != ti.get_logical_size())) {
        const auto comp_param = ti.get_comp_param() ? ti.get_comp_param() : 32;
        os << " ENCODING " << ti.get_compression_name() << "(" << comp_param << ")";
      } else if (ti.is_geometry()) {
        if (ti.get_compression() == kENCODING_GEOINT) {
          os << " ENCODING " << ti.get_compression_name() << "(" << ti.get_comp_param()
             << ")";
        } else {
          os << " ENCODING NONE";
        }
      }
      comma = ", ";
    }
  }
  // gather SHARED DICTIONARYs
  if (shared_dicts.size()) {
    os << ", " << boost::algorithm::join(shared_dicts, ", ");
  }
  // gather WITH options ...
  std::vector<std::string> with_options;
  with_options.push_back("FRAGMENT_SIZE=" + std::to_string(td->maxFragRows));
  with_options.push_back("MAX_CHUNK_SIZE=" + std::to_string(td->maxChunkSize));
  with_options.push_back("PAGE_SIZE=" + std::to_string(td->fragPageSize));
  with_options.push_back("MAX_ROWS=" + std::to_string(td->maxRows));
  with_options.emplace_back(td->hasDeletedCol ? "VACUUM='DELAYED'"
                                              : "VACUUM='IMMEDIATE'");
  if (!td->partitions.empty()) {
    with_options.push_back("PARTITIONS='" + td->partitions + "'");
  }
  if (td->nShards > 0) {
    const auto shard_cd = getMetadataForColumn(td->tableId, td->shardedColumnId);
    CHECK(shard_cd);
    os << ", SHARD KEY(" << shard_cd->columnName << ")";
    with_options.push_back(
        "SHARD_COUNT=" +
        std::to_string(td->nShards * std::max(g_leaf_count, static_cast<size_t>(1))));
  }
  if (td->sortedColumnId > 0) {
    const auto sort_cd = getMetadataForColumn(td->tableId, td->sortedColumnId);
    CHECK(sort_cd);
    with_options.push_back("SORT_COLUMN='" + sort_cd->columnName + "'");
  }
  if (td->maxRollbackEpochs != DEFAULT_MAX_ROLLBACK_EPOCHS &&
      td->maxRollbackEpochs != -1) {
    with_options.push_back("MAX_ROLLBACK_EPOCHS=" +
                           std::to_string(td->maxRollbackEpochs));
  }
  os << ") WITH (" + boost::algorithm::join(with_options, ", ") + ");";
  return os.str();
}

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void Catalog_Namespace::Catalog::eraseDbMetadata

(

)

Definition at line 4880 of file Catalog.cpp.

References shared::kCatalogDirectoryName, and run_benchmark_import::tables.

                              {
  const auto tables = getAllTableMetadata();
  for (const auto table : tables) {
    eraseTableMetadata(table);
  }
  // Physically erase database metadata
  boost::filesystem::remove(basePath_ + "/" + shared::kCatalogDirectoryName + "/" +
                            currentDB_.dbName);
  calciteMgr_->updateMetadata(currentDB_.dbName, "");
}

void Catalog_Namespace::Catalog::eraseDbPhysicalData

(

)

Definition at line 4891 of file Catalog.cpp.

References run_benchmark_import::tables.

                                  {
  const auto tables = getAllTableMetadata();
  for (const auto table : tables) {
    eraseTablePhysicalData(table);
  }
}

void Catalog_Namespace::Catalog::eraseTableMetadata ( const TableDescriptor *  td )

protected

Definition at line 4136 of file Catalog.cpp.

References g_serialize_temp_tables, INJECT_TIMER, table_is_temporary(), TableDescriptor::tableId, and TableDescriptor::tableName.

                                                          {
  executeDropTableSqliteQueries(td);
  if (g_serialize_temp_tables && table_is_temporary(td)) {
    dropTableFromJsonUnlocked(td->tableName);
  }
  calciteMgr_->updateMetadata(currentDB_.dbName, td->tableName);
  {
    INJECT_TIMER(removeTableFromMap_);
    removeTableFromMap(td->tableName, td->tableId);
  }
}

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void Catalog_Namespace::Catalog::eraseTablePhysicalData

(

const TableDescriptor *

td

)

Definition at line 4898 of file Catalog.cpp.

References Data_Namespace::CPU_LEVEL, Data_Namespace::GPU_LEVEL, INJECT_TIMER, TableDescriptor::isView, and TableDescriptor::tableId.

                                                              {
  const int tableId = td->tableId;
  // must destroy fragmenter before deleteChunks is called.
  removeFragmenterForTable(tableId);

  ChunkKey chunkKeyPrefix = {currentDB_.dbId, tableId};
  {
    INJECT_TIMER(deleteChunksWithPrefix);
    // assuming deleteChunksWithPrefix is atomic
    dataMgr_->deleteChunksWithPrefix(chunkKeyPrefix, MemoryLevel::CPU_LEVEL);
    dataMgr_->deleteChunksWithPrefix(chunkKeyPrefix, MemoryLevel::GPU_LEVEL);
  }
  if (!td->isView) {
    INJECT_TIMER(Remove_Table);
    dataMgr_->removeTableRelatedDS(