/* -*- C++ -*- */ // $Id$ // ============================================================================ // // = LIBRARY // ace // // = FILENAME // ACE_Strategies_T.h // // = AUTHOR // Doug Schmidt // // ============================================================================ #if !defined (ACE_STRATEGIES_T_H) #define ACE_STRATEGIES_T_H #include "ace/Service_Config.h" template class ACE_Creation_Strategy // = TITLE // Defines the interface for specifying a creation strategy for // a SVC_HANDLER. // // = DESCRIPTION // The default behavior is to make a new SVC_HANDLER. However, // subclasses can override this strategy to perform SVC_HANDLER // creation in any way that they like (such as creating subclass // instances of SVC_HANDLER, using a singleton, dynamically // linking the handler, etc.). { public: // = Initialization and termination methods. ACE_Creation_Strategy (ACE_Thread_Manager * = 0); // Default constructor. int open (ACE_Thread_Manager * = 0); // A is useful when creating active objects. virtual ~ACE_Creation_Strategy (void); // = Factory method. virtual SVC_HANDLER *make_svc_handler (void); // Create a SVC_HANDLER with the appropriate creation strategy. The // default behavior of this method is to make a new SVC_HANDLER, // passing in the Thread_Manager (if any). void dump (void) const; // Dump the state of an object. ACE_ALLOC_HOOK_DECLARE; // Declare the dynamic allocation hooks. protected: ACE_Thread_Manager *thr_mgr_; }; template class ACE_Singleton_Strategy : public ACE_Creation_Strategy // = TITLE // Defines the interface for specifying a creation strategy for // a that always returns the same (i.e., // it's a Singleton). // // = DESCRIPTION // Note that this class takes over the ownership of the // SVC_HANDLER passed into it as a parameter and it becomes // responsible for deleting this object. { public: // = Initialization and termination methods. ACE_Singleton_Strategy (SVC_HANDLER * = 0, ACE_Thread_Manager * = 0); int open (SVC_HANDLER *, ACE_Thread_Manager * = 0); virtual ~ACE_Singleton_Strategy (void); // = Factory method. virtual SVC_HANDLER *make_svc_handler (void); // Create a Singleton SVC_HANDLER by always returning the same // SVC_HANDLER. void dump (void) const; // Dump the state of an object. ACE_ALLOC_HOOK_DECLARE; // Declare the dynamic allocation hooks. protected: SVC_HANDLER *svc_handler_; // Pointer to the Singleton svc_handler. }; template class ACE_DLL_Strategy : public ACE_Creation_Strategy // = TITLE // Defines the interface for specifying a creation strategy for // a SVC_HANDLER based on dynamic linking of the SVC_HANDLER. { public: // = Intialization and termination methods. ACE_DLL_Strategy (void); // "Do-nothing" constructor. ACE_DLL_Strategy (const char svc_dll_info[], ACE_Service_Config *, ACE_Thread_Manager * = 0); // Initialize the DLL strategy based upon the service's DLL // information contained in the string. int open (const char svc_dll_info[], ACE_Service_Config *, ACE_Thread_Manager * = 0); // Initialize the DLL strategy based upon the service's DLL // information contained in the string. // = Factory method. virtual SVC_HANDLER *make_svc_handler (void); // Create a SVC_HANDLER by dynamically linking it from a DLL. void dump (void) const; // Dump the state of an object. ACE_ALLOC_HOOK_DECLARE; // Declare the dynamic allocation hooks. protected: typedef ACE_Creation_Strategy inherited; char shared_library_[MAXPATHLEN]; // Name of the shared library to dynamically link. char factory_function_[MAXPATHLEN]; // Name of the factory function in the shared library to use to // obtain a pointer to the new SVC_HANDLER. char svc_name[MAXNAMELEN]; // Name of the service. ACE_Service_Config *svc_config_; // Pointer to the Service_Configurator. }; template class ACE_Concurrency_Strategy // = TITLE // Defines the interface for specifying a concurrency strategy // for a SVC_HANDLER. // // = DESCRIPTION // Default behavior is to activate the SVC_HANDLER by calling // its open() method (which allows the SVC_HANDLER to define its // own concurrency strategy). However, subclasses can override // this default strategy to do more sophisticated concurrency // activations (such as creating the SVC_HANDLER as an active // object via multi-threading or multi-processing). { public: // = Factory method. virtual int activate_svc_handler (SVC_HANDLER *svc_handler, void *arg = 0); // Activate the with an appropriate concurrency // strategy. The default behavior of this method is to activate the // SVC_HANDLER by calling its open() method (which allows the // SVC_HANDLER to define its own concurrency strategy). virtual ~ACE_Concurrency_Strategy (void); void dump (void) const; // Dump the state of an object. ACE_ALLOC_HOOK_DECLARE; // Declare the dynamic allocation hooks. }; template class ACE_Thread_Strategy : public ACE_Concurrency_Strategy // = TITLE // Defines the interface for specifying a concurrency strategy // for a based on multithreading. // // = DESCRIPTION // This class provides a strategy that manages the creation of // threads to handle requests from clients concurrently. It // behaves as a "thread factory", spawning threads "on-demand" // to run the service specified by a user-supplied // . { public: // = Intialization and termination methods. ACE_Thread_Strategy (void); // "Do-nothing constructor" ACE_Thread_Strategy (ACE_Thread_Manager *tm, long thr_flags, int n_threads = 1); // Initialize the strategy. virtual int open (ACE_Thread_Manager *tm, long thr_flags, int n_threads = 1); // Initialize the strategy. virtual ~ACE_Thread_Strategy (void); // = Factory method. virtual int activate_svc_handler (SVC_HANDLER *svc_handler, void *arg = 0); // Activate the with an appropriate concurrency // strategy. This method activates the SVC_HANDLER by first calling // its open() method and then calling its activate() method to turn // it into an active object. void dump (void) const; // Dump the state of an object. ACE_ALLOC_HOOK_DECLARE; // Declare the dynamic allocation hooks. protected: typedef ACE_Concurrency_Strategy inherited; ACE_Thread_Manager *thr_mgr_; // Thread manager for this class (must be provided). long thr_flags_; // Flags to pass into the SVC_HANDLER::activate() method. int n_threads_; // Number of threads to spawn. }; template class ACE_Process_Strategy : public ACE_Concurrency_Strategy // = TITLE // Defines the interface for specifying a concurrency strategy // for a based on multiprocessing. // // = DESCRIPTION // This class provides a strategy that manages the creation of // processes to handle requests from clients concurrently. It // behaves as a "process factory", forking threads "on-demand" // to run the service specified by a user-supplied // . { public: // = Intialization and termination methods. ACE_Process_Strategy (void); // "Do-nothing constructor" ACE_Process_Strategy (int n_processes = 1); // Initialize the strategy. virtual int open (int n_processes = 1); // Initialize the strategy. virtual ~ACE_Process_Strategy (void); // = Factory method. virtual int activate_svc_handler (SVC_HANDLER *svc_handler, void *arg = 0); // Activate the with an appropriate concurrency // strategy. This method activates the SVC_HANDLER by first forking // and then calling the open() method of the SVC_HANDLER in the // child. void dump (void) const; // Dump the state of an object. ACE_ALLOC_HOOK_DECLARE; // Declare the dynamic allocation hooks. protected: typedef ACE_Concurrency_Strategy inherited; int n_processes_; // Number of processes to spawn. }; template class ACE_Accept_Strategy // = TITLE // Defines the interface for specifying a passive connection // acceptance strategy for a SVC_HANDLER. // // = DESCRIPTION // This class provides a strategy that manages passive // connection acceptance of a client. { public: // = Initialization and termination methods. ACE_Accept_Strategy (void); // Default constructor. ACE_Accept_Strategy (const ACE_PEER_ACCEPTOR_ADDR &local_addr, int restart = 0); // Initialize the with . virtual int open (const ACE_PEER_ACCEPTOR_ADDR &local_addr, int restart = 0); // Initialize the with . virtual ACE_HANDLE get_handle (void) const; // Return the underlying ACE_HANDLE of the . virtual ACE_PEER_ACCEPTOR &acceptor (void) const; // Return a reference to the . virtual ~ACE_Accept_Strategy (void); // = Factory method. virtual int accept_svc_handler (SVC_HANDLER *); // The default behavior delegates to the method of the // PEER_ACCEPTOR. void dump (void) const; // Dump the state of an object. ACE_ALLOC_HOOK_DECLARE; // Declare the dynamic allocation hooks. protected: ACE_PEER_ACCEPTOR peer_acceptor_; // Factory that establishes connections passively. }; template class ACE_Scheduling_Strategy // = TITLE // Defines the interface for specifying how to suspend and // resume a service . // // = DESCRIPTION // This class provides a strategy that allows arbitrarily // sophisticated service suspension and resumption. The default // behavior is to do nothing... { public: // = Initialization and termination methods. ACE_Scheduling_Strategy (SVC_HANDLER * = 0); // Constructor virtual ~ACE_Scheduling_Strategy (void); // Destructor // = Scheduling methods virtual int suspend (void); // Suspend hook. virtual int resume (void); // Resume hook. virtual void dump (void) const; // Dump the state of the object. protected: SVC_HANDLER *scheduler_; // Points to the scheduler strategy object... int delete_scheduler_; // Keeps track of whether we need to delete this or not... }; template class ACE_Schedule_All_Reactive_Strategy : public ACE_Scheduling_Strategy // = TITLE // Defines the interface for specifying how to suspend and // resume a single-threaded reactive service . // // = DESCRIPTION // This class provides a strategy that suspends and resumes all // the Event_Handlers in a Reactor in one fell swoop. { public: // = Initialization and termination methods. ACE_Schedule_All_Reactive_Strategy (SVC_HANDLER * = 0); // Constructor // = Scheduling methods virtual int suspend (void); // Suspend hook. virtual int resume (void); // Resume hook. virtual void dump (void) const; // Dump the state of the object. }; template class ACE_Schedule_All_Threaded_Strategy : public ACE_Scheduling_Strategy // = TITLE // Defines the interface for specifying how to suspend and // resume a multithreaded service . // // = DESCRIPTION // This class provides a strategy that suspends and resumes all // the Event_Handlers controlled by a Thread_Manager in one fell swoop. { public: // = Initialization and termination methods. ACE_Schedule_All_Threaded_Strategy (SVC_HANDLER * = 0); // Constructor // = Scheduling methods virtual int suspend (void); // Suspend hook. virtual int resume (void); // Resume hook. virtual void dump (void) const; // Dump the state of the object. }; #if defined (ACE_TEMPLATES_REQUIRE_SOURCE) #include "ace/Strategies_T.cpp" #endif /* ACE_TEMPLATES_REQUIRE_SOURCE */ #if defined (ACE_TEMPLATES_REQUIRE_PRAGMA) #pragma implementation ("Strategies_T.cpp") #endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */ #endif /* ACE_STRATEGIES_T_H */