#ifndef CSERVER_H #define CSERVER_H #include "IServer.h" #include "IPrimaryScreenReceiver.h" #include "CConfig.h" #include "CClipboard.h" #include "CCondVar.h" #include "CMutex.h" #include "CThread.h" #include "stdlist.h" #include "stdmap.h" class CClientProxy; class CHTTPServer; class CPrimaryClient; class IClient; class IDataSocket; class IServerProtocol; class ISocketFactory; class ISecurityFactory; //! Synergy server /*! This class implements the top-level server algorithms for synergy. */ class CServer : public IServer, public IPrimaryScreenReceiver { public: /*! The server will look itself up in the configuration using \c serverName as its name. */ CServer(const CString& serverName); ~CServer(); //! @name manipulators //@{ //! Open server /*! Open the server and return true iff successful. */ bool open(); //! Server main loop /*! Run server's event loop and return when exitMainLoop() is called. This must be called between a successful open() and close(). (cancellation point) */ void mainLoop(); //! Exit event loop /*! Force mainLoop() to return. This call can return before mainLoop() does (i.e. asynchronously). This may only be called between a successful open() and close(). */ void exitMainLoop(); //! Close server /*! Close the server. */ void close(); //! Set configuration /*! Change the server's configuration. Returns true iff the new configuration was accepted (it must include the server's name). This will disconnect any clients no longer in the configuration. */ bool setConfig(const CConfig&); //@} //! @name accessors //@{ //! Get configuration /*! Returns the current configuration. */ void getConfig(CConfig*) const; //! Get name /*! Returns the server's name passed to the c'tor */ CString getPrimaryScreenName() const; //@} // IServer overrides virtual void onError(); virtual void onInfoChanged(const CString&, const CClientInfo&); virtual bool onGrabClipboard(const CString&, ClipboardID, UInt32); virtual void onClipboardChanged(ClipboardID, UInt32, const CString&); // IPrimaryScreenReceiver overrides virtual void onScreensaver(bool activated); virtual void onKeyDown(KeyID, KeyModifierMask); virtual void onKeyUp(KeyID, KeyModifierMask); virtual void onKeyRepeat(KeyID, KeyModifierMask, SInt32 count); virtual void onMouseDown(ButtonID); virtual void onMouseUp(ButtonID); virtual bool onMouseMovePrimary(SInt32 x, SInt32 y); virtual void onMouseMoveSecondary(SInt32 dx, SInt32 dy); virtual void onMouseWheel(SInt32 delta); protected: //! Handle special keys /*! Handles keys with special meaning. */ bool onCommandKey(KeyID, KeyModifierMask, bool down); private: typedef std::list CThreadList; // get the sides of the primary screen that have neighbors UInt32 getActivePrimarySides() const; // handle mouse motion bool onMouseMovePrimaryNoLock(SInt32 x, SInt32 y); void onMouseMoveSecondaryNoLock(SInt32 dx, SInt32 dy); // set the clipboard void onClipboardChangedNoLock(ClipboardID, UInt32 seqNum, const CString& data); // returns true iff mouse should be locked to the current screen bool isLockedToScreenNoLock() const; // change the active screen void switchScreen(IClient*, SInt32 x, SInt32 y, bool forScreenSaver); // lookup neighboring screen IClient* getNeighbor(IClient*, EDirection) const; // lookup neighboring screen. given a position relative to the // source screen, find the screen we should move onto and where. // if the position is sufficiently far from the source then we // cross multiple screens. if there is no suitable screen then // return NULL and x,y are not modified. IClient* getNeighbor(IClient*, EDirection, SInt32& x, SInt32& y) const; // open/close the primary screen void openPrimaryScreen(); void closePrimaryScreen(); // update the clipboard if owned by the primary screen void updatePrimaryClipboard(ClipboardID); // close all clients that are *not* in config, not including the // primary client. void closeClients(const CConfig& config); // start a thread, adding it to the list of threads CThread startThread(IJob* adopted); // cancel running threads, waiting at most timeout seconds for // them to finish. void stopThreads(double timeout = -1.0); // reap threads, clearing finished threads from the thread list. // doReapThreads does the work on the given thread list. void reapThreads(); void doReapThreads(CThreadList&); // thread method to accept incoming client connections void acceptClients(void*); // thread method to do client interaction void runClient(void*); CClientProxy* handshakeClient(IDataSocket*); // thread method to accept incoming HTTP connections void acceptHTTPClients(void*); // thread method to process HTTP requests void processHTTPRequest(void*); // connection list maintenance void addConnection(IClient*); void removeConnection(const CString& name); private: class CClipboardInfo { public: CClipboardInfo(); public: CClipboard m_clipboard; CString m_clipboardData; CString m_clipboardOwner; UInt32 m_clipboardSeqNum; }; CMutex m_mutex; // the name of the primary screen CString m_name; // how long to wait to bind our socket until we give up double m_bindTimeout; ISocketFactory* m_socketFactory; ISecurityFactory* m_securityFactory; // running threads CThreadList m_threads; CThread* m_acceptClientThread; // the screens typedef std::map CClientList; typedef std::map CClientThreadList; // all clients indexed by name CClientList m_clients; // run thread of all secondary screen clients. does not include the // primary screen's run thread. CClientThreadList m_clientThreads; // the primary screen client CPrimaryClient* m_primaryClient; // the client with focus IClient* m_active; // the sequence number of enter messages UInt32 m_seqNum; // current mouse position (in absolute secondary screen coordinates) SInt32 m_x, m_y; // current configuration CConfig m_config; // clipboard cache CClipboardInfo m_clipboards[kClipboardEnd]; // state saved when screen saver activates IClient* m_activeSaver; SInt32 m_xSaver, m_ySaver; // HTTP request processing stuff CHTTPServer* m_httpServer; CCondVar m_httpAvailable; static const SInt32 s_httpMaxSimultaneousRequests; }; #endif