JDBCConnection.java

package tap.db;

/*
 * This file is part of TAPLibrary.
 *
 * TAPLibrary is free software: you can redistribute it and/or modify
 * it under the terms of the GNU Lesser General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * TAPLibrary is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with TAPLibrary.  If not, see <http://www.gnu.org/licenses/>.
 *
 * Copyright 2012-2019 - UDS/Centre de Données astronomiques de Strasbourg (CDS),
 *                       Astronomisches Rechen Institut (ARI)
 */

import java.sql.Connection;
import java.sql.DatabaseMetaData;
import java.sql.Driver;
import java.sql.DriverManager;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.sql.SQLFeatureNotSupportedException;
import java.sql.Statement;
import java.sql.Timestamp;
import java.text.ParseException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Properties;

import adql.db.DBColumn;
import adql.db.DBIdentifier;
import adql.db.DBType;
import adql.db.DBType.DBDatatype;
import adql.db.STCS;
import adql.db.STCS.Region;
import adql.query.ADQLQuery;
import adql.query.IdentifierField;
import adql.translator.ADQLTranslator;
import adql.translator.JDBCTranslator;
import adql.translator.TranslationException;
import tap.data.DataReadException;
import tap.data.ResultSetTableIterator;
import tap.data.TableIterator;
import tap.log.TAPLog;
import tap.metadata.TAPColumn;
import tap.metadata.TAPCoosys;
import tap.metadata.TAPForeignKey;
import tap.metadata.TAPMetadata;
import tap.metadata.TAPMetadata.STDSchema;
import tap.metadata.TAPMetadata.STDTable;
import tap.metadata.TAPSchema;
import tap.metadata.TAPTable;
import tap.metadata.TAPTable.TableType;
import uws.ISO8601Format;
import uws.service.log.UWSLog.LogLevel;

/**
 * This {@link DBConnection} implementation is theoretically able to deal with
 * any DBMS JDBC connection.
 *
 * <p><i><b>Note:</b>
 * 	"Theoretically", because its design has been done using information about
 * 	Postgres, SQLite, Oracle, MySQL, Java DB (Derby) and H2. Then it has been
 * 	really tested successfully with Postgres, SQLite and H2.
 * </i></p>
 *
 *
 * <h3>Only one query executed at a time!</h3>
 *
 * <p>
 * 	With a single instance of {@link JDBCConnection} it is possible to execute
 * 	only one query (whatever the type: SELECT, UPDATE, DELETE, ...) at a time.
 * 	This is indeed the simple way chosen with this implementation in order to
 * 	allow the cancellation of any query by managing only one {@link Statement}.
 * 	Indeed, only a {@link Statement} has a cancel function able to stop any
 * 	query execution on the database. So all queries are executed with the same
 * 	{@link Statement}. Thus, allowing the execution of one query at a time lets
 * 	abort only one query rather than several in once (though just one should
 * 	have been stopped).
 * </p>
 *
 * <p>
 * 	All the following functions are synchronized in order to prevent parallel
 * 	execution of them by several threads:
 * 	{@link #addUploadedTable(TAPTable, TableIterator)},
 * 	{@link #dropUploadedTable(TAPTable)}, {@link #executeQuery(ADQLQuery)},
 * 	{@link #getTAPSchema()} and {@link #setTAPSchema(TAPMetadata)}.
 * </p>
 *
 * <p>
 * 	To cancel a query execution the function {@link #cancel(boolean)} must be
 * 	called. No error is returned by this function in case no query is currently
 * 	executing. When called, the flag {@link #isCancelled()} is set to
 * 	<code>true</code>. Any potentially long running function is checking this
 * 	flag and may then stop immediately by throwing a
 * 	{@link DBCancelledException} as soon as the flag turns <code>true</code>.
 * 	It should be the case for {@link #addUploadedTable(TAPTable, TableIterator)},
 * 	{@link #executeQuery(ADQLQuery)} and {@link #setTAPSchema(TAPMetadata)}.
 * </p>
 *
 *
 * <h3>Deal with different DBMS features</h3>
 *
 * <p>
 * 	Update queries are taking into account whether the following features are
 * 	supported by the DBMS:
 * </p>
 * <ul>
 * 	<li><b>data definition</b>: when not supported, no update operation will be
 * 		                        possible. All corresponding functions will then
 * 		                        throw a {@link DBException} ; only
 * 		                        {@link #executeQuery(ADQLQuery)} will be
 * 		                        possibly called.</li>
 *
 * 	<li><b>transactions</b>: when not supported, no transaction is started or
 * 		                     merely used. It means that in case of update
 * 		                     failure, no rollback will be possible and that
 * 		                     already done modification will remain in the
 * 		                     database.</li>
 *
 * 	<li><b>schemas</b>: when the DBMS does not have the notion of schema (like
 * 		                SQLite), no schema creation or dropping will be
 * 		                obviously processed. Besides, if not already done,
 * 		                database name of all tables will be prefixed by the
 * 		                schema name.</li>
 *
 * 	<li><b>batch updates</b>: when not supported, updates will just be done,
 * 		                      "normally, one by one. In one word, there will be
 * 		                      merely no optimization. Anyway, this feature
 * 		                      concerns only the insertions into tables.</li>
 *
 * 	<li><b>case sensitivity of identifiers</b>: the case sensitivity of quoted
 * 		                                        identifier varies from the used
 * 		                                        DBMS. This {@link DBConnection}
 * 	                                            implementation is able to adapt
 * 		                                        itself in function of the way
 * 		                                        identifiers are stored and
 * 	                                            researched in the database. How
 * 		                                        the case sensitivity is managed
 * 		                                        by the DBMS is the problem of
 * 		                                        only one function (which can be
 * 		                                        overwritten if needed):
 * 		                                        {@link #equals(String, String, boolean)}.</li>
 * </ul>
 *
 * <p><i><b>Warning</b>:
 * 	All these features have no impact at all on ADQL query executions
 * 	({@link #executeQuery(ADQLQuery)}).
 * </i></p>
 *
 *
 * <h3>Datatypes</h3>
 *
 * <p>
 * 	All datatype conversions done while fetching a query result (via a
 * 	{@link ResultSet}) are done exclusively by the returned
 * 	{@link TableIterator} (so, here {@link ResultSetTableIterator}).
 * </p>
 *
 * <p>
 * 	However, datatype conversions done while uploading a table are done here by
 * 	the function {@link #convertTypeToDB(DBType)}. This function uses first the
 * 	conversion function of the translator
 * 	({@link JDBCTranslator#convertTypeToDB(DBType)}), and then
 * 	{@link #defaultTypeConversion(DBType)} if it fails.
 * </p>
 *
 * <p>
 * 	In this default conversion, all typical DBMS datatypes are taken into
 * 	account, <b>EXCEPT the geometrical types</b> (POINT and REGION). That's why
 * 	it is recommended to use a translator in which the geometrical types are
 * 	supported and managed.
 * </p>
 *
 *
 * <h3>Fetch size</h3>
 *
 * <p>
 * 	The possibility to specify a "fetch size" to the JDBC driver (and more
 * 	exactly to a {@link Statement}) may reveal very helpful when dealing with
 * 	large datasets. Thus, it is possible to fetch rows by block of a size
 * 	represented by this "fetch size". This is also possible with this
 * 	{@link DBConnection} thanks to the function {@link #setFetchSize(int)}.
 * </p>
 *
 * <p>
 * 	However, some JDBC driver or DBMS may not support this feature. In such
 * 	case, it is then automatically disabled by {@link JDBCConnection} so that
 * 	any subsequent queries do not attempt to use it again. The
 * 	{@link #supportsFetchSize} is however reset to <code>true</code> when
 * 	{@link #setFetchSize(int)} is called.
 * </p>
 *
 * <p><i><b>Note 1:</b>
 * 	The "fetch size" feature is used only for SELECT queries executed by
 * 	{@link #executeQuery(ADQLQuery)}. In all other functions, results of SELECT
 * 	queries are fetched with the default parameter of the JDBC driver and its
 * 	{@link Statement} implementation.
 * </i></p>
 *
 * <p><i><b>Note 2:</b>
 * 	By default, this feature is disabled. So the default value of the JDBC
 * 	driver is used. To enable it, a simple call to {@link #setFetchSize(int)} is
 * 	enough, whatever is the given value.
 * </i></p>
 *
 * <p><i><b>Note 3:</b>
 * 	Generally set a fetch size starts a transaction in the database. So, after
 * 	the result of the fetched query is not needed any more, do not forget to
 * 	call {@link #endQuery()} in order to end the implicitly opened transaction.
 * 	However, generally closing the returned {@link TableIterator} is fully
 * 	enough (see the sources of {@link ResultSetTableIterator#close()} for more
 * 	details).
 * </i></p>
 *
 * @author Gr&eacute;gory Mantelet (CDS;ARI)
 * @version 2.4 (09/2019)
 * @since 2.0
 */
public class JDBCConnection implements DBConnection {

	/** DBMS name of PostgreSQL used in the database URL. */
	protected final static String DBMS_POSTGRES = "postgresql";

	/** DBMS name of SQLite used in the database URL. */
	protected final static String DBMS_SQLITE = "sqlite";

	/** DBMS name of MySQL used in the database URL. */
	protected final static String DBMS_MYSQL = "mysql";

	/** DBMS name of Oracle used in the database URL. */
	protected final static String DBMS_ORACLE = "oracle";

	/** Name of the database column giving the database name of a TAP column,
	 * table or schema. */
	protected final static String DB_NAME_COLUMN = "dbname";

	/** Name of the database column giving the coordinate system ID associated
	 * with a TAP column.
	 * @since 2.1 */
	protected final static String COOSYS_ID_COLUMN = "coosys_id";

	/** Connection ID (typically, the job ID). It lets identify the DB errors linked to the Job execution in the logs. */
	protected final String ID;

	/** JDBC connection (created and initialized at the creation of this {@link JDBCConnection} instance). */
	protected final Connection connection;

	/** <p>The only {@link Statement} instance that should be used in this {@link JDBCConnection}.
	 * Having the same {@link Statement} for all the interactions with the database lets cancel any when needed (e.g. when the execution is too long).</p>
	 * <p>This statement is by default NULL ; it must be initialized by the function {@link #getStatement()}.</p>
	 * @since 2.1 */
	protected Statement stmt = null;

	/**
	 * <p>If <code>true</code>, this flag indicates that the function {@link #cancel(boolean)} has been called at least once.</p>
	 *
	 * <p>{@link #cancel(boolean)} sets this flag to <code>true</code>.</p>
	 * <p>
	 * 	All functions executing any kind of query on the database MUST set this flag to <code>false</code> before doing anything
	 * 	by calling the function {@link #resetCancel()}.
	 * </p>
	 * <p>
	 * 	Any access (write AND read) to this flag MUST be synchronized on it using one of the following functions:
	 * 	{@link #cancel(boolean)}, {@link #resetCancel()} and {@link #isCancelled()}.
	 * </p>
	 * @since 2.1 */
	private Boolean cancelled = false;

	/** The translator this connection must use to translate ADQL into SQL. It is also used to get information about the case sensitivity of all types of identifier (schema, table, column). */
	protected final JDBCTranslator translator;

	/** Object to use if any message needs to be logged. <i>note: this logger may be NULL. If NULL, messages will never be printed.</i> */
	protected final TAPLog logger;

	/* JDBC URL MANAGEMENT */

	/** JDBC prefix of any database URL (for instance: jdbc:postgresql://127.0.0.1/myDB or jdbc:postgresql:myDB). */
	public final static String JDBC_PREFIX = "jdbc:";

	/** Name (in lower-case) of the DBMS with which the connection is linked. */
	protected final String dbms;

	/* DBMS SUPPORTED FEATURES */

	/** Indicate whether the DBMS supports transactions (start, commit, rollback and end). <i>note: If no transaction is possible, no transaction will be used, but then, it will never possible to cancel modifications in case of error.</i> */
	protected boolean supportsTransaction;

	/** Indicate whether the DBMS supports the definition of data (create, update, drop, insert into schemas and tables). <i>note: If not supported, it will never possible to create TAP_SCHEMA from given metadata (see {@link #setTAPSchema(TAPMetadata)}) and to upload/drop tables (see {@link #addUploadedTable(TAPTable, TableIterator)} and {@link #dropUploadedTable(TAPTable)}).</i> */
	protected boolean supportsDataDefinition;

	/** Indicate whether the DBMS supports several updates in once (using {@link Statement#addBatch(String)} and {@link Statement#executeBatch()}). <i>note: If not supported, every updates will be done one by one. So it is not really a problem, but just a loss of optimization.</i> */
	protected boolean supportsBatchUpdates;

	/** Indicate whether the DBMS has the notion of SCHEMA. Most of the DBMS has it, but not SQLite for instance. <i>note: If not supported, the DB table name will be prefixed by the DB schema name followed by the character "_". Nevertheless, if the DB schema name is NULL, the DB table name will never be prefixed.</i> */
	protected boolean supportsSchema;

	/** <p>Indicate whether a DBMS statement is able to cancel a query execution.</p>
	 * <p> Since this information is not provided by {@link DatabaseMetaData} a first attempt is always performed.
	 * In case a {@link SQLFeatureNotSupportedException} is caught, this flag is set to false preventing any further
	 * attempt of canceling a query.</p>
	 * @since 2.1 */
	protected boolean supportsCancel = true;

	/* CASE SENSITIVITY SUPPORT */

	/** Indicate whether UNquoted identifiers will be considered as case INsensitive and stored in mixed case by the DBMS. <i>note: If FALSE, unquoted identifiers will still be considered as case insensitive for the researches, but will be stored in lower or upper case (in function of {@link #lowerCaseUnquoted} and {@link #upperCaseUnquoted}). If none of these two flags is TRUE, the storage case will be though considered as mixed.</i> */
	protected boolean supportsMixedCaseUnquotedIdentifier;
	/** Indicate whether the unquoted identifiers are stored in lower case in the DBMS. */
	protected boolean lowerCaseUnquoted;
	/** Indicate whether the unquoted identifiers are stored in upper case in the DBMS. */
	protected boolean upperCaseUnquoted;

	/** Indicate whether quoted identifiers will be considered as case INsensitive and stored in mixed case by the DBMS. <i>note: If FALSE, quoted identifiers will be considered as case sensitive and will be stored either in lower, upper or in mixed case (in function of {@link #lowerCaseQuoted}, {@link #upperCaseQuoted} and {@link #mixedCaseQuoted}). If none of these three flags is TRUE, the storage case will be mixed case.</i> */
	protected boolean supportsMixedCaseQuotedIdentifier;
	/** Indicate whether the quoted identifiers are stored in lower case in the DBMS. */
	protected boolean lowerCaseQuoted;
	/** Indicate whether the quoted identifiers are stored in mixed case in the DBMS. */
	protected boolean mixedCaseQuoted;
	/** Indicate whether the quoted identifiers are stored in upper case in the DBMS. */
	protected boolean upperCaseQuoted;

	/* FETCH SIZE */

	/** Special fetch size meaning that the JDBC driver is free to set its own guess for this value. */
	public final static int IGNORE_FETCH_SIZE = 0;
	/** Default fetch size.
	 * <i>Note 1: this value may be however ignored if the JDBC driver does not support this feature.</i>
	 * <i>Note 2: by default set to {@link #IGNORE_FETCH_SIZE}.</i> */
	public final static int DEFAULT_FETCH_SIZE = IGNORE_FETCH_SIZE;

	/** <p>Indicate whether the last fetch size operation works.</p>
	 * <p>By default, this attribute is set to <code>false</code>, meaning that the "fetch size" feature is
	 * disabled. To enable it, a simple call to {@link #setFetchSize(int)} is enough, whatever is the given value.</p>
	 * <p>If just once this operation fails, the fetch size feature will be always considered as unsupported in this {@link JDBCConnection}
	 * until the next call of {@link #setFetchSize(int)}.</p> */
	protected boolean supportsFetchSize = false;

	/** <p>Fetch size to set in the {@link Statement} in charge of executing a SELECT query.</p>
	 * <p><i>Note 1: this value must always be positive. If negative or null, it will be ignored and the {@link Statement} will keep its default behavior.</i></p>
	 * <p><i>Note 2: if this feature is enabled (i.e. has a value &gt; 0), the AutoCommit will be disabled.</i></p> */
	protected int fetchSize = DEFAULT_FETCH_SIZE;

	/* TAP_SCHEMA MAPPING */

	/** Mapping of the TAP_SCHEMA items between their ADQL name and their name in the database.
	 * <p><b>IMPORTANT:</b>
	 * 	Keys of the map MUST be the full ADQL name of an item (e.g. TAP_SCHEMA, TAP_SCHEMA.tables, TAP_SCHEMA.columns.ucd).
	 * 	Values MUST be the name of the corresponding item in the database.
	 * 	Keys and values are case sensitive.
	 * </p>
	 * @since 2.1 */
	protected Map<String, String> dbMapping = null;

	/**
	 * <p>Creates a JDBC connection to the specified database and with the specified JDBC driver.
	 * This connection is established using the given user name and password.<p>
	 *
	 * <p><i><u>note:</u> the JDBC driver is loaded using <pre>Class.forName(driverPath)</pre> and the connection is created with <pre>DriverManager.getConnection(dbUrl, dbUser, dbPassword)</pre>.</i></p>
	 *
	 * <p><i><b>Warning:</b>
	 * 	This constructor really creates a new SQL connection. Creating a SQL connection is time consuming!
	 * 	That's why it is recommended to use a pool of connections. When doing so, you should use the other constructor of this class
	 * 	({@link #JDBCConnection(Connection, JDBCTranslator, String, TAPLog)}).
	 * </i></p>
	 *
	 * @param driverPath	Full class name of the JDBC driver.
	 * @param dbUrl			URL to the database. <i><u>note</u> This URL may not be prefixed by "jdbc:". If not, the prefix will be automatically added.</i>
	 * @param dbUser		Name of the database user.
	 * @param dbPassword	Password of the given database user.
	 * @param translator	{@link ADQLTranslator} to use in order to get SQL from an ADQL query and to get qualified DB table names.
	 * @param connID		ID of this connection. <i>note: may be NULL ; but in this case, logs concerning this connection will be more difficult to localize.</i>
	 * @param logger		Logger to use in case of need. <i>note: may be NULL ; in this case, error will never be logged, but sometimes DBException may be raised.</i>
	 *
	 * @throws DBException	If the driver can not be found or if the connection can not merely be created (usually because DB parameters are wrong).
	 */
	public JDBCConnection(final String driverPath, final String dbUrl, final String dbUser, final String dbPassword, final JDBCTranslator translator, final String connID, final TAPLog logger) throws DBException {
		this(createConnection(driverPath, dbUrl, dbUser, dbPassword), translator, connID, logger);
	}

	/**
	 * Create a JDBC connection by wrapping the given connection.
	 *
	 * @param conn			Connection to wrap.
	 * @param translator	{@link ADQLTranslator} to use in order to get SQL from an ADQL query and to get qualified DB table names.
	 * @param connID		ID of this connection. <i>note: may be NULL ; but in this case, logs concerning this connection will be more difficult to localize.</i>
	 * @param logger		Logger to use in case of need. <i>note: may be NULL ; in this case, error will never be logged, but sometimes DBException may be raised.</i>
	 */
	public JDBCConnection(final Connection conn, final JDBCTranslator translator, final String connID, final TAPLog logger) throws DBException {
		if (conn == null)
			throw new NullPointerException("Missing SQL connection! => can not create a JDBCConnection object.");
		if (translator == null)
			throw new NullPointerException("Missing ADQL translator! => can not create a JDBCConnection object.");

		this.connection = conn;
		this.translator = translator;
		this.ID = connID;
		this.logger = logger;

		// Set the supporting features' flags + DBMS type:
		try {
			DatabaseMetaData dbMeta = connection.getMetaData();
			dbms = (dbMeta.getDatabaseProductName() != null ? dbMeta.getDatabaseProductName().toLowerCase() : null);
			supportsTransaction = dbMeta.supportsTransactions();
			supportsBatchUpdates = dbMeta.supportsBatchUpdates();
			supportsDataDefinition = dbMeta.supportsDataDefinitionAndDataManipulationTransactions();
			supportsSchema = (DBMS_MYSQL.equalsIgnoreCase(dbms) ? true : dbMeta.supportsSchemasInTableDefinitions());
			lowerCaseUnquoted = dbMeta.storesLowerCaseIdentifiers();
			upperCaseUnquoted = dbMeta.storesUpperCaseIdentifiers();
			supportsMixedCaseUnquotedIdentifier = dbMeta.supportsMixedCaseIdentifiers();
			lowerCaseQuoted = dbMeta.storesLowerCaseQuotedIdentifiers();
			mixedCaseQuoted = dbMeta.storesMixedCaseQuotedIdentifiers();
			upperCaseQuoted = dbMeta.storesUpperCaseQuotedIdentifiers();
			supportsMixedCaseQuotedIdentifier = dbMeta.supportsMixedCaseQuotedIdentifiers();

		} catch(SQLException se) {
			throw new DBException("Unable to access to one or several DB metadata (url, supportsTransaction, supportsBatchUpdates, supportsDataDefinitionAndDataManipulationTransactions, supportsSchemasInTableDefinitions, storesLowerCaseIdentifiers, storesUpperCaseIdentifiers, supportsMixedCaseIdentifiers, storesLowerCaseQuotedIdentifiers, storesMixedCaseQuotedIdentifiers, storesUpperCaseQuotedIdentifiers and supportsMixedCaseQuotedIdentifiers) from the given Connection!");
		}
	}

	/**
	 * Extract the DBMS name from the given database URL.
	 *
	 * @param dbUrl	JDBC URL to access the database. <b>This URL must start with "jdbc:" ; otherwise an exception will be thrown.</b>
	 *
	 * @return	The DBMS name as found in the given URL.
	 *
	 * @throws DBException	If NULL has been given, if the URL is not a JDBC one (starting with "jdbc:") or if the DBMS name is missing.
	 *
	 * @deprecated (since 2.1) Should be replaced by <code>{@link java.sql.DatabaseMetaData#getDatabaseProductName()}.toLowerCase()</code>.
	 */
	@Deprecated
	protected static final String getDBMSName(String dbUrl) throws DBException {
		if (dbUrl == null)
			throw new DBException("Missing database URL!");

		if (!dbUrl.startsWith(JDBC_PREFIX))
			throw new DBException("This DBConnection implementation is only able to deal with JDBC connection! (the DB URL must start with \"" + JDBC_PREFIX + "\" ; given url: " + dbUrl + ")");

		dbUrl = dbUrl.substring(5);
		int indSep = dbUrl.indexOf(':');
		if (indSep <= 0)
			throw new DBException("Incorrect database URL: " + dbUrl);

		return dbUrl.substring(0, indSep).toLowerCase();
	}

	/**
	 * Create a {@link Connection} instance using the given database parameters.
	 * The path of the JDBC driver will be used to load the adequate driver if none is found by default.
	 *
	 * @param driverPath	Path to the JDBC driver.
	 * @param dbUrl			JDBC URL to connect to the database. <i><u>note</u> This URL may not be prefixed by "jdbc:". If not, the prefix will be automatically added.</i>
	 * @param dbUser		Name of the user to use to connect to the database.
	 * @param dbPassword	Password of the user to use to connect to the database.
	 *
	 * @return	A new DB connection.
	 *
	 * @throws DBException	If the driver can not be found or if the connection can not merely be created (usually because DB parameters are wrong).
	 *
	 * @see DriverManager#getDriver(String)
	 * @see Driver#connect(String, Properties)
	 */
	private final static Connection createConnection(final String driverPath, final String dbUrl, final String dbUser, final String dbPassword) throws DBException {
		// Normalize the DB URL:
		String url = dbUrl.startsWith(JDBC_PREFIX) ? dbUrl : (JDBC_PREFIX + dbUrl);

		// Select the JDBDC driver:
		Driver d;
		try {
			d = DriverManager.getDriver(url);
		} catch(SQLException e) {
			try {
				// ...load it, if necessary:
				if (driverPath == null)
					throw new DBException("Missing JDBC driver path! Since the required JDBC driver is not yet loaded, this path is needed to load it.");
				Class.forName(driverPath);
				// ...and try again:
				d = DriverManager.getDriver(url);
			} catch(ClassNotFoundException cnfe) {
				throw new DBException("Impossible to find the JDBC driver \"" + driverPath + "\" !", cnfe);
			} catch(SQLException se) {
				throw new DBException("No suitable JDBC driver found for the database URL \"" + url + "\" and the driver path \"" + driverPath + "\"!", se);
			}
		}

		// Build a connection to the specified database:
		try {
			Properties p = new Properties();
			if (dbUser != null)
				p.setProperty("user", dbUser);
			if (dbPassword != null)
				p.setProperty("password", dbPassword);
			Connection con = d.connect(url, p);
			return con;
		} catch(SQLException se) {
			throw new DBException("Impossible to establish a connection to the database \"" + url + "\"!", se);
		}
	}

	@Override
	public final String getID() {
		return ID;
	}

	/**
	 * <p>Get the JDBC connection wrapped by this {@link JDBCConnection} object.</p>
	 *
	 * <p><i>Note:
	 * 	This is the best way to get the JDBC connection in order to properly close it.
	 * </i></p>
	 *
	 * @return	The wrapped JDBC connection.
	 */
	public final Connection getInnerConnection() {
		return connection;
	}

	/**
	 * <p>Tell whether this {@link JDBCConnection} is already associated with a {@link Statement}.</p>
	 *
	 * @return	<code>true</code> if a {@link Statement} instance is already associated with this {@link JDBCConnection}
	 *        	<code>false</code> otherwise.
	 *
	 * @throws SQLException	In case the open/close status of the current {@link Statement} instance can not be checked.
	 *
	 * @since 2.1
	 */
	protected boolean hasStatement() throws SQLException {
		return (stmt != null && !stmt.isClosed());
	}

	/**
	 * <p>Get the only statement associated with this {@link JDBCConnection}.</p>
	 *
	 * <p>
	 * 	If no {@link Statement} is yet existing, one is created, stored in this {@link JDBCConnection} (for further uses)
	 * 	and then returned.
	 * </p>
	 *
	 * @return	The {@link Statement} instance associated with this {@link JDBCConnection}. <i>Never NULL</i>
	 *
	 * @throws SQLException	In case a {@link Statement} can not be created.
	 *
	 * @since 2.1
	 */
	protected Statement getStatement() throws SQLException {
		if (hasStatement())
			return stmt;
		else
			return (stmt = connection.createStatement(ResultSet.TYPE_FORWARD_ONLY, ResultSet.CONCUR_READ_ONLY));
	}

	/**
	 * Close the only statement associated with this {@link JDBCConnection}.
	 *
	 * @since 2.1
	 */
	protected void closeStatement() {
		close(stmt);
		stmt = null;
	}

	/**
	 * <p>Cancel (and rollback when possible) the currently running query of this {@link JDBCConnection} instance.</p>
	 *
	 * <p><b>Important note:</b>
	 * 	This function tries canceling the current JDBC statement. This can work only if the JDBC driver and
	 * 	the DBMS both support this operation. If the statement cancellation fails, the flag {@link #supportsCancel}
	 * 	is set to <code>false</code> so that any subsequent call of this function for this instance of
	 * 	{@link JDBCConnection} does not try any other cancellation attempt. <b>HOWEVER</b> the rollback will
	 * 	still continue to be performed if the parameter <code>rollback</code> is set to <code>true</code>.
	 * </p>
	 *
	 * <p>
	 * 	In any case, this function sets anyway the flag {@link #isCancelled()} to <code>true</code> so that after
	 * 	a DB processing this {@link DBConnection} can interrupt immediately any potentially long running functions
	 * 	(i.e. {@link #addUploadedTable(TAPTable, TableIterator)}, {@link #executeQuery(ADQLQuery)} and
	 * 	{@link #setTAPSchema(TAPMetadata)}). When these functions realize this flag is set, they immediately stop
	 * 	by throwing a {@link DBCancelledException}.
	 * </p>
	 *
	 * <p><i>Note 1:
	 * 	A failure of a rollback is not considered as a not supported cancellation feature by the JDBC driver or the DBMS.
	 * 	So if the cancellation succeeds but a rollback fails, a next call of this function will still try canceling the given statement.
	 * 	In case of a rollback failure, only a WARNING is written in the log file ; no exception is thrown.
	 * </i></p>
	 *
	 * <p><i>Note 2:
	 * 	This function is synchronized on the {@link #cancelled} flag.
	 * 	Thus, it may block until another synchronized block on this same flag is finished.
	 * </i></p>
	 *
	 * @param rollback	<code>true</code> to cancel the statement AND rollback the current connection transaction,
	 *                	<code>false</code> to just cancel the statement.
	 *
	 * @see DBConnection#cancel(boolean)
	 * @see #cancel(Statement, boolean)
	 *
	 * @since 2.1
	 */
	@Override
	public final void cancel(final boolean rollback) {
		synchronized (cancelled) {
			cancelled = true;
			boolean effectivelyCancelled = cancel(stmt, rollback);
			// Log the success of the cancellation:
			if (effectivelyCancelled && logger != null)
				logger.logDB(LogLevel.INFO, this, "CANCEL", "Query execution successfully stopped!", null);
		}
	}

	/**
	 * <p>Cancel (and rollback when asked and if possible) the given statement.</p>
	 *
	 * <p><b>Important note:</b>
	 * 	This function tries canceling the current JDBC statement. This can work only if the JDBC driver and
	 * 	the DBMS both support this operation. If the statement cancellation fails, the flag {@link #supportsCancel}
	 * 	is set to <code>false</code> so that any subsequent call of this function for this instance of
	 * 	{@link JDBCConnection} does not try any other cancellation attempt. <b>HOWEVER</b> the rollback will
	 * 	still continue to be performed if the parameter <code>rollback</code> is set to <code>true</code>.
	 * </p>
	 *
	 * <p><i>Note:
	 * 	A failure of a rollback is not considered as a not supported cancellation feature by the JDBC driver or the DBMS.
	 * 	So if the cancellation succeeds but a rollback fails, a next call of this function will still try canceling the given statement.
	 * 	In case of a rollback failure, only a WARNING is written in the log file ; no exception is thrown.
	 * </i></p>
	 *
	 * @param stmt		The statement to cancel. <i>Note: if closed or NULL, no exception will be thrown and only a rollback will be attempted if asked in parameter.</i>
	 * @param rollback	<code>true</code> to cancel the statement AND rollback the current connection transaction,
	 *                	<code>false</code> to just cancel the statement.
	 *
	 * @return	<code>true</code> if the cancellation succeeded (or none was running),
	 *        	<code>false</code> otherwise (and especially if the "cancel" operation is not supported).
	 *
	 * @since 2.1
	 */
	protected boolean cancel(final Statement stmt, final boolean rollback) {
		try {
			// If the statement is not already closed, cancel its current query execution:
			if (supportsCancel && stmt != null && !stmt.isClosed()) {
				stmt.cancel();
				return true;
			} else
				return false;

		} catch(SQLFeatureNotSupportedException sfnse) {
			// prevent further cancel attempts:
			supportsCancel = false;
			// log a warning:
			if (logger != null)
				logger.logDB(LogLevel.WARNING, this, "CANCEL", "This JDBC driver does not support Statement.cancel(). No further cancel attempt will be performed with this JDBCConnection instance.", sfnse);
			return false;

		} catch(SQLException se) {
			if (logger != null)
				logger.logDB(LogLevel.ERROR, this, "CANCEL", "Abortion of the current query apparently fails! The query may still run on the database server.", se);
			return false;
		}
		// Whatever happens, rollback all executed operations (only if rollback=true and if in a transaction ; that's to say if AutoCommit = false):
		finally {
			if (rollback && supportsTransaction)
				rollback((stmt != null && stmt == this.stmt));
		}
	}

	/**
	 * <p>Tell whether the last query execution has been canceled.</p>
	 *
	 * <p><i>Note:
	 * 	This function is synchronized on the {@link #cancelled} flag.
	 * 	Thus, it may block until another synchronized block on this same flag is finished.
	 * </i></p>
	 *
	 * @return	<code>true</code> if the last query execution has been cancelled,
	 *        	<code>false</code> otherwise.
	 *
	 * @since 2.1
	 */
	protected final boolean isCancelled() {
		synchronized (cancelled) {
			return cancelled;
		}
	}

	/**
	 * <p>Reset the {@link #cancelled} flag to <code>false</code>.</p>
	 *
	 * <p><i>Note:
	 * 	This function is synchronized on the {@link #cancelled} flag.
	 * 	Thus, it may block until another synchronized block on this same flag is finished.
	 * </i></p>
	 *
	 * @since 2.1
	 */
	protected final void resetCancel() {
		synchronized (cancelled) {
			cancelled = false;
		}
	}

	@Override
	public void endQuery() {
		// Cancel the last query processing, if still running:
		cancel(stmt, false);  // note: this function is called instead of cancel(false) in order to avoid a log message about the cancellation operation result.
		// Close the statement, if still opened:
		closeStatement();
		// Rollback the transaction, if one has been opened:
		rollback(false);
		// End the transaction (i.e. go back to autocommit=true), if one has been opened:
		endTransaction(false);
	}

	/* ********************* */
	/* INTERROGATION METHODS */
	/* ********************* */
	@Override
	public synchronized TableIterator executeQuery(final ADQLQuery adqlQuery) throws DBException {
		// Starting of new query execution => disable the cancel flag:
		resetCancel();

		String sql = null;
		ResultSet result = null;
		try {
			// 1. Translate the ADQL query into SQL:
			if (logger != null)
				logger.logDB(LogLevel.INFO, this, "TRANSLATE", "Translating ADQL: " + adqlQuery.toADQL().replaceAll("(\t|\r?\n)+", " "), null);
			sql = translator.translate(adqlQuery);

			// 2. Create the statement and if needed, configure it for the given fetch size:
			if (supportsTransaction && supportsFetchSize && fetchSize > 0) {
				try {
					connection.setAutoCommit(false);
				} catch(SQLException se) {
					if (!isCancelled()) {
						supportsFetchSize = false;
						if (logger != null)
							logger.logDB(LogLevel.WARNING, this, "RESULT", "Fetch size unsupported!", null);
					}
				}
			}

			// If the query has been aborted, return immediately:
			if (isCancelled())
				throw new DBCancelledException();

			// Get a statement:
			getStatement();

			// Adjust the fetching size of this statement:
			if (supportsFetchSize) {
				try {
					stmt.setFetchSize(fetchSize);
				} catch(SQLException se) {
					if (!isCancelled()) {
						supportsFetchSize = false;
						if (logger != null)
							logger.logDB(LogLevel.WARNING, this, "RESULT", "Fetch size unsupported!", null);
					}
				}
			}

			// 3. Execute the SQL query:
			if (logger != null)
				logger.logDB(LogLevel.INFO, this, "EXECUTE", "SQL query: " + sql.replaceAll("(\t|\r?\n)+", " "), null);
			result = stmt.executeQuery(sql);

			// If the query has been aborted, return immediately:
			if (isCancelled())
				throw new DBCancelledException();

			// 4. Return the result through a TableIterator object:
			if (logger != null)
				logger.logDB(LogLevel.INFO, this, "RESULT", "Returning result (" + (supportsFetchSize ? "fetch size = " + fetchSize : "all in once") + ").", null);
			return createTableIterator(result, adqlQuery.getResultingColumns());

		} catch(Exception ex) {
			// Close the ResultSet, if one was open:
			close(result);
			// End properly the query:
			endQuery();
			// Propagate the exception if it is just about the cancellation:
			if (ex instanceof DBCancelledException)
				throw (DBCancelledException)ex;
			// Otherwise propagate the exception with an appropriate error message:
			else if (ex instanceof SQLException) {
				/* ...except if the query has been aborted:
				 * then, it is normal to receive an SQLException: */
				if (isCancelled())
					throw new DBCancelledException();
				else
					throw new DBException("Unexpected error while executing a SQL query: " + ex.getMessage(), ex);
			} else if (ex instanceof TranslationException)
				throw new DBException("Unexpected error while translating ADQL into SQL: " + ex.getMessage(), ex);
			else if (ex instanceof DataReadException)
				throw new DBException("Impossible to read the query result, because: " + ex.getMessage(), ex);
			else
				throw new DBException("Unexpected error while executing an ADQL query: " + ex.getMessage(), ex);
		}
	}

	/**
	 * <p>Create a {@link TableIterator} instance which lets reading the given result table.</p>
	 *
	 * <p><i>Note:
	 * 	The statement currently opened is not closed by this function. Actually, it is still associated with
	 * 	this {@link JDBCConnection}. However, this latter is provided to the {@link TableIterator} returned by
	 * 	this function. Thus, when the {@link TableIterator#close()} is called, the function {@link #endQuery()}
	 * 	will be called. It will then close the {@link ResultSet}, the {@link Statement} and end any opened
	 * 	transaction (with rollback). See {@link #endQuery()} for more details.
	 * </i></p>
	 *
	 * @param rs				Result of an SQL query.
	 * @param resultingColumns	Metadata corresponding to each columns of the result.
	 *
	 * @return	A {@link TableIterator} instance.
	 *
	 * @throws DataReadException	If the metadata (columns count and types) can not be fetched
	 *                          	or if any other error occurs.
	 *
	 * @see ResultSetTableIterator#ResultSetTableIterator(DBConnection, ResultSet, DBColumn[], JDBCTranslator, String)
	 */
	protected TableIterator createTableIterator(final ResultSet rs, final DBColumn[] resultingColumns) throws DataReadException {
		try {
			return new ResultSetTableIterator(this, rs, resultingColumns, translator, dbms);
		} catch(Throwable t) {
			throw (t instanceof DataReadException) ? (DataReadException)t : new DataReadException(t);
		}
	}

	/* *********************** */
	/* TAP_SCHEMA MANIPULATION */
	/* *********************** */

	/**
	 * Tell when, compared to the other TAP standard tables, a given standard TAP table should be created.
	 *
	 * @param table	Standard TAP table.
	 *
	 * @return	An index between 0 and 4 (included) - 0 meaning the first table to create whereas 4 is the last one.
	 *          -1 is returned if NULL is given in parameter of if the standard table is not taken into account here.
	 */
	protected int getCreationOrder(final STDTable table) {
		if (table == null)
			return -1;

		switch(table) {
			case SCHEMAS:
				return 0;
			case TABLES:
				return 1;
			case COLUMNS:
				return 2;
			case KEYS:
				return 3;
			case KEY_COLUMNS:
				return 4;
			default:
				return -1;
		}
	}

	/**
	 * Let specify for all item of the standard TAP_SCHEMA a different name in the database.
	 * <p><i>
	 * 	For instance: if in the database "TAP_SCHEMA" is called "MY_TAP_SCHEMA".
	 * </i></p>
	 *
	 * <p><b>IMPORTANT:</b>
	 * 	TAP_SCHEMA items (i.e. keys in the map) MUST be fully qualified ADQL names (e.g. TAP_SCHEMA.columns.name).
	 * 	The values MUST be single database names (i.e. no catalogue, schema or table prefix).
	 * 	Both keys and values are case sensitive.
	 * </p>
	 *
	 * <p><i>Note:</i>
	 * 	TAP_SCHEMA items keeping the same name in the database than in ADQL do not need to
	 * 	be listed in the given map.
	 * </p>
	 *
	 * @param mapping	Mapping between ADQL names and DB names.
	 *               	If <code>null</code>, DB names will be considered equals to the ADQL names.
	 *
	 * @since 2.1
	 */
	public void setDBMapping(final Map<String, String> mapping) {
		if (mapping == null)
			dbMapping = null;
		else {
			if (dbMapping == null)
				dbMapping = new HashMap<String, String>(mapping.size());
			else
				dbMapping.clear();
			dbMapping.putAll(mapping);
			if (dbMapping.size() == 0)
				dbMapping = null;
		}
	}

	/**
	 * Get the standard definition of TAP_SCHEMA with eventually DB names provided by the set mapping (see {@link #setDBMapping(Map)}).
	 *
	 * @return	The standard schema as it should be detected in the database.
	 *
	 * @since 2.1
	 */
	protected TAPSchema getStdSchema() {
		TAPSchema tap_schema = TAPMetadata.getStdSchema(supportsSchema);

		if (dbMapping != null) {
			// Update the TAP_SCHEMA DB name, if needed:
			if (dbMapping.containsKey(tap_schema.getADQLName()))
				tap_schema.setDBName(dbMapping.get(tap_schema.getADQLName()));

			// For each table...
			for(TAPTable t : tap_schema) {
				// ...update the table DB name, if needed:
				if (dbMapping.containsKey(t.getFullName()))
					t.setDBName(dbMapping.get(t.getFullName()));

				// For each column...
				String fullName;
				for(DBColumn c : t) {
					fullName = t.getFullName() + "." + c.getADQLName();
					// ...update the column DB name, if needed:
					if (dbMapping.containsKey(fullName))
						((TAPColumn)c).setDBName(dbMapping.get(fullName));
				}
			}
		}

		return tap_schema;
	}

	/* ************************************ */
	/* GETTING TAP_SCHEMA FROM THE DATABASE */
	/* ************************************ */

	/**
	 * <p>In this implementation, this function is first creating a virgin {@link TAPMetadata} object
	 * that will be filled progressively by calling the following functions:</p>
	 * <ol>
	 * 	<li>{@link #loadSchemas(TAPTable, TAPMetadata, Statement)}</li>
	 * 	<li>{@link #loadTables(TAPTable, TAPMetadata, Statement)}</li>
	 * 	<li>{@link #loadCoosys(TAPTable, TAPMetadata, Statement)}</li>
	 * 	<li>{@link #loadColumns(TAPTable, List, Statement)}</li>
	 * 	<li>{@link #loadKeys(TAPTable, TAPTable, List, Statement)}</li>
	 * </ol>
	 *
	 * <p><i>Note:
	 * 	If schemas are not supported by this DBMS connection, the DB name of all tables will be set to NULL
	 * 	and the DB name of all tables will be prefixed by the ADQL name of their respective schema.
	 * </i></p>
	 *
	 * @see tap.db.DBConnection#getTAPSchema()
	 */
	@Override
	public synchronized TAPMetadata getTAPSchema() throws DBException {
		// Starting of new query execution => disable the cancel flag:
		resetCancel();

		// Build a virgin TAP metadata:
		TAPMetadata metadata = new TAPMetadata();

		// Get the definition of the standard TAP_SCHEMA tables:
		TAPSchema tap_schema = getStdSchema();

		// LOAD ALL METADATA FROM THE STANDARD TAP TABLES:
		try {
			// create a common statement for all loading functions:
			getStatement();

			// load all schemas from TAP_SCHEMA.schemas:
			if (logger != null)
				logger.logDB(LogLevel.INFO, this, "LOAD_TAP_SCHEMA", "Loading TAP_SCHEMA.schemas.", null);
			loadSchemas(tap_schema.getTable(STDTable.SCHEMAS.label), metadata, stmt);

			// load all tables from TAP_SCHEMA.tables:
			if (logger != null)
				logger.logDB(LogLevel.INFO, this, "LOAD_TAP_SCHEMA", "Loading TAP_SCHEMA.tables.", null);
			List<TAPTable> lstTables = loadTables(tap_schema.getTable(STDTable.TABLES.label), metadata, stmt);

			// load all coordinate systems from TAP_SCHEMA.coosys: [non standard]
			Map<String, TAPCoosys> mapCoosys = null;
			if (isTableExisting(tap_schema.getDBName(), "coosys", stmt.getConnection().getMetaData())) {
				if (logger != null)
					logger.logDB(LogLevel.INFO, this, "LOAD_TAP_SCHEMA", "Loading TAP_SCHEMA.coosys.", null);
				// create the TAP_SCHEMA.coosys table:
				TAPTable coosysTable = TAPMetadata.getCoosysTable();