org.postgresql.jdbc.PgDatabaseMetaData Maven / Gradle / Ivy
/*
* Copyright (c) 2004, PostgreSQL Global Development Group
* See the LICENSE file in the project root for more information.
*/
package org.postgresql.jdbc;
import org.postgresql.core.BaseStatement;
import org.postgresql.core.Field;
import org.postgresql.core.Oid;
import org.postgresql.core.ServerVersion;
import org.postgresql.util.GT;
import org.postgresql.util.JdbcBlackHole;
import org.postgresql.util.PSQLException;
import org.postgresql.util.PSQLState;
import java.sql.Array;
import java.sql.Connection;
import java.sql.DatabaseMetaData;
import java.sql.ResultSet;
import java.sql.RowIdLifetime;
import java.sql.SQLException;
import java.sql.Statement;
import java.sql.Types;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.StringTokenizer;
public class PgDatabaseMetaData implements DatabaseMetaData {
public PgDatabaseMetaData(PgConnection conn) {
this.connection = conn;
}
private static final String keywords = "abort,acl,add,aggregate,append,archive,"
+ "arch_store,backward,binary,boolean,change,cluster,"
+ "copy,database,delimiter,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";
protected final PgConnection connection; // The connection association
private int NAMEDATALEN = 0; // length for name datatype
private int INDEX_MAX_KEYS = 0; // maximum number of keys in an index.
protected int getMaxIndexKeys() throws SQLException {
if (INDEX_MAX_KEYS == 0) {
String sql;
sql = "SELECT setting FROM pg_catalog.pg_settings WHERE name='max_index_keys'";
Statement stmt = connection.createStatement();
ResultSet rs = null;
try {
rs = stmt.executeQuery(sql);
if (!rs.next()) {
stmt.close();
throw new PSQLException(
GT.tr(
"Unable to determine a value for MaxIndexKeys due to missing system catalog data."),
PSQLState.UNEXPECTED_ERROR);
}
INDEX_MAX_KEYS = rs.getInt(1);
} finally {
JdbcBlackHole.close(rs);
JdbcBlackHole.close(stmt);
}
}
return INDEX_MAX_KEYS;
}
protected int getMaxNameLength() throws SQLException {
if (NAMEDATALEN == 0) {
String sql;
sql = "SELECT t.typlen FROM pg_catalog.pg_type t, pg_catalog.pg_namespace n "
+ "WHERE t.typnamespace=n.oid AND t.typname='name' AND n.nspname='pg_catalog'";
Statement stmt = connection.createStatement();
ResultSet rs = null;
try {
rs = stmt.executeQuery(sql);
if (!rs.next()) {
throw new PSQLException(GT.tr("Unable to find name datatype in the system catalogs."),
PSQLState.UNEXPECTED_ERROR);
}
NAMEDATALEN = rs.getInt("typlen");
} finally {
JdbcBlackHole.close(rs);
JdbcBlackHole.close(stmt);
}
}
return NAMEDATALEN - 1;
}
public boolean allProceduresAreCallable() throws SQLException {
return true; // For now...
}
public boolean allTablesAreSelectable() throws SQLException {
return true; // For now...
}
public String getURL() throws SQLException {
return connection.getURL();
}
public String getUserName() throws SQLException {
return connection.getUserName();
}
public boolean isReadOnly() throws SQLException {
return connection.isReadOnly();
}
public boolean nullsAreSortedHigh() throws SQLException {
return true;
}
public boolean nullsAreSortedLow() throws SQLException {
return false;
}
public boolean nullsAreSortedAtStart() throws SQLException {
return false;
}
public boolean nullsAreSortedAtEnd() throws SQLException {
return false;
}
/**
* Retrieves the name of this database product. We hope that it is PostgreSQL, so we return that
* explicitly.
*
* @return "PostgreSQL"
*/
@Override
public String getDatabaseProductName() throws SQLException {
return "PostgreSQL";
}
@Override
public String getDatabaseProductVersion() throws SQLException {
return connection.getDBVersionNumber();
}
@Override
public String getDriverName() {
return org.postgresql.util.DriverInfo.DRIVER_NAME;
}
@Override
public String getDriverVersion() {
return org.postgresql.util.DriverInfo.DRIVER_VERSION;
}
@Override
public int getDriverMajorVersion() {
return org.postgresql.util.DriverInfo.MAJOR_VERSION;
}
@Override
public int getDriverMinorVersion() {
return org.postgresql.util.DriverInfo.MINOR_VERSION;
}
/**
* Does the database store tables in a local file? No - it stores them in a file on the server.
*
* @return true if so
* @throws 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 doesn't use local files.
*
* @return true if so
* @throws 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.
*
* @return true if so
* @throws SQLException if a database access error occurs
*/
public boolean supportsMixedCaseIdentifiers() throws SQLException {
return false;
}
public boolean storesUpperCaseIdentifiers() throws SQLException {
return false;
}
public boolean storesLowerCaseIdentifiers() throws SQLException {
return true;
}
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.
*
* @return true if so
* @throws SQLException if a database access error occurs
*/
public boolean supportsMixedCaseQuotedIdentifiers() throws SQLException {
return true;
}
public boolean storesUpperCaseQuotedIdentifiers() throws SQLException {
return false;
}
public boolean storesLowerCaseQuotedIdentifiers() throws SQLException {
return false;
}
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.
*
* @return the quoting string
* @throws SQLException if a database access error occurs
*/
public String getIdentifierQuoteString() throws SQLException {
return "\"";
}
/**
* {@inheritDoc}
*
*
* 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
* @throws SQLException if a database access error occurs
*/
public String getSQLKeywords() throws SQLException {
return keywords;
}
public String getNumericFunctions() throws SQLException {
return EscapedFunctions.ABS + ',' + EscapedFunctions.ACOS + ',' + EscapedFunctions.ASIN + ','
+ EscapedFunctions.ATAN + ',' + EscapedFunctions.ATAN2 + ',' + EscapedFunctions.CEILING
+ ',' + EscapedFunctions.COS + ',' + EscapedFunctions.COT + ',' + EscapedFunctions.DEGREES
+ ',' + EscapedFunctions.EXP + ',' + EscapedFunctions.FLOOR + ',' + EscapedFunctions.LOG
+ ',' + EscapedFunctions.LOG10 + ',' + EscapedFunctions.MOD + ',' + EscapedFunctions.PI
+ ',' + EscapedFunctions.POWER + ',' + EscapedFunctions.RADIANS + ','
+ EscapedFunctions.ROUND + ',' + EscapedFunctions.SIGN + ',' + EscapedFunctions.SIN + ','
+ EscapedFunctions.SQRT + ',' + EscapedFunctions.TAN + ',' + EscapedFunctions.TRUNCATE;
}
public String getStringFunctions() throws SQLException {
String funcs = EscapedFunctions.ASCII + ',' + EscapedFunctions.CHAR + ','
+ EscapedFunctions.CONCAT + ',' + EscapedFunctions.LCASE + ',' + EscapedFunctions.LEFT + ','
+ EscapedFunctions.LENGTH + ',' + EscapedFunctions.LTRIM + ',' + EscapedFunctions.REPEAT
+ ',' + EscapedFunctions.RTRIM + ',' + EscapedFunctions.SPACE + ','
+ EscapedFunctions.SUBSTRING + ',' + EscapedFunctions.UCASE;
// Currently these don't work correctly with parameterized
// arguments, so leave them out. They reorder the arguments
// when rewriting the query, but no translation layer is provided,
// so a setObject(N, obj) will not go to the correct parameter.
// ','+EscapedFunctions.INSERT+','+EscapedFunctions.LOCATE+
// ','+EscapedFunctions.RIGHT+
funcs += ',' + EscapedFunctions.REPLACE;
return funcs;
}
public String getSystemFunctions() throws SQLException {
return EscapedFunctions.DATABASE + ',' + EscapedFunctions.IFNULL + ',' + EscapedFunctions.USER;
}
public String getTimeDateFunctions() throws SQLException {
String timeDateFuncs = EscapedFunctions.CURDATE + ',' + EscapedFunctions.CURTIME + ','
+ EscapedFunctions.DAYNAME + ',' + EscapedFunctions.DAYOFMONTH + ','
+ EscapedFunctions.DAYOFWEEK + ',' + EscapedFunctions.DAYOFYEAR + ','
+ EscapedFunctions.HOUR + ',' + EscapedFunctions.MINUTE + ',' + EscapedFunctions.MONTH + ','
+ EscapedFunctions.MONTHNAME + ',' + EscapedFunctions.NOW + ',' + EscapedFunctions.QUARTER
+ ',' + EscapedFunctions.SECOND + ',' + EscapedFunctions.WEEK + ',' + EscapedFunctions.YEAR;
timeDateFuncs += ',' + EscapedFunctions.TIMESTAMPADD;
// +','+EscapedFunctions.TIMESTAMPDIFF;
return timeDateFuncs;
}
public String getSearchStringEscape() throws SQLException {
// This method originally returned "\\\\" assuming that it
// would be fed directly into pg's input parser so it would
// need two backslashes. This isn't how it's supposed to be
// used though. If passed as a PreparedStatement parameter
// or fed to a DatabaseMetaData method then double backslashes
// are incorrect. If you're feeding something directly into
// a query you are responsible for correctly escaping it.
// With 8.2+ this escaping is a little trickier because you
// must know the setting of standard_conforming_strings, but
// that's not our problem.
return "\\";
}
/**
* {@inheritDoc}
*
*
* Postgresql allows any high-bit character to be used in an unquoted identifier, so we can't
* possibly list them all.
*
* From the file src/backend/parser/scan.l, an identifier is ident_start [A-Za-z\200-\377_]
* ident_cont [A-Za-z\200-\377_0-9\$] identifier {ident_start}{ident_cont}*
*
* @return a string containing the extra characters
* @throws SQLException if a database access error occurs
*/
public String getExtraNameCharacters() throws SQLException {
return "";
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 6.1+
*/
public boolean supportsAlterTableWithAddColumn() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.3+
*/
public boolean supportsAlterTableWithDropColumn() throws SQLException {
return true;
}
public boolean supportsColumnAliasing() throws SQLException {
return true;
}
public boolean nullPlusNonNullIsNull() throws SQLException {
return true;
}
public boolean supportsConvert() throws SQLException {
return false;
}
public boolean supportsConvert(int fromType, int toType) throws SQLException {
return false;
}
public boolean supportsTableCorrelationNames() throws SQLException {
return true;
}
public boolean supportsDifferentTableCorrelationNames() throws SQLException {
return false;
}
public boolean supportsExpressionsInOrderBy() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 6.4+
*/
public boolean supportsOrderByUnrelated() throws SQLException {
return true;
}
public boolean supportsGroupBy() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 6.4+
*/
public boolean supportsGroupByUnrelated() throws SQLException {
return true;
}
/*
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 6.4+
*/
public boolean supportsGroupByBeyondSelect() throws SQLException {
return true;
}
/*
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.1+
*/
public boolean supportsLikeEscapeClause() throws SQLException {
return true;
}
public boolean supportsMultipleResultSets() throws SQLException {
return true;
}
public boolean supportsMultipleTransactions() throws SQLException {
return true;
}
public boolean supportsNonNullableColumns() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* 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
*/
public boolean supportsMinimumSQLGrammar() throws SQLException {
return true;
}
/**
* Does this driver support the Core ODBC SQL grammar. We need SQL-92 conformance for this.
*
* @return false
* @throws 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 false
* @throws 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. We currently report false until 'schema' support is added. Then this should be
* changed to return true, since we will be mostly compliant (probably more compliant than many
* other databases) And since this is a requirement for all JDBC drivers we need to get to the
* point where we can return true.
*
* @return true if connected to PostgreSQL 7.3+
* @throws SQLException if a database access error occurs
*/
public boolean supportsANSI92EntryLevelSQL() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return false
*/
public boolean supportsANSI92IntermediateSQL() throws SQLException {
return false;
}
/**
* {@inheritDoc}
*
* @return false
*/
public boolean supportsANSI92FullSQL() throws SQLException {
return false;
}
/*
* Is the SQL Integrity Enhancement Facility supported? Our best guess is that this means support
* for constraints
*
* @return true
*
* @exception SQLException if a database access error occurs
*/
public boolean supportsIntegrityEnhancementFacility() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.1+
*/
public boolean supportsOuterJoins() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.1+
*/
public boolean supportsFullOuterJoins() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.1+
*/
public boolean supportsLimitedOuterJoins() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* PostgreSQL doesn't have schemas, but when it does, we'll use the term "schema".
*
* @return {@code "schema"}
*/
public String getSchemaTerm() throws SQLException {
return "schema";
}
/**
* {@inheritDoc}
*
* @return {@code "function"}
*/
public String getProcedureTerm() throws SQLException {
return "function";
}
/**
* {@inheritDoc}
*
* @return {@code "database"}
*/
public String getCatalogTerm() throws SQLException {
return "database";
}
public boolean isCatalogAtStart() throws SQLException {
return true;
}
public String getCatalogSeparator() throws SQLException {
return ".";
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.3+
*/
public boolean supportsSchemasInDataManipulation() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.3+
*/
public boolean supportsSchemasInProcedureCalls() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.3+
*/
public boolean supportsSchemasInTableDefinitions() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.3+
*/
public boolean supportsSchemasInIndexDefinitions() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.3+
*/
public boolean supportsSchemasInPrivilegeDefinitions() throws SQLException {
return true;
}
public boolean supportsCatalogsInDataManipulation() throws SQLException {
return false;
}
public boolean supportsCatalogsInProcedureCalls() throws SQLException {
return false;
}
public boolean supportsCatalogsInTableDefinitions() throws SQLException {
return false;
}
public boolean supportsCatalogsInIndexDefinitions() throws SQLException {
return false;
}
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 false
* @throws SQLException if a database access error occurs
*/
public boolean supportsPositionedDelete() throws SQLException {
return false; // For now...
}
public boolean supportsPositionedUpdate() throws SQLException {
return false; // For now...
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 6.5+
*/
public boolean supportsSelectForUpdate() throws SQLException {
return true;
}
public boolean supportsStoredProcedures() throws SQLException {
return true;
}
public boolean supportsSubqueriesInComparisons() throws SQLException {
return true;
}
public boolean supportsSubqueriesInExists() throws SQLException {
return true;
}
public boolean supportsSubqueriesInIns() throws SQLException {
return true;
}
public boolean supportsSubqueriesInQuantifieds() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.1+
*/
public boolean supportsCorrelatedSubqueries() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 6.3+
*/
public boolean supportsUnion() throws SQLException {
return true; // since 6.3
}
/**
* {@inheritDoc}
*
* @return true if connected to PostgreSQL 7.1+
*/
public boolean supportsUnionAll() throws SQLException {
return true;
}
/**
* {@inheritDoc} In PostgreSQL, Cursors are only open within transactions.
*/
public boolean supportsOpenCursorsAcrossCommit() throws SQLException {
return false;
}
public boolean supportsOpenCursorsAcrossRollback() throws SQLException {
return false;
}
/**
* {@inheritDoc}
*
* Can statements remain open across commits? They may, but this driver cannot guarantee that. In
* further reflection. we are talking a Statement object here, so the answer is yes, since the
* Statement is only a vehicle to ExecSQL()
*
* @return true
*/
public boolean supportsOpenStatementsAcrossCommit() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* Can statements remain open across rollbacks? They may, but this driver cannot guarantee 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
*/
public boolean supportsOpenStatementsAcrossRollback() throws SQLException {
return true;
}
public int getMaxCharLiteralLength() throws SQLException {
return 0; // no limit
}
public int getMaxBinaryLiteralLength() throws SQLException {
return 0; // no limit
}
public int getMaxColumnNameLength() throws SQLException {
return getMaxNameLength();
}
public int getMaxColumnsInGroupBy() throws SQLException {
return 0; // no limit
}
public int getMaxColumnsInIndex() throws SQLException {
return getMaxIndexKeys();
}
public int getMaxColumnsInOrderBy() throws SQLException {
return 0; // no limit
}
public int getMaxColumnsInSelect() throws SQLException {
return 0; // no limit
}
/**
* {@inheritDoc} What is the maximum number of columns in a table? From the CREATE TABLE reference
* 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
* @throws SQLException if a database access error occurs
*/
public int getMaxColumnsInTable() throws SQLException {
return 1600;
}
/**
* {@inheritDoc} 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
* @throws SQLException if a database access error occurs
*/
public int getMaxConnections() throws SQLException {
return 8192;
}
public int getMaxCursorNameLength() throws SQLException {
return getMaxNameLength();
}
public int getMaxIndexLength() throws SQLException {
return 0; // no limit (larger than an int anyway)
}
public int getMaxSchemaNameLength() throws SQLException {
return getMaxNameLength();
}
public int getMaxProcedureNameLength() throws SQLException {
return getMaxNameLength();
}
public int getMaxCatalogNameLength() throws SQLException {
return getMaxNameLength();
}
public int getMaxRowSize() throws SQLException {
return 1073741824; // 1 GB
}
public boolean doesMaxRowSizeIncludeBlobs() throws SQLException {
return false;
}
public int getMaxStatementLength() throws SQLException {
return 0; // actually whatever fits in size_t
}
public int getMaxStatements() throws SQLException {
return 0;
}
public int getMaxTableNameLength() throws SQLException {
return getMaxNameLength();
}
public int getMaxTablesInSelect() throws SQLException {
return 0; // no limit
}
public int getMaxUserNameLength() throws SQLException {
return getMaxNameLength();
}
public int getDefaultTransactionIsolation() throws SQLException {
return Connection.TRANSACTION_READ_COMMITTED;
}
public boolean supportsTransactions() throws SQLException {
return true;
}
/**
* {@inheritDoc}
*
* We only support TRANSACTION_SERIALIZABLE and TRANSACTION_READ_COMMITTED before 8.0; from 8.0
* READ_UNCOMMITTED and REPEATABLE_READ are accepted aliases for READ_COMMITTED.
*/
public boolean supportsTransactionIsolationLevel(int level) throws SQLException {
switch (level) {
case Connection.TRANSACTION_READ_UNCOMMITTED:
case Connection.TRANSACTION_READ_COMMITTED:
case Connection.TRANSACTION_REPEATABLE_READ:
case Connection.TRANSACTION_SERIALIZABLE:
return true;
default:
return false;
}
}
public boolean supportsDataDefinitionAndDataManipulationTransactions() throws SQLException {
return true;
}
public boolean supportsDataManipulationTransactionsOnly() throws SQLException {
return false;
}
/**
* Does a data definition statement within a transaction force the transaction to commit? It seems
* to mean 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
* @throws SQLException if a database access error occurs
*/
public boolean dataDefinitionCausesTransactionCommit() throws SQLException {
return false;
}
public boolean dataDefinitionIgnoredInTransactions() throws SQLException {
return false;
}
/**
* Turn the provided value into a valid string literal for direct inclusion into a query. This
* includes the single quotes needed around it.
*
* @param s input value
*
* @return string literal for direct inclusion into a query
* @throws SQLException if something wrong happens
*/
protected String escapeQuotes(String s) throws SQLException {
StringBuilder sb = new StringBuilder();
if (!connection.getStandardConformingStrings()) {
sb.append("E");
}
sb.append("'");
sb.append(connection.escapeString(s));
sb.append("'");
return sb.toString();
}
public ResultSet getProcedures(String catalog, String schemaPattern, String procedureNamePattern)
throws SQLException {
String sql;
sql = "SELECT NULL AS PROCEDURE_CAT, n.nspname AS PROCEDURE_SCHEM, p.proname AS PROCEDURE_NAME, "
+ "NULL, NULL, NULL, d.description AS REMARKS, "
+ DatabaseMetaData.procedureReturnsResult + " AS PROCEDURE_TYPE, "
+ " p.proname || '_' || p.oid AS SPECIFIC_NAME "
+ " FROM pg_catalog.pg_namespace n, pg_catalog.pg_proc p "
+ " LEFT JOIN pg_catalog.pg_description d ON (p.oid=d.objoid) "
+ " LEFT JOIN pg_catalog.pg_class c ON (d.classoid=c.oid AND c.relname='pg_proc') "
+ " LEFT JOIN pg_catalog.pg_namespace pn ON (c.relnamespace=pn.oid AND pn.nspname='pg_catalog') "
+ " WHERE p.pronamespace=n.oid ";
if (schemaPattern != null && !schemaPattern.isEmpty()) {
sql += " AND n.nspname LIKE " + escapeQuotes(schemaPattern);
}
if (procedureNamePattern != null && !procedureNamePattern.isEmpty()) {
sql += " AND p.proname LIKE " + escapeQuotes(procedureNamePattern);
}
sql += " ORDER BY PROCEDURE_SCHEM, PROCEDURE_NAME, p.oid::text ";
return createMetaDataStatement().executeQuery(sql);
}
public ResultSet getProcedureColumns(String catalog, String schemaPattern,
String procedureNamePattern, String columnNamePattern) throws SQLException {
int columns = 20;
Field[] f = new Field[columns];
List v = new ArrayList(); // The new ResultSet tuple stuff
f[0] = new Field("PROCEDURE_CAT", Oid.VARCHAR);
f[1] = new Field("PROCEDURE_SCHEM", Oid.VARCHAR);
f[2] = new Field("PROCEDURE_NAME", Oid.VARCHAR);
f[3] = new Field("COLUMN_NAME", Oid.VARCHAR);
f[4] = new Field("COLUMN_TYPE", Oid.INT2);
f[5] = new Field("DATA_TYPE", Oid.INT2);
f[6] = new Field("TYPE_NAME", Oid.VARCHAR);
f[7] = new Field("PRECISION", Oid.INT4);
f[8] = new Field("LENGTH", Oid.INT4);
f[9] = new Field("SCALE", Oid.INT2);
f[10] = new Field("RADIX", Oid.INT2);
f[11] = new Field("NULLABLE", Oid.INT2);
f[12] = new Field("REMARKS", Oid.VARCHAR);
f[13] = new Field("COLUMN_DEF", Oid.VARCHAR);
f[14] = new Field("SQL_DATA_TYPE", Oid.INT4);
f[15] = new Field("SQL_DATETIME_SUB", Oid.INT4);
f[16] = new Field("CHAR_OCTECT_LENGTH", Oid.INT4);
f[17] = new Field("ORDINAL_POSITION", Oid.INT4);
f[18] = new Field("IS_NULLABLE", Oid.VARCHAR);
f[19] = new Field("SPECIFIC_NAME", Oid.VARCHAR);
String sql;
sql = "SELECT n.nspname,p.proname,p.prorettype,p.proargtypes, t.typtype,t.typrelid, "
+ " p.proargnames, p.proargmodes, p.proallargtypes, p.oid "
+ " FROM pg_catalog.pg_proc p, pg_catalog.pg_namespace n, pg_catalog.pg_type t "
+ " WHERE p.pronamespace=n.oid AND p.prorettype=t.oid ";
if (schemaPattern != null && !schemaPattern.isEmpty()) {
sql += " AND n.nspname LIKE " + escapeQuotes(schemaPattern);
}
if (procedureNamePattern != null && !procedureNamePattern.isEmpty()) {
sql += " AND p.proname LIKE " + escapeQuotes(procedureNamePattern);
}
sql += " ORDER BY n.nspname, p.proname, p.oid::text ";
byte[] isnullableUnknown = new byte[0];
Statement stmt = connection.createStatement();
ResultSet rs = stmt.executeQuery(sql);
while (rs.next()) {
byte[] schema = rs.getBytes("nspname");
byte[] procedureName = rs.getBytes("proname");
byte[] specificName =
connection.encodeString(rs.getString("proname") + "_" + rs.getString("oid"));
int returnType = (int) rs.getLong("prorettype");
String returnTypeType = rs.getString("typtype");
int returnTypeRelid = (int) rs.getLong("typrelid");
String strArgTypes = rs.getString("proargtypes");
StringTokenizer st = new StringTokenizer(strArgTypes);
List argTypes = new ArrayList();
while (st.hasMoreTokens()) {
argTypes.add(Long.valueOf(st.nextToken()));
}
String[] argNames = null;
Array argNamesArray = rs.getArray("proargnames");
if (argNamesArray != null) {
argNames = (String[]) argNamesArray.getArray();
}
String[] argModes = null;
Array argModesArray = rs.getArray("proargmodes");
if (argModesArray != null) {
argModes = (String[]) argModesArray.getArray();
}
int numArgs = argTypes.size();
Long[] allArgTypes = null;
Array allArgTypesArray = rs.getArray("proallargtypes");
if (allArgTypesArray != null) {
allArgTypes = (Long[]) allArgTypesArray.getArray();
numArgs = allArgTypes.length;
}
// decide if we are returning a single column result.
if (returnTypeType.equals("b") || returnTypeType.equals("d") || returnTypeType.equals("e")
|| (returnTypeType.equals("p") && argModesArray == null)) {
byte[][] tuple = new byte[columns][];
tuple[0] = null;
tuple[1] = schema;
tuple[2] = procedureName;
tuple[3] = connection.encodeString("returnValue");
tuple[4] = connection
.encodeString(Integer.toString(java.sql.DatabaseMetaData.procedureColumnReturn));
tuple[5] = connection
.encodeString(Integer.toString(connection.getTypeInfo().getSQLType(returnType)));
tuple[6] = connection.encodeString(connection.getTypeInfo().getPGType(returnType));
tuple[7] = null;
tuple[8] = null;
tuple[9] = null;
tuple[10] = null;
tuple[11] = connection
.encodeString(Integer.toString(java.sql.DatabaseMetaData.procedureNullableUnknown));
tuple[12] = null;
tuple[17] = connection.encodeString(Integer.toString(0));
tuple[18] = isnullableUnknown;
tuple[19] = specificName;
v.add(tuple);
}
// Add a row for each argument.
for (int i = 0; i < numArgs; i++) {
byte[][] tuple = new byte[columns][];
tuple[0] = null;
tuple[1] = schema;
tuple[2] = procedureName;
if (argNames != null) {
tuple[3] = connection.encodeString(argNames[i]);
} else {
tuple[3] = connection.encodeString("$" + (i + 1));
}
int columnMode = DatabaseMetaData.procedureColumnIn;
if (argModes != null && argModes[i].equals("o")) {
columnMode = DatabaseMetaData.procedureColumnOut;
} else if (argModes != null && argModes[i].equals("b")) {
columnMode = DatabaseMetaData.procedureColumnInOut;
} else if (argModes != null && argModes[i].equals("t")) {
columnMode = DatabaseMetaData.procedureColumnReturn;
}
tuple[4] = connection.encodeString(Integer.toString(columnMode));
int argOid;
if (allArgTypes != null) {
argOid = allArgTypes[i].intValue();
} else {
argOid = argTypes.get(i).intValue();
}
tuple[5] =
connection.encodeString(Integer.toString(connection.getTypeInfo().getSQLType(argOid)));
tuple[6] = connection.encodeString(connection.getTypeInfo().getPGType(argOid));
tuple[7] = null;
tuple[8] = null;
tuple[9] = null;
tuple[10] = null;
tuple[11] =
connection.encodeString(Integer.toString(DatabaseMetaData.procedureNullableUnknown));
tuple[12] = null;
tuple[17] = connection.encodeString(Integer.toString(i + 1));
tuple[18] = isnullableUnknown;
tuple[19] = specificName;
v.add(tuple);
}
// if we are returning a multi-column result.
if (returnTypeType.equals("c") || (returnTypeType.equals("p") && argModesArray != null)) {
String columnsql = "SELECT a.attname,a.atttypid FROM pg_catalog.pg_attribute a "
+ " WHERE a.attrelid = " + returnTypeRelid
+ " AND NOT a.attisdropped AND a.attnum > 0 ORDER BY a.attnum ";
Statement columnstmt = connection.createStatement();
ResultSet columnrs = columnstmt.executeQuery(columnsql);
while (columnrs.next()) {
int columnTypeOid = (int) columnrs.getLong("atttypid");
byte[][] tuple = new byte[columns][];
tuple[0] = null;
tuple[1] = schema;
tuple[2] = procedureName;
tuple[3] = columnrs.getBytes("attname");
tuple[4] = connection
.encodeString(Integer.toString(java.sql.DatabaseMetaData.procedureColumnResult));
tuple[5] = connection
.encodeString(Integer.toString(connection.getTypeInfo().getSQLType(columnTypeOid)));
tuple[6] = connection.encodeString(connection.getTypeInfo().getPGType(columnTypeOid));
tuple[7] = null;
tuple[8] = null;
tuple[9] = null;
tuple[10] = null;
tuple[11] = connection
.encodeString(Integer.toString(java.sql.DatabaseMetaData.procedureNullableUnknown));
tuple[12] = null;
tuple[17] = connection.encodeString(Integer.toString(0));
tuple[18] = isnullableUnknown;
tuple[19] = specificName;
v.add(tuple);
}
columnrs.close();
columnstmt.close();
}
}
rs.close();
stmt.close();
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
@Override
public ResultSet getTables(String catalog, String schemaPattern, String tableNamePattern,
String[] types) throws SQLException {
String select;
String orderby;
String useSchemas = "SCHEMAS";
select = "SELECT NULL AS TABLE_CAT, n.nspname AS TABLE_SCHEM, c.relname AS TABLE_NAME, "
+ " CASE n.nspname ~ '^pg_' OR n.nspname = 'information_schema' "
+ " WHEN true THEN CASE "
+ " WHEN n.nspname = 'pg_catalog' OR n.nspname = 'information_schema' THEN CASE c.relkind "
+ " WHEN 'r' THEN 'SYSTEM TABLE' "
+ " WHEN 'v' THEN 'SYSTEM VIEW' "
+ " WHEN 'i' THEN 'SYSTEM INDEX' "
+ " ELSE NULL "
+ " END "
+ " WHEN n.nspname = 'pg_toast' THEN CASE c.relkind "
+ " WHEN 'r' THEN 'SYSTEM TOAST TABLE' "
+ " WHEN 'i' THEN 'SYSTEM TOAST INDEX' "
+ " ELSE NULL "
+ " END "
+ " ELSE CASE c.relkind "
+ " WHEN 'r' THEN 'TEMPORARY TABLE' "
+ " WHEN 'p' THEN 'TEMPORARY TABLE' "
+ " WHEN 'i' THEN 'TEMPORARY INDEX' "
+ " WHEN 'S' THEN 'TEMPORARY SEQUENCE' "
+ " WHEN 'v' THEN 'TEMPORARY VIEW' "
+ " ELSE NULL "
+ " END "
+ " END "
+ " WHEN false THEN CASE c.relkind "
+ " WHEN 'r' THEN 'TABLE' "
+ " WHEN 'p' THEN 'TABLE' "
+ " WHEN 'i' THEN 'INDEX' "
+ " WHEN 'S' THEN 'SEQUENCE' "
+ " WHEN 'v' THEN 'VIEW' "
+ " WHEN 'c' THEN 'TYPE' "
+ " WHEN 'f' THEN 'FOREIGN TABLE' "
+ " WHEN 'm' THEN 'MATERIALIZED VIEW' "
+ " ELSE NULL "
+ " END "
+ " ELSE NULL "
+ " END "
+ " AS TABLE_TYPE, d.description AS REMARKS "
+ " FROM pg_catalog.pg_namespace n, pg_catalog.pg_class c "
+ " LEFT JOIN pg_catalog.pg_description d ON (c.oid = d.objoid AND d.objsubid = 0) "
+ " LEFT JOIN pg_catalog.pg_class dc ON (d.classoid=dc.oid AND dc.relname='pg_class') "
+ " LEFT JOIN pg_catalog.pg_namespace dn ON (dn.oid=dc.relnamespace AND dn.nspname='pg_catalog') "
+ " WHERE c.relnamespace = n.oid ";
if (schemaPattern != null && !schemaPattern.isEmpty()) {
select += " AND n.nspname LIKE " + escapeQuotes(schemaPattern);
}
orderby = " ORDER BY TABLE_TYPE,TABLE_SCHEM,TABLE_NAME ";
if (tableNamePattern != null && !tableNamePattern.isEmpty()) {
select += " AND c.relname LIKE " + escapeQuotes(tableNamePattern);
}
if (types != null) {
select += " AND (false ";
StringBuilder orclause = new StringBuilder();
for (String type : types) {
Map clauses = tableTypeClauses.get(type);
if (clauses != null) {
String clause = clauses.get(useSchemas);
orclause.append(" OR ( ").append(clause).append(" ) ");
}
}
select += orclause.toString() + ") ";
}
String sql = select + orderby;
return createMetaDataStatement().executeQuery(sql);
}
private static final Map> tableTypeClauses;
static {
tableTypeClauses = new HashMap>();
Map ht = new HashMap();
tableTypeClauses.put("TABLE", ht);
ht.put("SCHEMAS",
"c.relkind IN ('r','p') AND n.nspname !~ '^pg_' AND n.nspname <> 'information_schema'");
ht.put("NOSCHEMAS", "c.relkind IN ('r','p') AND c.relname !~ '^pg_'");
ht = new HashMap();
tableTypeClauses.put("VIEW", ht);
ht.put("SCHEMAS",
"c.relkind = 'v' AND n.nspname <> 'pg_catalog' AND n.nspname <> 'information_schema'");
ht.put("NOSCHEMAS", "c.relkind = 'v' AND c.relname !~ '^pg_'");
ht = new HashMap();
tableTypeClauses.put("INDEX", ht);
ht.put("SCHEMAS",
"c.relkind = 'i' AND n.nspname !~ '^pg_' AND n.nspname <> 'information_schema'");
ht.put("NOSCHEMAS", "c.relkind = 'i' AND c.relname !~ '^pg_'");
ht = new HashMap();
tableTypeClauses.put("SEQUENCE", ht);
ht.put("SCHEMAS", "c.relkind = 'S'");
ht.put("NOSCHEMAS", "c.relkind = 'S'");
ht = new HashMap();
tableTypeClauses.put("TYPE", ht);
ht.put("SCHEMAS",
"c.relkind = 'c' AND n.nspname !~ '^pg_' AND n.nspname <> 'information_schema'");
ht.put("NOSCHEMAS", "c.relkind = 'c' AND c.relname !~ '^pg_'");
ht = new HashMap();
tableTypeClauses.put("SYSTEM TABLE", ht);
ht.put("SCHEMAS",
"c.relkind = 'r' AND (n.nspname = 'pg_catalog' OR n.nspname = 'information_schema')");
ht.put("NOSCHEMAS",
"c.relkind = 'r' AND c.relname ~ '^pg_' AND c.relname !~ '^pg_toast_' AND c.relname !~ '^pg_temp_'");
ht = new HashMap();
tableTypeClauses.put("SYSTEM TOAST TABLE", ht);
ht.put("SCHEMAS", "c.relkind = 'r' AND n.nspname = 'pg_toast'");
ht.put("NOSCHEMAS", "c.relkind = 'r' AND c.relname ~ '^pg_toast_'");
ht = new HashMap();
tableTypeClauses.put("SYSTEM TOAST INDEX", ht);
ht.put("SCHEMAS", "c.relkind = 'i' AND n.nspname = 'pg_toast'");
ht.put("NOSCHEMAS", "c.relkind = 'i' AND c.relname ~ '^pg_toast_'");
ht = new HashMap();
tableTypeClauses.put("SYSTEM VIEW", ht);
ht.put("SCHEMAS",
"c.relkind = 'v' AND (n.nspname = 'pg_catalog' OR n.nspname = 'information_schema') ");
ht.put("NOSCHEMAS", "c.relkind = 'v' AND c.relname ~ '^pg_'");
ht = new HashMap();
tableTypeClauses.put("SYSTEM INDEX", ht);
ht.put("SCHEMAS",
"c.relkind = 'i' AND (n.nspname = 'pg_catalog' OR n.nspname = 'information_schema') ");
ht.put("NOSCHEMAS",
"c.relkind = 'v' AND c.relname ~ '^pg_' AND c.relname !~ '^pg_toast_' AND c.relname !~ '^pg_temp_'");
ht = new HashMap();
tableTypeClauses.put("TEMPORARY TABLE", ht);
ht.put("SCHEMAS", "c.relkind IN ('r','p') AND n.nspname ~ '^pg_temp_' ");
ht.put("NOSCHEMAS", "c.relkind IN ('r','p') AND c.relname ~ '^pg_temp_' ");
ht = new HashMap();
tableTypeClauses.put("TEMPORARY INDEX", ht);
ht.put("SCHEMAS", "c.relkind = 'i' AND n.nspname ~ '^pg_temp_' ");
ht.put("NOSCHEMAS", "c.relkind = 'i' AND c.relname ~ '^pg_temp_' ");
ht = new HashMap();
tableTypeClauses.put("TEMPORARY VIEW", ht);
ht.put("SCHEMAS", "c.relkind = 'v' AND n.nspname ~ '^pg_temp_' ");
ht.put("NOSCHEMAS", "c.relkind = 'v' AND c.relname ~ '^pg_temp_' ");
ht = new HashMap();
tableTypeClauses.put("TEMPORARY SEQUENCE", ht);
ht.put("SCHEMAS", "c.relkind = 'S' AND n.nspname ~ '^pg_temp_' ");
ht.put("NOSCHEMAS", "c.relkind = 'S' AND c.relname ~ '^pg_temp_' ");
ht = new HashMap();
tableTypeClauses.put("FOREIGN TABLE", ht);
ht.put("SCHEMAS", "c.relkind = 'f'");
ht.put("NOSCHEMAS", "c.relkind = 'f'");
ht = new HashMap();
tableTypeClauses.put("MATERIALIZED VIEW", ht);
ht.put("SCHEMAS", "c.relkind = 'm'");
ht.put("NOSCHEMAS", "c.relkind = 'm'");
}
@Override
public ResultSet getSchemas() throws SQLException {
return getSchemas(null, null);
}
@Override
public ResultSet getSchemas(String catalog, String schemaPattern) throws SQLException {
String sql;
sql = "SELECT nspname AS TABLE_SCHEM, NULL AS TABLE_CATALOG FROM pg_catalog.pg_namespace "
+ " WHERE nspname <> 'pg_toast' AND (nspname !~ '^pg_temp_' "
+ " OR nspname = (pg_catalog.current_schemas(true))[1]) AND (nspname !~ '^pg_toast_temp_' "
+ " OR nspname = replace((pg_catalog.current_schemas(true))[1], 'pg_temp_', 'pg_toast_temp_')) ";
if (schemaPattern != null && !schemaPattern.isEmpty()) {
sql += " AND nspname LIKE " + escapeQuotes(schemaPattern);
}
sql += " ORDER BY TABLE_SCHEM";
return createMetaDataStatement().executeQuery(sql);
}
/**
* PostgreSQL does not support multiple catalogs from a single connection, so to reduce confusion
* we only return the current catalog. {@inheritDoc}
*/
@Override
public ResultSet getCatalogs() throws SQLException {
Field[] f = new Field[1];
List v = new ArrayList();
f[0] = new Field("TABLE_CAT", Oid.VARCHAR);
byte[][] tuple = new byte[1][];
tuple[0] = connection.encodeString(connection.getCatalog());
v.add(tuple);
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
@Override
public ResultSet getTableTypes() throws SQLException {
String[] types = tableTypeClauses.keySet().toArray(new String[0]);
Arrays.sort(types);
Field[] f = new Field[1];
List v = new ArrayList();
f[0] = new Field("TABLE_TYPE", Oid.VARCHAR);
for (String type : types) {
byte[][] tuple = new byte[1][];
tuple[0] = connection.encodeString(type);
v.add(tuple);
}
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
public ResultSet getColumns(String catalog, String schemaPattern, String tableNamePattern,
String columnNamePattern) throws SQLException {
int numberOfFields = 23; // JDBC4
List v = new ArrayList(); // The new ResultSet tuple stuff
Field[] f = new Field[numberOfFields]; // The field descriptors for the new ResultSet
f[0] = new Field("TABLE_CAT", Oid.VARCHAR);
f[1] = new Field("TABLE_SCHEM", Oid.VARCHAR);
f[2] = new Field("TABLE_NAME", Oid.VARCHAR);
f[3] = new Field("COLUMN_NAME", Oid.VARCHAR);
f[4] = new Field("DATA_TYPE", Oid.INT2);
f[5] = new Field("TYPE_NAME", Oid.VARCHAR);
f[6] = new Field("COLUMN_SIZE", Oid.INT4);
f[7] = new Field("BUFFER_LENGTH", Oid.VARCHAR);
f[8] = new Field("DECIMAL_DIGITS", Oid.INT4);
f[9] = new Field("NUM_PREC_RADIX", Oid.INT4);
f[10] = new Field("NULLABLE", Oid.INT4);
f[11] = new Field("REMARKS", Oid.VARCHAR);
f[12] = new Field("COLUMN_DEF", Oid.VARCHAR);
f[13] = new Field("SQL_DATA_TYPE", Oid.INT4);
f[14] = new Field("SQL_DATETIME_SUB", Oid.INT4);
f[15] = new Field("CHAR_OCTET_LENGTH", Oid.VARCHAR);
f[16] = new Field("ORDINAL_POSITION", Oid.INT4);
f[17] = new Field("IS_NULLABLE", Oid.VARCHAR);
f[18] = new Field("SCOPE_CATLOG", Oid.VARCHAR);
f[19] = new Field("SCOPE_SCHEMA", Oid.VARCHAR);
f[20] = new Field("SCOPE_TABLE", Oid.VARCHAR);
f[21] = new Field("SOURCE_DATA_TYPE", Oid.INT2);
f[22] = new Field("IS_AUTOINCREMENT", Oid.VARCHAR);
String sql;
// a.attnum isn't decremented when preceding columns are dropped,
// so the only way to calculate the correct column number is with
// window functions, new in 8.4.
//
// We want to push as much predicate information below the window
// function as possible (schema/table names), but must leave
// column name outside so we correctly count the other columns.
//
if (connection.haveMinimumServerVersion(ServerVersion.v8_4)) {
sql = "SELECT * FROM (";
} else {
sql = "";
}
sql += "SELECT n.nspname,c.relname,a.attname,a.atttypid,a.attnotnull "
+ "OR (t.typtype = 'd' AND t.typnotnull) AS attnotnull,a.atttypmod,a.attlen,";
if (connection.haveMinimumServerVersion(ServerVersion.v8_4)) {
sql += "row_number() OVER (PARTITION BY a.attrelid ORDER BY a.attnum) AS attnum, ";
} else {
sql += "a.attnum,";
}
if (connection.haveMinimumServerVersion(ServerVersion.v10)) {
sql += "nullif(a.attidentity, '') as attidentity,";
} else {
sql += "null as attidentity,";
}
sql += "pg_catalog.pg_get_expr(def.adbin, def.adrelid) AS adsrc,dsc.description,t.typbasetype,t.typtype "
+ " FROM pg_catalog.pg_namespace n "
+ " JOIN pg_catalog.pg_class c ON (c.relnamespace = n.oid) "
+ " JOIN pg_catalog.pg_attribute a ON (a.attrelid=c.oid) "
+ " JOIN pg_catalog.pg_type t ON (a.atttypid = t.oid) "
+ " LEFT JOIN pg_catalog.pg_attrdef def ON (a.attrelid=def.adrelid AND a.attnum = def.adnum) "
+ " LEFT JOIN pg_catalog.pg_description dsc ON (c.oid=dsc.objoid AND a.attnum = dsc.objsubid) "
+ " LEFT JOIN pg_catalog.pg_class dc ON (dc.oid=dsc.classoid AND dc.relname='pg_class') "
+ " LEFT JOIN pg_catalog.pg_namespace dn ON (dc.relnamespace=dn.oid AND dn.nspname='pg_catalog') "
+ " WHERE c.relkind in ('r','p','v','f','m') and a.attnum > 0 AND NOT a.attisdropped ";
if (schemaPattern != null && !schemaPattern.isEmpty()) {
sql += " AND n.nspname LIKE " + escapeQuotes(schemaPattern);
}
if (tableNamePattern != null && !tableNamePattern.isEmpty()) {
sql += " AND c.relname LIKE " + escapeQuotes(tableNamePattern);
}
if (connection.haveMinimumServerVersion(ServerVersion.v8_4)) {
sql += ") c WHERE true ";
}
if (columnNamePattern != null && !columnNamePattern.isEmpty()) {
sql += " AND attname LIKE " + escapeQuotes(columnNamePattern);
}
sql += " ORDER BY nspname,c.relname,attnum ";
Statement stmt = connection.createStatement();
ResultSet rs = stmt.executeQuery(sql);
while (rs.next()) {
byte[][] tuple = new byte[numberOfFields][];
int typeOid = (int) rs.getLong("atttypid");
int typeMod = rs.getInt("atttypmod");
tuple[0] = null; // Catalog name, not supported
tuple[1] = rs.getBytes("nspname"); // Schema
tuple[2] = rs.getBytes("relname"); // Table name
tuple[3] = rs.getBytes("attname"); // Column name
String typtype = rs.getString("typtype");
int sqlType;
if ("c".equals(typtype)) {
sqlType = Types.STRUCT;
} else if ("d".equals(typtype)) {
sqlType = Types.DISTINCT;
} else if ("e".equals(typtype)) {
sqlType = Types.VARCHAR;
} else {
sqlType = connection.getTypeInfo().getSQLType(typeOid);
}
tuple[4] = connection.encodeString(Integer.toString(sqlType));
String pgType = connection.getTypeInfo().getPGType(typeOid);
tuple[5] = connection.encodeString(pgType); // Type name
tuple[7] = null; // Buffer length
String defval = rs.getString("adsrc");
if (defval != null) {
if (pgType.equals("int4")) {
if (defval.contains("nextval(")) {
tuple[5] = connection.encodeString("serial"); // Type name == serial
}
} else if (pgType.equals("int8")) {
if (defval.contains("nextval(")) {
tuple[5] = connection.encodeString("bigserial"); // Type name == bigserial
}
}
}
String identity = rs.getString("attidentity");
int decimalDigits = connection.getTypeInfo().getScale(typeOid, typeMod);
int columnSize = connection.getTypeInfo().getPrecision(typeOid, typeMod);
if (columnSize == 0) {
columnSize = connection.getTypeInfo().getDisplaySize(typeOid, typeMod);
}
tuple[6] = connection.encodeString(Integer.toString(columnSize));
tuple[8] = connection.encodeString(Integer.toString(decimalDigits));
// Everything is base 10 unless we override later.
tuple[9] = connection.encodeString("10");
if (pgType.equals("bit") || pgType.equals("varbit")) {
tuple[9] = connection.encodeString("2");
}
tuple[10] = connection.encodeString(Integer.toString(rs.getBoolean("attnotnull")
? java.sql.DatabaseMetaData.columnNoNulls : java.sql.DatabaseMetaData.columnNullable)); // Nullable
tuple[11] = rs.getBytes("description"); // Description (if any)
tuple[12] = rs.getBytes("adsrc"); // 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] = connection.encodeString(String.valueOf(rs.getInt("attnum"))); // ordinal position
// Is nullable
tuple[17] = connection.encodeString(rs.getBoolean("attnotnull") ? "NO" : "YES");
int baseTypeOid = (int) rs.getLong("typbasetype");
tuple[18] = null; // SCOPE_CATLOG
tuple[19] = null; // SCOPE_SCHEMA
tuple[20] = null; // SCOPE_TABLE
tuple[21] = baseTypeOid == 0
? null
: connection.encodeString(Integer.toString(connection.getTypeInfo().getSQLType(baseTypeOid))); // SOURCE_DATA_TYPE
String autoinc = "NO";
if (defval != null && defval.contains("nextval(") || identity != null) {
autoinc = "YES";
}
tuple[22] = connection.encodeString(autoinc);
v.add(tuple);
}
rs.close();
stmt.close();
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
@Override
public ResultSet getColumnPrivileges(String catalog, String schema, String table,
String columnNamePattern) throws SQLException {
Field[] f = new Field[8];
List v = new ArrayList();
f[0] = new Field("TABLE_CAT", Oid.VARCHAR);
f[1] = new Field("TABLE_SCHEM", Oid.VARCHAR);
f[2] = new Field("TABLE_NAME", Oid.VARCHAR);
f[3] = new Field("COLUMN_NAME", Oid.VARCHAR);
f[4] = new Field("GRANTOR", Oid.VARCHAR);
f[5] = new Field("GRANTEE", Oid.VARCHAR);
f[6] = new Field("PRIVILEGE", Oid.VARCHAR);
f[7] = new Field("IS_GRANTABLE", Oid.VARCHAR);
String sql;
sql = "SELECT n.nspname,c.relname,r.rolname,c.relacl, "
+ (connection.haveMinimumServerVersion(ServerVersion.v8_4) ? "a.attacl, " : "")
+ " a.attname "
+ " FROM pg_catalog.pg_namespace n, pg_catalog.pg_class c, "
+ " pg_catalog.pg_roles r, pg_catalog.pg_attribute a "
+ " WHERE c.relnamespace = n.oid "
+ " AND c.relowner = r.oid "
+ " AND c.oid = a.attrelid "
+ " AND c.relkind = 'r' "
+ " AND a.attnum > 0 AND NOT a.attisdropped ";
if (schema != null && !schema.isEmpty()) {
sql += " AND n.nspname = " + escapeQuotes(schema);
}
if (table != null && !table.isEmpty()) {
sql += " AND c.relname = " + escapeQuotes(table);
}
if (columnNamePattern != null && !columnNamePattern.isEmpty()) {
sql += " AND a.attname LIKE " + escapeQuotes(columnNamePattern);
}
sql += " ORDER BY attname ";
Statement stmt = connection.createStatement();
ResultSet rs = stmt.executeQuery(sql);
while (rs.next()) {
byte[] schemaName = rs.getBytes("nspname");
byte[] tableName = rs.getBytes("relname");
byte[] column = rs.getBytes("attname");
String owner = rs.getString("rolname");
String relAcl = rs.getString("relacl");
// For instance: SELECT -> user1 -> list of [grantor, grantable]
Map>> permissions = parseACL(relAcl, owner);
if (connection.haveMinimumServerVersion(ServerVersion.v8_4)) {
String acl = rs.getString("attacl");
Map>> relPermissions = parseACL(acl, owner);
permissions.putAll(relPermissions);
}
String[] permNames = permissions.keySet().toArray(new String[0]);
Arrays.sort(permNames);
for (String permName : permNames) {
byte[] privilege = connection.encodeString(permName);
Map> grantees = permissions.get(permName);
for (Map.Entry> userToGrantable : grantees.entrySet()) {
List grantor = userToGrantable.getValue();
String grantee = userToGrantable.getKey();
for (String[] grants : grantor) {
String grantable = owner.equals(grantee) ? "YES" : grants[1];
byte[][] tuple = new byte[8][];
tuple[0] = null;
tuple[1] = schemaName;
tuple[2] = tableName;
tuple[3] = column;
tuple[4] = connection.encodeString(grants[0]);
tuple[5] = connection.encodeString(grantee);
tuple[6] = privilege;
tuple[7] = connection.encodeString(grantable);
v.add(tuple);
}
}
}
}
rs.close();
stmt.close();
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
@Override
public ResultSet getTablePrivileges(String catalog, String schemaPattern,
String tableNamePattern) throws SQLException {
Field[] f = new Field[7];
List v = new ArrayList();
f[0] = new Field("TABLE_CAT", Oid.VARCHAR);
f[1] = new Field("TABLE_SCHEM", Oid.VARCHAR);
f[2] = new Field("TABLE_NAME", Oid.VARCHAR);
f[3] = new Field("GRANTOR", Oid.VARCHAR);
f[4] = new Field("GRANTEE", Oid.VARCHAR);
f[5] = new Field("PRIVILEGE", Oid.VARCHAR);
f[6] = new Field("IS_GRANTABLE", Oid.VARCHAR);
String sql;
sql = "SELECT n.nspname,c.relname,r.rolname,c.relacl "
+ " FROM pg_catalog.pg_namespace n, pg_catalog.pg_class c, pg_catalog.pg_roles r "
+ " WHERE c.relnamespace = n.oid "
+ " AND c.relowner = r.oid "
+ " AND c.relkind IN ('r','p') ";
if (schemaPattern != null && !schemaPattern.isEmpty()) {
sql += " AND n.nspname LIKE " + escapeQuotes(schemaPattern);
}
if (tableNamePattern != null && !tableNamePattern.isEmpty()) {
sql += " AND c.relname LIKE " + escapeQuotes(tableNamePattern);
}
sql += " ORDER BY nspname, relname ";
Statement stmt = connection.createStatement();
ResultSet rs = stmt.executeQuery(sql);
while (rs.next()) {
byte[] schema = rs.getBytes("nspname");
byte[] table = rs.getBytes("relname");
String owner = rs.getString("rolname");
String acl = rs.getString("relacl");
Map>> permissions = parseACL(acl, owner);
String[] permNames = permissions.keySet().toArray(new String[0]);
Arrays.sort(permNames);
for (String permName : permNames) {
byte[] privilege = connection.encodeString(permName);
Map> grantees = permissions.get(permName);
for (Map.Entry> userToGrantable : grantees.entrySet()) {
List grants = userToGrantable.getValue();
String granteeUser = userToGrantable.getKey();
for (String[] grantTuple : grants) {
// report the owner as grantor if it's missing
String grantor = grantTuple[0] == null ? owner : grantTuple[0];
// owner always has grant privileges
String grantable = owner.equals(granteeUser) ? "YES" : grantTuple[1];
byte[][] tuple = new byte[7][];
tuple[0] = null;
tuple[1] = schema;
tuple[2] = table;
tuple[3] = connection.encodeString(grantor);
tuple[4] = connection.encodeString(granteeUser);
tuple[5] = privilege;
tuple[6] = connection.encodeString(grantable);
v.add(tuple);
}
}
}
}
rs.close();
stmt.close();
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
/**
* Parse an String of ACLs into a List of ACLs.
*/
private static List parseACLArray(String aclString) {
List acls = new ArrayList();
if (aclString == null || aclString.isEmpty()) {
return acls;
}
boolean inQuotes = false;
// start at 1 because of leading "{"
int beginIndex = 1;
char prevChar = ' ';
for (int i = beginIndex; i < aclString.length(); i++) {
char c = aclString.charAt(i);
if (c == '"' && prevChar != '\\') {
inQuotes = !inQuotes;
} else if (c == ',' && !inQuotes) {
acls.add(aclString.substring(beginIndex, i));
beginIndex = i + 1;
}
prevChar = c;
}
// add last element removing the trailing "}"
acls.add(aclString.substring(beginIndex, aclString.length() - 1));
// Strip out enclosing quotes, if any.
for (int i = 0; i < acls.size(); i++) {
String acl = acls.get(i);
if (acl.startsWith("\"") && acl.endsWith("\"")) {
acl = acl.substring(1, acl.length() - 1);
acls.set(i, acl);
}
}
return acls;
}
/**
* Add the user described by the given acl to the Lists of users with the privileges described by
* the acl.
*/
private static void addACLPrivileges(String acl, Map>> privileges) {
int equalIndex = acl.lastIndexOf("=");
int slashIndex = acl.lastIndexOf("/");
if (equalIndex == -1) {
return;
}
String user = acl.substring(0, equalIndex);
String grantor = null;
if (user.isEmpty()) {
user = "PUBLIC";
}
String privs;
if (slashIndex != -1) {
privs = acl.substring(equalIndex + 1, slashIndex);
grantor = acl.substring(slashIndex + 1, acl.length());
} else {
privs = acl.substring(equalIndex + 1, acl.length());
}
for (int i = 0; i < privs.length(); i++) {
char c = privs.charAt(i);
if (c != '*') {
String sqlpriv;
String grantable;
if (i < privs.length() - 1 && privs.charAt(i + 1) == '*') {
grantable = "YES";
} else {
grantable = "NO";
}
switch (c) {
case 'a':
sqlpriv = "INSERT";
break;
case 'r':
case 'p':
sqlpriv = "SELECT";
break;
case 'w':
sqlpriv = "UPDATE";
break;
case 'd':
sqlpriv = "DELETE";
break;
case 'D':
sqlpriv = "TRUNCATE";
break;
case 'R':
sqlpriv = "RULE";
break;
case 'x':
sqlpriv = "REFERENCES";
break;
case 't':
sqlpriv = "TRIGGER";
break;
// the following can't be granted to a table, but
// we'll keep them for completeness.
case 'X':
sqlpriv = "EXECUTE";
break;
case 'U':
sqlpriv = "USAGE";
break;
case 'C':
sqlpriv = "CREATE";
break;
case 'T':
sqlpriv = "CREATE TEMP";
break;
default:
sqlpriv = "UNKNOWN";
}
Map> usersWithPermission = privileges.get(sqlpriv);
String[] grant = {grantor, grantable};
if (usersWithPermission == null) {
usersWithPermission = new HashMap>();
List permissionByGrantor = new ArrayList();
permissionByGrantor.add(grant);
usersWithPermission.put(user, permissionByGrantor);
privileges.put(sqlpriv, usersWithPermission);
} else {
List permissionByGrantor = usersWithPermission.get(user);
if (permissionByGrantor == null) {
permissionByGrantor = new ArrayList();
permissionByGrantor.add(grant);
usersWithPermission.put(user, permissionByGrantor);
} else {
permissionByGrantor.add(grant);
}
}
}
}
}
/**
* Take the a String representing an array of ACLs and return a Map mapping the SQL permission
* name to a List of usernames who have that permission.
* For instance: {@code SELECT -> user1 -> list of [grantor, grantable]}
*
* @param aclArray ACL array
* @param owner owner
* @return a Map mapping the SQL permission name
*/
public Map>> parseACL(String aclArray, String owner) {
if (aclArray == null) {
// arwdxt -- 8.2 Removed the separate RULE permission
// arwdDxt -- 8.4 Added a separate TRUNCATE permission
String perms = connection.haveMinimumServerVersion(ServerVersion.v8_4) ? "arwdDxt" : "arwdxt";
aclArray = "{" + owner + "=" + perms + "/" + owner + "}";
}
List acls = parseACLArray(aclArray);
Map>> privileges =
new HashMap>>();
for (String acl : acls) {
addACLPrivileges(acl, privileges);
}
return privileges;
}
public ResultSet getBestRowIdentifier(String catalog, String schema, String table,
int scope, boolean nullable) throws SQLException {
Field[] f = new Field[8];
List v = new ArrayList(); // The new ResultSet tuple stuff
f[0] = new Field("SCOPE", Oid.INT2);
f[1] = new Field("COLUMN_NAME", Oid.VARCHAR);
f[2] = new Field("DATA_TYPE", Oid.INT2);
f[3] = new Field("TYPE_NAME", Oid.VARCHAR);
f[4] = new Field("COLUMN_SIZE", Oid.INT4);
f[5] = new Field("BUFFER_LENGTH", Oid.INT4);
f[6] = new Field("DECIMAL_DIGITS", Oid.INT2);
f[7] = new Field("PSEUDO_COLUMN", Oid.INT2);
/*
* At the moment this simply returns a table's primary key, if there is one. I believe other
* unique indexes, ctid, and oid should also be considered. -KJ
*/
String sql;
sql = "SELECT a.attname, a.atttypid, atttypmod "
+ "FROM pg_catalog.pg_class ct "
+ " JOIN pg_catalog.pg_attribute a ON (ct.oid = a.attrelid) "
+ " JOIN pg_catalog.pg_namespace n ON (ct.relnamespace = n.oid) "
+ " JOIN (SELECT i.indexrelid, i.indrelid, i.indisprimary, "
+ " information_schema._pg_expandarray(i.indkey) AS keys "
+ " FROM pg_catalog.pg_index i) i "
+ " ON (a.attnum = (i.keys).x AND a.attrelid = i.indrelid) "
+ "WHERE true ";
if (schema != null && !schema.isEmpty()) {
sql += " AND n.nspname = " + escapeQuotes(schema);
}
sql += " AND ct.relname = " + escapeQuotes(table)
+ " AND i.indisprimary "
+ " ORDER BY a.attnum ";
Statement stmt = connection.createStatement();
ResultSet rs = stmt.executeQuery(sql);
while (rs.next()) {
byte[][] tuple = new byte[8][];
int typeOid = (int) rs.getLong("atttypid");
int typeMod = rs.getInt("atttypmod");
int decimalDigits = connection.getTypeInfo().getScale(typeOid, typeMod);
int columnSize = connection.getTypeInfo().getPrecision(typeOid, typeMod);
if (columnSize == 0) {
columnSize = connection.getTypeInfo().getDisplaySize(typeOid, typeMod);
}
tuple[0] = connection.encodeString(Integer.toString(scope));
tuple[1] = rs.getBytes("attname");
tuple[2] =
connection.encodeString(Integer.toString(connection.getTypeInfo().getSQLType(typeOid)));
tuple[3] = connection.encodeString(connection.getTypeInfo().getPGType(typeOid));
tuple[4] = connection.encodeString(Integer.toString(columnSize));
tuple[5] = null; // unused
tuple[6] = connection.encodeString(Integer.toString(decimalDigits));
tuple[7] =
connection.encodeString(Integer.toString(java.sql.DatabaseMetaData.bestRowNotPseudo));
v.add(tuple);
}
rs.close();
stmt.close();
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
public ResultSet getVersionColumns(String catalog, String schema, String table)
throws SQLException {
Field[] f = new Field[8];
List v = new ArrayList(); // The new ResultSet tuple stuff
f[0] = new Field("SCOPE", Oid.INT2);
f[1] = new Field("COLUMN_NAME", Oid.VARCHAR);
f[2] = new Field("DATA_TYPE", Oid.INT2);
f[3] = new Field("TYPE_NAME", Oid.VARCHAR);
f[4] = new Field("COLUMN_SIZE", Oid.INT4);
f[5] = new Field("BUFFER_LENGTH", Oid.INT4);
f[6] = new Field("DECIMAL_DIGITS", Oid.INT2);
f[7] = new Field("PSEUDO_COLUMN", Oid.INT2);
byte[][] tuple = new byte[8][];
/*
* Postgresql does not have any column types that are automatically updated like some databases'
* timestamp type. We can't tell what rules or triggers might be doing, so we are left with the
* system columns that change on an update. An update may change all of the following system
* columns: ctid, xmax, xmin, cmax, and cmin. Depending on if we are in a transaction and
* whether we roll it back or not the only guaranteed change is to ctid. -KJ
*/
tuple[0] = null;
tuple[1] = connection.encodeString("ctid");
tuple[2] =
connection.encodeString(Integer.toString(connection.getTypeInfo().getSQLType("tid")));
tuple[3] = connection.encodeString("tid");
tuple[4] = null;
tuple[5] = null;
tuple[6] = null;
tuple[7] =
connection.encodeString(Integer.toString(java.sql.DatabaseMetaData.versionColumnPseudo));
v.add(tuple);
/*
* Perhaps we should check that the given catalog.schema.table actually exists. -KJ
*/
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
public ResultSet getPrimaryKeys(String catalog, String schema, String table)
throws SQLException {
String sql;
sql = "SELECT NULL AS TABLE_CAT, n.nspname AS TABLE_SCHEM, "
+ " ct.relname AS TABLE_NAME, a.attname AS COLUMN_NAME, "
+ " (i.keys).n AS KEY_SEQ, ci.relname AS PK_NAME "
+ "FROM pg_catalog.pg_class ct "
+ " JOIN pg_catalog.pg_attribute a ON (ct.oid = a.attrelid) "
+ " JOIN pg_catalog.pg_namespace n ON (ct.relnamespace = n.oid) "
+ " JOIN (SELECT i.indexrelid, i.indrelid, i.indisprimary, "
+ " information_schema._pg_expandarray(i.indkey) AS keys "
+ " FROM pg_catalog.pg_index i) i "
+ " ON (a.attnum = (i.keys).x AND a.attrelid = i.indrelid) "
+ " JOIN pg_catalog.pg_class ci ON (ci.oid = i.indexrelid) "
+ "WHERE true ";
if (schema != null && !schema.isEmpty()) {
sql += " AND n.nspname = " + escapeQuotes(schema);
}
if (table != null && !table.isEmpty()) {
sql += " AND ct.relname = " + escapeQuotes(table);
}
sql += " AND i.indisprimary "
+ " ORDER BY table_name, pk_name, key_seq";
return createMetaDataStatement().executeQuery(sql);
}
/**
* @param primaryCatalog primary catalog
* @param primarySchema primary schema
* @param primaryTable if provided will get the keys exported by this table
* @param foreignCatalog foreign catalog
* @param foreignSchema foreign schema
* @param foreignTable if provided will get the keys imported by this table
* @return ResultSet
* @throws SQLException if something wrong happens
*/
protected ResultSet getImportedExportedKeys(String primaryCatalog, String primarySchema,
String primaryTable, String foreignCatalog, String foreignSchema, String foreignTable)
throws SQLException {
/*
* The addition of the pg_constraint in 7.3 table should have really helped us out here, but it
* comes up just a bit short. - The conkey, confkey columns aren't really useful without
* contrib/array unless we want to issues separate queries. - Unique indexes that can support
* foreign keys are not necessarily added to pg_constraint. Also multiple unique indexes
* covering the same keys can be created which make it difficult to determine the PK_NAME field.
*/
String sql =
"SELECT NULL::text AS PKTABLE_CAT, pkn.nspname AS PKTABLE_SCHEM, pkc.relname AS PKTABLE_NAME, pka.attname AS PKCOLUMN_NAME, "
+ "NULL::text AS FKTABLE_CAT, fkn.nspname AS FKTABLE_SCHEM, fkc.relname AS FKTABLE_NAME, fka.attname AS FKCOLUMN_NAME, "
+ "pos.n AS KEY_SEQ, "
+ "CASE con.confupdtype "
+ " WHEN 'c' THEN " + DatabaseMetaData.importedKeyCascade
+ " WHEN 'n' THEN " + DatabaseMetaData.importedKeySetNull
+ " WHEN 'd' THEN " + DatabaseMetaData.importedKeySetDefault
+ " WHEN 'r' THEN " + DatabaseMetaData.importedKeyRestrict
+ " WHEN 'p' THEN " + DatabaseMetaData.importedKeyRestrict
+ " WHEN 'a' THEN " + DatabaseMetaData.importedKeyNoAction
+ " ELSE NULL END AS UPDATE_RULE, "
+ "CASE con.confdeltype "
+ " WHEN 'c' THEN " + DatabaseMetaData.importedKeyCascade
+ " WHEN 'n' THEN " + DatabaseMetaData.importedKeySetNull
+ " WHEN 'd' THEN " + DatabaseMetaData.importedKeySetDefault
+ " WHEN 'r' THEN " + DatabaseMetaData.importedKeyRestrict
+ " WHEN 'p' THEN " + DatabaseMetaData.importedKeyRestrict
+ " WHEN 'a' THEN " + DatabaseMetaData.importedKeyNoAction
+ " ELSE NULL END AS DELETE_RULE, "
+ "con.conname AS FK_NAME, pkic.relname AS PK_NAME, "
+ "CASE "
+ " WHEN con.condeferrable AND con.condeferred THEN "
+ DatabaseMetaData.importedKeyInitiallyDeferred
+ " WHEN con.condeferrable THEN " + DatabaseMetaData.importedKeyInitiallyImmediate
+ " ELSE " + DatabaseMetaData.importedKeyNotDeferrable
+ " END AS DEFERRABILITY "
+ " FROM "
+ " pg_catalog.pg_namespace pkn, pg_catalog.pg_class pkc, pg_catalog.pg_attribute pka, "
+ " pg_catalog.pg_namespace fkn, pg_catalog.pg_class fkc, pg_catalog.pg_attribute fka, "
+ " pg_catalog.pg_constraint con, "
+ " pg_catalog.generate_series(1, " + getMaxIndexKeys() + ") pos(n), "
+ " pg_catalog.pg_class pkic";
// Starting in Postgres 9.0, pg_constraint was augmented with the conindid column, which
// contains the oid of the index supporting the constraint. This makes it unnecessary to do a
// further join on pg_depend.
if (!connection.haveMinimumServerVersion(ServerVersion.v9_0)) {
sql += ", pg_catalog.pg_depend dep ";
}
sql +=
" WHERE pkn.oid = pkc.relnamespace AND pkc.oid = pka.attrelid AND pka.attnum = con.confkey[pos.n] AND con.confrelid = pkc.oid "
+ " AND fkn.oid = fkc.relnamespace AND fkc.oid = fka.attrelid AND fka.attnum = con.conkey[pos.n] AND con.conrelid = fkc.oid "
+ " AND con.contype = 'f' AND pkic.relkind = 'i' ";
if (!connection.haveMinimumServerVersion(ServerVersion.v9_0)) {
sql += " AND con.oid = dep.objid AND pkic.oid = dep.refobjid AND dep.classid = 'pg_constraint'::regclass::oid AND dep.refclassid = 'pg_class'::regclass::oid ";
} else {
sql += " AND pkic.oid = con.conindid ";
}
if (primarySchema != null && !primarySchema.isEmpty()) {
sql += " AND pkn.nspname = " + escapeQuotes(primarySchema);
}
if (foreignSchema != null && !foreignSchema.isEmpty()) {
sql += " AND fkn.nspname = " + escapeQuotes(foreignSchema);
}
if (primaryTable != null && !primaryTable.isEmpty()) {
sql += " AND pkc.relname = " + escapeQuotes(primaryTable);
}
if (foreignTable != null && !foreignTable.isEmpty()) {
sql += " AND fkc.relname = " + escapeQuotes(foreignTable);
}
if (primaryTable != null) {
sql += " ORDER BY fkn.nspname,fkc.relname,con.conname,pos.n";
} else {
sql += " ORDER BY pkn.nspname,pkc.relname, con.conname,pos.n";
}
return createMetaDataStatement().executeQuery(sql);
}
public ResultSet getImportedKeys(String catalog, String schema, String table)
throws SQLException {
return getImportedExportedKeys(null, null, null, catalog, schema, table);
}
public ResultSet getExportedKeys(String catalog, String schema, String table)
throws SQLException {
return getImportedExportedKeys(catalog, schema, table, null, null, null);
}
public ResultSet getCrossReference(String primaryCatalog, String primarySchema,
String primaryTable, String foreignCatalog, String foreignSchema, String foreignTable)
throws SQLException {
return getImportedExportedKeys(primaryCatalog, primarySchema, primaryTable, foreignCatalog,
foreignSchema, foreignTable);
}
public ResultSet getTypeInfo() throws SQLException {
Field[] f = new Field[18];
List v = new ArrayList(); // The new ResultSet tuple stuff
f[0] = new Field("TYPE_NAME", Oid.VARCHAR);
f[1] = new Field("DATA_TYPE", Oid.INT2);
f[2] = new Field("PRECISION", Oid.INT4);
f[3] = new Field("LITERAL_PREFIX", Oid.VARCHAR);
f[4] = new Field("LITERAL_SUFFIX", Oid.VARCHAR);
f[5] = new Field("CREATE_PARAMS", Oid.VARCHAR);
f[6] = new Field("NULLABLE", Oid.INT2);
f[7] = new Field("CASE_SENSITIVE", Oid.BOOL);
f[8] = new Field("SEARCHABLE", Oid.INT2);
f[9] = new Field("UNSIGNED_ATTRIBUTE", Oid.BOOL);
f[10] = new Field("FIXED_PREC_SCALE", Oid.BOOL);
f[11] = new Field("AUTO_INCREMENT", Oid.BOOL);
f[12] = new Field("LOCAL_TYPE_NAME", Oid.VARCHAR);
f[13] = new Field("MINIMUM_SCALE", Oid.INT2);
f[14] = new Field("MAXIMUM_SCALE", Oid.INT2);
f[15] = new Field("SQL_DATA_TYPE", Oid.INT4);
f[16] = new Field("SQL_DATETIME_SUB", Oid.INT4);
f[17] = new Field("NUM_PREC_RADIX", Oid.INT4);
String sql;
sql = "SELECT t.typname,t.oid FROM pg_catalog.pg_type t"
+ " JOIN pg_catalog.pg_namespace n ON (t.typnamespace = n.oid) "
+ " WHERE n.nspname != 'pg_toast'";
Statement stmt = connection.createStatement();
ResultSet rs = stmt.executeQuery(sql);
// cache some results, this will keep memory usage down, and speed
// things up a little.
byte[] bZero = connection.encodeString("0");
byte[] b10 = connection.encodeString("10");
byte[] bf = connection.encodeString("f");
byte[] bt = connection.encodeString("t");
byte[] bliteral = connection.encodeString("'");
byte[] bNullable =
connection.encodeString(Integer.toString(java.sql.DatabaseMetaData.typeNullable));
byte[] bSearchable =
connection.encodeString(Integer.toString(java.sql.DatabaseMetaData.typeSearchable));
while (rs.next()) {
byte[][] tuple = new byte[18][];
String typname = rs.getString(1);
int typeOid = (int) rs.getLong(2);
tuple[0] = connection.encodeString(typname);
int sqlType = connection.getTypeInfo().getSQLType(typname);
tuple[1] =
connection.encodeString(Integer.toString(sqlType));
tuple[2] = connection
.encodeString(Integer.toString(connection.getTypeInfo().getMaximumPrecision(typeOid)));
// Using requiresQuoting(oid) would might trigger select statements that might fail with NPE
// if oid in question is being dropped.
// requiresQuotingSqlType is not bulletproof, however, it solves the most visible NPE.
if (connection.getTypeInfo().requiresQuotingSqlType(sqlType)) {
tuple[3] = bliteral;
tuple[4] = bliteral;
}
tuple[6] = bNullable; // all types can be null
tuple[7] = connection.getTypeInfo().isCaseSensitive(typeOid) ? bt : bf;
tuple[8] = bSearchable; // any thing can be used in the WHERE clause
tuple[9] = connection.getTypeInfo().isSigned(typeOid) ? bf : bt;
tuple[10] = bf; // false for now - must handle money
tuple[11] = bf; // false - it isn't autoincrement
tuple[13] = bZero; // min scale is zero
// only numeric can supports a scale.
tuple[14] = (typeOid == Oid.NUMERIC) ? connection.encodeString("1000") : bZero;
// 12 - LOCAL_TYPE_NAME is null
// 15 & 16 are unused so we return null
tuple[17] = b10; // everything is base 10
v.add(tuple);
// add pseudo-type serial, bigserial
if (typname.equals("int4")) {
byte[][] tuple1 = tuple.clone();
tuple1[0] = connection.encodeString("serial");
tuple1[11] = bt;
v.add(tuple1);
} else if (typname.equals("int8")) {
byte[][] tuple1 = tuple.clone();
tuple1[0] = connection.encodeString("bigserial");
tuple1[11] = bt;
v.add(tuple1);
}
}
rs.close();
stmt.close();
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
public ResultSet getIndexInfo(String catalog, String schema, String tableName,
boolean unique, boolean approximate) throws SQLException {
/*
* This is a complicated function because we have three possible situations: <= 7.2 no schemas,
* single column functional index 7.3 schemas, single column functional index >= 7.4 schemas,
* multi-column expressional index >= 8.3 supports ASC/DESC column info >= 9.0 no longer renames
* index columns on a table column rename, so we must look at the table attribute names
*
* with the single column functional index we need an extra join to the table's pg_attribute
* data to get the column the function operates on.
*/
String sql;
if (connection.haveMinimumServerVersion(ServerVersion.v8_3)) {
sql = "SELECT NULL AS TABLE_CAT, n.nspname AS TABLE_SCHEM, "
+ " ct.relname AS TABLE_NAME, NOT i.indisunique AS NON_UNIQUE, "
+ " NULL AS INDEX_QUALIFIER, ci.relname AS INDEX_NAME, "
+ " CASE i.indisclustered "
+ " WHEN true THEN " + java.sql.DatabaseMetaData.tableIndexClustered
+ " ELSE CASE am.amname "
+ " WHEN 'hash' THEN " + java.sql.DatabaseMetaData.tableIndexHashed
+ " ELSE " + java.sql.DatabaseMetaData.tableIndexOther
+ " END "
+ " END AS TYPE, "
+ " (i.keys).n AS ORDINAL_POSITION, "
+ " trim(both '\"' from pg_catalog.pg_get_indexdef(ci.oid, (i.keys).n, false)) AS COLUMN_NAME, "
+ (connection.haveMinimumServerVersion(ServerVersion.v9_6)
? " CASE am.amname "
+ " WHEN 'btree' THEN CASE i.indoption[(i.keys).n - 1] & 1 "
+ " WHEN 1 THEN 'D' "
+ " ELSE 'A' "
+ " END "
+ " ELSE NULL "
+ " END AS ASC_OR_DESC, "
: " CASE am.amcanorder "
+ " WHEN true THEN CASE i.indoption[(i.keys).n - 1] & 1 "
+ " WHEN 1 THEN 'D' "
+ " ELSE 'A' "
+ " END "
+ " ELSE NULL "
+ " END AS ASC_OR_DESC, ")
+ " ci.reltuples AS CARDINALITY, "
+ " ci.relpages AS PAGES, "
+ " pg_catalog.pg_get_expr(i.indpred, i.indrelid) AS FILTER_CONDITION "
+ "FROM pg_catalog.pg_class ct "
+ " JOIN pg_catalog.pg_namespace n ON (ct.relnamespace = n.oid) "
+ " JOIN (SELECT i.indexrelid, i.indrelid, i.indoption, "
+ " i.indisunique, i.indisclustered, i.indpred, "
+ " i.indexprs, "
+ " information_schema._pg_expandarray(i.indkey) AS keys "
+ " FROM pg_catalog.pg_index i) i "
+ " ON (ct.oid = i.indrelid) "
+ " JOIN pg_catalog.pg_class ci ON (ci.oid = i.indexrelid) "
+ " JOIN pg_catalog.pg_am am ON (ci.relam = am.oid) "
+ "WHERE true ";
if (schema != null && !schema.isEmpty()) {
sql += " AND n.nspname = " + escapeQuotes(schema);
}
} else {
String select;
String from;
String where;
select = "SELECT NULL AS TABLE_CAT, n.nspname AS TABLE_SCHEM, ";
from = " FROM pg_catalog.pg_namespace n, pg_catalog.pg_class ct, pg_catalog.pg_class ci, "
+ " pg_catalog.pg_attribute a, pg_catalog.pg_am am ";
where = " AND n.oid = ct.relnamespace ";
from += ", pg_catalog.pg_index i ";
if (schema != null && !schema.isEmpty()) {
where += " AND n.nspname = " + escapeQuotes(schema);
}
sql = select
+ " ct.relname AS TABLE_NAME, NOT i.indisunique AS NON_UNIQUE, NULL AS INDEX_QUALIFIER, ci.relname AS INDEX_NAME, "
+ " CASE i.indisclustered "
+ " WHEN true THEN " + java.sql.DatabaseMetaData.tableIndexClustered
+ " ELSE CASE am.amname "
+ " WHEN 'hash' THEN " + java.sql.DatabaseMetaData.tableIndexHashed
+ " ELSE " + java.sql.DatabaseMetaData.tableIndexOther
+ " END "
+ " END AS TYPE, "
+ " a.attnum AS ORDINAL_POSITION, "
+ " CASE WHEN i.indexprs IS NULL THEN a.attname "
+ " ELSE pg_catalog.pg_get_indexdef(ci.oid,a.attnum,false) END AS COLUMN_NAME, "
+ " NULL AS ASC_OR_DESC, "
+ " ci.reltuples AS CARDINALITY, "
+ " ci.relpages AS PAGES, "
+ " pg_catalog.pg_get_expr(i.indpred, i.indrelid) AS FILTER_CONDITION "
+ from
+ " WHERE ct.oid=i.indrelid AND ci.oid=i.indexrelid AND a.attrelid=ci.oid AND ci.relam=am.oid "
+ where;
}
sql += " AND ct.relname = " + escapeQuotes(tableName);
if (unique) {
sql += " AND i.indisunique ";
}
sql += " ORDER BY NON_UNIQUE, TYPE, INDEX_NAME, ORDINAL_POSITION ";
return createMetaDataStatement().executeQuery(sql);
}
// ** JDBC 2 Extensions **
public boolean supportsResultSetType(int type) throws SQLException {
// The only type we don't support
return type != ResultSet.TYPE_SCROLL_SENSITIVE;
}
public boolean supportsResultSetConcurrency(int type, int concurrency) throws SQLException {
// These combinations are not supported!
if (type == ResultSet.TYPE_SCROLL_SENSITIVE) {
return false;
}
// We do support Updateable ResultSets
if (concurrency == ResultSet.CONCUR_UPDATABLE) {
return true;
}
// Everything else we do
return true;
}
/* lots of unsupported stuff... */
public boolean ownUpdatesAreVisible(int type) throws SQLException {
return true;
}
public boolean ownDeletesAreVisible(int type) throws SQLException {
return true;
}
public boolean ownInsertsAreVisible(int type) throws SQLException {
// indicates that
return true;
}
public boolean othersUpdatesAreVisible(int type) throws SQLException {
return false;
}
public boolean othersDeletesAreVisible(int i) throws SQLException {
return false;
}
public boolean othersInsertsAreVisible(int type) throws SQLException {
return false;
}
public boolean updatesAreDetected(int type) throws SQLException {
return false;
}
public boolean deletesAreDetected(int i) throws SQLException {
return false;
}
public boolean insertsAreDetected(int type) throws SQLException {
return false;
}
public boolean supportsBatchUpdates() throws SQLException {
return true;
}
public ResultSet getUDTs(String catalog, String schemaPattern, String typeNamePattern,
int[] types) throws SQLException {
String sql = "select "
+ "null as type_cat, n.nspname as type_schem, t.typname as type_name, null as class_name, "
+ "CASE WHEN t.typtype='c' then " + java.sql.Types.STRUCT + " else "
+ java.sql.Types.DISTINCT
+ " end as data_type, pg_catalog.obj_description(t.oid, 'pg_type') "
+ "as remarks, CASE WHEN t.typtype = 'd' then (select CASE";
StringBuilder sqlwhen = new StringBuilder();
for (Iterator i = connection.getTypeInfo().getPGTypeNamesWithSQLTypes(); i.hasNext(); ) {
String pgType = i.next();
int sqlType = connection.getTypeInfo().getSQLType(pgType);
sqlwhen.append(" when typname = ").append(escapeQuotes(pgType)).append(" then ").append(sqlType);
}
sql += sqlwhen.toString();
sql += " else " + java.sql.Types.OTHER + " end from pg_type where oid=t.typbasetype) "
+ "else null end as base_type "
+ "from pg_catalog.pg_type t, pg_catalog.pg_namespace n where t.typnamespace = n.oid and n.nspname != 'pg_catalog' and n.nspname != 'pg_toast'";
StringBuilder toAdd = new StringBuilder();
if (types != null) {
toAdd.append(" and (false ");
for (int type : types) {
switch (type) {
case Types.STRUCT:
toAdd.append(" or t.typtype = 'c'");
break;
case Types.DISTINCT:
toAdd.append(" or t.typtype = 'd'");
break;
}
}
toAdd.append(" ) ");
} else {
toAdd.append(" and t.typtype IN ('c','d') ");
}
// spec says that if typeNamePattern is a fully qualified name
// then the schema and catalog are ignored
if (typeNamePattern != null) {
// search for qualifier
int firstQualifier = typeNamePattern.indexOf('.');
int secondQualifier = typeNamePattern.lastIndexOf('.');
if (firstQualifier != -1) {
// if one of them is -1 they both will be
if (firstQualifier != secondQualifier) {
// we have a catalog.schema.typename, ignore catalog
schemaPattern = typeNamePattern.substring(firstQualifier + 1, secondQualifier);
} else {
// we just have a schema.typename
schemaPattern = typeNamePattern.substring(0, firstQualifier);
}
// strip out just the typeName
typeNamePattern = typeNamePattern.substring(secondQualifier + 1);
}
toAdd.append(" and t.typname like ").append(escapeQuotes(typeNamePattern));
}
// schemaPattern may have been modified above
if (schemaPattern != null) {
toAdd.append(" and n.nspname like ").append(escapeQuotes(schemaPattern));
}
sql += toAdd.toString();
sql += " order by data_type, type_schem, type_name";
return createMetaDataStatement().executeQuery(sql);
}
@Override
public Connection getConnection() throws SQLException {
return connection;
}
protected Statement createMetaDataStatement() throws SQLException {
return connection.createStatement(ResultSet.TYPE_SCROLL_INSENSITIVE,
ResultSet.CONCUR_READ_ONLY);
}
public long getMaxLogicalLobSize() throws SQLException {
return 0;
}
public boolean supportsRefCursors() throws SQLException {
return true;
}
@Override
public RowIdLifetime getRowIdLifetime() throws SQLException {
throw org.postgresql.Driver.notImplemented(this.getClass(), "getRowIdLifetime()");
}
@Override
public boolean supportsStoredFunctionsUsingCallSyntax() throws SQLException {
return true;
}
@Override
public boolean autoCommitFailureClosesAllResultSets() throws SQLException {
return false;
}
@Override
public ResultSet getClientInfoProperties() throws SQLException {
Field[] f = new Field[4];
f[0] = new Field("NAME", Oid.VARCHAR);
f[1] = new Field("MAX_LEN", Oid.INT4);
f[2] = new Field("DEFAULT_VALUE", Oid.VARCHAR);
f[3] = new Field("DESCRIPTION", Oid.VARCHAR);
List v = new ArrayList();
if (connection.haveMinimumServerVersion(ServerVersion.v9_0)) {
byte[][] tuple = new byte[4][];
tuple[0] = connection.encodeString("ApplicationName");
tuple[1] = connection.encodeString(Integer.toString(getMaxNameLength()));
tuple[2] = connection.encodeString("");
tuple[3] = connection
.encodeString("The name of the application currently utilizing the connection.");
v.add(tuple);
}
return ((BaseStatement) createMetaDataStatement()).createDriverResultSet(f, v);
}
public boolean isWrapperFor(Class iface) throws SQLException {
return iface.isAssignableFrom(getClass());
}
public T unwrap(Class iface) throws SQLException {
if (iface.isAssignableFrom(getClass())) {
return iface.cast(this);
}
throw new SQLException("Cannot unwrap to " + iface.getName());
}
public ResultSet getFunctions(String catalog, String schemaPattern, String functionNamePattern)
throws SQLException {
return getProcedures(catalog, schemaPattern, functionNamePattern);
}
public ResultSet getFunctionColumns(String catalog, String schemaPattern,
String functionNamePattern, String columnNamePattern)
throws SQLException {
return getProcedureColumns(catalog, schemaPattern, functionNamePattern, columnNamePattern);
}
public ResultSet getPseudoColumns(String catalog, String schemaPattern, String tableNamePattern,
String columnNamePattern) throws SQLException {
throw org.postgresql.Driver.notImplemented(this.getClass(),
"getPseudoColumns(String, String, String, String)");
}
public boolean generatedKeyAlwaysReturned() throws SQLException {
return true;
}
public boolean supportsSavepoints() throws SQLException {
return true;
}
public boolean supportsNamedParameters() throws SQLException {
return false;
}
public boolean supportsMultipleOpenResults() throws SQLException {
return false;
}
public boolean supportsGetGeneratedKeys() throws SQLException {
// We don't support returning generated keys by column index,
// but that should be a rarer case than the ones we do support.
//
return true;
}
public ResultSet getSuperTypes(String catalog, String schemaPattern, String typeNamePattern)
throws SQLException {
throw org.postgresql.Driver.notImplemented(this.getClass(),
"getSuperTypes(String,String,String)");
}
public ResultSet getSuperTables(String catalog, String schemaPattern, String tableNamePattern)
throws SQLException {
throw org.postgresql.Driver.notImplemented(this.getClass(),
"getSuperTables(String,String,String,String)");
}
public ResultSet getAttributes(String catalog, String schemaPattern, String typeNamePattern,
String attributeNamePattern) throws SQLException {
throw org.postgresql.Driver.notImplemented(this.getClass(),
"getAttributes(String,String,String,String)");
}
public boolean supportsResultSetHoldability(int holdability) throws SQLException {
return true;
}
public int getResultSetHoldability() throws SQLException {
return ResultSet.HOLD_CURSORS_OVER_COMMIT;
}
@Override
public int getDatabaseMajorVersion() throws SQLException {
return connection.getServerMajorVersion();
}
@Override
public int getDatabaseMinorVersion() throws SQLException {
return connection.getServerMinorVersion();
}
@Override
public int getJDBCMajorVersion() {
return org.postgresql.util.DriverInfo.JDBC_MAJOR_VERSION;
}
@Override
public int getJDBCMinorVersion() {
return org.postgresql.util.DriverInfo.JDBC_MINOR_VERSION;
}
public int getSQLStateType() throws SQLException {
return sqlStateSQL;
}
public boolean locatorsUpdateCopy() throws SQLException {
/*
* Currently LOB's aren't updateable at all, so it doesn't matter what we return. We don't throw
* the notImplemented Exception because the 1.5 JDK's CachedRowSet calls this method regardless
* of whether large objects are used.
*/
return true;
}
public boolean supportsStatementPooling() throws SQLException {
return false;
}
}