/* private constructor */ private TrackServer(int tcpPorts[], int udpPorts[], int commandPort) throws Throwable { int listeners = 0; // Start TCP listeners if (!ListTools.isEmpty(tcpPorts)) { for (int i = 0; i < tcpPorts.length; i++) { int port = tcpPorts[i]; if (ServerSocketThread.isValidPort(port)) { try { this._startTCP(port); listeners++; } catch (java.net.BindException be) { Print.logError("TCP: Error binding to port: %d", port); } } else { throw new Exception("TCP: Invalid port number: " + port); } } } // Start UDP listeners if (!ListTools.isEmpty(udpPorts)) { for (int i = 0; i < udpPorts.length; i++) { int port = udpPorts[i]; if (ServerSocketThread.isValidPort(port)) { try { ServerSocketThread sst = this._startUDP(port); if (this.udpSocket == null) { this.udpSocket = sst.getDatagramSocket(); } listeners++; } catch (java.net.BindException be) { Print.logError("UDP: Error binding to port: %d", port); } } else { throw new Exception("UDP: Invalid port number: " + port); } } } /* do we have any active listeners? */ if (listeners <= 0) { Print.logWarn("No active device communication listeners!"); } }
public static String GetPropertyString_OBDII(long dtcFault[]) { if (ListTools.isEmpty(dtcFault)) { return GetPropertyString_OBDII(""); } else { java.util.List<String> dtc = new Vector<String>(); for (int i = 0; i < dtcFault.length; i++) { if (dtcFault[i] != 0L) { dtc.add(GetFaultString(dtcFault[i])); } } return GetPropertyString_OBDII(dtc); } }
/** * ** Returns true if this key fully defines all key fields ** @return True if this key fully * defines all key fields */ public boolean isFullKey() { DBField kfld[] = this.getKeyFields(); if (ListTools.isEmpty(kfld)) { return false; } else { DBFieldValues fldVals = this.getFieldValues(); // hasPartialKey for (int i = 0; i < kfld.length; i++) { String fldName = kfld[i].getName(); if (!fldVals.hasFieldValue(fldName)) { return false; } } return true; } }
/** * ** Return the 'WHERE' clause for this key [CHECK] ** @param altIndexName The alternate index * name. If null or blank, uses ** primary keys instead ** @param whereKeyType The where key type. * One of the constants from DBWhere ** @return The 'WHERE' clause for this key */ protected String _getWhereClause( String altIndexName, int whereKeyType) // boolean fullKeyRequired) throws DBException { /* key fields */ boolean usePrimaryKey = StringTools.isBlank(altIndexName); DBField keyFlds[] = usePrimaryKey ? this.getKeyFields() : this.getAltKeyFields(altIndexName); if (ListTools.isEmpty(keyFlds)) { throw new DBException("No keys found!"); } /* WHERE */ DBWhere dwh = new DBWhere(this.getFactory()); DBFieldValues fldVals = this.getFieldValues(); int keyCnt = 0; boolean hasPartialKey = false; for (int i = 0; i < keyFlds.length; i++) { String fldName = keyFlds[i].getName(); if (fldVals.hasFieldValue(fldName)) { if (!hasPartialKey || (whereKeyType == DBWhere.KEY_PARTIAL_ALL)) { String fev = dwh.EQ(fldName, fldVals.getFieldValueAsString(fldName)); if (keyCnt > 0) { dwh.append(dwh.AND_(fev)); } else { dwh.append(fev); } keyCnt++; } else { // whereKeyType == DBWhere.KEY_PARTIAL_FIRST, and we found a subsequent key String m = "Additional partial key in 'WHERE' clause! [" + this.getTableName() + "." + fldName + "]"; // throw new DBException(m); // TODO: Print.logWarn("******************************************************************"); Print.logWarn(m); // Print.logWarn(StringTools.join(keyFlds,",")); // Print.logStackTrace(m); Print.logWarn("******************************************************************"); } } else if ((i == 0) && (whereKeyType != DBWhere.KEY_PARTIAL_ALL_EMPTY)) { // // missing first key if (keyFlds[i].isAutoIncrement()) { // first key is an "auto_increment" and it is not present // assume that we are expecting the DB server to create this value for us, thus the key // dow not exist // However, there is nothing we can do about this here. String m = "First key field for 'WHERE' clause is 'auto_increment' and field is not present [" + this.getTableName() + "." + fldName + "]"; throw new DBException(m); } else { String m = "Missing first key field for 'WHERE' clause! [" + this.getTableName() + "." + fldName + "]"; throw new DBException(m); } } else if (whereKeyType == DBWhere.KEY_FULL) { // missing a key when all keys are required String m = "Missing key for 'WHERE' clause! [" + this.getTableName() + "." + fldName + "]"; throw new DBException(m); } else { // only a portion of the key has been specified. // This is a common occurance deleting an Account/Device with sub-dependencies // Print.logWarn("Key field not specified: " + this.getTableName() + "." + fldName); hasPartialKey = true; } } return (keyCnt > 1) ? dwh.WHERE(dwh.toString()) : dwh.WHERE_(dwh.toString()); }
/** * ** Returns true if the specified key attribute exists in the table ** @param altIndexName The * alternate index name, or null to use the primary index ** @param whereKeyType The partial key * match type ** @return True if the specified key attribute exists in the table, false otherwise */ protected boolean _exists(String altIndexName, int whereKeyType) throws SQLException, DBException { /* key fields */ boolean usePrimaryKey = StringTools.isBlank(altIndexName); DBField kfld[] = usePrimaryKey ? this.getKeyFields() : this.getAltKeyFields(altIndexName); if (ListTools.isEmpty(kfld)) { throw new DBException("No keys found!"); } /* check last key for "auto_increment" */ if (whereKeyType == DBWhere.KEY_FULL) { DBField lastField = kfld[kfld.length - 1]; if (lastField.isAutoIncrement() && !this.getFieldValues().hasFieldValue(lastField.getName())) { // full key requested and last key is auto_increment, which is missing return false; } } // DBSelect: SELECT <Keys> FROM <TableName> <KeyWhere> String firstKey = kfld[0].getName(); DBSelect<gDBR> dsel = new DBSelect<gDBR>(this.getFactory()); dsel.setSelectedFields(firstKey); dsel.setWhere(this._getWhereClause(altIndexName, whereKeyType)); /* get keyed record */ DBConnection dbc = null; Statement stmt = null; ResultSet rs = null; boolean exists = false; try { dbc = DBConnection.getDefaultConnection(); stmt = dbc.execute(dsel.toString()); // may throw DBException rs = stmt.getResultSet(); exists = rs.next(); } catch (SQLException sqe) { if (sqe.getErrorCode() == DBFactory.SQLERR_TABLE_NOTLOCKED) { // MySQL: This case has been seen on rare occasions. Not sure what causes it. Print.logError("SQL Lock Error: " + sqe); Print.logError("Hackery! Forcing lock on table: " + this.getTableName()); if (DBProvider.lockTableForRead(this.getTableName(), true)) { // may throw DBException stmt = dbc.execute(dsel.toString()); // may throw SQLException, DBException rs = stmt.getResultSet(); // SQLException exists = rs.next(); // SQLException DBProvider.unlockTables(); // DBException } } else { throw sqe; } } finally { if (rs != null) { try { rs.close(); } catch (Throwable t) { } } if (stmt != null) { try { stmt.close(); } catch (Throwable t) { } } DBConnection.release(dbc); } return exists; }
/** * ** Returns true if any tagged field names have been defined ** @return True if any tagged field * names have been defined */ public boolean hasTaggedFields() { return !ListTools.isEmpty(this.taggedFields); }
public static String GetPropertyString_OBDII(java.util.List<String> dtc) { String dtcStr = !ListTools.isEmpty(dtc) ? StringTools.join(dtc, ",") : ""; return GetPropertyString_OBDII(dtcStr); }
public static String GetPropertyString_OBDII(String dtc[]) { String dtcStr = !ListTools.isEmpty(dtc) ? StringTools.join(dtc, ",") : ""; return GetPropertyString_OBDII(dtcStr); }