package org.postgresql.jdbc1; // IMPORTANT NOTE: This file implements the JDBC 1 version of the driver. // If you make any modifications to this file, you must make sure that the // changes are also made (if relevent) to the related JDBC 2 class in the // org.postgresql.jdbc2 package. import java.sql.*; import java.util.*; import org.postgresql.Field; /** * This class provides information about the database as a whole. * *

Many of the methods here return lists of information in ResultSets. You * can use the normal ResultSet methods such as getString and getInt to * retrieve the data from these ResultSets. If a given form of metadata is * not available, these methods should throw a SQLException. * *

Some of these methods take arguments that are String patterns. These * arguments all have names such as fooPattern. Within a pattern String, * "%" means match any substring of 0 or more characters, and "_" means * match any one character. Only metadata entries matching the search * pattern are returned. if a search pattern argument is set to a null * ref, it means that argument's criteria should be dropped from the * search. * *

A SQLException will be throws if a driver does not support a meta * data method. In the case of methods that return a ResultSet, either * a ResultSet (which may be empty) is returned or a SQLException is * thrown. * * @see java.sql.DatabaseMetaData */ public class DatabaseMetaData implements java.sql.DatabaseMetaData { Connection connection; // The connection association // These define various OID's. Hopefully they will stay constant. static final int iVarcharOid = 1043; // OID for varchar static final int iBoolOid = 16; // OID for bool static final int iInt2Oid = 21; // OID for int2 static final int iInt4Oid = 23; // OID for int4 static final int VARHDRSZ = 4; // length for int4 // This is a default value for remarks private static final byte defaultRemarks[]="no remarks".getBytes(); public DatabaseMetaData(Connection conn) { this.connection = conn; } /** * Can all the procedures returned by getProcedures be called * by the current user? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean allProceduresAreCallable() throws SQLException { return true; // For now... } /** * Can all the tables returned by getTable be SELECTed by * the current user? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean allTablesAreSelectable() throws SQLException { return true; // For now... } /** * What is the URL for this database? * * @return the url or null if it cannott be generated * @exception SQLException if a database access error occurs */ public String getURL() throws SQLException { return connection.getURL(); } /** * What is our user name as known to the database? * * @return our database user name * @exception SQLException if a database access error occurs */ public String getUserName() throws SQLException { return connection.getUserName(); } /** * Is the database in read-only mode? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean isReadOnly() throws SQLException { return connection.isReadOnly(); } /** * Are NULL values sorted high? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean nullsAreSortedHigh() throws SQLException { return false; } /** * Are NULL values sorted low? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean nullsAreSortedLow() throws SQLException { return false; } /** * Are NULL values sorted at the start regardless of sort order? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean nullsAreSortedAtStart() throws SQLException { return false; } /** * Are NULL values sorted at the end regardless of sort order? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean nullsAreSortedAtEnd() throws SQLException { return true; } /** * What is the name of this database product - we hope that it is * PostgreSQL, so we return that explicitly. * * @return the database product name * @exception SQLException if a database access error occurs */ public String getDatabaseProductName() throws SQLException { return "PostgreSQL"; } /** * What is the version of this database product. * *

Note that PostgreSQL 6.3 has a system catalog called pg_version - * however, select * from pg_version on any database retrieves * no rows. * *

For now, we will return the version 6.3 (in the hope that we change * this driver as often as we change the database) * * @return the database version * @exception SQLException if a database access error occurs */ public String getDatabaseProductVersion() throws SQLException { return ("7.0.2"); } /** * What is the name of this JDBC driver? If we don't know this * we are doing something wrong! * * @return the JDBC driver name * @exception SQLException why? */ public String getDriverName() throws SQLException { return "PostgreSQL Native Driver"; } /** * What is the version string of this JDBC driver? Again, this is * static. * * @return the JDBC driver name. * @exception SQLException why? */ public String getDriverVersion() throws SQLException { return Integer.toString(connection.this_driver.getMajorVersion())+"."+Integer.toString(connection.this_driver.getMinorVersion()); } /** * What is this JDBC driver's major version number? * * @return the JDBC driver major version */ public int getDriverMajorVersion() { return connection.this_driver.getMajorVersion(); } /** * What is this JDBC driver's minor version number? * * @return the JDBC driver minor version */ public int getDriverMinorVersion() { return connection.this_driver.getMinorVersion(); } /** * Does the database store tables in a local file? No - it * stores them in a file on the server. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean usesLocalFiles() throws SQLException { return false; } /** * Does the database use a file for each table? Well, not really, * since it doesnt use local files. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean usesLocalFilePerTable() throws SQLException { return false; } /** * Does the database treat mixed case unquoted SQL identifiers * as case sensitive and as a result store them in mixed case? * A JDBC-Compliant driver will always return false. * *

Predicament - what do they mean by "SQL identifiers" - if it * means the names of the tables and columns, then the answers * given below are correct - otherwise I don't know. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsMixedCaseIdentifiers() throws SQLException { return false; } /** * Does the database treat mixed case unquoted SQL identifiers as * case insensitive and store them in upper case? * * @return true if so */ public boolean storesUpperCaseIdentifiers() throws SQLException { return false; } /** * Does the database treat mixed case unquoted SQL identifiers as * case insensitive and store them in lower case? * * @return true if so */ public boolean storesLowerCaseIdentifiers() throws SQLException { return true; } /** * Does the database treat mixed case unquoted SQL identifiers as * case insensitive and store them in mixed case? * * @return true if so */ public boolean storesMixedCaseIdentifiers() throws SQLException { return false; } /** * Does the database treat mixed case quoted SQL identifiers as * case sensitive and as a result store them in mixed case? A * JDBC compliant driver will always return true. * *

Predicament - what do they mean by "SQL identifiers" - if it * means the names of the tables and columns, then the answers * given below are correct - otherwise I don't know. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsMixedCaseQuotedIdentifiers() throws SQLException { return true; } /** * Does the database treat mixed case quoted SQL identifiers as * case insensitive and store them in upper case? * * @return true if so */ public boolean storesUpperCaseQuotedIdentifiers() throws SQLException { return false; } /** * Does the database treat mixed case quoted SQL identifiers as case * insensitive and store them in lower case? * * @return true if so */ public boolean storesLowerCaseQuotedIdentifiers() throws SQLException { return false; } /** * Does the database treat mixed case quoted SQL identifiers as case * insensitive and store them in mixed case? * * @return true if so */ public boolean storesMixedCaseQuotedIdentifiers() throws SQLException { return false; } /** * What is the string used to quote SQL identifiers? This returns * a space if identifier quoting isn't supported. A JDBC Compliant * driver will always use a double quote character. * *

If an SQL identifier is a table name, column name, etc. then * we do not support it. * * @return the quoting string * @exception SQLException if a database access error occurs */ public String getIdentifierQuoteString() throws SQLException { return "\""; } /** * Get a comma separated list of all a database's SQL keywords that * are NOT also SQL92 keywords. * *

Within PostgreSQL, the keywords are found in * src/backend/parser/keywords.c * *

For SQL Keywords, I took the list provided at * * http://web.dementia.org/~shadow/sql/sql3bnf.sep93.txt * which is for SQL3, not SQL-92, but it is close enough for * this purpose. * * @return a comma separated list of keywords we use * @exception SQLException if a database access error occurs */ public String getSQLKeywords() throws SQLException { return "abort,acl,add,aggregate,append,archive,arch_store,backward,binary,change,cluster,copy,database,delimiters,do,extend,explain,forward,heavy,index,inherits,isnull,light,listen,load,merge,nothing,notify,notnull,oids,purge,rename,replace,retrieve,returns,rule,recipe,setof,stdin,stdout,store,vacuum,verbose,version"; } public String getNumericFunctions() throws SQLException { // XXX-Not Implemented return ""; } public String getStringFunctions() throws SQLException { // XXX-Not Implemented return ""; } public String getSystemFunctions() throws SQLException { // XXX-Not Implemented return ""; } public String getTimeDateFunctions() throws SQLException { // XXX-Not Implemented return ""; } /** * This is the string that can be used to escape '_' and '%' in * a search string pattern style catalog search parameters * * @return the string used to escape wildcard characters * @exception SQLException if a database access error occurs */ public String getSearchStringEscape() throws SQLException { return "\\"; } /** * Get all the "extra" characters that can bew used in unquoted * identifier names (those beyond a-zA-Z0-9 and _) * *

From the file src/backend/parser/scan.l, an identifier is * {letter}{letter_or_digit} which makes it just those listed * above. * * @return a string containing the extra characters * @exception SQLException if a database access error occurs */ public String getExtraNameCharacters() throws SQLException { return ""; } /** * Is "ALTER TABLE" with an add column supported? * Yes for PostgreSQL 6.1 * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsAlterTableWithAddColumn() throws SQLException { return true; } /** * Is "ALTER TABLE" with a drop column supported? * Yes for PostgreSQL 6.1 * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsAlterTableWithDropColumn() throws SQLException { return true; } /** * Is column aliasing supported? * *

If so, the SQL AS clause can be used to provide names for * computed columns or to provide alias names for columns as * required. A JDBC Compliant driver always returns true. * *

e.g. * * 

   * select count(C) as C_COUNT from T group by C;
   *
   *

* should return a column named as C_COUNT instead of count(C) * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsColumnAliasing() throws SQLException { return true; } /** * Are concatenations between NULL and non-NULL values NULL? A * JDBC Compliant driver always returns true * * @return true if so * @exception SQLException if a database access error occurs */ public boolean nullPlusNonNullIsNull() throws SQLException { return true; } public boolean supportsConvert() throws SQLException { // XXX-Not Implemented return false; } public boolean supportsConvert(int fromType, int toType) throws SQLException { // XXX-Not Implemented return false; } public boolean supportsTableCorrelationNames() throws SQLException { // XXX-Not Implemented return false; } public boolean supportsDifferentTableCorrelationNames() throws SQLException { // XXX-Not Implemented return false; } /** * Are expressions in "ORCER BY" lists supported? * *
e.g. select * from t order by a + b; * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsExpressionsInOrderBy() throws SQLException { return true; } /** * Can an "ORDER BY" clause use columns not in the SELECT? * I checked it, and you can't. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsOrderByUnrelated() throws SQLException { return false; } /** * Is some form of "GROUP BY" clause supported? * I checked it, and yes it is. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsGroupBy() throws SQLException { return true; } /** * Can a "GROUP BY" clause use columns not in the SELECT? * I checked it - it seems to allow it * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsGroupByUnrelated() throws SQLException { return true; } /** * Can a "GROUP BY" clause add columns not in the SELECT provided * it specifies all the columns in the SELECT? Does anyone actually * understand what they mean here? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsGroupByBeyondSelect() throws SQLException { return true; // For now... } /** * Is the escape character in "LIKE" clauses supported? A * JDBC compliant driver always returns true. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsLikeEscapeClause() throws SQLException { return true; } /** * Are multiple ResultSets from a single execute supported? * Well, I implemented it, but I dont think this is possible from * the back ends point of view. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsMultipleResultSets() throws SQLException { return false; } /** * Can we have multiple transactions open at once (on different * connections?) * I guess we can have, since Im relying on it. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsMultipleTransactions() throws SQLException { return true; } /** * Can columns be defined as non-nullable. A JDBC Compliant driver * always returns true. * *

This changed from false to true in v6.2 of the driver, as this * support was added to the backend. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsNonNullableColumns() throws SQLException { return true; } /** * Does this driver support the minimum ODBC SQL grammar. This * grammar is defined at: * *

http://www.microsoft.com/msdn/sdk/platforms/doc/odbc/src/intropr.htm * *

In Appendix C. From this description, we seem to support the * ODBC minimal (Level 0) grammar. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsMinimumSQLGrammar() throws SQLException { return true; } /** * Does this driver support the Core ODBC SQL grammar. We need * SQL-92 conformance for this. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsCoreSQLGrammar() throws SQLException { return false; } /** * Does this driver support the Extended (Level 2) ODBC SQL * grammar. We don't conform to the Core (Level 1), so we can't * conform to the Extended SQL Grammar. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsExtendedSQLGrammar() throws SQLException { return false; } /** * Does this driver support the ANSI-92 entry level SQL grammar? * All JDBC Compliant drivers must return true. I think we have * to support outer joins for this to be true. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsANSI92EntryLevelSQL() throws SQLException { return false; } /** * Does this driver support the ANSI-92 intermediate level SQL * grammar? Anyone who does not support Entry level cannot support * Intermediate level. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsANSI92IntermediateSQL() throws SQLException { return false; } /** * Does this driver support the ANSI-92 full SQL grammar? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsANSI92FullSQL() throws SQLException { return false; } /** * Is the SQL Integrity Enhancement Facility supported? * I haven't seen this mentioned anywhere, so I guess not * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsIntegrityEnhancementFacility() throws SQLException { return false; } /** * Is some form of outer join supported? From my knowledge, nope. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsOuterJoins() throws SQLException { return false; } /** * Are full nexted outer joins supported? Well, we dont support any * form of outer join, so this is no as well * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsFullOuterJoins() throws SQLException { return false; } /** * Is there limited support for outer joins? (This will be true if * supportFullOuterJoins is true) * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsLimitedOuterJoins() throws SQLException { return false; } /** * What is the database vendor's preferred term for "schema" - well, * we do not provide support for schemas, so lets just use that * term. * * @return the vendor term * @exception SQLException if a database access error occurs */ public String getSchemaTerm() throws SQLException { return "Schema"; } /** * What is the database vendor's preferred term for "procedure" - * I kind of like "Procedure" myself. * * @return the vendor term * @exception SQLException if a database access error occurs */ public String getProcedureTerm() throws SQLException { return "Procedure"; } /** * What is the database vendor's preferred term for "catalog"? - * we dont have a preferred term, so just use Catalog * * @return the vendor term * @exception SQLException if a database access error occurs */ public String getCatalogTerm() throws SQLException { return "Catalog"; } /** * Does a catalog appear at the start of a qualified table name? * (Otherwise it appears at the end). * * @return true if so * @exception SQLException if a database access error occurs */ public boolean isCatalogAtStart() throws SQLException { return false; } /** * What is the Catalog separator. Hmmm....well, I kind of like * a period (so we get catalog.table definitions). - I don't think * PostgreSQL supports catalogs anyhow, so it makes no difference. * * @return the catalog separator string * @exception SQLException if a database access error occurs */ public String getCatalogSeparator() throws SQLException { // PM Sep 29 97 - changed from "." as we don't support catalogs. return ""; } /** * Can a schema name be used in a data manipulation statement? Nope. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsSchemasInDataManipulation() throws SQLException { return false; } /** * Can a schema name be used in a procedure call statement? Nope. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsSchemasInProcedureCalls() throws SQLException { return false; } /** * Can a schema be used in a table definition statement? Nope. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsSchemasInTableDefinitions() throws SQLException { return false; } /** * Can a schema name be used in an index definition statement? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsSchemasInIndexDefinitions() throws SQLException { return false; } /** * Can a schema name be used in a privilege definition statement? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsSchemasInPrivilegeDefinitions() throws SQLException { return false; } /** * Can a catalog name be used in a data manipulation statement? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsCatalogsInDataManipulation() throws SQLException { return false; } /** * Can a catalog name be used in a procedure call statement? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsCatalogsInProcedureCalls() throws SQLException { return false; } /** * Can a catalog name be used in a table definition statement? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsCatalogsInTableDefinitions() throws SQLException { return false; } /** * Can a catalog name be used in an index definition? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsCatalogsInIndexDefinitions() throws SQLException { return false; } /** * Can a catalog name be used in a privilege definition statement? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsCatalogsInPrivilegeDefinitions() throws SQLException { return false; } /** * We support cursors for gets only it seems. I dont see a method * to get a positioned delete. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsPositionedDelete() throws SQLException { return false; // For now... } /** * Is positioned UPDATE supported? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsPositionedUpdate() throws SQLException { return false; // For now... } public boolean supportsSelectForUpdate() throws SQLException { // XXX-Not Implemented return false; } public boolean supportsStoredProcedures() throws SQLException { // XXX-Not Implemented return false; } public boolean supportsSubqueriesInComparisons() throws SQLException { // XXX-Not Implemented return false; } public boolean supportsSubqueriesInExists() throws SQLException { // XXX-Not Implemented return false; } public boolean supportsSubqueriesInIns() throws SQLException { // XXX-Not Implemented return false; } public boolean supportsSubqueriesInQuantifieds() throws SQLException { // XXX-Not Implemented return false; } public boolean supportsCorrelatedSubqueries() throws SQLException { // XXX-Not Implemented return false; } /** * Is SQL UNION supported? Nope. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsUnion() throws SQLException { return false; } /** * Is SQL UNION ALL supported? Nope. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsUnionAll() throws SQLException { return false; } /** * In PostgreSQL, Cursors are only open within transactions. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsOpenCursorsAcrossCommit() throws SQLException { return false; } /** * Do we support open cursors across multiple transactions? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsOpenCursorsAcrossRollback() throws SQLException { return false; } /** * Can statements remain open across commits? They may, but * this driver cannot guarentee that. In further reflection. * we are talking a Statement object jere, so the answer is * yes, since the Statement is only a vehicle to ExecSQL() * * @return true if they always remain open; false otherwise * @exception SQLException if a database access error occurs */ public boolean supportsOpenStatementsAcrossCommit() throws SQLException { return true; } /** * Can statements remain open across rollbacks? They may, but * this driver cannot guarentee that. In further contemplation, * we are talking a Statement object here, so the answer is yes, * since the Statement is only a vehicle to ExecSQL() in Connection * * @return true if they always remain open; false otherwise * @exception SQLException if a database access error occurs */ public boolean supportsOpenStatementsAcrossRollback() throws SQLException { return true; } /** * How many hex characters can you have in an inline binary literal * * @return the max literal length * @exception SQLException if a database access error occurs */ public int getMaxBinaryLiteralLength() throws SQLException { return 0; // For now... } /** * What is the maximum length for a character literal * I suppose it is 8190 (8192 - 2 for the quotes) * * @return the max literal length * @exception SQLException if a database access error occurs */ public int getMaxCharLiteralLength() throws SQLException { return 8190; } /** * Whats the limit on column name length. The description of * pg_class would say '32' (length of pg_class.relname) - we * should probably do a query for this....but.... * * @return the maximum column name length * @exception SQLException if a database access error occurs */ public int getMaxColumnNameLength() throws SQLException { return 32; } /** * What is the maximum number of columns in a "GROUP BY" clause? * * @return the max number of columns * @exception SQLException if a database access error occurs */ public int getMaxColumnsInGroupBy() throws SQLException { return getMaxColumnsInTable(); } /** * What's the maximum number of columns allowed in an index? * 6.0 only allowed one column, but 6.1 introduced multi-column * indices, so, theoretically, its all of them. * * @return max number of columns * @exception SQLException if a database access error occurs */ public int getMaxColumnsInIndex() throws SQLException { return getMaxColumnsInTable(); } /** * What's the maximum number of columns in an "ORDER BY clause? * Theoretically, all of them! * * @return the max columns * @exception SQLException if a database access error occurs */ public int getMaxColumnsInOrderBy() throws SQLException { return getMaxColumnsInTable(); } /** * What is the maximum number of columns in a "SELECT" list? * Theoretically, all of them! * * @return the max columns * @exception SQLException if a database access error occurs */ public int getMaxColumnsInSelect() throws SQLException { return getMaxColumnsInTable(); } /** * What is the maximum number of columns in a table? From the * create_table(l) manual page... * *

"The new class is created as a heap with no initial data. A * class can have no more than 1600 attributes (realistically, * this is limited by the fact that tuple sizes must be less than * 8192 bytes)..." * * @return the max columns * @exception SQLException if a database access error occurs */ public int getMaxColumnsInTable() throws SQLException { return 1600; } /** * How many active connection can we have at a time to this * database? Well, since it depends on postmaster, which just * does a listen() followed by an accept() and fork(), its * basically very high. Unless the system runs out of processes, * it can be 65535 (the number of aux. ports on a TCP/IP system). * I will return 8192 since that is what even the largest system * can realistically handle, * * @return the maximum number of connections * @exception SQLException if a database access error occurs */ public int getMaxConnections() throws SQLException { return 8192; } /** * What is the maximum cursor name length (the same as all * the other F***** identifiers!) * * @return max cursor name length in bytes * @exception SQLException if a database access error occurs */ public int getMaxCursorNameLength() throws SQLException { return 32; } /** * What is the maximum length of an index (in bytes)? Now, does * the spec. mean name of an index (in which case its 32, the * same as a table) or does it mean length of an index element * (in which case its 8192, the size of a row) or does it mean * the number of rows it can access (in which case it 2^32 - * a 4 byte OID number)? I think its the length of an index * element, personally, so Im setting it to 8192. * * @return max index length in bytes * @exception SQLException if a database access error occurs */ public int getMaxIndexLength() throws SQLException { return 8192; } public int getMaxSchemaNameLength() throws SQLException { // XXX-Not Implemented return 0; } /** * What is the maximum length of a procedure name? * (length of pg_proc.proname used) - again, I really * should do a query here to get it. * * @return the max name length in bytes * @exception SQLException if a database access error occurs */ public int getMaxProcedureNameLength() throws SQLException { return 32; } public int getMaxCatalogNameLength() throws SQLException { // XXX-Not Implemented return 0; } /** * What is the maximum length of a single row? (not including * blobs). 8192 is defined in PostgreSQL. * * @return max row size in bytes * @exception SQLException if a database access error occurs */ public int getMaxRowSize() throws SQLException { return 8192; } /** * Did getMaxRowSize() include LONGVARCHAR and LONGVARBINARY * blobs? We don't handle blobs yet * * @return true if so * @exception SQLException if a database access error occurs */ public boolean doesMaxRowSizeIncludeBlobs() throws SQLException { return false; } /** * What is the maximum length of a SQL statement? * * @return max length in bytes * @exception SQLException if a database access error occurs */ public int getMaxStatementLength() throws SQLException { return 8192; } /** * How many active statements can we have open at one time to * this database? Basically, since each Statement downloads * the results as the query is executed, we can have many. However, * we can only really have one statement per connection going * at once (since they are executed serially) - so we return * one. * * @return the maximum * @exception SQLException if a database access error occurs */ public int getMaxStatements() throws SQLException { return 1; } /** * What is the maximum length of a table name? This was found * from pg_class.relname length * * @return max name length in bytes * @exception SQLException if a database access error occurs */ public int getMaxTableNameLength() throws SQLException { return 32; } /** * What is the maximum number of tables that can be specified * in a SELECT? Theoretically, this is the same number as the * number of tables allowable. In practice tho, it is much smaller * since the number of tables is limited by the statement, we * return 1024 here - this is just a number I came up with (being * the number of tables roughly of three characters each that you * can fit inside a 8192 character buffer with comma separators). * * @return the maximum * @exception SQLException if a database access error occurs */ public int getMaxTablesInSelect() throws SQLException { return 1024; } /** * What is the maximum length of a user name? Well, we generally * use UNIX like user names in PostgreSQL, so I think this would * be 8. However, showing the schema for pg_user shows a length * for username of 32. * * @return the max name length in bytes * @exception SQLException if a database access error occurs */ public int getMaxUserNameLength() throws SQLException { return 32; } /** * What is the database's default transaction isolation level? We * do not support this, so all transactions are SERIALIZABLE. * * @return the default isolation level * @exception SQLException if a database access error occurs * @see Connection */ public int getDefaultTransactionIsolation() throws SQLException { return Connection.TRANSACTION_READ_COMMITTED; } /** * Are transactions supported? If not, commit and rollback are noops * and the isolation level is TRANSACTION_NONE. We do support * transactions. * * @return true if transactions are supported * @exception SQLException if a database access error occurs */ public boolean supportsTransactions() throws SQLException { return true; } /** * Does the database support the given transaction isolation level? * We only support TRANSACTION_SERIALIZABLE and TRANSACTION_READ_COMMITTED * * @param level the values are defined in java.sql.Connection * @return true if so * @exception SQLException if a database access error occurs * @see Connection */ public boolean supportsTransactionIsolationLevel(int level) throws SQLException { if (level == Connection.TRANSACTION_SERIALIZABLE || level == Connection.TRANSACTION_READ_COMMITTED) return true; else return false; } /** * Are both data definition and data manipulation transactions * supported? I checked it, and could not do a CREATE TABLE * within a transaction, so I am assuming that we don't * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsDataDefinitionAndDataManipulationTransactions() throws SQLException { return false; } /** * Are only data manipulation statements withing a transaction * supported? * * @return true if so * @exception SQLException if a database access error occurs */ public boolean supportsDataManipulationTransactionsOnly() throws SQLException { return true; } /** * Does a data definition statement within a transaction force * the transaction to commit? I think this means something like: * * 

   * CREATE TABLE T (A INT);
   * INSERT INTO T (A) VALUES (2);
   * BEGIN;
   * UPDATE T SET A = A + 1;
   * CREATE TABLE X (A INT);
   * SELECT A FROM T INTO X;
   * COMMIT;
   *

* * does the CREATE TABLE call cause a commit? The answer is no. * * @return true if so * @exception SQLException if a database access error occurs */ public boolean dataDefinitionCausesTransactionCommit() throws SQLException { return false; } /** * Is a data definition statement within a transaction ignored? * It seems to be (from experiment in previous method) * * @return true if so * @exception SQLException if a database access error occurs */ public boolean dataDefinitionIgnoredInTransactions() throws SQLException { return true; } /** * Get a description of stored procedures available in a catalog * *

Only procedure descriptions matching the schema and procedure * name criteria are returned. They are ordered by PROCEDURE_SCHEM * and PROCEDURE_NAME * *

Each procedure description has the following columns: *

    *
  1. PROCEDURE_CAT String => procedure catalog (may be null) *
  2. PROCEDURE_SCHEM String => procedure schema (may be null) *
  3. PROCEDURE_NAME String => procedure name *
  4. Field 4 reserved (make it null) *
  5. Field 5 reserved (make it null) *
  6. Field 6 reserved (make it null) *
  7. REMARKS String => explanatory comment on the procedure *
  8. PROCEDURE_TYPE short => kind of procedure * *
* * @param catalog - a catalog name; "" retrieves those without a * catalog; null means drop catalog name from criteria * @param schemaParrern - a schema name pattern; "" retrieves those * without a schema - we ignore this parameter * @param procedureNamePattern - a procedure name pattern * @return ResultSet - each row is a procedure description * @exception SQLException if a database access error occurs */ public java.sql.ResultSet getProcedures(String catalog, String schemaPattern, String procedureNamePattern) throws SQLException { // the field descriptors for the new ResultSet Field f[] = new Field[8]; java.sql.ResultSet r; // ResultSet for the SQL query that we need to do Vector v = new Vector(); // The new ResultSet tuple stuff byte remarks[] = defaultRemarks; f[0] = new Field(connection, "PROCEDURE_CAT", iVarcharOid, 32); f[1] = new Field(connection, "PROCEDURE_SCHEM", iVarcharOid, 32); f[2] = new Field(connection, "PROCEDURE_NAME", iVarcharOid, 32); f[3] = f[4] = f[5] = null; // reserved, must be null for now f[6] = new Field(connection, "REMARKS", iVarcharOid, 8192); f[7] = new Field(connection, "PROCEDURE_TYPE", iInt2Oid, 2); // If the pattern is null, then set it to the default if(procedureNamePattern==null) procedureNamePattern="%"; r = connection.ExecSQL("select proname, proretset from pg_proc where proname like '"+procedureNamePattern.toLowerCase()+"' order by proname"); while (r.next()) { byte[][] tuple = new byte[8][0]; tuple[0] = null; // Catalog name tuple[1] = null; // Schema name tuple[2] = r.getBytes(1); // Procedure name tuple[3] = tuple[4] = tuple[5] = null; // Reserved tuple[6] = remarks; // Remarks if (r.getBoolean(2)) tuple[7] = Integer.toString(java.sql.DatabaseMetaData.procedureReturnsResult).getBytes(); else tuple[7] = Integer.toString(java.sql.DatabaseMetaData.procedureNoResult).getBytes(); v.addElement(tuple); } return new ResultSet(connection, f, v, "OK", 1); } /** * Get a description of a catalog's stored procedure parameters * and result columns. * *

Only descriptions matching the schema, procedure and parameter * name criteria are returned. They are ordered by PROCEDURE_SCHEM * and PROCEDURE_NAME. Within this, the return value, if any, is * first. Next are the parameter descriptions in call order. The * column descriptions follow in column number order. * *

Each row in the ResultSet is a parameter description or column * description with the following fields: *

    *
  1. PROCEDURE_CAT String => procedure catalog (may be null) *
  2. PROCEDURE_SCHEM String => procedure schema (may be null) *
  3. PROCEDURE_NAME String => procedure name *
  4. COLUMN_NAME String => column/parameter name *
  5. COLUMN_TYPE Short => kind of column/parameter: * *
  6. DATA_TYPE short => SQL type from java.sql.Types *
  7. TYPE_NAME String => SQL type name *
  8. PRECISION int => precision *
  9. LENGTH int => length in bytes of data *
  10. SCALE short => scale *
  11. RADIX short => radix *
  12. NULLABLE short => can it contain NULL? *
* @param catalog This is ignored in org.postgresql, advise this is set to null * @param schemaPattern This is ignored in org.postgresql, advise this is set to null * @param procedureNamePattern a procedure name pattern * @param columnNamePattern a column name pattern * @return each row is a stored procedure parameter or column description * @exception SQLException if a database-access error occurs * @see #getSearchStringEscape */ // Implementation note: This is required for Borland's JBuilder to work public java.sql.ResultSet getProcedureColumns(String catalog, String schemaPattern, String procedureNamePattern, String columnNamePattern) throws SQLException { if(procedureNamePattern==null) procedureNamePattern="%"; if(columnNamePattern==null) columnNamePattern="%"; // for now, this returns an empty result set. Field f[] = new Field[13]; ResultSet r; // ResultSet for the SQL query that we need to do Vector v = new Vector(); // The new ResultSet tuple stuff f[0] = new Field(connection, "PROCEDURE_CAT", iVarcharOid, 32); f[1] = new Field(connection, "PROCEDURE_SCHEM", iVarcharOid, 32); f[2] = new Field(connection, "PROCEDURE_NAME", iVarcharOid, 32); f[3] = new Field(connection, "COLUMN_NAME", iVarcharOid, 32); f[4] = new Field(connection, "COLUMN_TYPE", iInt2Oid, 2); f[5] = new Field(connection, "DATA_TYPE", iInt2Oid, 2); f[6] = new Field(connection, "TYPE_NAME", iVarcharOid, 32); f[7] = new Field(connection, "PRECISION", iInt4Oid, 4); f[8] = new Field(connection, "LENGTH", iInt4Oid, 4); f[9] = new Field(connection, "SCALE", iInt2Oid, 2); f[10] = new Field(connection, "RADIX", iInt2Oid, 2); f[11] = new Field(connection, "NULLABLE", iInt2Oid, 2); f[12] = new Field(connection, "REMARKS", iVarcharOid, 32); // add query loop here return new ResultSet(connection, f, v, "OK", 1); } /** * Get a description of tables available in a catalog. * *

Only table descriptions matching the catalog, schema, table * name and type criteria are returned. They are ordered by * TABLE_TYPE, TABLE_SCHEM and TABLE_NAME. * *

Each table description has the following columns: * *

    *
  1. TABLE_CAT String => table catalog (may be null) *
  2. TABLE_SCHEM String => table schema (may be null) *
  3. TABLE_NAME String => table name *
  4. TABLE_TYPE String => table type. Typical types are "TABLE", * "VIEW", "SYSTEM TABLE", "GLOBAL TEMPORARY", "LOCAL * TEMPORARY", "ALIAS", "SYNONYM". *
  5. REMARKS String => explanatory comment on the table *
* *

The valid values for the types parameter are: * "TABLE", "INDEX", "LARGE OBJECT", "SEQUENCE", "SYSTEM TABLE" and * "SYSTEM INDEX" * * @param catalog a catalog name; For org.postgresql, this is ignored, and * should be set to null * @param schemaPattern a schema name pattern; For org.postgresql, this is ignored, and * should be set to null * @param tableNamePattern a table name pattern. For all tables this should be "%" * @param types a list of table types to include; null returns * all types * @return each row is a table description * @exception SQLException if a database-access error occurs. */ public java.sql.ResultSet getTables(String catalog, String schemaPattern, String tableNamePattern, String types[]) throws SQLException { // Handle default value for types if(types==null) types = defaultTableTypes; if(tableNamePattern==null) tableNamePattern="%"; // the field descriptors for the new ResultSet Field f[] = new Field[5]; java.sql.ResultSet r; // ResultSet for the SQL query that we need to do Vector v = new Vector(); // The new ResultSet tuple stuff f[0] = new Field(connection, "TABLE_CAT", iVarcharOid, 32); f[1] = new Field(connection, "TABLE_SCHEM", iVarcharOid, 32); f[2] = new Field(connection, "TABLE_NAME", iVarcharOid, 32); f[3] = new Field(connection, "TABLE_TYPE", iVarcharOid, 32); f[4] = new Field(connection, "REMARKS", iVarcharOid, 32); // Now form the query StringBuffer sql = new StringBuffer("select relname,oid,relkind from pg_class where ("); boolean notFirst=false; for(int i=0;i // Now take the pattern into account sql.append(") and relname like '"); sql.append(tableNamePattern.toLowerCase()); sql.append("'"); // Now run the query r = connection.ExecSQL(sql.toString()); byte remarks[]; while (r.next()) { byte[][] tuple = new byte[5][0]; // Fetch the description for the table (if any) java.sql.ResultSet dr = connection.ExecSQL("select description from pg_description where objoid="+r.getInt(2)); if(((org.postgresql.ResultSet)dr).getTupleCount()==1) { dr.next(); remarks = dr.getBytes(1); } else remarks = defaultRemarks; dr.close(); String relKind; switch (r.getBytes(3)[0]) { case 'r': relKind = "TABLE"; break; case 'i': relKind = "INDEX"; break; case 'S': relKind = "SEQUENCE"; break; default: relKind = null; } tuple[0] = null; // Catalog name tuple[1] = null; // Schema name tuple[2] = r.getBytes(1); // Table name tuple[3] = relKind.getBytes(); // Table type tuple[4] = remarks; // Remarks v.addElement(tuple); } r.close(); return new ResultSet(connection, f, v, "OK", 1); } // This array contains the valid values for the types argument // in getTables(). // // Each supported type consists of it's name, and the sql where // clause to retrieve that value. // // IMPORTANT: the query must be enclosed in ( ) private static final String getTableTypes[][] = { {"TABLE", "(relkind='r' and relhasrules='f' and relname !~ '^pg_' and relname !~ '^xinv')"}, {"VIEW", "(relkind='v' and relname !~ '^pg_' and relname !~ '^xinv')"}, {"INDEX", "(relkind='i' and relname !~ '^pg_' and relname !~ '^xinx')"}, {"LARGE OBJECT", "(relkind='r' and relname ~ '^xinv')"}, {"SEQUENCE", "(relkind='S' and relname !~ '^pg_')"}, {"SYSTEM TABLE", "(relkind='r' and relname ~ '^pg_')"}, {"SYSTEM INDEX", "(relkind='i' and relname ~ '^pg_')"} }; // These are the default tables, used when NULL is passed to getTables // The choice of these provide the same behaviour as psql's \d private static final String defaultTableTypes[] = { "TABLE","VIEW","INDEX","SEQUENCE" }; /** * Get the schema names available in this database. The results * are ordered by schema name. * *

The schema column is: *

    *
  1. TABLE_SCHEM String => schema name *
* * @return ResultSet each row has a single String column that is a * schema name */ public java.sql.ResultSet getSchemas() throws SQLException { // We don't use schemas, so we simply return a single schema name "". // Field f[] = new Field[1]; Vector v = new Vector(); byte[][] tuple = new byte[1][0]; f[0] = new Field(connection,"TABLE_SCHEM",iVarcharOid,32); tuple[0] = "".getBytes(); v.addElement(tuple); return new ResultSet(connection,f,v,"OK",1); } /** * Get the catalog names available in this database. The results * are ordered by catalog name. * *

The catalog column is: *

    *
  1. TABLE_CAT String => catalog name *
* * @return ResultSet each row has a single String column that is a * catalog name */ public java.sql.ResultSet getCatalogs() throws SQLException { // We don't use catalogs, so we simply return a single catalog name "". Field f[] = new Field[1]; Vector v = new Vector(); byte[][] tuple = new byte[1][0]; f[0] = new Field(connection,"TABLE_CAT",iVarcharOid,32); tuple[0] = "".getBytes(); v.addElement(tuple); return new ResultSet(connection,f,v,"OK",1); } /** * Get the table types available in this database. The results * are ordered by table type. * *

The table type is: *

    *
  1. TABLE_TYPE String => table type. Typical types are "TABLE", * "VIEW", "SYSTEM TABLE", "GLOBAL TEMPORARY", * "LOCAL TEMPORARY", "ALIAS", "SYNONYM". *
* * @return ResultSet each row has a single String column that is a * table type */ public java.sql.ResultSet getTableTypes() throws SQLException { Field f[] = new Field[1]; Vector v = new Vector(); f[0] = new Field(connection,new String("TABLE_TYPE"),iVarcharOid,32); for(int i=0;iOnly column descriptions matching the catalog, schema, table * and column name criteria are returned. They are ordered by * TABLE_SCHEM, TABLE_NAME and ORDINAL_POSITION. * *

Each column description has the following columns: *

    *
  1. TABLE_CAT String => table catalog (may be null) *
  2. TABLE_SCHEM String => table schema (may be null) *
  3. TABLE_NAME String => table name *
  4. COLUMN_NAME String => column name *
  5. DATA_TYPE short => SQL type from java.sql.Types *
  6. TYPE_NAME String => Data source dependent type name *
  7. COLUMN_SIZE int => column size. For char or date * types this is the maximum number of characters, for numeric or * decimal types this is precision. *
  8. BUFFER_LENGTH is not used. *
  9. DECIMAL_DIGITS int => the number of fractional digits *
  10. NUM_PREC_RADIX int => Radix (typically either 10 or 2) *
  11. NULLABLE int => is NULL allowed? *
      *
    • columnNoNulls - might not allow NULL values *
    • columnNullable - definitely allows NULL values *
    • columnNullableUnknown - nullability unknown *
    *
  12. REMARKS String => comment describing column (may be null) *
  13. COLUMN_DEF String => default value (may be null) *
  14. SQL_DATA_TYPE int => unused *
  15. SQL_DATETIME_SUB int => unused *
  16. CHAR_OCTET_LENGTH int => for char types the * maximum number of bytes in the column *
  17. ORDINAL_POSITION int => index of column in table * (starting at 1) *
  18. IS_NULLABLE String => "NO" means column definitely * does not allow NULL values; "YES" means the column might * allow NULL values. An empty string means nobody knows. *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schemaPattern a schema name pattern; "" retrieves those * without a schema * @param tableNamePattern a table name pattern * @param columnNamePattern a column name pattern * @return ResultSet each row is a column description * @see #getSearchStringEscape */ public java.sql.ResultSet getColumns(String catalog, String schemaPattern, String tableNamePattern, String columnNamePattern) throws SQLException { // the field descriptors for the new ResultSet Field f[] = new Field[18]; java.sql.ResultSet r; // ResultSet for the SQL query that we need to do Vector v = new Vector(); // The new ResultSet tuple stuff f[0] = new Field(connection, "TABLE_CAT", iVarcharOid, 32); f[1] = new Field(connection, "TABLE_SCHEM", iVarcharOid, 32); f[2] = new Field(connection, "TABLE_NAME", iVarcharOid, 32); f[3] = new Field(connection, "COLUMN_NAME", iVarcharOid, 32); f[4] = new Field(connection, "DATA_TYPE", iInt2Oid, 2); f[5] = new Field(connection, "TYPE_NAME", iVarcharOid, 32); f[6] = new Field(connection, "COLUMN_SIZE", iInt4Oid, 4); f[7] = new Field(connection, "BUFFER_LENGTH", iVarcharOid, 32); f[8] = new Field(connection, "DECIMAL_DIGITS", iInt4Oid, 4); f[9] = new Field(connection, "NUM_PREC_RADIX", iInt4Oid, 4); f[10] = new Field(connection, "NULLABLE", iInt4Oid, 4); f[11] = new Field(connection, "REMARKS", iVarcharOid, 32); f[12] = new Field(connection, "COLUMN_DEF", iVarcharOid, 32); f[13] = new Field(connection, "SQL_DATA_TYPE", iInt4Oid, 4); f[14] = new Field(connection, "SQL_DATETIME_SUB", iInt4Oid, 4); f[15] = new Field(connection, "CHAR_OCTET_LENGTH", iVarcharOid, 32); f[16] = new Field(connection, "ORDINAL_POSITION", iInt4Oid,4); f[17] = new Field(connection, "IS_NULLABLE", iVarcharOid, 32); // Added by Stefan Andreasen // If the pattern are null then set them to % if (tableNamePattern == null) tableNamePattern="%"; if (columnNamePattern == null) columnNamePattern="%"; // Now form the query // Modified by Stefan Andreasen r = connection.ExecSQL("select a.oid,c.relname,a.attname,a.atttypid,a.attnum,a.attnotnull,a.attlen,a.atttypmod from pg_class c, pg_attribute a where a.attrelid=c.oid and c.relname like '"+tableNamePattern.toLowerCase()+"' and a.attname like '"+columnNamePattern.toLowerCase()+"' and a.attnum>0 order by c.relname,a.attnum"); byte remarks[]; while(r.next()) { byte[][] tuple = new byte[18][0]; // Fetch the description for the table (if any) java.sql.ResultSet dr = connection.ExecSQL("select description from pg_description where objoid="+r.getInt(1)); if(((org.postgresql.ResultSet)dr).getTupleCount()==1) { dr.next(); tuple[11] = dr.getBytes(1); } else tuple[11] = defaultRemarks; dr.close(); tuple[0] = "".getBytes(); // Catalog name tuple[1] = "".getBytes(); // Schema name tuple[2] = r.getBytes(2); // Table name tuple[3] = r.getBytes(3); // Column name dr = connection.ExecSQL("select typname from pg_type where oid = "+r.getString(4)); dr.next(); String typname=dr.getString(1); dr.close(); tuple[4] = Integer.toString(Field.getSQLType(typname)).getBytes(); // Data type tuple[5] = typname.getBytes(); // Type name // Column size // Looking at the psql source, // I think the length of a varchar as specified when the table was created // should be extracted from atttypmod which contains this length + sizeof(int32) if (typname.equals("bpchar") || typname.equals("varchar")) { int atttypmod = r.getInt(8); tuple[6] = Integer.toString(atttypmod != -1 ? atttypmod - VARHDRSZ : 0).getBytes(); } else tuple[6] = r.getBytes(7); tuple[7] = null; // Buffer length tuple[8] = "0".getBytes(); // Decimal Digits - how to get this? tuple[9] = "10".getBytes(); // Num Prec Radix - assume decimal // tuple[10] is below // tuple[11] is above tuple[12] = null; // column default tuple[13] = null; // sql data type (unused) tuple[14] = null; // sql datetime sub (unused) tuple[15] = tuple[6]; // char octet length tuple[16] = r.getBytes(5); // ordinal position String nullFlag = r.getString(6); tuple[10] = Integer.toString(nullFlag.equals("f")?java.sql.DatabaseMetaData.columnNullable:java.sql.DatabaseMetaData.columnNoNulls).getBytes(); // Nullable tuple[17] = (nullFlag.equals("f")?"YES":"NO").getBytes(); // is nullable v.addElement(tuple); } r.close(); return new ResultSet(connection, f, v, "OK", 1); } /** * Get a description of the access rights for a table's columns. * *

Only privileges matching the column name criteria are * returned. They are ordered by COLUMN_NAME and PRIVILEGE. * *

Each privilige description has the following columns: *

    *
  1. TABLE_CAT String => table catalog (may be null) *
  2. TABLE_SCHEM String => table schema (may be null) *
  3. TABLE_NAME String => table name *
  4. COLUMN_NAME String => column name *
  5. GRANTOR => grantor of access (may be null) *
  6. GRANTEE String => grantee of access *
  7. PRIVILEGE String => name of access (SELECT, * INSERT, UPDATE, REFRENCES, ...) *
  8. IS_GRANTABLE String => "YES" if grantee is permitted * to grant to others; "NO" if not; null if unknown *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schema a schema name; "" retrieves those without a schema * @param table a table name * @param columnNamePattern a column name pattern * @return ResultSet each row is a column privilege description * @see #getSearchStringEscape */ public java.sql.ResultSet getColumnPrivileges(String catalog, String schema, String table, String columnNamePattern) throws SQLException { Field f[] = new Field[8]; Vector v = new Vector(); if(table==null) table="%"; if(columnNamePattern==null) columnNamePattern="%"; else columnNamePattern=columnNamePattern.toLowerCase(); f[0] = new Field(connection,"TABLE_CAT",iVarcharOid,32); f[1] = new Field(connection,"TABLE_SCHEM",iVarcharOid,32); f[2] = new Field(connection,"TABLE_NAME",iVarcharOid,32); f[3] = new Field(connection,"COLUMN_NAME",iVarcharOid,32); f[4] = new Field(connection,"GRANTOR",iVarcharOid,32); f[5] = new Field(connection,"GRANTEE",iVarcharOid,32); f[6] = new Field(connection,"PRIVILEGE",iVarcharOid,32); f[7] = new Field(connection,"IS_GRANTABLE",iVarcharOid,32); // This is taken direct from the psql source java.sql.ResultSet r = connection.ExecSQL("SELECT relname, relacl FROM pg_class, pg_user WHERE ( relkind = 'r' OR relkind = 'i') and relname !~ '^pg_' and relname !~ '^xin[vx][0-9]+' and usesysid = relowner and relname like '"+table.toLowerCase()+"' ORDER BY relname"); while(r.next()) { byte[][] tuple = new byte[8][0]; tuple[0] = tuple[1]= "".getBytes(); DriverManager.println("relname=\""+r.getString(1)+"\" relacl=\""+r.getString(2)+"\""); // For now, don't add to the result as relacl needs to be processed. //v.addElement(tuple); } return new ResultSet(connection,f,v,"OK",1); } /** * Get a description of the access rights for each table available * in a catalog. * *

Only privileges matching the schema and table name * criteria are returned. They are ordered by TABLE_SCHEM, * TABLE_NAME, and PRIVILEGE. * *

Each privilige description has the following columns: *

    *
  1. TABLE_CAT String => table catalog (may be null) *
  2. TABLE_SCHEM String => table schema (may be null) *
  3. TABLE_NAME String => table name *
  4. COLUMN_NAME String => column name *
  5. GRANTOR => grantor of access (may be null) *
  6. GRANTEE String => grantee of access *
  7. PRIVILEGE String => name of access (SELECT, * INSERT, UPDATE, REFRENCES, ...) *
  8. IS_GRANTABLE String => "YES" if grantee is permitted * to grant to others; "NO" if not; null if unknown *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schemaPattern a schema name pattern; "" retrieves those * without a schema * @param tableNamePattern a table name pattern * @return ResultSet each row is a table privilege description * @see #getSearchStringEscape */ public java.sql.ResultSet getTablePrivileges(String catalog, String schemaPattern, String tableNamePattern) throws SQLException { // XXX-Not Implemented return null; } /** * Get a description of a table's optimal set of columns that * uniquely identifies a row. They are ordered by SCOPE. * *

Each column description has the following columns: *

    *
  1. SCOPE short => actual scope of result *
      *
    • bestRowTemporary - very temporary, while using row *
    • bestRowTransaction - valid for remainder of current transaction *
    • bestRowSession - valid for remainder of current session *
    *
  2. COLUMN_NAME String => column name *
  3. DATA_TYPE short => SQL data type from java.sql.Types *
  4. TYPE_NAME String => Data source dependent type name *
  5. COLUMN_SIZE int => precision *
  6. BUFFER_LENGTH int => not used *
  7. DECIMAL_DIGITS short => scale *
  8. PSEUDO_COLUMN short => is this a pseudo column * like an Oracle ROWID *
      *
    • bestRowUnknown - may or may not be pseudo column *
    • bestRowNotPseudo - is NOT a pseudo column *
    • bestRowPseudo - is a pseudo column *
    *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schema a schema name; "" retrieves those without a schema * @param table a table name * @param scope the scope of interest; use same values as SCOPE * @param nullable include columns that are nullable? * @return ResultSet each row is a column description */ // Implementation note: This is required for Borland's JBuilder to work public java.sql.ResultSet getBestRowIdentifier(String catalog, String schema, String table, int scope, boolean nullable) throws SQLException { // for now, this returns an empty result set. Field f[] = new Field[8]; ResultSet r; // ResultSet for the SQL query that we need to do Vector v = new Vector(); // The new ResultSet tuple stuff f[0] = new Field(connection, "SCOPE", iInt2Oid, 2); f[1] = new Field(connection, "COLUMN_NAME", iVarcharOid, 32); f[2] = new Field(connection, "DATA_TYPE", iInt2Oid, 2); f[3] = new Field(connection, "TYPE_NAME", iVarcharOid, 32); f[4] = new Field(connection, "COLUMN_SIZE", iInt4Oid, 4); f[5] = new Field(connection, "BUFFER_LENGTH", iInt4Oid, 4); f[6] = new Field(connection, "DECIMAL_DIGITS", iInt2Oid, 2); f[7] = new Field(connection, "PSEUDO_COLUMN", iInt2Oid, 2); return new ResultSet(connection, f, v, "OK", 1); } /** * Get a description of a table's columns that are automatically * updated when any value in a row is updated. They are * unordered. * *

Each column description has the following columns: *

    *
  1. SCOPE short => is not used *
  2. COLUMN_NAME String => column name *
  3. DATA_TYPE short => SQL data type from java.sql.Types *
  4. TYPE_NAME String => Data source dependent type name *
  5. COLUMN_SIZE int => precision *
  6. BUFFER_LENGTH int => length of column value in bytes *
  7. DECIMAL_DIGITS short => scale *
  8. PSEUDO_COLUMN short => is this a pseudo column * like an Oracle ROWID *
      *
    • versionColumnUnknown - may or may not be pseudo column *
    • versionColumnNotPseudo - is NOT a pseudo column *
    • versionColumnPseudo - is a pseudo column *
    *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schema a schema name; "" retrieves those without a schema * @param table a table name * @return ResultSet each row is a column description */ public java.sql.ResultSet getVersionColumns(String catalog, String schema, String table) throws SQLException { // XXX-Not Implemented return null; } /** * Get a description of a table's primary key columns. They * are ordered by COLUMN_NAME. * *

Each column description has the following columns: *

    *
  1. TABLE_CAT String => table catalog (may be null) *
  2. TABLE_SCHEM String => table schema (may be null) *
  3. TABLE_NAME String => table name *
  4. COLUMN_NAME String => column name *
  5. KEY_SEQ short => sequence number within primary key *
  6. PK_NAME String => primary key name (may be null) *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schema a schema name pattern; "" retrieves those * without a schema * @param table a table name * @return ResultSet each row is a primary key column description */ public java.sql.ResultSet getPrimaryKeys(String catalog, String schema, String table) throws SQLException { return connection.createStatement().executeQuery("SELECT " + "'' as TABLE_CAT," + "'' AS TABLE_SCHEM," + "bc.relname AS TABLE_NAME," + "a.attname AS COLUMN_NAME," + "a.attnum as KEY_SEQ,"+ "ic.relname as PK_NAME " + " FROM pg_class bc, pg_class ic, pg_index i, pg_attribute a" + " WHERE bc.relkind = 'r' " + // -- not indices " and upper(bc.relname) = upper('"+table+"')" + " and i.indrelid = bc.oid" + " and i.indexrelid = ic.oid" + " and ic.oid = a.attrelid" + " and i.indisprimary='t' " + " ORDER BY table_name, pk_name, key_seq" ); } /** * Get a description of the primary key columns that are * referenced by a table's foreign key columns (the primary keys * imported by a table). They are ordered by PKTABLE_CAT, * PKTABLE_SCHEM, PKTABLE_NAME, and KEY_SEQ. * *

Each primary key column description has the following columns: *

    *
  1. PKTABLE_CAT String => primary key table catalog * being imported (may be null) *
  2. PKTABLE_SCHEM String => primary key table schema * being imported (may be null) *
  3. PKTABLE_NAME String => primary key table name * being imported *
  4. PKCOLUMN_NAME String => primary key column name * being imported *
  5. FKTABLE_CAT String => foreign key table catalog (may be null) *
  6. FKTABLE_SCHEM String => foreign key table schema (may be null) *
  7. FKTABLE_NAME String => foreign key table name *
  8. FKCOLUMN_NAME String => foreign key column name *
  9. KEY_SEQ short => sequence number within foreign key *
  10. UPDATE_RULE short => What happens to * foreign key when primary is updated: *
      *
    • importedKeyCascade - change imported key to agree * with primary key update *
    • importedKeyRestrict - do not allow update of primary * key if it has been imported *
    • importedKeySetNull - change imported key to NULL if * its primary key has been updated *
    *
  11. DELETE_RULE short => What happens to * the foreign key when primary is deleted. *
      *
    • importedKeyCascade - delete rows that import a deleted key *
    • importedKeyRestrict - do not allow delete of primary * key if it has been imported *
    • importedKeySetNull - change imported key to NULL if * its primary key has been deleted *
    *
  12. FK_NAME String => foreign key name (may be null) *
  13. PK_NAME String => primary key name (may be null) *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schema a schema name pattern; "" retrieves those * without a schema * @param table a table name * @return ResultSet each row is a primary key column description * @see #getExportedKeys */ public java.sql.ResultSet getImportedKeys(String catalog, String schema, String table) throws SQLException { // XXX-Not Implemented return null; } /** * Get a description of a foreign key columns that reference a * table's primary key columns (the foreign keys exported by a * table). They are ordered by FKTABLE_CAT, FKTABLE_SCHEM, * FKTABLE_NAME, and KEY_SEQ. * *

Each foreign key column description has the following columns: *

    *
  1. PKTABLE_CAT String => primary key table catalog (may be null) *
  2. PKTABLE_SCHEM String => primary key table schema (may be null) *
  3. PKTABLE_NAME String => primary key table name *
  4. PKCOLUMN_NAME String => primary key column name *
  5. FKTABLE_CAT String => foreign key table catalog (may be null) * being exported (may be null) *
  6. FKTABLE_SCHEM String => foreign key table schema (may be null) * being exported (may be null) *
  7. FKTABLE_NAME String => foreign key table name * being exported *
  8. FKCOLUMN_NAME String => foreign key column name * being exported *
  9. KEY_SEQ short => sequence number within foreign key *
  10. UPDATE_RULE short => What happens to * foreign key when primary is updated: *
      *
    • importedKeyCascade - change imported key to agree * with primary key update *
    • importedKeyRestrict - do not allow update of primary * key if it has been imported *
    • importedKeySetNull - change imported key to NULL if * its primary key has been updated *
    *
  11. DELETE_RULE short => What happens to * the foreign key when primary is deleted. *
      *
    • importedKeyCascade - delete rows that import a deleted key *
    • importedKeyRestrict - do not allow delete of primary * key if it has been imported *
    • importedKeySetNull - change imported key to NULL if * its primary key has been deleted *
    *
  12. FK_NAME String => foreign key identifier (may be null) *
  13. PK_NAME String => primary key identifier (may be null) *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schema a schema name pattern; "" retrieves those * without a schema * @param table a table name * @return ResultSet each row is a foreign key column description * @see #getImportedKeys */ public java.sql.ResultSet getExportedKeys(String catalog, String schema, String table) throws SQLException { // XXX-Not Implemented return null; } /** * Get a description of the foreign key columns in the foreign key * table that reference the primary key columns of the primary key * table (describe how one table imports another's key.) This * should normally return a single foreign key/primary key pair * (most tables only import a foreign key from a table once.) They * are ordered by FKTABLE_CAT, FKTABLE_SCHEM, FKTABLE_NAME, and * KEY_SEQ. * *

Each foreign key column description has the following columns: *

    *
  1. PKTABLE_CAT String => primary key table catalog (may be null) *
  2. PKTABLE_SCHEM String => primary key table schema (may be null) *
  3. PKTABLE_NAME String => primary key table name *
  4. PKCOLUMN_NAME String => primary key column name *
  5. FKTABLE_CAT String => foreign key table catalog (may be null) * being exported (may be null) *
  6. FKTABLE_SCHEM String => foreign key table schema (may be null) * being exported (may be null) *
  7. FKTABLE_NAME String => foreign key table name * being exported *
  8. FKCOLUMN_NAME String => foreign key column name * being exported *
  9. KEY_SEQ short => sequence number within foreign key *
  10. UPDATE_RULE short => What happens to * foreign key when primary is updated: *
      *
    • importedKeyCascade - change imported key to agree * with primary key update *
    • importedKeyRestrict - do not allow update of primary * key if it has been imported *
    • importedKeySetNull - change imported key to NULL if * its primary key has been updated *
    *
  11. DELETE_RULE short => What happens to * the foreign key when primary is deleted. *
      *
    • importedKeyCascade - delete rows that import a deleted key *
    • importedKeyRestrict - do not allow delete of primary * key if it has been imported *
    • importedKeySetNull - change imported key to NULL if * its primary key has been deleted *
    *
  12. FK_NAME String => foreign key identifier (may be null) *
  13. PK_NAME String => primary key identifier (may be null) *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schema a schema name pattern; "" retrieves those * without a schema * @param table a table name * @return ResultSet each row is a foreign key column description * @see #getImportedKeys */ public java.sql.ResultSet getCrossReference(String primaryCatalog, String primarySchema, String primaryTable, String foreignCatalog, String foreignSchema, String foreignTable) throws SQLException { // XXX-Not Implemented return null; } /** * Get a description of all the standard SQL types supported by * this database. They are ordered by DATA_TYPE and then by how * closely the data type maps to the corresponding JDBC SQL type. * *

Each type description has the following columns: *

    *
  1. TYPE_NAME String => Type name *
  2. DATA_TYPE short => SQL data type from java.sql.Types *
  3. PRECISION int => maximum precision *
  4. LITERAL_PREFIX String => prefix used to quote a literal * (may be null) *
  5. LITERAL_SUFFIX String => suffix used to quote a literal (may be null) *
  6. CREATE_PARAMS String => parameters used in creating * the type (may be null) *
  7. NULLABLE short => can you use NULL for this type? *
      *
    • typeNoNulls - does not allow NULL values *
    • typeNullable - allows NULL values *
    • typeNullableUnknown - nullability unknown *
    *
  8. CASE_SENSITIVE boolean=> is it case sensitive? *
  9. SEARCHABLE short => can you use "WHERE" based on this type: *
      *
    • typePredNone - No support *
    • typePredChar - Only supported with WHERE .. LIKE *
    • typePredBasic - Supported except for WHERE .. LIKE *
    • typeSearchable - Supported for all WHERE .. *
    *
  10. UNSIGNED_ATTRIBUTE boolean => is it unsigned? *
  11. FIXED_PREC_SCALE boolean => can it be a money value? *
  12. AUTO_INCREMENT boolean => can it be used for an * auto-increment value? *
  13. LOCAL_TYPE_NAME String => localized version of type name * (may be null) *
  14. MINIMUM_SCALE short => minimum scale supported *
  15. MAXIMUM_SCALE short => maximum scale supported *
  16. SQL_DATA_TYPE int => unused *
  17. SQL_DATETIME_SUB int => unused *
  18. NUM_PREC_RADIX int => usually 2 or 10 *
* * @return ResultSet each row is a SQL type description */ public java.sql.ResultSet getTypeInfo() throws SQLException { java.sql.ResultSet rs = connection.ExecSQL("select typname from pg_type"); if(rs!=null) { Field f[] = new Field[18]; ResultSet r; // ResultSet for the SQL query that we need to do Vector v = new Vector(); // The new ResultSet tuple stuff f[0] = new Field(connection, "TYPE_NAME", iVarcharOid, 32); f[1] = new Field(connection, "DATA_TYPE", iInt2Oid, 2); f[2] = new Field(connection, "PRECISION", iInt4Oid, 4); f[3] = new Field(connection, "LITERAL_PREFIX", iVarcharOid, 32); f[4] = new Field(connection, "LITERAL_SUFFIX", iVarcharOid, 32); f[5] = new Field(connection, "CREATE_PARAMS", iVarcharOid, 32); f[6] = new Field(connection, "NULLABLE", iInt2Oid, 2); f[7] = new Field(connection, "CASE_SENSITIVE", iBoolOid, 1); f[8] = new Field(connection, "SEARCHABLE", iInt2Oid, 2); f[9] = new Field(connection, "UNSIGNED_ATTRIBUTE", iBoolOid, 1); f[10] = new Field(connection, "FIXED_PREC_SCALE", iBoolOid, 1); f[11] = new Field(connection, "AUTO_INCREMENT", iBoolOid, 1); f[12] = new Field(connection, "LOCAL_TYPE_NAME", iVarcharOid, 32); f[13] = new Field(connection, "MINIMUM_SCALE", iInt2Oid, 2); f[14] = new Field(connection, "MAXIMUM_SCALE", iInt2Oid, 2); f[15] = new Field(connection, "SQL_DATA_TYPE", iInt4Oid, 4); f[16] = new Field(connection, "SQL_DATETIME_SUB", iInt4Oid, 4); f[17] = new Field(connection, "NUM_PREC_RADIX", iInt4Oid, 4); // cache some results, this will keep memory useage down, and speed // things up a little. byte b9[] = "9".getBytes(); byte b10[] = "10".getBytes(); byte bf[] = "f".getBytes(); byte bnn[] = Integer.toString(typeNoNulls).getBytes(); byte bts[] = Integer.toString(typeSearchable).getBytes(); while(rs.next()) { byte[][] tuple = new byte[18][]; String typname=rs.getString(1); tuple[0] = typname.getBytes(); tuple[1] = Integer.toString(Field.getSQLType(typname)).getBytes(); tuple[2] = b9; // for now tuple[6] = bnn; // for now tuple[7] = bf; // false for now - not case sensitive tuple[8] = bts; tuple[9] = bf; // false for now - it's signed tuple[10] = bf; // false for now - must handle money tuple[11] = bf; // false for now - handle autoincrement // 12 - LOCAL_TYPE_NAME is null // 13 & 14 ? // 15 & 16 are unused so we return null tuple[17] = b10; // everything is base 10 v.addElement(tuple); } rs.close(); return new ResultSet(connection, f, v, "OK", 1); } return null; } /** * Get a description of a table's indices and statistics. They are * ordered by NON_UNIQUE, TYPE, INDEX_NAME, and ORDINAL_POSITION. * *

Each index column description has the following columns: *

    *
  1. TABLE_CAT String => table catalog (may be null) *
  2. TABLE_SCHEM String => table schema (may be null) *
  3. TABLE_NAME String => table name *
  4. NON_UNIQUE boolean => Can index values be non-unique? * false when TYPE is tableIndexStatistic *
  5. INDEX_QUALIFIER String => index catalog (may be null); * null when TYPE is tableIndexStatistic *
  6. INDEX_NAME String => index name; null when TYPE is * tableIndexStatistic *
  7. TYPE short => index type: *
      *
    • tableIndexStatistic - this identifies table statistics that are * returned in conjuction with a table's index descriptions *
    • tableIndexClustered - this is a clustered index *
    • tableIndexHashed - this is a hashed index *
    • tableIndexOther - this is some other style of index *
    *
  8. ORDINAL_POSITION short => column sequence number * within index; zero when TYPE is tableIndexStatistic *
  9. COLUMN_NAME String => column name; null when TYPE is * tableIndexStatistic *
  10. ASC_OR_DESC String => column sort sequence, "A" => ascending * "D" => descending, may be null if sort sequence is not supported; * null when TYPE is tableIndexStatistic *
  11. CARDINALITY int => When TYPE is tableIndexStatisic then * this is the number of rows in the table; otherwise it is the * number of unique values in the index. *
  12. PAGES int => When TYPE is tableIndexStatisic then * this is the number of pages used for the table, otherwise it * is the number of pages used for the current index. *
  13. FILTER_CONDITION String => Filter condition, if any. * (may be null) *
* * @param catalog a catalog name; "" retrieves those without a catalog * @param schema a schema name pattern; "" retrieves those without a schema * @param table a table name * @param unique when true, return only indices for unique values; * when false, return indices regardless of whether unique or not * @param approximate when true, result is allowed to reflect approximate * or out of data values; when false, results are requested to be * accurate * @return ResultSet each row is an index column description */ // Implementation note: This is required for Borland's JBuilder to work public java.sql.ResultSet getIndexInfo(String catalog, String schema, String table, boolean unique, boolean approximate) throws SQLException { // for now, this returns an empty result set. Field f[] = new Field[13]; ResultSet r; // ResultSet for the SQL query that we need to do Vector v = new Vector(); // The new ResultSet tuple stuff f[0] = new Field(connection, "TABLE_CAT", iVarcharOid, 32); f[1] = new Field(connection, "TABLE_SCHEM", iVarcharOid, 32); f[2] = new Field(connection, "TABLE_NAME", iVarcharOid, 32); f[3] = new Field(connection, "NON_UNIQUE", iBoolOid, 1); f[4] = new Field(connection, "INDEX_QUALIFIER", iVarcharOid, 32); f[5] = new Field(connection, "INDEX_NAME", iVarcharOid, 32); f[6] = new Field(connection, "TYPE", iInt2Oid, 2); f[7] = new Field(connection, "ORDINAL_POSITION", iInt2Oid, 2); f[8] = new Field(connection, "COLUMN_NAME", iVarcharOid, 32); f[9] = new Field(connection, "ASC_OR_DESC", iVarcharOid, 32); f[10] = new Field(connection, "CARDINALITY", iInt4Oid, 4); f[11] = new Field(connection, "PAGES", iInt4Oid, 4); f[12] = new Field(connection, "FILTER_CONDITION", iVarcharOid, 32); return new ResultSet(connection, f, v, "OK", 1); } }