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/*
 *
 *   Licensed under the Apache License, Version 2.0 (the "License");
 *   you may not use this file except in compliance with the License.
 *   You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 *   Unless required by applicable law or agreed to in writing, software
 *   distributed under the License is distributed on an "AS IS" BASIS,
 *   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *   See the License for the specific language governing permissions and
 *   limitations under the License.
 */

package com.ing.data.cassandra.jdbc.metadata;

import com.datastax.oss.driver.api.core.CqlIdentifier;
import com.datastax.oss.driver.api.core.metadata.schema.ColumnMetadata;
import com.datastax.oss.driver.api.core.metadata.schema.IndexMetadata;
import com.datastax.oss.driver.api.core.type.DataTypes;
import com.ing.data.cassandra.jdbc.CassandraMetadataResultSet;
import com.ing.data.cassandra.jdbc.CassandraStatement;
import com.ing.data.cassandra.jdbc.types.AbstractJdbcType;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import java.sql.DatabaseMetaData;
import java.sql.SQLException;
import java.sql.Types;
import java.util.ArrayList;
import java.util.Comparator;
import java.util.Map;

import static com.ing.data.cassandra.jdbc.ColumnDefinitions.Definition.buildDefinitionInAnonymousTable;
import static com.ing.data.cassandra.jdbc.types.AbstractJdbcType.DEFAULT_PRECISION;
import static com.ing.data.cassandra.jdbc.types.TypesMap.getTypeForComparator;
import static java.sql.DatabaseMetaData.bestRowNotPseudo;

/**
 * Utility class building metadata result sets ({@link CassandraMetadataResultSet} objects) related to tables.
 */
public class TableMetadataResultSetBuilder extends AbstractMetadataResultSetBuilder {

    private static final Logger LOG = LoggerFactory.getLogger(TableMetadataResultSetBuilder.class);

    /**
     * Constructor.
     *
     * @param statement The statement.
     * @throws SQLException if a database access error occurs or this statement is closed.
     */
    public TableMetadataResultSetBuilder(final CassandraStatement statement) throws SQLException {
        super(statement);
    }

    /**
     * Builds a valid result set of the table types available in Cassandra database. This method is used to implement
     * the method {@link DatabaseMetaData#getTableTypes()}.
     * 

* The columns of this result set are: *

    *
  1. TABLE_TYPE String => table type: always {@value TABLE}.
  2. *
*

* * @return A valid result set for implementation of {@link DatabaseMetaData#getTableTypes()}. * @throws SQLException when something went wrong during the creation of the result set. */ public CassandraMetadataResultSet buildTableTypes() throws SQLException { final ArrayList tableTypes = new ArrayList<>(); final MetadataRow.MetadataRowTemplate rowTemplate = new MetadataRow.MetadataRowTemplate( buildDefinitionInAnonymousTable(TABLE_TYPE, DataTypes.TEXT) ); tableTypes.add(new MetadataRow().withTemplate(rowTemplate, TABLE)); return CassandraMetadataResultSet.buildFrom(this.statement, new MetadataResultSet(rowTemplate).setRows(tableTypes)); } /** * Builds a valid result set of the description of the tables available in the given catalog (Cassandra cluster). * This method is used to implement the method {@link DatabaseMetaData#getTables(String, String, String, String[])}. *

* Only table descriptions matching the catalog, schema, table name and type criteria are returned. They are * ordered by {@code TABLE_CAT}, {@code TABLE_SCHEM} and {@code TABLE_NAME}. *

*

* The columns of this result set are: *

    *
  1. TABLE_CAT String => table catalog, may be {@code null}: here is the Cassandra cluster name * (if available).
  2. *
  3. TABLE_SCHEM String => table schema, may be {@code null}: here is the keyspace the table is * member of.
  4. *
  5. TABLE_NAME String => table name.
  6. *
  7. TABLE_TYPE String => table type: always {@value TABLE} here.
  8. *
  9. REMARKS String => explanatory comment on the table.
  10. *
  11. TYPE_CAT String => the types catalog: always {@code null} here.
  12. *
  13. TYPE_SCHEM String => the types schema: always {@code null} here.
  14. *
  15. TYPE_NAME String => type name: always {@code null} here.
  16. *
  17. SELF_REFERENCING_COL_NAME String => name of the designated "identifier" column of a typed * table: always {@code null} here.
  18. *
  19. REF_GENERATION String => specifies how values in {@code SELF_REFERENCING_COL_NAME} are * created: always {@code null} here.
  20. *
*

* * @param schemaPattern A schema name pattern. It must match the schema name as it is stored in the database; * {@code ""} retrieves those without a schema and {@code null} means that the schema name * should not be used to narrow the search. Using {@code ""} as the same effect as * {@code null} because here the schema corresponds to the keyspace and Cassandra tables * cannot be defined outside a keyspace. * @param tableNamePattern A table name pattern. It must match the table name as it is stored in the database. * @return A valid result set for implementation of * {@link DatabaseMetaData#getTables(String, String, String, String[])}. * @throws SQLException when something went wrong during the creation of the result set. */ public CassandraMetadataResultSet buildTables(final String schemaPattern, final String tableNamePattern) throws SQLException { final String catalog = this.connection.getCatalog(); final ArrayList tables = new ArrayList<>(); final MetadataRow.MetadataRowTemplate rowTemplate = new MetadataRow.MetadataRowTemplate( buildDefinitionInAnonymousTable(TABLE_CATALOG_SHORTNAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(TABLE_SCHEMA, DataTypes.TEXT), buildDefinitionInAnonymousTable(TABLE_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(TABLE_TYPE, DataTypes.TEXT), buildDefinitionInAnonymousTable(REMARKS, DataTypes.TEXT), buildDefinitionInAnonymousTable(TYPE_CATALOG, DataTypes.TEXT), buildDefinitionInAnonymousTable(TYPE_SCHEMA, DataTypes.TEXT), buildDefinitionInAnonymousTable(TYPE_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(SELF_REFERENCING_COL_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(REF_GENERATION, DataTypes.TEXT) ); filterBySchemaNamePattern(schemaPattern, keyspaceMetadata -> filterByTableNamePattern(tableNamePattern, keyspaceMetadata, tableMetadata -> { final MetadataRow row = new MetadataRow().withTemplate(rowTemplate, catalog, // TABLE_CAT keyspaceMetadata.getName().asInternal(), // TABLE_SCHEM tableMetadata.getName().asInternal(), // TABLE_NAME TABLE, // TABLE_TYPE tableMetadata.getOptions().get(CqlIdentifier.fromCql(CQL_OPTION_COMMENT)).toString(), // REMARKS null, // TYPE_CAT null, // TYPE_SCHEM null, // TYPE_NAME null, // SELF_REFERENCING_COL_NAME null); // REF_GENERATION tables.add(row); }, null), null); // Results should all have the same TABLE_CAT, so just sort them by TABLE_SCHEM then TABLE_NAME. tables.sort(Comparator.comparing(row -> ((MetadataRow) row).getString(TABLE_SCHEMA)) .thenComparing(row -> ((MetadataRow) row).getString(TABLE_NAME))); return CassandraMetadataResultSet.buildFrom(this.statement, new MetadataResultSet(rowTemplate).setRows(tables)); } /** * Builds a valid result set of the description of the given table's indices and statistics. * This method is used to implement the method * {@link DatabaseMetaData#getIndexInfo(String, String, String, boolean, boolean)}. *

* Only indexes of the table exactly matching the catalog, schema and table name are returned. They are * ordered by {@code NON_UNIQUE}, {@code TYPE}, {@code INDEX_NAME} and {@code ORDINAL_POSITION}. *

*

* The columns of this result set are: *

    *
  1. TABLE_CAT String => table catalog, may be {@code null}: here is the Cassandra cluster name * (if available).
  2. *
  3. TABLE_SCHEM String => table schema, may be {@code null}: here is the keyspace the table is * member of.
  4. *
  5. TABLE_NAME String => table name.
  6. *
  7. NON_UNIQUE boolean => Can index values be non-unique, {@code false} when {@code TYPE} is * {@link DatabaseMetaData#tableIndexStatistic}. Always {@code true} here.
  8. *
  9. INDEX_QUALIFIER String => index catalog, {@code null} when {@code TYPE} is * {@link DatabaseMetaData#tableIndexStatistic}.
  10. *
  11. INDEX_NAME String => index name, {@code null} when {@code TYPE} is * {@link DatabaseMetaData#tableIndexStatistic}.
  12. *
  13. TYPE short => index type: *
      *
    • {@link DatabaseMetaData#tableIndexStatistic} - this identifies table statistics that are * returned in conjunction with a table's index descriptions
    • *
    • {@link DatabaseMetaData#tableIndexClustered} - this is a clustered index
    • *
    • {@link DatabaseMetaData#tableIndexHashed} - this is a hashed index
    • *
    • {@link DatabaseMetaData#tableIndexOther} - this is some other style of index
    • *
    Always {@link DatabaseMetaData#tableIndexHashed} here. *
  14. *
  15. ORDINAL_POSITION short => column sequence number within index; zero when {@code TYPE} is * {@link DatabaseMetaData#tableIndexStatistic}. Always 1 here.
  16. *
  17. COLUMN_NAME String => column name, {@code null} when {@code TYPE} is * {@link DatabaseMetaData#tableIndexStatistic}.
  18. *
  19. ASC_OR_DESC String => column sort sequence, "A" means ascending, "D" means descending, may be * {@code null} if sort sequence is not supported or when {@code TYPE} is * {@link DatabaseMetaData#tableIndexStatistic}. Always {@code null} here.
  20. *
  21. CARDINALITY int => When {@code TYPE} is {@link DatabaseMetaData#tableIndexStatistic}, then * this is the number of rows in the table; otherwise, it is the number of unique values in the index. * Always -1 here.
  22. *
  23. PAGES int => When {@code TYPE} is {@link DatabaseMetaData#tableIndexStatistic}, then * this is the number of pages used for the table; otherwise, it is the number of pages used for the * current index. Always -1 here.
  24. *
  25. FILTER_CONDITION String => Filter condition, if any: always {@code null} here.
  26. *
*

* * @param schema A schema name. It must match the schema name as it is stored in the database; {@code ""} * retrieves those without a schema and {@code null} means that the schema name should not be * used to narrow down the search. * @param tableName A table name. It must match the table name as it is stored in the database. * @param unique when {@code true}, return only indices for unique values; when {@code false}, return * indices regardless of whether unique or not. This parameter has no effect here. * @param approximate when {@code true}, result is allowed to reflect approximate or out of data values; when * {@code false}, results are requested to be accurate. This parameter has no effect here. * @return A valid result set for implementation of * {@link DatabaseMetaData#getIndexInfo(String, String, String, boolean, boolean)}. * @throws SQLException when something went wrong during the creation of the result set. */ @SuppressWarnings("unused") public CassandraMetadataResultSet buildIndexes(final String schema, final String tableName, final boolean unique, final boolean approximate) throws SQLException { final String catalog = this.connection.getCatalog(); final ArrayList indexes = new ArrayList<>(); final MetadataRow.MetadataRowTemplate rowTemplate = new MetadataRow.MetadataRowTemplate( buildDefinitionInAnonymousTable(TABLE_CATALOG_SHORTNAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(TABLE_SCHEMA, DataTypes.TEXT), buildDefinitionInAnonymousTable(TABLE_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(NON_UNIQUE, DataTypes.BOOLEAN), buildDefinitionInAnonymousTable(INDEX_QUALIFIER, DataTypes.TEXT), buildDefinitionInAnonymousTable(INDEX_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(TYPE, DataTypes.SMALLINT), buildDefinitionInAnonymousTable(ORDINAL_POSITION, DataTypes.SMALLINT), buildDefinitionInAnonymousTable(COLUMN_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(ASC_OR_DESC, DataTypes.TEXT), buildDefinitionInAnonymousTable(CARDINALITY, DataTypes.INT), buildDefinitionInAnonymousTable(PAGES, DataTypes.INT), buildDefinitionInAnonymousTable(FILTER_CONDITION, DataTypes.TEXT) ); filterBySchemaNamePattern(schema, keyspaceMetadata -> filterByTableNamePattern(tableName, keyspaceMetadata, tableMetadata -> { for (final Map.Entry index : tableMetadata.getIndexes().entrySet()) { final IndexMetadata indexMetadata = index.getValue(); final MetadataRow row = new MetadataRow().withTemplate(rowTemplate, catalog, // TABLE_CAT keyspaceMetadata.getName().asInternal(), // TABLE_SCHEM tableMetadata.getName().asInternal(), // TABLE_NAME true, // NON_UNIQUE catalog, // INDEX_QUALIFIER indexMetadata.getName().asInternal(), // INDEX_NAME DatabaseMetaData.tableIndexOther, // TYPE 1, // ORDINAL_POSITION indexMetadata.getTarget(), // COLUMN_NAME null, // ASC_OR_DESC -1, // CARDINALITY -1, // PAGES null); // FILTER_CONDITION indexes.add(row); } }, null), null); // Results should all have the same NON_UNIQUE, TYPE and ORDINAL_POSITION, so just sort them by INDEX_NAME. indexes.sort(Comparator.comparing(row -> row.getString(INDEX_NAME))); return CassandraMetadataResultSet.buildFrom(this.statement, new MetadataResultSet(rowTemplate).setRows(indexes)); } /** * Builds a valid result set of the description of the given table's primary key columns. * This method is used to implement the method {@link DatabaseMetaData#getPrimaryKeys(String, String, String)}. *

* Only primary keys of the table exactly matching the catalog, schema and table name are returned. They are * ordered by {@code COLUMN_NAME}. *

*

* The columns of this result set are: *

    *
  1. TABLE_CAT String => table catalog, may be {@code null}: here is the Cassandra cluster name * (if available).
  2. *
  3. TABLE_SCHEM String => table schema, may be {@code null}: here is the keyspace the table is * member of.
  4. *
  5. TABLE_NAME String => table name.
  6. *
  7. COLUMN_NAME String => column name.
  8. *
  9. KEY_SEQ short => sequence number within primary key (a value of 1 represents the first column * of the primary key, a value of 2 would represent the second column within the primary key).
  10. *
  11. PK_NAME String => primary key name: always {@code null} here.
  12. *
*

* * @param schema A schema name. It must match the schema name as it is stored in the database; {@code ""} * retrieves those without a schema and {@code null} means that the schema name should not be * used to narrow down the search. * @param tableName A table name. It must match the table name as it is stored in the database. * @return A valid result set for implementation of {@link DatabaseMetaData#getPrimaryKeys(String, String, String)}. * @throws SQLException when something went wrong during the creation of the result set. */ public CassandraMetadataResultSet buildPrimaryKeys(final String schema, final String tableName) throws SQLException { final String catalog = this.connection.getCatalog(); final ArrayList primaryKeys = new ArrayList<>(); final MetadataRow.MetadataRowTemplate rowTemplate = new MetadataRow.MetadataRowTemplate( buildDefinitionInAnonymousTable(TABLE_CATALOG_SHORTNAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(TABLE_SCHEMA, DataTypes.TEXT), buildDefinitionInAnonymousTable(TABLE_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(COLUMN_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(KEY_SEQ, DataTypes.SMALLINT), buildDefinitionInAnonymousTable(PRIMARY_KEY_NAME, DataTypes.TEXT) ); filterBySchemaNamePattern(schema, keyspaceMetadata -> filterByTableNamePattern(tableName, keyspaceMetadata, tableMetadata -> { int seq = 1; for (final ColumnMetadata col : tableMetadata.getPrimaryKey()) { final MetadataRow row = new MetadataRow().withTemplate(rowTemplate, catalog, // TABLE_CAT keyspaceMetadata.getName().asInternal(), // TABLE_SCHEM tableMetadata.getName().asInternal(), // TABLE_NAME col.getName().asInternal(), // COLUMN_NAME seq, // KEY_SEQ null); // PK_NAME primaryKeys.add(row); seq++; } }, null), null); // Sort the results by COLUMN_NAME. primaryKeys.sort(Comparator.comparing(row -> row.getString(COLUMN_NAME))); return CassandraMetadataResultSet.buildFrom(this.statement, new MetadataResultSet(rowTemplate).setRows(primaryKeys)); } /** * Builds a valid result set of the description of a table's optimal set of columns that uniquely identifies a row. * This method is used to implement the method * {@link DatabaseMetaData#getBestRowIdentifier(String, String, String, int, boolean)}. *

* In Cassandra, all the tables must define a single primary key and the columns defining this primary key * ensure the uniqueness of each row. So, we consider in this implementation that the best row identifier for * a table is always its primary key regardless of the specified scope. Also, the parameter {@code nullable} has * no effect here since Cassandra does not allow null values in primary keys. *

*

* Only identifiers for tables matching the catalog, schema and table name criteria are returned. They are * ordered by {@code SCOPE}. *

*

* The columns of this result set are: *

    *
  1. SCOPE short => actual scope of result: *
      *
    • {@link DatabaseMetaData#bestRowTemporary} - very temporary, while using row
    • *
    • {@link DatabaseMetaData#bestRowTransaction} - valid for remainder of current transaction
    • *
    • {@link DatabaseMetaData#bestRowSession} - valid for remainder of current session
    • *
    Always the input scope value. *
  2. *
  3. COLUMN_NAME String => column name.
  4. *
  5. DATA_TYPE int => SQL type from {@link Types}.
  6. *
  7. TYPE_NAME String => Data source dependent type name, for a UDT the type name is fully * qualified.
  8. *
  9. COLUMN_SIZE int => column size.
  10. *
  11. BUFFER_LENGTH int => not used: always 0 here.
  12. *
  13. DECIMAL_DIGITS int => the number of fractional digits, {@code null} is returned for data * types where it is not applicable. Always {@code null} here.
  14. *
  15. PSEUDO_COLUMN short => is this a pseudo column like an Oracle ROWID: *
      *
    • {@link DatabaseMetaData#bestRowUnknown} - may or may not be pseudo column
    • *
    • {@link DatabaseMetaData#bestRowNotPseudo} - is not a pseudo column
    • *
    • {@link DatabaseMetaData#bestRowPseudo} - is a pseudo column
    • *
    Always {@link DatabaseMetaData#bestRowNotPseudo} here since there is no concept of pseudo * column in Cassandra. *
  16. *
*

* * @param schema A schema name pattern. It must match the schema name as it is stored in the database; {@code ""} * retrieves those without a schema and {@code null} means that the schema name should not be used * to narrow the search. Using {@code ""} as the same effect as {@code null} because here the schema * corresponds to the keyspace and Cassandra tables cannot be defined outside a keyspace. * @param table A table name. It must match the table name as it is stored in the database. * @param scope The scope of interest, using the same values as {@code SCOPE} in the result set. * @return A valid result set for implementation of * {@link DatabaseMetaData#getBestRowIdentifier(String, String, String, int, boolean)}. * @throws SQLException when something went wrong during the creation of the result set. */ public CassandraMetadataResultSet buildBestRowIdentifier(final String schema, final String table, final int scope) throws SQLException { final ArrayList bestRowIdentifiers = new ArrayList<>(); final MetadataRow.MetadataRowTemplate rowTemplate = new MetadataRow.MetadataRowTemplate( buildDefinitionInAnonymousTable(SCOPE, DataTypes.SMALLINT), buildDefinitionInAnonymousTable(COLUMN_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(DATA_TYPE, DataTypes.INT), buildDefinitionInAnonymousTable(TYPE_NAME, DataTypes.TEXT), buildDefinitionInAnonymousTable(COLUMN_SIZE, DataTypes.INT), buildDefinitionInAnonymousTable(BUFFER_LENGTH, DataTypes.INT), buildDefinitionInAnonymousTable(DECIMAL_DIGITS, DataTypes.INT), buildDefinitionInAnonymousTable(PSEUDO_COLUMN, DataTypes.SMALLINT) ); filterBySchemaNamePattern(schema, keyspaceMetadata -> filterByTableNamePattern(table, keyspaceMetadata, tableMetadata -> { for (final ColumnMetadata columnMetadata : tableMetadata.getPrimaryKey()) { final AbstractJdbcType jdbcEquivalentType = getTypeForComparator(columnMetadata.getType().toString()); // Define value of COLUMN_SIZE. int columnSize = DEFAULT_PRECISION; if (jdbcEquivalentType != null) { columnSize = jdbcEquivalentType.getPrecision(null); } // Define value of DATA_TYPE. int jdbcType = Types.OTHER; try { jdbcType = getTypeForComparator(columnMetadata.getType().toString()).getJdbcType(); } catch (final Exception e) { LOG.warn("Unable to get JDBC type for comparator [{}]: {}", columnMetadata.getType(), e.getMessage()); } final MetadataRow row = new MetadataRow().withTemplate(rowTemplate, (short) scope, // SCOPE columnMetadata.getName().asInternal(), // COLUMN_NAME jdbcType, // DATA_TYPE columnMetadata.getType().toString(), // TYPE_NAME columnSize, // COLUMN_SIZE 0, // BUFFER_LENGTH null, // DECIMAL_DIGITS (short) bestRowNotPseudo); // PSEUDO_COLUMN bestRowIdentifiers.add(row); } }, null), null); // All the rows of the result set have the same scope, so there is no need to perform an additional sort. return CassandraMetadataResultSet.buildFrom(this.statement, new MetadataResultSet(rowTemplate).setRows(bestRowIdentifiers)); } }




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