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// -*- C++ -*-
//=============================================================================
/**
* @file Invocation_Adapter.h
*
* $Id$
*
* @author Balachandran Natarajan <bala@dre.vanderbilt.edu>
*/
//=============================================================================
#ifndef TAO_INVOCATION_ADAPTER_H
#define TAO_INVOCATION_ADAPTER_H
#include /**/ "ace/pre.h"
#include "ace/Global_Macros.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
// @NOTE: Do not include any headers unessarily here.
#include "ace/CORBA_macros.h"
#include "tao/TAO_Export.h"
#include "tao/Invocation_Utils.h"
#include "tao/Collocation_Strategy.h"
#include "tao/CORBA_methods.h"
#include "tao/Pseudo_VarOut_T.h"
struct TAO_Exception_Data;
class TAO_Operation_Details;
class TAO_Stub;
class ACE_Time_Value;
namespace CORBA
{
class Object;
typedef Object *Object_ptr;
typedef TAO_Pseudo_Var_T<Object> Object_var;
class Environment;
}
namespace TAO
{
class Argument;
struct Exception_Data;
class Collocation_Proxy_Broker;
class Profile_Transport_Resolver;
/**
* @class Invocation_Adapter
*
* @brief Generic interface for the invocation object visible to the
* IDL compiler.
*
* The main objective of this class is to adapt the type and
* invocation specific information declared in the IDL by the
* application and convert them as CORBA invocations to the target
* object. Implementation of this class knows how to make
* invocations on a collocated or a remote object.
*
* This adapter class serves as the base class for various types of
* invocations like AMI, DII, DSI etc. Adapter classes for AMI, DII,
* DSI inherit from this class and their local behavioural
* information before kicking off an invocation.
*
* @@ More info..
* Wafer thin inclusions
* All stuff created on stack
* Only handles starts and restarts
*
*/
class TAO_Export Invocation_Adapter
{
public:
/// The only constructor used by the IDL compiler, and only way to
/// create this adapter.
/**
* @param target Points to the object on which this invocation is
* being invoked.
*
* @param args Array of pointers to the argument list in the
* operation declaration. this includes the return, inout and out
* arguments.
*
* @param arg_number Number of arguments in the above array. This
* is the number of elements in the above array.
*
* @param operation The name of the operation being invoked.
*
* @param op_len Number of charecters in the operation name. This
* is an optimization which helps us to avoid calling strlen ()
* while creating a message format.
*
* @param cpb The collocation proxy broker for the target if one
* exists. This is useful especially to route the call to the
* collocated target.
*
* @param type The operation type which could be a oneway or two
* way operation. This information is available in the IDL file.
*
* @param mode Invocation mode. This information is also available
* in the IDL file and in the generated code.
*/
Invocation_Adapter (CORBA::Object_ptr target,
Argument **args,
int arg_number,
const char *operation,
int op_len,
Collocation_Proxy_Broker *cpb,
TAO::Invocation_Type type = TAO_TWOWAY_INVOCATION,
TAO::Invocation_Mode mode = TAO_SYNCHRONOUS_INVOCATION);
virtual ~Invocation_Adapter (void);
/// Invoke the target, and used by the generated code.
/**
* The implementation decides whether the target is remote or
* collocated and takes the right decision.
*
* @param ex Array of exception data declared by the application
* in their IDL.
*
* @param ex_count Number of elements in the array.
*/
virtual void invoke (TAO::Exception_Data *ex,
unsigned long ex_count
ACE_ENV_ARG_DECL);
protected:
/**
* The stub pointer passed to this call has all the details about
* the object to which the invocation needs to be routed to. The
* implementation of this method looks if we are collocated or not
* and takes care of reinvoking the target if it receives
* forwarding information or if the first invocation fails
* for some reason, like a loss of connection during send () etc.
*/
virtual void invoke_i (TAO_Stub *stub,
TAO_Operation_Details &details
ACE_ENV_ARG_DECL);
/**
* @name Helper methods for making different types of invocations.
*
* These methods useful for various types of invocations like
* SII, AMI, DII and DSI. All the subclasses implement these
* methods to get the right behaviour at their level.
*/
//@{
/// Helper method that prepares the necessary stuff for a remote
/// invocation.
/*
* This method does the following essential activities needed for
* a remote invocation.
*
* - Extracts the roundtrip timeout policies set in the ORB or
* Object or at the thread level
* - Uses the target information to pick a profile and a transport
* object on which the invocation needs to be sent
*
* - Checks whether the operation is a oneway or twoway and
* delegates the call.
*/
virtual Invocation_Status invoke_remote_i (
TAO_Stub *stub,
TAO_Operation_Details &details,
CORBA::Object_var &effective_target,
ACE_Time_Value *&max_wait_time
ACE_ENV_ARG_DECL);
/// Make a collocated call.
/**
* This method creates an object that takes care of making collocated
* invocations and calls invoke () on it. If the invoke ()
* returns with a location forwarded reply we return a restart
*
* @param stub The stub object on which the invocation is made.
*
* @param details The operations details of the operation that is being
* invoked.
*/
virtual Invocation_Status invoke_collocated_i (
TAO_Stub *stub,
TAO_Operation_Details &details,
CORBA::Object_var &effective_target,
Collocation_Strategy strat
ACE_ENV_ARG_DECL);
/// Helper method to make a two way invocation.
/**
* This method creates a synchronous twoway invocation object to
* which the actual task of request handling is delegated. Once
* the invocation returns this method checks whether the request
* is forwarded to a new location.
*/
virtual Invocation_Status invoke_twoway (
TAO_Operation_Details &details,
CORBA::Object_var &effective_target,
Profile_Transport_Resolver &r,
ACE_Time_Value *&max_wait_time
ACE_ENV_ARG_DECL);
/// Helper method to make a one way invocation.
/**
* This method creates a synchronous oneway invocation object to
* which the actual task of request handling is delegated. Once
* the invocation returns this method checks whether the request
* is forwarded to a new location to take appropriate action.
*/
virtual Invocation_Status invoke_oneway (
TAO_Operation_Details &details,
CORBA::Object_var &effective_target,
Profile_Transport_Resolver &r,
ACE_Time_Value *&max_wait_time
ACE_ENV_ARG_DECL);
//@}
/// Helper function that extracts the roundtrip timeout policies
/// set in the ORB.
bool get_timeout (TAO_Stub *stub,
ACE_Time_Value &val);
/// Helper method that extracts TAO_Stub from the target object.
TAO_Stub *get_stub (ACE_ENV_SINGLE_ARG_DECL) const;
/// Helper method that takes care of setting the profiles within
/// the stub object if the target gets forwarded
void object_forwarded (CORBA::Object_var &effective_target,
TAO_Stub *stub
ACE_ENV_ARG_DECL);
/// Helper method to set the response flags within @a details
void set_response_flags (TAO_Stub *stub,
TAO_Operation_Details &details);
protected:
/// The target object on which this invocation is carried out.
CORBA::Object_ptr target_;
/// Array of arguments for this operation
Argument **args_;
/// Number of arguments for this operation.
/**
* This includes the return values too
*/
const int number_args_;
/// Name of the operation.
const char *operation_;
/// String length of the operation name.
const int op_len_;
/// Collocation proxy broker for this operation.
Collocation_Proxy_Broker *cpb_;
/// The invocation type
Invocation_Type type_;
/// The invocation mode
Invocation_Mode mode_;
private:
/// Dont allow default initializations
ACE_UNIMPLEMENTED_FUNC (Invocation_Adapter (void))
ACE_UNIMPLEMENTED_FUNC (Invocation_Adapter & operator= (const Invocation_Adapter &))
};
} // End namespace TAO
#if defined (__ACE_INLINE__)
# include "tao/Invocation_Adapter.inl"
#endif /* __ACE_INLINE__ */
#include /**/ "ace/post.h"
#endif /*TAO_INVOCATION_ADAPTER_H*/
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