Mercurial > hg > monetdb-java
view src/main/java/nl/cwi/monetdb/jdbc/MonetConnection.java @ 120:02f560eb3cf2 embedded
Major change in the Datablock response. Removed the arrays creation in the Embedded connection, so it will run much faster now. It can be possible to do it as well in the MAPI connection, but in the way the Old Mapi Protocol is designed, it will be very complicated (ByteBuffers are designed to work with binary data instead of textual data :S). I think it's better to wait for the new protocol, which will be much faster and easier to parse.
| author | Pedro Ferreira <pedro.ferreira@monetdbsolutions.com> |
|---|---|
| date | Tue, 28 Feb 2017 16:57:27 +0100 (2017-02-28) |
| parents | 846cedacec75 |
| children | 6c74540a8e6b |
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package nl.cwi.monetdb.jdbc; import nl.cwi.monetdb.mcl.connection.ControlCommands; import nl.cwi.monetdb.mcl.connection.IMonetDBLanguage; import nl.cwi.monetdb.mcl.connection.MCLException; import nl.cwi.monetdb.mcl.connection.SenderThread; import nl.cwi.monetdb.mcl.protocol.AbstractProtocol; import nl.cwi.monetdb.mcl.protocol.ProtocolException; import nl.cwi.monetdb.mcl.protocol.ServerResponses; import nl.cwi.monetdb.mcl.protocol.StarterHeaders; import nl.cwi.monetdb.mcl.responses.*; import java.io.IOException; import java.net.SocketTimeoutException; import java.sql.*; import java.util.*; import java.util.concurrent.Executor; /** * A {@link Connection} suitable for the MonetDB database. * * This connection represents a connection (session) to a MonetDB * database. SQL statements are executed and results are returned within * the context of a connection. This Connection object holds a physical * connection to the MonetDB database. * * A Connection object's database should able to provide information * describing its tables, its supported SQL grammar, its stored * procedures, the capabilities of this connection, and so on. This * information is obtained with the getMetaData method. * * Note: By default a Connection object is in auto-commit mode, which * means that it automatically commits changes after executing each * statement. If auto-commit mode has been disabled, the method commit * must be called explicitly in order to commit changes; otherwise, * database changes will not be saved. * * The current state of this connection is that it nearly implements the * whole Connection interface. * * @author Fabian Groffen, Martin van Dinther, Pedro Ferreira * @version 1.3 */ public abstract class MonetConnection extends MonetWrapper implements Connection { /** The sequence counter */ private static int SeqCounter = 0; /** * Gets the current sequence counter. * * @return The current sequence counter */ public static int GetSeqCounter() { return SeqCounter; } /** The successful processed input properties */ protected final Properties conn_props; /** The language to connect with */ protected IMonetDBLanguage language; /** Authentication hash method */ protected final String hash; /** An optional thread that is used for sending large queries */ private SenderThread senderThread; /** Whether this Connection is closed (and cannot be used anymore) */ private boolean closed; /** Whether this Connection is in autocommit mode */ private boolean autoCommit = true; /** The stack of warnings for this Connection object */ private SQLWarning warnings; /** The Connection specific mapping of user defined types to Java types */ private Map<String,Class<?>> typeMap = new HashMap<String,Class<?>>() { private static final long serialVersionUID = 1L; { put("inet", MonetINET.class); put("url", MonetURL.class); } }; // See javadoc for documentation about WeakHashMap if you don't know what it does !!!NOW!!! // (only when you deal with it of course) /** A Map containing all (active) Statements created from this Connection */ private Map<Statement,?> statements = new WeakHashMap<>(); /** The number of results we receive from the server at once */ private int curReplySize = -1; // the server by default uses -1 (all) /** Whether or not BLOB is mapped to LONGVARBINARY within the driver */ private final boolean blobIsBinary; /** Whether or not CLOB is mapped to LONGVARCHAR within the driver */ private final boolean clobIsLongChar; /** The underlying proticol provided by the connection (MAPI or embedded) */ protected AbstractProtocol protocol; /** Tells if the connection is embedded or not */ private final boolean isEmbedded; /** * Constructor of a Connection for MonetDB. At this moment the current implementation limits itself to storing the * given host, database, username and password for later use by the createStatement() call. This constructor is * only accessible to classes from the jdbc package. * * @throws IOException if an error occurs */ public MonetConnection(Properties props, String hash, IMonetDBLanguage language, boolean blobIsBinary, boolean clobIsLongChar) throws IOException { this.conn_props = props; this.hash = hash; this.language = language; this.blobIsBinary = blobIsBinary; this.clobIsLongChar = clobIsLongChar; //"instance of" should be cleanner, but this is faster. this.isEmbedded = props.getProperty("embedded", "false").equals("true"); } /** * Checks if the conection is embedded or not * * @return If the connection is embedded */ public boolean isEmbedded() { return isEmbedded; } /** * Gets the connection's language data. * * @return The connection's language data */ public IMonetDBLanguage getLanguage() { return language; } /** * Gets the connection's protocol. * * @return The connection's protocol */ public AbstractProtocol getProtocol() { return this.protocol; } /** * Connects to the server, authenticating the user. * * @param user The user name to authenticate * @param pass The user's password * @return A List with informational (warning) messages. If this list is empty; then there are no warnings. * @throws IOException if an I/O error occurs when creating the socket * @throws ProtocolException if bogus data is received * @throws MCLException if an MCL related error occurs */ public abstract List<String> connect(String user, String pass) throws IOException, ProtocolException, MCLException; /** * Gets the underlying connection block size length. * * @return The block size length */ public abstract int getBlockSize(); /** * Gets the underlying connection default fetch size for DataBlock responses. * * @return The default fetch size */ public abstract int getDefFetchsize(); /** * Gets the initial value for the StringBuilder size. * * @return The initial value for the StringBuilder size */ public abstract int initialStringBuilderSize(); /** * Gets the underlying connection socket timeout. * * @return The underlying connection socket timeout */ public abstract int getSoTimeout(); /** * Sets the underlying connection socket timeout. * * @param timeout The specified timeout, in milliseconds. A timeout of zero is interpreted as an infinite timeout */ public abstract void setSoTimeout(int timeout); /** * Closes the underlying connection implementation. * * @throws IOException if an I/O error occurs while closing the connection */ public abstract void closeUnderlyingConnection() throws IOException; /** * Gets the underlying connection JDBC String URL. * * @return The underlying connection JDBC String URL */ public abstract String getJDBCURL(); /** * Sends a control command to the server. * * @param commandID the command identifier according to {@link ControlCommands} listing * @param data The integer to send according to the control command * @throws SQLException if an IO exception or a database error occurs */ public abstract void sendControlCommand(int commandID, int data) throws SQLException; /** * Releases this Connection object's database and JDBC resources immediately instead of waiting for them to be * automatically released. All Statements created from this Connection will be closed when this method is called. * * Calling the method close on a Connection object that is already closed is a no-op. */ @Override public void close() { for (Statement st : statements.keySet()) { try { st.close(); } catch (SQLException e) { // better luck next time! } } // close the socket or the embedded server try { this.closeUnderlyingConnection(); } catch (IOException e) { // ignore it } // close active SendThread if any if (senderThread != null) { senderThread.shutdown(); senderThread = null; } // report ourselves as closed closed = true; } /** * Destructor called by garbage collector before destroying this object tries to disconnect the MonetDB connection * if it has not been disconnected already. */ @Override protected void finalize() throws Throwable { this.close(); super.finalize(); } //== methods of interface Connection /** * Clears all warnings reported for this Connection object. After a call to this method, the method getWarnings * returns null until a new warning is reported for this Connection object. */ @Override public void clearWarnings() { warnings = null; } private void createResponseList(String query) throws SQLException { // create a container for the result ResponseList l = new ResponseList(0, 0, ResultSet.FETCH_FORWARD, ResultSet.CONCUR_READ_ONLY); // send commit to the server try { l.processQuery(query); } finally { l.close(); } } /** * Makes all changes made since the previous commit/rollback permanent and releases any database locks currently * held by this Connection object. This method should be used only when auto-commit mode has been disabled. * * @throws SQLException if a database access error occurs or this Connection object is in auto-commit mode * @see #setAutoCommit(boolean) */ @Override public void commit() throws SQLException { // note: can't use sendIndependentCommand here because we need to process the auto_commit state the server gives this.createResponseList("COMMIT"); } /** * Creates a Statement object for sending SQL statements to the database. SQL statements without parameters are * normally executed using Statement objects. If the same SQL statement is executed many times, it may be more * efficient to use a PreparedStatement object. * * Result sets created using the returned Statement object will by default be type TYPE_FORWARD_ONLY and have a * concurrency level of CONCUR_READ_ONLY. * * @return a new default Statement object * @throws SQLException if a database access error occurs */ @Override public Statement createStatement() throws SQLException { return createStatement(ResultSet.TYPE_FORWARD_ONLY, ResultSet.CONCUR_READ_ONLY, ResultSet.HOLD_CURSORS_OVER_COMMIT); } /** * Creates a Statement object that will generate ResultSet objects with the given type and concurrency. This method * is the same as the createStatement method above, but it allows the default result set type and concurrency to be * overridden. * * @param resultSetType a result set type; one of ResultSet.TYPE_FORWARD_ONLY, ResultSet.TYPE_SCROLL_INSENSITIVE, * or ResultSet.TYPE_SCROLL_SENSITIVE * @param resultSetConcurrency a concurrency type; one of ResultSet.CONCUR_READ_ONLY or ResultSet.CONCUR_UPDATABLE * @return a new Statement object that will generate ResultSet objects with the given type and concurrency * @throws SQLException if a database access error occurs */ @Override public Statement createStatement(int resultSetType, int resultSetConcurrency) throws SQLException { return createStatement(resultSetType, resultSetConcurrency, ResultSet.HOLD_CURSORS_OVER_COMMIT); } /** * Creates a Statement object that will generate ResultSet objects * with the given type, concurrency, and holdability. This method * is the same as the createStatement method above, but it allows * the default result set type, concurrency, and holdability to be * overridden. * * @param resultSetType one of the following ResultSet constants: * ResultSet.TYPE_FORWARD_ONLY, ResultSet.TYPE_SCROLL_INSENSITIVE, * or ResultSet.TYPE_SCROLL_SENSITIVE * @param resultSetConcurrency one of the following ResultSet * constants: ResultSet.CONCUR_READ_ONLY or * ResultSet.CONCUR_UPDATABLE * @param resultSetHoldability one of the following ResultSet * constants: ResultSet.HOLD_CURSORS_OVER_COMMIT or * ResultSet.CLOSE_CURSORS_AT_COMMIT * * @return a new Statement object that will generate ResultSet * objects with the given type, concurrency, and holdability * @throws SQLException if a database access error occurs or the * given parameters are not ResultSet constants indicating type, * concurrency, and holdability */ @Override public Statement createStatement(int resultSetType, int resultSetConcurrency, int resultSetHoldability) throws SQLException { try { Statement ret = new MonetStatement(this, resultSetType, resultSetConcurrency, resultSetHoldability); // store it in the map for when we close... statements.put(ret, null); return ret; } catch (IllegalArgumentException e) { throw new SQLException(e.toString(), "M0M03"); } // we don't have to catch SQLException because that is declared to // be thrown } /** * Retrieves the current auto-commit mode for this Connection object. * * @return the current state of this Connection object's auto-commit mode * @see #setAutoCommit(boolean) */ @Override public boolean getAutoCommit() throws SQLException { return autoCommit; } /** * Retrieves this Connection object's current catalog name. * * @return the current catalog name or null if there is none * @throws SQLException if a database access error occurs or the current language is not SQL */ @Override public String getCatalog() throws SQLException { // MonetDB does NOT support catalogs return null; } /** * Retrieves the current holdability of ResultSet objects created using this Connection object. * * @return the holdability, one of ResultSet.HOLD_CURSORS_OVER_COMMIT or ResultSet.CLOSE_CURSORS_AT_COMMIT */ @Override public int getHoldability() { // TODO: perhaps it is better to have the server implement // CLOSE_CURSORS_AT_COMMIT return ResultSet.HOLD_CURSORS_OVER_COMMIT; } /** * Retrieves a DatabaseMetaData object that contains metadata about * the database to which this Connection object represents a * connection. The metadata includes information about the * database's tables, its supported SQL grammar, its stored * procedures, the capabilities of this connection, and so on. * * @throws SQLException if the current language is not SQL * @return a DatabaseMetaData object for this Connection object */ @Override public DatabaseMetaData getMetaData() throws SQLException { if (!this.language.getRepresentation().equals("sql")) { throw new SQLException("This method is only supported in SQL mode", "M0M04"); } return new MonetDatabaseMetaData(this); } /** * Retrieves this Connection object's current transaction isolation level. * * @return the current transaction isolation level, which will be Connection.TRANSACTION_SERIALIZABLE */ @Override public int getTransactionIsolation() { return TRANSACTION_SERIALIZABLE; } /** * Retrieves the Map object associated with this Connection object. Unless the application has added an entry, * the type map returned will be empty. * * @return the java.util.Map object associated with this Connection object */ @Override public Map<String,Class<?>> getTypeMap() { return typeMap; } /** * Retrieves the first warning reported by calls on this Connection * object. If there is more than one warning, subsequent warnings * will be chained to the first one and can be retrieved by calling * the method SQLWarning.getNextWarning on the warning that was * retrieved previously. * * This method may not be called on a closed connection; doing so will cause an SQLException to be thrown. * * Note: Subsequent warnings will be chained to this SQLWarning. * * @return the first SQLWarning object or null if there are none * @throws SQLException if a database access error occurs or this method is called on a closed connection */ @Override public SQLWarning getWarnings() throws SQLException { if (closed) { throw new SQLException("Cannot call on closed Connection", "M1M20"); } // if there are no warnings, this will be null, which fits with the specification. return warnings; } /** * Retrieves whether this Connection object has been closed. A * connection is closed if the method close has been called on it or * if certain fatal errors have occurred. This method is guaranteed * to return true only when it is called after the method * Connection.close has been called. * * This method generally cannot be called to determine whether a * connection to a database is valid or invalid. A typical client * can determine that a connection is invalid by catching any * exceptions that might be thrown when an operation is attempted. * * @return true if this Connection object is closed; false if it is still open */ @Override public boolean isClosed() { return closed; } /** * Retrieves whether this Connection object is in read-only mode. * MonetDB currently doesn't support updateable result sets, but * updates are possible. Hence the Connection object is never in * read-only mode. * * @return true if this Connection object is read-only; false otherwise */ @Override public boolean isReadOnly() { return false; } @Override public String nativeSQL(String sql) {return sql;} @Override public CallableStatement prepareCall(String sql) {return null;} @Override public CallableStatement prepareCall(String sql, int resultSetType, int resultSetConcurrency) {return null;} @Override public CallableStatement prepareCall(String sql, int resultSetType, int resultSetConcurrency, int resultSetHoldability) {return null;} /** * Creates a PreparedStatement object for sending parameterized SQL * statements to the database. * * A SQL statement with or without IN parameters can be pre-compiled * and stored in a PreparedStatement object. This object can then be * used to efficiently execute this statement multiple times. * * Note: This method is optimized for handling parametric SQL * statements that benefit from precompilation. If the driver * supports precompilation, the method prepareStatement will send * the statement to the database for precompilation. Some drivers * may not support precompilation. In this case, the statement may * not be sent to the database until the PreparedStatement object is * executed. This has no direct effect on users; however, it does * affect which methods throw certain SQLException objects. * * Result sets created using the returned PreparedStatement object * will by default be type TYPE_FORWARD_ONLY and have a concurrency * level of CONCUR_READ_ONLY. * * @param sql an SQL statement that may contain one or more '?' IN * parameter placeholders * @return a new default PreparedStatement object containing the * pre-compiled SQL statement * @throws SQLException if a database access error occurs */ @Override public PreparedStatement prepareStatement(String sql) throws SQLException { return prepareStatement(sql, ResultSet.TYPE_FORWARD_ONLY, ResultSet.CONCUR_READ_ONLY, ResultSet.HOLD_CURSORS_OVER_COMMIT); } /** * Creates a PreparedStatement object that will generate ResultSet * objects with the given type and concurrency. This method is the * same as the prepareStatement method above, but it allows the * default result set type and concurrency to be overridden. * * @param sql a String object that is the SQL statement to be sent to the * database; may contain one or more ? IN parameters * @param resultSetType a result set type; one of * ResultSet.TYPE_FORWARD_ONLY, ResultSet.TYPE_SCROLL_INSENSITIVE, * or ResultSet.TYPE_SCROLL_SENSITIVE * @param resultSetConcurrency a concurrency type; one of * ResultSet.CONCUR_READ_ONLY or ResultSet.CONCUR_UPDATABLE * @return a new PreparedStatement object containing the pre-compiled SQL * statement that will produce ResultSet objects with the given * type and concurrency * @throws SQLException if a database access error occurs or the given * parameters are not ResultSet constants indicating * type and concurrency */ @Override public PreparedStatement prepareStatement(String sql, int resultSetType, int resultSetConcurrency) throws SQLException { return prepareStatement(sql, resultSetType, resultSetConcurrency, ResultSet.HOLD_CURSORS_OVER_COMMIT); } /** * Creates a PreparedStatement object that will generate ResultSet * objects with the given type, concurrency, and holdability. * * This method is the same as the prepareStatement method above, but * it allows the default result set type, concurrency, and * holdability to be overridden. * * @param sql a String object that is the SQL statement to be sent * to the database; may contain one or more ? IN parameters * @param resultSetType one of the following ResultSet constants: * ResultSet.TYPE_FORWARD_ONLY, ResultSet.TYPE_SCROLL_INSENSITIVE, * or ResultSet.TYPE_SCROLL_SENSITIVE * @param resultSetConcurrency one of the following ResultSet * constants: ResultSet.CONCUR_READ_ONLY or * ResultSet.CONCUR_UPDATABLE * @param resultSetHoldability one of the following ResultSet * constants: ResultSet.HOLD_CURSORS_OVER_COMMIT or * ResultSet.CLOSE_CURSORS_AT_COMMIT * @return a new PreparedStatement object, containing the * pre-compiled SQL statement, that will generate ResultSet objects * with the given type, concurrency, and holdability * @throws SQLException if a database access error occurs or the * given parameters are not ResultSet constants indicating type, * concurrency, and holdability */ @Override public PreparedStatement prepareStatement(String sql, int resultSetType, int resultSetConcurrency, int resultSetHoldability) throws SQLException { try { PreparedStatement ret = new MonetPreparedStatement(this, resultSetType, resultSetConcurrency, resultSetHoldability, sql); // store it in the map for when we close... statements.put(ret, null); return ret; } catch (IllegalArgumentException e) { throw new SQLException(e.toString(), "M0M03"); } // we don't have to catch SQLException because that is declared to // be thrown } /** * Creates a default PreparedStatement object that has the * capability to retrieve auto-generated keys. The given constant * tells the driver whether it should make auto-generated keys * available for retrieval. This parameter is ignored if the SQL * statement is not an INSERT statement. * * Note: This method is optimized for handling parametric SQL * statements that benefit from precompilation. If the driver * supports precompilation, the method prepareStatement will send * the statement to the database for precompilation. Some drivers * may not support precompilation. In this case, the statement may * not be sent to the database until the PreparedStatement object is * executed. This has no direct effect on users; however, it does * affect which methods throw certain SQLExceptions. * * Result sets created using the returned PreparedStatement object * will by default be type TYPE_FORWARD_ONLY and have a concurrency * level of CONCUR_READ_ONLY. * * @param sql an SQL statement that may contain one or more '?' IN * parameter placeholders * @param autoGeneratedKeys a flag indicating whether auto-generated * keys should be returned; one of * Statement.RETURN_GENERATED_KEYS or * Statement.NO_GENERATED_KEYS * @return a new PreparedStatement object, containing the * pre-compiled SQL statement, that will have the capability * of returning auto-generated keys * @throws SQLException - if a database access error occurs or the * given parameter is not a Statement constant indicating * whether auto-generated keys should be returned */ @Override public PreparedStatement prepareStatement(String sql, int autoGeneratedKeys) throws SQLException { if (autoGeneratedKeys != Statement.RETURN_GENERATED_KEYS && autoGeneratedKeys != Statement.NO_GENERATED_KEYS) { throw new SQLException("Invalid argument, expected RETURN_GENERATED_KEYS or NO_GENERATED_KEYS", "M1M05"); } /* MonetDB has no way to disable this, so just do the normal thing ;) */ return prepareStatement(sql, ResultSet.TYPE_FORWARD_ONLY, ResultSet.CONCUR_READ_ONLY); } @Override public PreparedStatement prepareStatement(String sql, int[] columnIndexes) {return null;} @Override public PreparedStatement prepareStatement(String sql, String[] columnNames) {return null;} /** * Removes the given Savepoint object from the current transaction. * Any reference to the savepoint after it have been removed will * cause an SQLException to be thrown. * * @param savepoint the Savepoint object to be removed * @throws SQLException if a database access error occurs or the given * Savepoint object is not a valid savepoint in the current * transaction */ @Override public void releaseSavepoint(Savepoint savepoint) throws SQLException { if (!(savepoint instanceof MonetSavepoint)) { throw new SQLException("This driver can only handle savepoints it created itself", "M0M06"); } MonetSavepoint sp = (MonetSavepoint) savepoint; // note: can't use sendIndependentCommand here because we need // to process the auto_commit state the server gives // create a container for the result this.createResponseList("RELEASE SAVEPOINT " + sp.getName()); } /** * Undoes all changes made in the current transaction and releases * any database locks currently held by this Connection object. This * method should be used only when auto-commit mode has been * disabled. * * @throws SQLException if a database access error occurs or this * Connection object is in auto-commit mode * @see #setAutoCommit(boolean) */ @Override public void rollback() throws SQLException { // note: can't use sendIndependentCommand here because we need // to process the auto_commit state the server gives // create a container for the result this.createResponseList("ROLLBACK"); } /** * Undoes all changes made after the given Savepoint object was set. * * This method should be used only when auto-commit has been * disabled. * * @param savepoint the Savepoint object to roll back to * @throws SQLException if a database access error occurs, the * Savepoint object is no longer valid, or this Connection * object is currently in auto-commit mode */ @Override public void rollback(Savepoint savepoint) throws SQLException { if (!(savepoint instanceof MonetSavepoint)) { throw new SQLException("This driver can only handle savepoints it created itself", "M0M06"); } MonetSavepoint sp = (MonetSavepoint)savepoint; // note: can't use sendIndependentCommand here because we need // to process the auto_commit state the server gives // create a container for the result this.createResponseList("ROLLBACK TO SAVEPOINT " + sp.getName()); } /** * Sets this connection's auto-commit mode to the given state. If a * connection is in auto-commit mode, then all its SQL statements * will be executed and committed as individual transactions. * Otherwise, its SQL statements are grouped into transactions that * are terminated by a call to either the method commit or the * method rollback. By default, new connections are in auto-commit * mode. * * The commit occurs when the statement completes or the next * execute occurs, whichever comes first. In the case of statements * returning a ResultSet object, the statement completes when the * last row of the ResultSet object has been retrieved or the * ResultSet object has been closed. In advanced cases, a single * statement may return multiple results as well as output parameter * values. In these cases, the commit occurs when all results and * output parameter values have been retrieved. * * NOTE: If this method is called during a transaction, the * transaction is committed. * * @param autoCommit true to enable auto-commit mode; false to disable it * @throws SQLException if a database access error occurs * @see #getAutoCommit() */ @Override public void setAutoCommit(boolean autoCommit) throws SQLException { if (this.autoCommit != autoCommit) { this.sendControlCommand(ControlCommands.AUTO_COMMIT, (autoCommit ? 1 : 0)); this.autoCommit = autoCommit; } } /** * Sets the given catalog name in order to select a subspace of this * Connection object's database in which to work. If the driver * does not support catalogs, it will silently ignore this request. */ @Override public void setCatalog(String catalog) throws SQLException { throw new SQLFeatureNotSupportedException("setCatalog(String catalog) not supported", "0A000"); } /** * Changes the default holdability of ResultSet objects created using this * Connection object to the given holdability. The default holdability of * ResultSet objects can be be determined by invoking DatabaseMetaData.getResultSetHoldability(). * * @param holdability - a ResultSet holdability constant; one of * ResultSet.HOLD_CURSORS_OVER_COMMIT or * ResultSet.CLOSE_CURSORS_AT_COMMIT * @see #getHoldability() */ @Override public void setHoldability(int holdability) throws SQLException { // we only support ResultSet.HOLD_CURSORS_OVER_COMMIT if (holdability != ResultSet.HOLD_CURSORS_OVER_COMMIT) throw new SQLFeatureNotSupportedException("setHoldability(CLOSE_CURSORS_AT_COMMIT) not supported", "0A000"); } /** * Puts this connection in read-only mode as a hint to the driver to * enable database optimizations. MonetDB doesn't support any mode * here, hence an SQLWarning is generated if attempted to set * to true here. * * @param readOnly true enables read-only mode; false disables it * @throws SQLException if a database access error occurs or this * method is called during a transaction. */ @Override public void setReadOnly(boolean readOnly) throws SQLException { if (readOnly) { addWarning("cannot setReadOnly(true): read-only Connection mode not supported", "01M08"); } } /** * Creates an unnamed savepoint in the current transaction and * returns the new Savepoint object that represents it. * * @return the new Savepoint object * @throws SQLException if a database access error occurs or this Connection * object is currently in auto-commit mode */ @Override public Savepoint setSavepoint() throws SQLException { // create a new Savepoint object MonetSavepoint sp = new MonetSavepoint(); // note: can't use sendIndependentCommand here because we need // to process the auto_commit state the server gives // create a container for the result this.createResponseList("SAVEPOINT " + sp.getName()); return sp; } /** * Creates a savepoint with the given name in the current * transaction and returns the new Savepoint object that represents * it. * * @param name a String containing the name of the savepoint * @return the new Savepoint object * @throws SQLException if a database access error occurs or this Connection * object is currently in auto-commit mode */ @Override public Savepoint setSavepoint(String name) throws SQLException { // create a new Savepoint object MonetSavepoint sp; try { sp = new MonetSavepoint(name); } catch (IllegalArgumentException e) { throw new SQLException(e.getMessage(), "M0M03"); } // note: can't use sendIndependentCommand here because we need // to process the auto_commit state the server gives // create a container for the result this.createResponseList("SAVEPOINT " + sp.getName()); return sp; } /** * Attempts to change the transaction isolation level for this * Connection object to the one given. The constants defined in the * interface Connection are the possible transaction isolation * levels. * * @param level one of the following Connection constants: Connection.TRANSACTION_READ_UNCOMMITTED, * Connection.TRANSACTION_READ_COMMITTED, Connection.TRANSACTION_REPEATABLE_READ, or * Connection.TRANSACTION_SERIALIZABLE. */ @Override public void setTransactionIsolation(int level) { if (level != TRANSACTION_SERIALIZABLE) { addWarning("MonetDB only supports fully serializable " + "transactions, continuing with transaction level raised to TRANSACTION_SERIALIZABLE", "01M09"); } } /** * Installs the given TypeMap object as the type map for this * Connection object. The type map will be used for the custom * mapping of SQL structured types and distinct types. * * @param map the java.util.Map object to install as the replacement for * this Connection object's default type map */ @Override public void setTypeMap(Map<String, Class<?>> map) { typeMap = map; } /** * Returns a string identifying this Connection to the MonetDB server. * * @return a String representing this Object */ @Override public String toString() { return "MonetDB Connection (" + this.getJDBCURL() + ") " + (closed ? "disconnected" : "connected"); } //== Java 1.6 methods (JDBC 4.0) /** * Factory method for creating Array objects. * * Note: When createArrayOf is used to create an array object that * maps to a primitive data type, then it is implementation-defined * whether the Array object is an array of that primitive data type * or an array of Object. * * Note: The JDBC driver is responsible for mapping the elements * Object array to the default JDBC SQL type defined in * java.sql.Types for the given class of Object. The default mapping * is specified in Appendix B of the JDBC specification. If the * resulting JDBC type is not the appropriate type for the given * typeName then it is implementation defined whether an * SQLException is thrown or the driver supports the resulting conversion. * * @param typeName the SQL name of the type the elements of the * array map to. The typeName is a database-specific name * which may be the name of a built-in type, a user-defined * type or a standard SQL type supported by this database. * This is the value returned by Array.getBaseTypeName * @return an Array object whose elements map to the specified SQL type * @throws SQLException if a database error occurs, the JDBC type * is not appropriate for the typeName and the conversion is * not supported, the typeName is null or this method is * called on a closed connection * @throws SQLFeatureNotSupportedException the JDBC driver does * not support this data type * @since 1.6 */ @Override public java.sql.Array createArrayOf(String typeName, Object[] elements) throws SQLException { throw new SQLFeatureNotSupportedException("createArrayOf() not supported", "0A000"); } /** * Constructs an object that implements the Clob interface. The * object returned initially contains no data. The setAsciiStream, * setCharacterStream and setString methods of the Clob interface * may be used to add data to the Clob. * * @return a MonetClob instance * @throws SQLFeatureNotSupportedException the JDBC driver does * not support MonetClob objects that can be filled in * @since 1.6 */ @Override public java.sql.Clob createClob() throws SQLException { return new MonetClob(""); } /** * Constructs an object that implements the Blob interface. The * object returned initially contains no data. The setBinaryStream * and setBytes methods of the Blob interface may be used to add * data to the Blob. * * @return a MonetBlob instance * @throws SQLFeatureNotSupportedException the JDBC driver does * not support MonetBlob objects that can be filled in * @since 1.6 */ @Override public java.sql.Blob createBlob() throws SQLException { return new MonetBlob(new byte[1]); } /** * Constructs an object that implements the NClob interface. The * object returned initially contains no data. The setAsciiStream, * setCharacterStream and setString methods of the NClob interface * may be used to add data to the NClob. * * @return an NClob instance * @throws SQLFeatureNotSupportedException the JDBC driver does * not support MonetNClob objects that can be filled in * @since 1.6 */ @Override public java.sql.NClob createNClob() throws SQLException { throw new SQLFeatureNotSupportedException("createNClob() not supported", "0A000"); } /** * Factory method for creating Struct objects. * * @param typeName the SQL type name of the SQL structured type that * this Struct object maps to. The typeName is the name of a * user-defined type that has been defined for this database. * It is the value returned by Struct.getSQLTypeName. * @param attributes the attributes that populate the returned object * @return a Struct object that maps to the given SQL type and is * populated with the given attributes * @throws SQLException if a database error occurs, the typeName * is null or this method is called on a closed connection * @throws SQLFeatureNotSupportedException the JDBC driver does * not support this data type * @since 1.6 */ @Override public java.sql.Struct createStruct(String typeName, Object[] attributes) throws SQLException { throw new SQLFeatureNotSupportedException("createStruct() not supported", "0A000"); } /** * Constructs an object that implements the SQLXML interface. The * object returned initially contains no data. The * createXmlStreamWriter object and setString method of the SQLXML * interface may be used to add data to the SQLXML object. * * @return An object that implements the SQLXML interface * @throws SQLFeatureNotSupportedException the JDBC driver does * not support this data type * @since 1.6 */ @Override public java.sql.SQLXML createSQLXML() throws SQLException { throw new SQLFeatureNotSupportedException("createSQLXML() not supported", "0A000"); } /** * Returns true if the connection has not been closed and is still * valid. The driver shall submit a query on the connection or use * some other mechanism that positively verifies the connection is * still valid when this method is called. * * The query submitted by the driver to validate the connection * shall be executed in the context of the current transaction. * * @param timeout The time in seconds to wait for the database * operation used to validate the connection to complete. If * the timeout period expires before the operation completes, * this method returns false. A value of 0 indicates a * timeout is not applied to the database operation. * @return true if the connection is valid, false otherwise * @throws SQLException if the value supplied for timeout is less than 0 * @since 1.6 */ @Override public boolean isValid(int timeout) throws SQLException { if (timeout < 0) throw new SQLException("timeout is less than 0", "M1M05"); if (closed) return false; // ping db using query: select 1; Statement stmt = null; ResultSet rs = null; try { stmt = createStatement(); stmt.setQueryTimeout(timeout); rs = stmt.executeQuery("SELECT 1"); rs.close(); rs = null; stmt.close(); return true; } catch (Exception e) { if (rs != null) { try { rs.close(); } catch (Exception ignored) {} } if (stmt != null) { try { stmt.close(); } catch (Exception ignored) {} } } return false; } /** * Returns the value of the client info property specified by name. * This method may return null if the specified client info property * has not been set and does not have a default value. * This method will also return null if the specified client info * property name is not supported by the driver. * Applications may use the DatabaseMetaData.getClientInfoProperties method * to determine the client info properties supported by the driver. * * @param name - The name of the client info property to retrieve * @return The value of the client info property specified or null * @throws SQLException - if the database server returns an error * when fetching the client info value from the database * or this method is called on a closed connection * @since 1.6 */ @Override public String getClientInfo(String name) throws SQLException { if (name == null || name.isEmpty()) return null; return conn_props.getProperty(name); } /** * Returns a list containing the name and current value of each client info * property supported by the driver. The value of a client info property may * be null if the property has not been set and does not have a default value. * * @return A Properties object that contains the name and current value * of each of the client info properties supported by the driver. * @throws SQLException - if the database server returns an error * when fetching the client info value from the database * or this method is called on a closed connection * @since 1.6 */ @Override public Properties getClientInfo() throws SQLException { // return a clone of the connection properties object return new Properties(conn_props); } /** * Sets the value of the client info property specified by name to the value specified by value. * Applications may use the DatabaseMetaData.getClientInfoProperties method to determine * the client info properties supported by the driver and the maximum length that may be specified * for each property. * * The driver stores the value specified in a suitable location in the database. For example * in a special register, session parameter, or system table column. For efficiency the driver * may defer setting the value in the database until the next time a statement is executed * or prepared. Other than storing the client information in the appropriate place in the * database, these methods shall not alter the behavior of the connection in anyway. * The values supplied to these methods are used for accounting, diagnostics and debugging purposes only. * * The driver shall generate a warning if the client info name specified is not recognized by the driver. * * If the value specified to this method is greater than the maximum length for the property * the driver may either truncate the value and generate a warning or generate a SQLClientInfoException. * If the driver generates a SQLClientInfoException, the value specified was not set on the connection. * * The following are standard client info properties. Drivers are not required to support these * properties however if the driver supports a client info property that can be described by one * of the standard properties, the standard property name should be used. * * ApplicationName - The name of the application currently utilizing the connection * ClientUser - The name of the user that the application using the connection is performing work for. * This may not be the same as the user name that was used in establishing the connection. * ClientHostname - The hostname of the computer the application using the connection is running on. * * @param name - The name of the client info property to set * @param value - The value to set the client info property to. If the * value is null, the current value of the specified property is cleared. * @throws SQLClientInfoException - if the database server returns an error * while setting the clientInfo values on the database server * or this method is called on a closed connection * @since 1.6 */ @Override public void setClientInfo(String name, String value) throws java.sql.SQLClientInfoException { if (name == null || name.isEmpty()) { addWarning("setClientInfo: missing property name", "01M07"); return; } // If the value is null, the current value of the specified property is cleared. if (value == null) { if (conn_props.containsKey(name)) conn_props.remove(name); return; } // only set value for supported property names if (name.equals("host") || name.equals("port") || name.equals("user") || name.equals("password") || name.equals("database") || name.equals("language") || name.equals("so_timeout") || name.equals("hash") || name.equals("treat_blob_as_binary") || name.equals("follow_redirects") || name.equals("treat_clob_as_longvarchar") || name.equals("embedded") || name.equals("directory")) { conn_props.setProperty(name, value); } else { addWarning("setClientInfo: " + name + "is not a recognised property", "01M07"); } } /** * Sets the value of the connection's client info properties. * The Properties object contains the names and values of the client info * properties to be set. The set of client info properties contained in the * properties list replaces the current set of client info properties on the connection. * If a property that is currently set on the connection is not present in the * properties list, that property is cleared. Specifying an empty properties list * will clear all of the properties on the connection. * See setClientInfo (String, String) for more information. * * If an error occurs in setting any of the client info properties, a * SQLClientInfoException is thrown. The SQLClientInfoException contains information * indicating which client info properties were not set. The state of the client * information is unknown because some databases do not allow multiple client info * properties to be set atomically. For those databases, one or more properties may * have been set before the error occurred. * * @param props - The list of client info properties to set * @throws SQLClientInfoException - if the database server returns an error * while setting the clientInfo values on the database server * or this method is called on a closed connection * @since 1.6 */ @Override public void setClientInfo(Properties props) throws java.sql.SQLClientInfoException { if (props != null) { for (Map.Entry<Object, Object> entry : props.entrySet()) { setClientInfo(entry.getKey().toString(), entry.getValue().toString()); } } } //== Java 1.7 methods (JDBC 4.1) /** * Sets the given schema name to access. * * @param schema the name of a schema in which to work * @throws SQLException if a database access error occurs or this method is called on a closed connection * @since 1.7 */ @Override public void setSchema(String schema) throws SQLException { if (closed) throw new SQLException("Cannot call on closed Connection", "M1M20"); if (schema == null) throw new SQLException("Missing schema name", "M1M05"); try (Statement st = createStatement()) { st.execute("SET SCHEMA \"" + schema + "\""); } } /** * Retrieves this Connection object's current schema name. * * @return the current schema name or null if there is none * @throws SQLException if a database access error occurs or this method is called on a closed connection */ @Override public String getSchema() throws SQLException { if (closed) { throw new SQLException("Cannot call on closed Connection", "M1M20"); } String cur_schema; Statement st = createStatement(); ResultSet rs = null; try { rs = st.executeQuery("SELECT CURRENT_SCHEMA"); if (!rs.next()) throw new SQLException("Row expected", "02000"); cur_schema = rs.getString(1); } finally { if (rs != null) rs.close(); st.close(); } return cur_schema; } /** * Terminates an open connection. Calling abort results in: * * The connection marked as closed * * Closes any physical connection to the database * * Releases resources used by the connection * * Insures that any thread that is currently accessing the * connection will either progress to completion or throw an * SQLException. * Calling abort marks the connection closed and releases any * resources. Calling abort on a closed connection is a no-op. * * @param executor The Executor implementation which will be used by abort * @throws SQLException if a database access error occurs or the executor is null * @throws SecurityException if a security manager exists and its checkPermission method denies calling abort */ @Override public void abort(Executor executor) throws SQLException { if (closed) return; if (executor == null) throw new SQLException("executor is null", "M1M05"); // this is really the simplest thing to do, it destroys // everything (in particular the server connection) close(); } /** * Sets the maximum period a Connection or objects created from the * Connection will wait for the database to reply to any one * request. If any request remains unanswered, the waiting method * will return with a SQLException, and the Connection or objects * created from the Connection will be marked as closed. Any * subsequent use of the objects, with the exception of the close, * isClosed or Connection.isValid methods, will result in a * SQLException. * * @param executor The Executor implementation which will be used by setNetworkTimeout * @param millis The time in milliseconds to wait for the database operation to complete * @throws SQLException if a database access error occurs, this method is called on a closed connection, the * executor is null, or the value specified for seconds is less than 0. */ @Override public void setNetworkTimeout(Executor executor, int millis) throws SQLException { if (closed) { throw new SQLException("Cannot call on closed Connection", "M1M20"); } if (executor == null) throw new SQLException("executor is null", "M1M05"); if (millis < 0) throw new SQLException("milliseconds is less than zero", "M1M05"); this.setSoTimeout(millis); } /** * Retrieves the number of milliseconds the driver will wait for a database request to complete. If the limit is * exceeded, a SQLException is thrown. * * @return the current timeout limit in milliseconds; zero means there is no limit * @throws SQLException if a database access error occurs or this method is called on a closed Connection */ @Override public int getNetworkTimeout() throws SQLException { if (closed) { throw new SQLException("Cannot call on closed Connection", "M1M20"); } return this.getSoTimeout(); } //== end methods of interface Connection /** * Returns whether the BLOB type should be mapped to BINARY type. */ public boolean getBlobAsBinary() { return blobIsBinary; } /** * Returns whether the CLOB type should be mapped to LONGVARCHAR type. */ public boolean getClobAsLongChar() { return clobIsLongChar; } /** * Sends the given string to MonetDB as regular statement, making sure there is a prompt after the command is sent. * All possible returned information is discarded. Encountered errors are reported. * * @param command the exact string to send to MonetDB * @throws SQLException if an IO exception or a database error occurs */ void sendIndependentCommand(String command) throws SQLException { try { protocol.writeNextQuery(language.getQueryTemplateIndex(0), command, language.getQueryTemplateIndex(1)); protocol.waitUntilPrompt(); int csrh = protocol.getCurrentServerResponse(); if (csrh == ServerResponses.ERROR) { String error = protocol.getRemainingStringLine(0); throw new SQLException(error.substring(6), error.substring(0, 5)); } } catch (SocketTimeoutException e) { close(); // JDBC 4.1 semantics: abort() throw new SQLException("connection timed out", "08M33"); } catch (IOException e) { throw new SQLException(e.getMessage(), "08000"); } } /** * Adds a warning to the pile of warnings this Connection object has. If there were no warnings (or clearWarnings * was called) this warning will be the first, otherwise this warning will get appended to the current warning. * * @param reason the warning message */ protected void addWarning(String reason, String sqlstate) { if (warnings == null) { warnings = new SQLWarning(reason, sqlstate); } else { warnings.setNextWarning(new SQLWarning(reason, sqlstate)); } } /** * A list of Response objects. Responses are added to this list. Methods of this class are not synchronized. This is * left as responsibility to the caller to prevent concurrent access. */ public class ResponseList { /** The cache size (number of rows in a DataBlockResponse object) */ private final int cachesize; /** The maximum number of results for this query */ private final int maxrows; /** The ResultSet type to produce */ private final int rstype; /** The ResultSet concurrency to produce */ private final int rsconcur; /** The sequence number of this ResponseList */ private final int seqnr; /** A list of the Responses associated with the query, in the right order */ private final List<IResponse> responses = new ArrayList<>(); /** A map of ResultSetResponses, used for additional DataBlockResponse mapping */ private Map<Integer, ResultSetResponse> rsresponses; /** The current header returned by getNextResponse() */ private int curResponse = -1; /** * Main constructor. The query argument can either be a String or List. An SQLException is thrown if another * object instance is supplied. * * @param cachesize overall cachesize to use * @param maxrows maximum number of rows to allow in the set * @param rstype the type of result sets to produce * @param rsconcur the concurrency of result sets to produce */ ResponseList(int cachesize, int maxrows, int rstype, int rsconcur) { this.cachesize = cachesize; this.maxrows = maxrows; this.rstype = rstype; this.rsconcur = rsconcur; this.seqnr = SeqCounter++; } public int getCachesize() { return cachesize; } public int getRstype() { return rstype; } public int getRsconcur() { return rsconcur; } public int getMaxrows() { return maxrows; } /** * Retrieves the next available response, or null if there are no more responses. * * @return the next Response available or null */ IResponse getNextResponse() throws SQLException { if (rstype == ResultSet.TYPE_FORWARD_ONLY) { // free resources if we're running forward only if (curResponse >= 0 && curResponse < responses.size()) { IResponse tmp = responses.get(curResponse); if (tmp != null) { tmp.close(); } responses.set(curResponse, null); } } curResponse++; if (curResponse >= responses.size()) { // ResponseList is obviously completed so, there are no more responses return null; } else { // return this response return responses.get(curResponse); } } /** * Closes the Response at index i, if not null. * * @param i the index position of the header to close */ void closeResponse(int i) { if (i < 0 || i >= responses.size()) return; IResponse tmp = responses.set(i, null); if (tmp != null) tmp.close(); } /** * Closes the current response. */ void closeCurrentResponse() { closeResponse(curResponse); } /** * Closes the current and previous responses. */ void closeCurOldResponses() { for (int i = curResponse; i >= 0; i--) { closeResponse(i); } } /** * Closes this ResponseList by closing all the Responses in this ResponseList. */ public void close() { for (int i = 0; i < responses.size(); i++) { closeResponse(i); } } /** * Returns whether this ResponseList has still unclosed Responses. */ boolean hasUnclosedResponses() { for (IResponse r : responses) { if (r != null) return true; } return false; } /** * Executes the query contained in this ResponseList, and stores the Responses resulting from this query in this * ResponseList. * * @throws SQLException if a database error occurs */ void processQuery(String query) throws SQLException { this.executeQuery(language.getQueryTemplates(), query); } /** * Internal executor of queries. * * @param templ the template to fill in * @param query the query to execute * @throws SQLException if a database error occurs */ @SuppressWarnings("fallthrough") public void executeQuery(String[] templ, String query) throws SQLException { String error = null; try { // make sure we're ready to send query; read data till we have the prompt it is possible (and most // likely) that we already have the prompt and do not have to skip any lines. Ignore errors from // previous result sets. protocol.waitUntilPrompt(); // {{{ set reply size /* * Change the reply size of the server. If the given value is the same as the current value known * to use, then ignore this call. If it is set to 0 we get a prompt after the server sent it's * header. * * 2017: For now, in the embedded connection, the value set cachesize will be always the default one. */ int size = (cachesize != 0 && !isEmbedded) ? cachesize : MonetConnection.this.getDefFetchsize(); size = maxrows != 0 ? Math.min(maxrows, size) : size; // don't do work if it's not needed if (!isEmbedded && language.getRepresentation().equals("sql") && size != curReplySize && !Arrays.deepEquals(templ, language.getCommandTemplates())) { sendControlCommand(ControlCommands.REPLY_SIZE, size); // store the reply size after a successful change curReplySize = size; } // }}} set reply size // If the query is larger than the TCP buffer size, use a special send thread to avoid deadlock with // the server due to blocking behaviour when the buffer is full. Because the server will be writing // back results to us, it will eventually block as well when its TCP buffer gets full, as we are // blocking an not consuming from it. The result is a state where both client and server want to // write, but block. if (query.length() > getBlockSize()) { // get a reference to the send thread if (senderThread == null) { senderThread = new SenderThread(protocol); } // tell it to do some work! senderThread.runQuery(templ, query); } else { // this is a simple call, which is a lot cheaper and will always succeed for small queries. protocol.writeNextQuery((templ[0] == null) ? "" : templ[0], query, (templ[1] == null) ? "" : templ[1]); } // go for new results protocol.fetchNextResponseData(); int nextResponse = protocol.getCurrentServerResponse(); IResponse res = null; while (nextResponse != ServerResponses.PROMPT) { // each response should start with a start of header (or error) switch (nextResponse) { case ServerResponses.SOHEADER: // make the response object, and fill it int nextStartHeader = protocol.getNextStarterHeader(); try { switch (nextStartHeader) { case StarterHeaders.Q_PARSE: throw new ProtocolException("Q_PARSE header not allowed here"); case StarterHeaders.Q_TABLE: case StarterHeaders.Q_PREPARE: { res = protocol.getNextResultSetResponse(MonetConnection.this, ResponseList.this, this.seqnr, this.maxrows); ResultSetResponse rsreponse = (ResultSetResponse) res; if (rsresponses == null) { rsresponses = new HashMap<>(); } rsresponses.put(rsreponse.getId(), rsreponse); } break; case StarterHeaders.Q_UPDATE: res = protocol.getNextUpdateResponse(); break; case StarterHeaders.Q_SCHEMA: res = protocol.getNextSchemaResponse(); break; case StarterHeaders.Q_TRANS: res = protocol.getNextAutoCommitResponse(); boolean isAutoCommit = ((AutoCommitResponse) res).isAutocommit(); if (MonetConnection.this.getAutoCommit() && isAutoCommit) { MonetConnection.this.addWarning("Server enabled auto commit mode " + "while local state already was auto commit.", "01M11"); } MonetConnection.this.autoCommit = isAutoCommit; break; case StarterHeaders.Q_BLOCK: { AbstractDataBlockResponse next = protocol.getNextDatablockResponse(rsresponses); if (next == null) { error = "M0M12!No ResultSetResponse for a DataBlock found"; break; } res = next; } break; } } catch (ProtocolException e) { error = "M0M10!error while parsing start of header:\n" + e.getMessage() + " found: '" + protocol.getRemainingStringLine(0).charAt(e.getErrorOffset()) + "'" + " in: \"" + protocol.getRemainingStringLine(0) + "\"" + " at pos: " + e.getErrorOffset(); // flush all the rest protocol.waitUntilPrompt(); nextResponse = protocol.getCurrentServerResponse(); break; } // immediately handle errors after parsing the header (res may be null) if (error != null) { protocol.waitUntilPrompt(); nextResponse = protocol.getCurrentServerResponse(); break; } // here we have a res object, which we can start filling if (res instanceof IIncompleteResponse) { IIncompleteResponse iter = (IIncompleteResponse) res; while (iter.wantsMore()) { try { protocol.fetchNextResponseData(); iter.addLines(protocol); } catch (ProtocolException ex) { // right, some protocol violation, skip the rest of the result error = "M0M10!" + ex.getMessage(); protocol.waitUntilPrompt(); nextResponse = protocol.getCurrentServerResponse(); break; } } } if (error != null) { break; } // it is of no use to store DataBlockResponses, you never want to retrieve them directly // anyway if (!(res instanceof AbstractDataBlockResponse)) { responses.add(res); } // read the next line (can be prompt, new result, error, etc.) before we start the loop over protocol.fetchNextResponseData(); nextResponse = protocol.getCurrentServerResponse(); break; case ServerResponses.INFO: addWarning(protocol.getRemainingStringLine(0), "01000"); // read the next line (can be prompt, new result, error, etc.) before we start the loop over protocol.fetchNextResponseData(); nextResponse = protocol.getCurrentServerResponse(); break; case ServerResponses.ERROR: // read everything till the prompt (should be error) we don't know if we ignore some // garbage here... but the log should reveal that error = protocol.getRemainingStringLine(0); protocol.waitUntilPrompt(); nextResponse = protocol.getCurrentServerResponse(); break; default: throw new SQLException("Protocol violation, unexpected line!", "M0M10"); } } // if we used the senderThread, make sure it has finished if (senderThread != null) { String tmp = senderThread.getErrors(); if (tmp != null) { if (error == null) { error = "08000!" + tmp; } else { error += "\n08000!" + tmp; } } } if (error != null) { SQLException ret = null; String[] errorsList = error.split("\n"); for (String singleError : errorsList) { String reason = isEmbedded() ? singleError : singleError.substring(6); String sqlState = isEmbedded() ? "M0M10" : singleError.substring(0, 5); if (ret == null) { ret = new SQLException(reason, sqlState); } else { ret.setNextException(new SQLException(reason, sqlState)); } } throw ret; } } catch (SocketTimeoutException e) { this.close(); // JDBC 4.1 semantics, abort() throw new SQLException("connection timed out", "08M33"); } catch (IOException e) { closed = true; throw new SQLException(e.getMessage() + " (mserver still alive?)", "08000"); } } } }