internal string ConnectedToAddr; // The address of the device to which this connection is connected to //--// /// <summary> /// Creates a new BTConnection that is associated with the specified BTManager. /// </summary> /// <param name="manager"> /// The BTManager /// </param> public BTConnection(BTManager manager) { m_manager = manager; m_commandQueue = new ArrayList(); m_disposed = false; Connected = false; IsMaster = false; ConnectedToAddr = null; }
/// <summary> /// Creates a new instance of BTManager. Locks the BTManager type so that only one /// manager can be created. /// </summary> /// <param name="driver"> /// The BTDriver to be used to communicate with the underlying Bluetooth chip. /// </param> /// <param name="pp"> /// The power policy to be used while managing connections. /// </param> /// <returns> /// The singleton instance of BTManager /// </returns> public static BTManager GetManager(BTDriver driver, IPowerPolicy pp) { if (null == s_manager) { lock (typeof(BTManager)) { if (null == s_manager) { s_manager = new BTManager(driver, pp); } } } return(s_manager); }
public void Dispose() { if (!m_disposed) { // Shut down worker thread m_outstandingConnections.Clear(); m_newCommand.Set(); m_scheduler.Join(); // Release HW resources m_driver.Disconnect(); m_driver.Dispose(); } s_manager = null; m_disposed = true; }
/// <summary> /// Creates a new instance of BTManager. Locks the BTManager type so that only one /// manager can be created. /// </summary> /// <param name="driver"> /// The BTDriver to be used to communicate with the underlying Bluetooth chip. /// </param> /// <param name="pp"> /// The power policy to be used while managing connections. /// </param> /// <returns> /// The singleton instance of BTManager /// </returns> public static BTManager GetManager(BTDriver driver, IPowerPolicy pp) { if (null == s_manager) { lock (typeof(BTManager)) { if (null == s_manager) { s_manager = new BTManager(driver, pp); } } } return s_manager; }