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/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.    
 */
package org.apache.openjpa.jdbc.sql;

import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.security.AccessController;
import java.sql.Connection;
import java.sql.DatabaseMetaData;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.sql.Statement;
import java.sql.Types;
import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.Arrays;
import java.util.Date;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;

import org.apache.openjpa.jdbc.identifier.DBIdentifier;
import org.apache.openjpa.jdbc.identifier.Normalizer;
import org.apache.openjpa.jdbc.kernel.JDBCFetchConfiguration;
import org.apache.openjpa.jdbc.kernel.JDBCStore;
import org.apache.openjpa.jdbc.kernel.exps.FilterValue;
import org.apache.openjpa.jdbc.schema.Column;
import org.apache.openjpa.jdbc.schema.Table;
import org.apache.openjpa.kernel.Filters;
import org.apache.openjpa.lib.jdbc.DelegatingConnection;
import org.apache.openjpa.lib.jdbc.DelegatingPreparedStatement;
import org.apache.openjpa.lib.jdbc.ReportingSQLException;
import org.apache.openjpa.lib.util.ConcreteClassGenerator;
import org.apache.openjpa.lib.util.J2DoPrivHelper;
import org.apache.openjpa.lib.util.Localizer;
import org.apache.openjpa.meta.JavaTypes;
import org.apache.openjpa.util.InternalException;
import org.apache.openjpa.util.StoreException;
import org.postgresql.PGConnection;
import org.postgresql.largeobject.LargeObject;
import org.postgresql.largeobject.LargeObjectManager;

/**
 * Dictionary for PostgreSQL.
 */
public class PostgresDictionary
    extends DBDictionary {

    private static final Localizer _loc = Localizer.forPackage
        (PostgresDictionary.class);

    private static Constructor postgresConnectionImpl;
    private static Constructor postgresPreparedStatementImpl;

    private Method dbcpGetDelegate;
    private Method connectionUnwrap;
    
    protected Set _timestampTypes = new HashSet(); 

    static {
        try {
            postgresConnectionImpl = ConcreteClassGenerator.getConcreteConstructor(
                    PostgresConnection.class,
                    Connection.class, 
                    PostgresDictionary.class);
            postgresPreparedStatementImpl = ConcreteClassGenerator.getConcreteConstructor(
                    PostgresPreparedStatement.class,
                    PreparedStatement.class, 
                    Connection.class, 
                    PostgresDictionary.class);
        } catch (Exception e) {
            throw new ExceptionInInitializerError(e);
        }
    }

    /**
     * SQL statement to load all sequence schema,name pairs from all schemas.
     */
    public String allSequencesSQL = "SELECT NULL AS SEQUENCE_SCHEMA, relname " +
        "AS SEQUENCE_NAME FROM pg_class WHERE relkind='S'";

    /**
     * SQL statement to load schema,name pairs for all sequences with a
     * certain name from all schemas.
     */
    public String namedSequencesFromAllSchemasSQL = "SELECT NULL AS " +
        "SEQUENCE_SCHEMA, relname AS SEQUENCE_NAME FROM pg_class " +
        "WHERE relkind='S' AND relname = ?";

    /**
     * SQL statement to load schema,name pairs from a named schema.
     */
    public String allSequencesFromOneSchemaSQL = "SELECT NULL AS " +
        "SEQUENCE_SCHEMA, relname AS SEQUENCE_NAME FROM pg_class, " +
        "pg_namespace WHERE relkind='S' AND pg_class.relnamespace = " +
        "pg_namespace.oid AND nspname = ?";

    /**
     * SQL statement to load a sequence's schema,name pair from one schema.
     */
    public String namedSequenceFromOneSchemaSQL = "SELECT NULL AS " +
        "SEQUENCE_SCHEMA, relname AS SEQUENCE_NAME FROM pg_class, " +
        "pg_namespace WHERE relkind='S' AND pg_class.relnamespace = " +
        "pg_namespace.oid AND relname = ? AND nspname = ?";

    /**
     * Some Postgres drivers do not support the {@link Statement#setFetchSize}
     * method.
     */
    public boolean supportsSetFetchSize = true;
    
    /**
     * Statement used to determine whether a sequence is owned.  Owned 
     * sequences are managed by the database and are considered system 
     * sequences.
     * parm 1: ''
     * parm 2: ''
     */
    public String isOwnedSequenceSQL = "SELECT pg_get_serial_sequence(?, ?)";

    public PostgresDictionary() {
        platform = "PostgreSQL";
        validationSQL = "SELECT NOW()";
        datePrecision = CENTI;
        supportsAlterTableWithDropColumn = false;
        supportsDeferredConstraints = true;
        supportsSelectStartIndex = true;
        supportsSelectEndIndex = true;

        maxTableNameLength = 63;
        maxColumnNameLength = 63;
        maxIndexNameLength = 63;
        maxConstraintNameLength = 63;
        maxAutoAssignNameLength = 63;
        schemaCase = SCHEMA_CASE_LOWER;
        rangePosition = RANGE_POST_LOCK;
        requiresAliasForSubselect = true;
        allowsAliasInBulkClause = false;

        // single-quote escape will result in SELECT CURVAL('mysequence')
        lastGeneratedKeyQuery = "SELECT CURRVAL(''{1}_{0}_seq'')";
        supportsAutoAssign = true;
        autoAssignTypeName = "BIGSERIAL";
        nextSequenceQuery = "SELECT NEXTVAL(''{0}'')";

        useGetBytesForBlobs = true;
        useSetBytesForBlobs = true;
        useGetStringForClobs = true;
        useSetStringForClobs = true;
        bitTypeName = "BOOL";
        smallintTypeName = "SMALLINT";
        realTypeName = "FLOAT4";
        tinyintTypeName = "SMALLINT";
        binaryTypeName = "BYTEA";
        blobTypeName = "BYTEA";
        longVarbinaryTypeName = "BYTEA";
        varbinaryTypeName = "BYTEA";
        clobTypeName = "TEXT";
        longVarcharTypeName = "TEXT";
        doubleTypeName = "DOUBLE PRECISION";
        timestampTypeName = "TIMESTAMP";
        fixedSizeTypeNameSet.addAll(Arrays.asList(new String[]{
            "BOOL", "BYTEA", "NAME", "INT8", "INT2", "INT2VECTOR", "INT4",
            "REGPROC", "TEXT", "OID", "TID", "XID", "CID", "OIDVECTOR",
            "SET", "FLOAT4", "FLOAT8", "ABSTIME", "RELTIME", "TINTERVAL",
            "MONEY",
        }));

        supportsLockingWithDistinctClause = false;
        supportsQueryTimeout = false;
        supportsLockingWithOuterJoin = false;

        reservedWordSet.addAll(Arrays.asList(new String[]{
            "ABORT", "ACL", "AGGREGATE", "APPEND", "ARCHIVE", "ARCH_STORE",
            "BACKWARD", "BINARY", "CHANGE", "CLUSTER", "COPY", "DATABASE",
            "DELIMITER", "DELIMITERS", "DO", "EXPLAIN", "EXTEND",
            "FORWARD", "HEAVY", "INDEX", "INHERITS", "ISNULL", "LIGHT",
            "LISTEN", "LOAD", "MERGE", "NOTHING", "NOTIFY", "NOTNULL",
            "OID", "OIDS", "PURGE", "RECIPE", "RENAME", "REPLACE",
            "RETRIEVE", "RETURNS", "RULE", "SETOF", "STDIN", "STDOUT",
            "STORE", "VACUUM", "VERBOSE", "VERSION",
        }));

        // reservedWordSet subset that CANNOT be used as valid column names
        // (i.e., without surrounding them with double-quotes)
        invalidColumnWordSet.addAll(Arrays.asList(new String[] {
            "ALL", "AND", "ANY", "AS", "ASC", "AUTHORIZATION", "BETWEEN", 
            "BINARY", "BOTH", "CASE", "CAST", "CHECK", "COLLATE", "COLUMN",
            "CONSTRAINT", "CREATE", "CROSS", "CURRENT_DATE", "CURRENT_TIME",
            "CURRENT_TIMESTAMP", "CURRENT_USER", "DEFAULT", "DEFERRABLE", 
            "DESC", "DISTINCT", "DO", "ELSE", "END", "END", "EXCEPT", "FALSE",
            "FOR", "FOREIGN", "FROM", "FULL", "GRANT", "GROUP", "HAVING", "IN",
            "INITIALLY", "INNER", "INTERSECT", "INTO", "IS", "ISNULL", "JOIN",
            "LEADING", "LEFT", "LIKE", "NATURAL", "NOT", "NOTNULL", "NULL", 
            "ON", "ONLY", "OR", "ORDER", "OUTER", "OVERLAPS", "PRIMARY",
            "REFERENCES", "RIGHT", "SELECT", "SESSION_USER", "SOME", "TABLE",
            "THEN", "TO", "TRAILING", "TRUE", "UNION", "UNIQUE", "USER", 
            "USING", "VERBOSE", "WHEN", "WHERE",
        }));
        
        _timestampTypes.add("ABSTIME");
        _timestampTypes.add("TIMESTAMP");
        _timestampTypes.add(timestampTypeName.toUpperCase()); // handle user configured timestamp types.
    }

    @Override
    public Date getDate(ResultSet rs, int column)
        throws SQLException {
        try {
            return super.getDate(rs, column);
        } catch (StringIndexOutOfBoundsException sioobe) {
            // there is a bug in some versions of the postgres JDBC
            // driver such that a date with not enough numbers in it
            // will throw a parsing exception: this tries to work
            // around it. The bug only occurs when there is a trailing
            // millisecond missing from the end. E.g., when the date is
            // like:
            // 2066-10-19 22:08:32.83
            // rather than what the driver expects:
            // 2066-10-19 22:08:32.830
            String dateStr = rs.getString(column);
            SimpleDateFormat fmt = new SimpleDateFormat(
                "yyyy-MM-dd hh:mm:ss.SS");
            try {
                return fmt.parse(dateStr);
            } catch (ParseException pe) {
                throw new SQLException(pe.toString());
            }
        }
    }

    @Override
    public byte getByte(ResultSet rs, int column)
        throws SQLException {
        // postgres does not perform automatic conversions, so attempting to
        // get a whole number out of a decimal will throw an exception.
        // fall back to performing manual conversion if the initial get fails
        try {
            return super.getByte(rs, column);
        } catch (SQLException sqle) {
            return super.getBigDecimal(rs, column).byteValue();
        }
    }

    @Override
    public short getShort(ResultSet rs, int column)
        throws SQLException {
        // postgres does not perform automatic conversions, so attempting to
        // get a whole number out of a decimal will throw an exception.
        // fall back to performing manual conversion if the initial get fails
        try {
            return super.getShort(rs, column);
        } catch (SQLException sqle) {
            return super.getBigDecimal(rs, column).shortValue();
        }
    }

    @Override
    public int getInt(ResultSet rs, int column)
        throws SQLException {
        // postgres does not perform automatic conversions, so attempting to
        // get a whole number out of a decimal will throw an exception.
        // fall back to performing manual conversion if the initial get fails
        try {
            return super.getInt(rs, column);
        } catch (SQLException sqle) {
            return super.getBigDecimal(rs, column).intValue();
        }
    }

    @Override
    public long getLong(ResultSet rs, int column)
        throws SQLException {
        // postgres does not perform automatic conversions, so attempting to
        // get a whole number out of a decimal will throw an exception.
        // fall back to performing manual conversion if the initial get fails
        try {
            return super.getLong(rs, column);
        } catch (SQLException sqle) {
            return super.getBigDecimal(rs, column).longValue();
        }
    }

    @Override
    public void setBoolean(PreparedStatement stmnt, int idx, boolean val,
        Column col)
        throws SQLException {
        // postgres actually requires that a boolean be set: it cannot
        // handle a numeric argument.
        stmnt.setBoolean(idx, val);
    }

    /**
     * Handle XML and bytea/oid columns in a PostgreSQL way.
     */
    @Override
    public void setNull(PreparedStatement stmnt, int idx, int colType,
        Column col)
        throws SQLException {
        if (col != null && col.isXML()) {
            stmnt.setNull(idx, Types.OTHER);
            return;
        }

        // OPENJPA-308
        if (colType == Types.BLOB)
            colType = Types.BINARY;
        stmnt.setNull(idx, colType);
    }

    @Override
    protected void appendSelectRange(SQLBuffer buf, long start, long end,
        boolean subselect) {
        if (end != Long.MAX_VALUE)
            buf.append(" LIMIT ").appendValue(end - start);
        if (start != 0)
            buf.append(" OFFSET ").appendValue(start);
    }

    @Override
    public void indexOf(SQLBuffer buf, FilterValue str, FilterValue find,
        FilterValue start) {
        buf.append("(POSITION(");
        find.appendTo(buf);
        buf.append(" IN ");
        if (start != null)
            substring(buf, str, start, null);
        else
            str.appendTo(buf);
        buf.append(")");
        if (start != null) {
            buf.append(" - 1 + ");
            start.appendTo(buf);
        }
        buf.append(")");
    }

    @Override
    protected boolean supportsDeferredUniqueConstraints() {
        // Postgres only supports deferred foreign key constraints.
        return false;
    }

    protected String getSequencesSQL(String schemaName, String sequenceName) {
        return getSequencesSQL(DBIdentifier.newSchema(schemaName), DBIdentifier.newSequence(sequenceName));
    }

    protected String getSequencesSQL(DBIdentifier schemaName, DBIdentifier sequenceName) {
        if (DBIdentifier.isNull(schemaName) && DBIdentifier.isNull(sequenceName))
            return allSequencesSQL;
        else if (DBIdentifier.isNull(schemaName))
            return namedSequencesFromAllSchemasSQL;
        else if (DBIdentifier.isNull(sequenceName))
            return allSequencesFromOneSchemaSQL;
        else
            return namedSequenceFromOneSchemaSQL;
    }

    public boolean isSystemSequence(String name, String schema,
        boolean targetSchema) {
        return isSystemSequence(DBIdentifier.newTable(name), DBIdentifier.newSchema(schema), targetSchema);
    }

    public boolean isSystemSequence(DBIdentifier name, DBIdentifier schema,
        boolean targetSchema) {
        return isSystemSequence(name, schema, targetSchema, null);
    }
    
    public boolean isSystemSequence(DBIdentifier name, DBIdentifier schema,
        boolean targetSchema, Connection conn) {
        if (super.isSystemSequence(name, schema, targetSchema))
            return true;
        
        if (isOwnedSequence(name, schema, conn)) {
            return true;
        }
        return false;
    }

    /**
     * Uses the native Postgres function pg_get_serial_sequence to determine whether
     * a sequence is owned by the database.  Column types such as bigserial use a 
     * system assigned sequence generator of the format: table_column_seq
     * 
     * @see http://www.postgresql.org/docs/current/static/functions-info.html
     */
    public boolean isOwnedSequence(DBIdentifier name, DBIdentifier schema, Connection conn) {
        
        String strName = DBIdentifier.isNull(name) ? "" : name.getName();
        // basic check for SEQ suffix.  not SEQ, not an owned sequence
        if (strName == null || !strName.toUpperCase().endsWith("_SEQ"))
            return false;

        // If no connection, use secondary method to determine ownership
        if (conn == null) {
            return isOwnedSequence(strName);
        }
        
        // Build permutations of table, column pairs from the provided 
        // sequence name.  If any of them are determined owned, assume the 
        // sequence is owned.  This is not perfect, but considerably better than
        // considering all sequences suffixed with _seq are db owned.
        String[][] namePairs = buildNames(strName);
        
        if(namePairs != null) { // unable to parse strName. 
            try {
                for (int i = 0; i < namePairs.length; i++) {
                    if (queryOwnership(conn, namePairs[i], schema)) {
                        return true;
                    }
                }
            } catch (Throwable t) {
                if (log.isWarnEnabled())
                    log.warn(_loc.get("psql-owned-seq-warning"), t);
                return isOwnedSequence(strName);
            }
        } else { 
            if(log.isTraceEnabled()) { 
                log.trace(String.format("Unable to query ownership for sequence %s using the connection. " +
                		"Falling back to simpler detection based on the name", 
                    name.getName()));
            }
            
            return isOwnedSequence(strName);
        }
        return false;
    }
    
    private boolean queryOwnership(Connection conn, String[] namePair,
        DBIdentifier schema) throws Throwable {
        PreparedStatement ps = null;
        ResultSet rs = null;
        try {
            ps = prepareStatement(conn, isOwnedSequenceSQL);
            String tblName = "";
            if (!DBIdentifier.isEmpty(schema)) {
                tblName = schema.getName() + getIdentifierDelimiter();  
            }
            tblName += namePair[0];
            ps.setString(1, tblName);
            String colName = toDBName(DBIdentifier.newColumn(namePair[1]));
            ps.setString(2, colName);
            ps.execute();
            rs = ps.getResultSet();
            if (rs == null || !rs.next()) {
                return false;
            }
            String val = getString(rs, 1);
            if (val == null || val.length() == 0) {
                return false;
            }
            return true;
        } catch (Throwable t) {
            if (t instanceof ReportingSQLException) {
                // Handle known/acceptable exceptions
                // 42P01 - table does not exist
                // 42703 - column does not exist within table
                ReportingSQLException rse = (ReportingSQLException)t;
                if ("42P01".equals(rse.getSQLState()) ||
                    "42703".equals(rse.getSQLState())) {
                    return false;
                }
            }
            throw t;
        }
        finally {
            if (rs != null) {
                try {
                    rs.close();
                } catch (Throwable t) {}
            }
            if (ps != null) {
                try {
                    ps.close();
                } catch (Throwable t) {}
            }
        }
    }

    /**
     * Owned sequences are of the form __seq. Table and column 
     * names can contain underscores so permutations of these names must be 
     * produced for ownership verification.
     * @param strName
     * @return If strName cannot be split into three or more parts null will be returned.
     *  Otherwise a String[][] of the potential sequence names will be returned.
     */
    private String[][] buildNames(String strName) {
        // split the sequence name into components
        // owned sequences are of the form 
__seq String[] parts = Normalizer.splitName(strName, "_"); if (parts == null || parts.length < 3) { if(log.isTraceEnabled()) { log.trace(String.format("Unable to parse sequences from %s. Found %s parts. Returning null", strName, parts == null ? 0 : parts.length)); } return null; } // Simple and most common case if (parts.length == 3) { return new String[][] { {parts[0], parts[1]} }; } // If table or column names contain underscores, build a list // of possibilities String[][] names = new String[(parts.length - 2)][2]; for (int i = 0; i < parts.length - 2; i++) { String[] namePair = new String[2]; StringBuilder name0 = new StringBuilder(); StringBuilder name1 = new StringBuilder(); for (int j = 0; j < parts.length - 1; j++) { if (j <= i) { name0.append(parts[j]); if (j < i) { name0.append("_"); } } else { name1.append(parts[j]); if (j < parts.length - 2) { name1.append("_"); } } } namePair[0] = name0.toString(); namePair[1] = name1.toString(); names[i] = namePair; } return names; } /** * Secondary logic if owned sequences cannot be determined by calling the * db. This logic assumes that any sequence suffixed with _SEQ is an * owned sequence (identical to the behavior of prior versions of OpenJPA). * @param strName * @return */ private boolean isOwnedSequence(String strName) { // filter out generated sequences used for bigserial cols, which are // of the form
__seq int idx = (strName == null) ? -1 : strName.indexOf('_'); return idx != -1 && idx != strName.length() - 4 && strName.toUpperCase().endsWith("_SEQ"); } public boolean isSystemTable(String name, String schema, boolean targetSchema) { return isSystemTable(DBIdentifier.newTable(name), DBIdentifier.newSchema(schema), targetSchema); } public boolean isSystemTable(DBIdentifier name, DBIdentifier schema, boolean targetSchema) { // names starting with "pg_" are reserved for Postgresql internal use String strName = DBIdentifier.isNull(name) ? null : name.getName(); return super.isSystemTable(name, schema, targetSchema) || (strName != null && strName.toLowerCase().startsWith("pg_")); } public boolean isSystemIndex(String name, Table table) { return isSystemIndex(DBIdentifier.newIndex(name), table); } public boolean isSystemIndex(DBIdentifier name, Table table) { // names starting with "pg_" are reserved for Postgresql internal use String strName = DBIdentifier.isNull(name) ? null : name.getName(); return super.isSystemIndex(name, table) || (strName != null && strName.toLowerCase().startsWith("pg_")); } public Connection decorate(Connection conn) throws SQLException { return ConcreteClassGenerator.newInstance(postgresConnectionImpl, super.decorate(conn), this); } public InputStream getLOBStream(JDBCStore store, ResultSet rs, int column) throws SQLException { DelegatingConnection conn = (DelegatingConnection)store .getConnection(); conn.setAutoCommit(false); LargeObjectManager lom = getLargeObjectManager(conn); if (rs.getInt(column) != -1) { LargeObject lo = lom.open(rs.getInt(column)); return lo.getInputStream(); } else { return null; } } public void insertBlobForStreamingLoad(Row row, Column col, JDBCStore store, Object ob, Select sel) throws SQLException { if (row.getAction() == Row.ACTION_INSERT) { insertPostgresBlob(row, col, store, ob); } else if (row.getAction() == Row.ACTION_UPDATE) { updatePostgresBlob(row, col, store, ob, sel); } } private void insertPostgresBlob(Row row, Column col, JDBCStore store, Object ob) throws SQLException { if (ob != null) { col.setType(Types.INTEGER); DelegatingConnection conn = (DelegatingConnection)store .getConnection(); try { conn.setAutoCommit(false); LargeObjectManager lom = getLargeObjectManager(conn); // The create method is valid in versions previous to 8.3 // in 8.3 this method is deprecated, use createLO int oid = lom.create(); LargeObject lo = lom.open(oid, LargeObjectManager.WRITE); OutputStream os = lo.getOutputStream(); copy((InputStream)ob, os); lo.close(); row.setInt(col, oid); } catch (IOException ioe) { throw new StoreException(ioe); } finally { conn.close(); } } else { row.setInt(col, -1); } } private void updatePostgresBlob(Row row, Column col, JDBCStore store, Object ob, Select sel) throws SQLException { JDBCFetchConfiguration fetch = store.getFetchConfiguration(); SQLBuffer sql = sel.toSelect(true, fetch); ResultSet res = null; DelegatingConnection conn = (DelegatingConnection) store.getConnection(); PreparedStatement stmnt = null; try { stmnt = sql.prepareStatement(conn, fetch, ResultSet.TYPE_SCROLL_SENSITIVE, ResultSet.CONCUR_UPDATABLE); setTimeouts(stmnt, fetch, true); res = stmnt.executeQuery(); if (!res.next()) { throw new InternalException(_loc.get("stream-exception")); } int oid = res.getInt(1); if (oid != -1) { conn.setAutoCommit(false); LargeObjectManager lom = getLargeObjectManager(conn); if (ob != null) { LargeObject lo = lom.open(oid, LargeObjectManager.WRITE); OutputStream os = lo.getOutputStream(); long size = copy((InputStream) ob, os); lo.truncate((int) size); lo.close(); } else { lom.delete(oid); row.setInt(col, -1); } } else { if (ob != null) { conn.setAutoCommit(false); LargeObjectManager lom = getLargeObjectManager(conn); oid = lom.create(); LargeObject lo = lom.open(oid, LargeObjectManager.WRITE); OutputStream os = lo.getOutputStream(); copy((InputStream)ob, os); lo.close(); row.setInt(col, oid); } } } catch (IOException ioe) { throw new StoreException(ioe); } finally { if (res != null) try { res.close (); } catch (SQLException e) {} if (stmnt != null) try { stmnt.close (); } catch (SQLException e) {} if (conn != null) try { conn.close (); } catch (SQLException e) {} } } public void updateBlob(Select sel, JDBCStore store, InputStream is) throws SQLException { //Do nothing } public void deleteStream(JDBCStore store, Select sel) throws SQLException { JDBCFetchConfiguration fetch = store.getFetchConfiguration(); SQLBuffer sql = sel.toSelect(true, fetch); ResultSet res = null; DelegatingConnection conn = (DelegatingConnection) store.getConnection(); PreparedStatement stmnt = null; try { stmnt = sql.prepareStatement(conn, fetch, ResultSet.TYPE_SCROLL_SENSITIVE, ResultSet.CONCUR_UPDATABLE); setTimeouts(stmnt, fetch, true); res = stmnt.executeQuery(); if (!res.next()) { throw new InternalException(_loc.get("stream-exception")); } int oid = res.getInt(1); if (oid != -1) { conn.setAutoCommit(false); LargeObjectManager lom = getLargeObjectManager(conn); lom.delete(oid); } } finally { if (res != null) try { res.close (); } catch (SQLException e) {} if (stmnt != null) try { stmnt.close (); } catch (SQLException e) {} if (conn != null) try { conn.close (); } catch (SQLException e) {} } } /** * Determine XML column support and backslash handling. */ public void connectedConfiguration(Connection conn) throws SQLException { super.connectedConfiguration(conn); DatabaseMetaData metaData = conn.getMetaData(); int maj = 0; int min = 0; if (isJDBC3) { maj = metaData.getDatabaseMajorVersion(); min = metaData.getDatabaseMinorVersion(); } else { try { // The product version looks like "8.3.5". String productVersion = metaData.getDatabaseProductVersion(); String majMin[] = productVersion.split("\\."); maj = Integer.parseInt(majMin[0]); min = Integer.parseInt(majMin[1]); } catch (Exception e) { // We don't understand the version format. if (log.isWarnEnabled()) log.warn(e.toString(),e); } } if ((maj >= 9 || (maj == 8 && min >= 3))) { supportsXMLColumn = true; } // Old PostgreSQL requires double-escape for strings. if ((maj <= 8 || (maj == 9 && min == 0))) { searchStringEscape = "\\\\"; } } /** * If column is an XML column, PostgreSQL requires that its value is set * by using {@link PreparedStatement#setObject(int, Object, int)} * with {@link Types#OTHER} as the third argument. */ public void setClobString(PreparedStatement stmnt, int idx, String val, Column col) throws SQLException { if (col != null && col.isXML()) stmnt.setObject(idx, val, Types.OTHER); else super.setClobString(stmnt, idx, val, col); } /** * Override the getOjbect() method to handle the case where the latest * Postgres JDBC driver returns a org.postgresql.util.PGobject instead of a * java.sql.Timestamp * * @param rs * @param column * @param map * * @return * @exception SQLException */ public Object getObject(ResultSet rs, int column, Map map) throws SQLException { Object obj = super.getObject(rs, column, map); if (obj == null) { return null; } if (obj.getClass().getName().equals("org.postgresql.util.PGobject")) { try { Method m = obj.getClass().getMethod("getType", (Class[]) null); Object type = m.invoke(obj, (Object[]) null); if(_timestampTypes.contains(((String) type).toUpperCase())) { return rs.getTimestamp(column); } } catch (Throwable t) { if (t instanceof InvocationTargetException) t = ((InvocationTargetException) t).getTargetException(); if (t instanceof SQLException) throw (SQLException) t; throw new SQLException(t.getMessage()); } } return obj; } /** * Append XML comparison. * * @param buf * the SQL buffer to write the comparison * @param op * the comparison operation to perform * @param lhs * the left hand side of the comparison * @param rhs * the right hand side of the comparison * @param lhsxml * indicates whether the left operand maps to XML * @param rhsxml * indicates whether the right operand maps to XML */ public void appendXmlComparison(SQLBuffer buf, String op, FilterValue lhs, FilterValue rhs, boolean lhsxml, boolean rhsxml) { super.appendXmlComparison(buf, op, lhs, rhs, lhsxml, rhsxml); if (lhsxml) appendXmlValue(buf, lhs); else lhs.appendTo(buf); buf.append(" ").append(op).append(" "); if (rhsxml) appendXmlValue(buf, rhs); else rhs.appendTo(buf); } /** * Append XML column value so that it can be used in comparisons. * * @param buf * the SQL buffer to write the value * @param val * the value to be written */ private void appendXmlValue(SQLBuffer buf, FilterValue val) { Class rc = Filters.wrap(val.getType()); int type = getJDBCType(JavaTypes.getTypeCode(rc), false); boolean isXmlAttribute = (val.getXmlMapping() == null) ? false : val.getXmlMapping().isXmlAttribute(); SQLBuffer newBufer = new SQLBuffer(this); newBufer.append("(xpath('/*/"); val.appendTo(newBufer); if (!isXmlAttribute) newBufer.append("/text()"); newBufer.append("',"). append(val.getColumnAlias(val.getFieldMapping().getColumns()[0])). append("))[1]"); appendCast(buf, newBufer, type); } /** * Return a SQL string to act as a placeholder for the given column. */ public String getPlaceholderValueString(Column col) { if (col.getType() == Types.BIT) { return "false"; } else { return super.getPlaceholderValueString(col); } } /** * Get the native PostgreSQL Large Object Manager used for LOB handling. */ protected LargeObjectManager getLargeObjectManager(DelegatingConnection conn) throws SQLException { return getPGConnection(conn).getLargeObjectAPI(); } /** * Get the native PostgreSQL connection from the given connection. * Various attempts of unwrapping are being performed. */ protected PGConnection getPGConnection(DelegatingConnection conn) { Connection innerConn = conn.getInnermostDelegate(); if (innerConn instanceof PGConnection) { return (PGConnection) innerConn; } if (innerConn.getClass().getName().startsWith("org.apache.commons.dbcp")) { return (PGConnection) getDbcpDelegate(innerConn); } return (PGConnection) unwrapConnection(conn, PGConnection.class); } /** * Get the delegated connection from the given DBCP connection. * * @param conn must be a DBCP connection * @return connection the DBCP connection delegates to */ protected Connection getDbcpDelegate(Connection conn) { Connection delegate = null; try { if (dbcpGetDelegate == null) { Class dbcpConnectionClass = Class.forName("org.apache.commons.dbcp.DelegatingConnection", true, AccessController .doPrivileged(J2DoPrivHelper.getContextClassLoaderAction())); Class poolingDataSource = Class.forName( "org.apache.commons.dbcp.PoolingDataSource", true, AccessController.doPrivileged(J2DoPrivHelper .getContextClassLoaderAction())); Method setAccessToUnderlyingConnectionAllowed = poolingDataSource .getMethod("setAccessToUnderlyingConnectionAllowed", boolean.class); Field this$0 = conn.getClass().getDeclaredField("this$0"); this$0.setAccessible(true); Object poolingDataSourceObj = this$0.get(conn); setAccessToUnderlyingConnectionAllowed.invoke(poolingDataSourceObj, true); dbcpGetDelegate = dbcpConnectionClass.getMethod("getInnermostDelegate"); } delegate = (Connection) dbcpGetDelegate.invoke(conn); } catch (Exception e) { throw new InternalException(_loc.get("dbcp-unwrap-failed"), e); } if (delegate == null) { throw new InternalException(_loc.get("dbcp-unwrap-failed")); } return delegate; } /** * Get (unwrap) the delegated connection from the given connection. * Use reflection to attempt to unwrap a connection. * Note: This is a JDBC 4 operation, so it requires a Java 6 environment * with a JDBC 4 driver or data source to have any chance of success. * * @param conn a delegating connection * @param connectionClass the expected type of delegated connection * @return connection the given connection delegates to */ private Connection unwrapConnection(Connection conn, Class connectionClass) { try { if (connectionUnwrap == null) { connectionUnwrap = Connection.class.getMethod("unwrap", Class.class); } return (Connection) connectionUnwrap.invoke(conn, connectionClass); } catch (Exception e) { throw new InternalException(_loc.get("connection-unwrap-failed"), e); } } /** * Connection wrapper to work around the postgres empty result set bug. */ protected abstract static class PostgresConnection extends DelegatingConnection { private final PostgresDictionary _dict; public PostgresConnection(Connection conn, PostgresDictionary dict) { super(conn); _dict = dict; } protected PreparedStatement prepareStatement(String sql, boolean wrap) throws SQLException { return ConcreteClassGenerator.newInstance(postgresPreparedStatementImpl, super.prepareStatement(sql, false), PostgresConnection.this, _dict); } protected PreparedStatement prepareStatement(String sql, int rsType, int rsConcur, boolean wrap) throws SQLException { return ConcreteClassGenerator. newInstance(postgresPreparedStatementImpl, super.prepareStatement(sql, rsType, rsConcur, false), PostgresConnection.this, _dict); } } /** * Statement wrapper to work around the postgres empty result set bug. */ protected abstract static class PostgresPreparedStatement extends DelegatingPreparedStatement { private final PostgresDictionary _dict; public PostgresPreparedStatement(PreparedStatement ps, Connection conn, PostgresDictionary dict) { super(ps, conn); _dict = dict; } protected ResultSet executeQuery(boolean wrap) throws SQLException { try { return super.executeQuery(wrap); } catch (SQLException se) { // we need to make our best guess whether this is the empty // ResultSet bug, since this exception could occur // for other reasons (like an invalid query string). Note // that Postgres error messages are localized, so we // cannot just parse the exception String. ResultSet rs = getResultSet(wrap); // ResultSet should be empty: if not, then maybe an // actual error occurred if (rs == null) throw se; return rs; } } public void setFetchSize(int i) throws SQLException { // some postgres drivers do not support the setFetchSize method try { if (_dict.supportsSetFetchSize) super.setFetchSize(i); } catch (SQLException e) { _dict.supportsSetFetchSize = false; if (_dict.log.isWarnEnabled()) _dict.log.warn(_loc.get("psql-no-set-fetch-size"), e); } } } }