// This may look like C, but it's really -*- C++ -*- //============================================================================= /** * @file Transport_Connector.h * * $Id$ * * Define the interface for the Connector component in TAO's * pluggable protocol framework. * * @author Fred Kuhns */ //============================================================================= #ifndef TAO_CONNECTOR_H #define TAO_CONNECTOR_H #include /**/ "ace/pre.h" #include "tao/Basic_Types.h" #if !defined (ACE_LACKS_PRAGMA_ONCE) # pragma once #endif /* ACE_LACKS_PRAGMA_ONCE */ #include /**/ "tao/TAO_Export.h" ACE_BEGIN_VERSIONED_NAMESPACE_DECL class ACE_Time_Value; ACE_END_VERSIONED_NAMESPACE_DECL TAO_BEGIN_VERSIONED_NAMESPACE_DECL class TAO_Transport_Descriptor_Interface; class TAO_InputCDR; class TAO_Endpoint; class TAO_Profile; class TAO_MProfile; class TAO_ORB_Core; class TAO_Connect_Strategy; class TAO_Transport; class TAO_Connection_Handler; class TAO_LF_Multi_Event; namespace TAO { class Profile_Transport_Resolver; } /* * Hook to add includes and forward declaration * to the Connector class. */ //@@ TAO_CONNECTOR_SPL_INCLUDE_FORWARD_DECL_ADD_HOOK /** * @class TAO_Connector * * @brief Generic Connector interface definitions. * * Base class for connector bridge object. * * @todo Need to rename the class as TAO_Transport_Connector. */ class TAO_Export TAO_Connector { public: /// Default constructor. TAO_Connector (CORBA::ULong tag); /// The destructor. virtual ~TAO_Connector (void); /** * The tag identifying the specific ORB transport layer protocol. * For example IOP::TAG_INTERNET_IOP == 0. The tag is used in the * IOR to identify the type of profile included. IOR -> {{tag0, * profile0} {tag1, profile1} ...}. The IOP module defines the * ProfileId typedef to be a CORBA::ULong. */ CORBA::ULong tag (void) const; /// Parse a string containing a URL style IOR and return an /// MProfile. Verify that ior is in the correct format. int make_mprofile (const char *ior, TAO_MProfile &mprofile); /// Helper function to assist corbaloc parsing. The default simply validates /// the protocol identifyier and scans up to the next comma or slash. /// Any protocol that has a specific need, such as uiop, can override this /// method to provide a custom scanner. /// The profile returned is either null if this the ior does not match or an /// empty profile of the correct type, obtained from make_profile(). virtual TAO_Profile *corbaloc_scan (const char *ior, size_t &len); /// Initialize object and register with reactor. virtual int open (TAO_ORB_Core *orb_core) = 0; /// Shutdown Connector bridge and concrete Connector. virtual int close (void) = 0; /** * To support pluggable we need to abstract away the details of the * connect () method so it can be called from the invocation code * independent of the actual transport protocol in use. */ virtual TAO_Transport *connect (TAO::Profile_Transport_Resolver *r, TAO_Transport_Descriptor_Interface *desc, ACE_Time_Value *timeout); /// A variation on connect that will try simultanious connections /// on all endpoints listed in the desc. virtual TAO_Transport *parallel_connect (TAO::Profile_Transport_Resolver *r, TAO_Transport_Descriptor_Interface *desc, ACE_Time_Value *timeout); /// Create a profile for this protocol and initialize it based on the /// encapsulation in @a cdr virtual TAO_Profile *create_profile (TAO_InputCDR &cdr) = 0; /// Check that the prefix of the provided endpoint is valid for use /// with a given pluggable protocol. virtual int check_prefix (const char *endpoint) = 0; /// Return the object key delimiter to use or expect. virtual char object_key_delimiter (void) const = 0; //@@ TAO_CONNECTOR_SPL_PUBLIC_METHODS_ADD_HOOK protected: /// A flag indicating the actual connector supports parallel connection /// attempts. The base implementation alwayse returns 0. Override to return /// non-zero if parallel connection attempts may be tried. virtual int supports_parallel_connects (void) const; /// Create a profile with a given endpoint. virtual TAO_Profile *make_profile (void) = 0; /// Set and validate endpoint. We need to do this to initialize our /// remote *_Addr's which have not been done during IOR decode. virtual int set_validate_endpoint (TAO_Endpoint *endpoint) = 0; /// Make a connection virtual TAO_Transport *make_connection (TAO::Profile_Transport_Resolver *r, TAO_Transport_Descriptor_Interface &desc, ACE_Time_Value *timeout) = 0; /// Make a connection using - not a pure virtual since not all /// protocols support this. virtual TAO_Transport* make_parallel_connection ( TAO::Profile_Transport_Resolver *r, TAO_Transport_Descriptor_Interface &desc, ACE_Time_Value *timeout); /// Cancel the passed cvs handler from the connector virtual int cancel_svc_handler (TAO_Connection_Handler *svc_handler) = 0; /// Check whether the connection is not closed /** * @retval 0 The connection happens to be not closed, but is now open * because an other thread managed to open the handler * @retval -1 The connection is closed */ virtual int check_connection_closure (TAO_Connection_Handler *connection_handler); /** * Wait for connection completion. We have a transport that is not * connected yet, wait until it is connected. * @retval true When we could use @a transport * @return false When we can't use the @a transport */ virtual bool wait_for_connection_completion( TAO::Profile_Transport_Resolver *r, TAO_Transport_Descriptor_Interface &desc, TAO_Transport *&transport, ACE_Time_Value *timeout); /// In the case of a parallel connection attempt, we take an array of /// transports, and wait on any of them. When the first one completes, /// the rest are closed. virtual bool wait_for_connection_completion( TAO::Profile_Transport_Resolver *r, TAO_Transport *&the_winner, TAO_Transport **transport, unsigned int count, TAO_LF_Multi_Event *mev, ACE_Time_Value *timeout); /// See if a new connection is allowed bool new_connection_is_ok (size_t busy_count); /// Wait for a transport to be connected /// Note: no longer changes transport reference count /// @ returns true if wait was uneventful /// @ false if error occurred during wait bool wait_for_transport (TAO::Profile_Transport_Resolver *r, TAO_Transport *base_transport, ACE_Time_Value * timeout, bool force_wait); /// Set the ORB Core pointer void orb_core (TAO_ORB_Core *orb_core); /// Create a connect strategy int create_connect_strategy (void); /// Return the TAO_ORB_Core pointer TAO_ORB_Core *orb_core (void); protected: /// The (a)synch connect strategy TAO_Connect_Strategy *active_connect_strategy_; private: /// IOP protocol tag. CORBA::ULong const tag_; /// Pointer to our ORB core TAO_ORB_Core *orb_core_; //@@ TAO_CONNECTOR_SPL_PRIVATE_DATA_ADD_HOOK }; //@@ TAO_CONNECTOR_SPL_EXTERN_ADD_HOOK TAO_END_VERSIONED_NAMESPACE_DECL #if defined (__ACE_INLINE__) # include "tao/Transport_Connector.inl" #endif /* __ACE_INLINE__ */ #include /**/ "ace/post.h" #endif /*TAO_CONNECTOR_H*/