package SQLite.JDBC2z; import java.sql.*; import java.util.*; public class JDBCStatement implements java.sql.Statement { protected JDBCConnection conn; protected JDBCResultSet rs; protected int updcnt; protected int maxrows = 0; private ArrayList batch; public JDBCStatement(JDBCConnection conn) { this.conn = conn; this.updcnt = 0; this.rs = null; this.batch = null; } public void setFetchSize(int fetchSize) throws SQLException { if (fetchSize != 1) { throw new SQLException("fetch size not 1"); } } public int getFetchSize() throws SQLException { return 1; } public int getMaxRows() throws SQLException { return maxrows; } public void setMaxRows(int max) throws SQLException { if (max < 0) { throw new SQLException("max must be >= 0 (was " + max + ")"); } maxrows = max; } public void setFetchDirection(int fetchDirection) throws SQLException { throw new SQLException("not supported"); } public int getFetchDirection() throws SQLException { return ResultSet.FETCH_UNKNOWN; } public int getResultSetConcurrency() throws SQLException { return ResultSet.CONCUR_READ_ONLY; } public int getResultSetType() throws SQLException { return ResultSet.TYPE_SCROLL_INSENSITIVE; } public void setQueryTimeout(int seconds) throws SQLException { // BEGIN android-changed: more closely follow specification: // "[throws SQLException if] this method is called on a closed Statement or the condition // seconds >= 0 is not satisfied" // (http://java.sun.com/javase/6/docs/api/java/sql/Statement.html#setQueryTimeout(int)) if (isClosed()) { throw new SQLException("can't set a query timeout on a closed statement"); } else if (seconds < 0) { throw new SQLException("can't set a query timeout of less than 0 seconds"); } else if (seconds == 0) { // An argument of 0 seconds should set an unlimited timeout. However, since this was not // done previously, I assume it isn't implemented and use the same implementation. conn.timeout = 5000; } else { conn.timeout = seconds * 1000; } // END android-changed } public int getQueryTimeout() throws SQLException { return conn.timeout / 1000; // android-changed: should return seconds } public ResultSet getResultSet() throws SQLException { return rs; } ResultSet executeQuery(String sql, String args[], boolean updonly) throws SQLException { SQLite.TableResult tr = null; if (rs != null) { rs.close(); rs = null; } updcnt = -1; if (conn == null || conn.db == null) { throw new SQLException("stale connection"); } int busy = 0; boolean starttrans = !conn.autocommit && !conn.intrans; while (true) { try { if (starttrans) { conn.db.exec("BEGIN TRANSACTION", null); conn.intrans = true; } if (args == null) { if (updonly) { conn.db.exec(sql, null); } else { tr = conn.db.get_table(sql, maxrows); } } else { if (updonly) { conn.db.exec(sql, null, args); } else { tr = conn.db.get_table(sql, maxrows, args); } } updcnt = (int) conn.db.changes(); } catch (SQLite.Exception e) { if (conn.db.is3() && conn.db.last_error() == SQLite.Constants.SQLITE_BUSY && conn.busy3(conn.db, ++busy)) { try { if (starttrans && conn.intrans) { conn.db.exec("ROLLBACK", null); conn.intrans = false; } } catch (SQLite.Exception ee) { } try { int ms = 20 + busy * 10; if (ms > 1000) { ms = 1000; } synchronized (this) { this.wait(ms); } } catch (java.lang.Exception eee) { } continue; } throw new SQLException(e.toString()); } break; } if (!updonly && tr == null) { throw new SQLException("no result set produced"); } if (!updonly && tr != null) { rs = new JDBCResultSet(new TableResultX(tr), this); } return rs; } public ResultSet executeQuery(String sql) throws SQLException { return executeQuery(sql, null, false); } public boolean execute(String sql) throws SQLException { return executeQuery(sql) != null; } public void cancel() throws SQLException { if (conn == null || conn.db == null) { throw new SQLException("stale connection"); } conn.db.interrupt(); } public void clearWarnings() throws SQLException { } public Connection getConnection() throws SQLException { return conn; } public void addBatch(String sql) throws SQLException { if (batch == null) { batch = new ArrayList(1); } batch.add(sql); } public int[] executeBatch() throws SQLException { if (batch == null) { return new int[0]; } int[] ret = new int[batch.size()]; for (int i = 0; i < ret.length; i++) { ret[i] = EXECUTE_FAILED; } int errs = 0; for (int i = 0; i < ret.length; i++) { try { execute((String) batch.get(i)); ret[i] = updcnt; } catch (SQLException e) { ++errs; } } if (errs > 0) { throw new BatchUpdateException("batch failed", ret); } return ret; } public void clearBatch() throws SQLException { if (batch != null) { batch.clear(); batch = null; } } public void close() throws SQLException { clearBatch(); conn = null; } public int executeUpdate(String sql) throws SQLException { executeQuery(sql, null, true); return updcnt; } public int getMaxFieldSize() throws SQLException { return 0; } public boolean getMoreResults() throws SQLException { if (rs != null) { rs.close(); rs = null; } return false; } public int getUpdateCount() throws SQLException { return updcnt; } public SQLWarning getWarnings() throws SQLException { return null; } public void setCursorName(String name) throws SQLException { throw new SQLFeatureNotSupportedException(); } public void setEscapeProcessing(boolean enable) throws SQLException { throw new SQLException("not supported"); } public void setMaxFieldSize(int max) throws SQLException { throw new SQLException("not supported"); } public boolean getMoreResults(int x) throws SQLException { throw new SQLFeatureNotSupportedException(); } public ResultSet getGeneratedKeys() throws SQLException { throw new SQLFeatureNotSupportedException(); } public int executeUpdate(String sql, int autokeys) throws SQLException { if (autokeys != Statement.NO_GENERATED_KEYS) { throw new SQLFeatureNotSupportedException("generated keys not supported"); } return executeUpdate(sql); } public int executeUpdate(String sql, int colIndexes[]) throws SQLException { throw new SQLFeatureNotSupportedException(); } public int executeUpdate(String sql, String colIndexes[]) throws SQLException { throw new SQLFeatureNotSupportedException(); } public boolean execute(String sql, int autokeys) throws SQLException { if (autokeys != Statement.NO_GENERATED_KEYS) { throw new SQLFeatureNotSupportedException("autogenerated keys not supported"); } return execute(sql); } public boolean execute(String sql, int colIndexes[]) throws SQLException { throw new SQLFeatureNotSupportedException(); } public boolean execute(String sql, String colIndexes[]) throws SQLException { throw new SQLFeatureNotSupportedException(); } public int getResultSetHoldability() throws SQLException { return ResultSet.HOLD_CURSORS_OVER_COMMIT; } public boolean isClosed() throws SQLException { return conn == null; // android-changed: pretty sure this is correct, since it matches what's done in close() } public void setPoolable(boolean yes) throws SQLException { if (yes) { throw new SQLException("poolable statements not supported"); } } public boolean isPoolable() throws SQLException { return false; } public T unwrap(java.lang.Class iface) throws SQLException { throw new SQLException("unsupported"); } public boolean isWrapperFor(java.lang.Class iface) throws SQLException { return false; } }