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// -*- C++ -*-
//=============================================================================
/**
* @file Invocation.h
*
* $Id$
*
* Encapsulate the logic for remote invocations, oneways or
* twoways.
*
* THREADING NOTE: Threads should never manipulate another
* thread's invocations. In this implementation, all data structures
* used to represent invocations (and parts of them) are owned by the
* thread which created them. Multiple threads may make of course
* concurrent invocations safely, since the GIOP code is reentrant.
*
* @author Carlos O'Ryan <coryan@uci.edu>
* @author Alexander Babu Arulanthu <alex@cs.wustl.edu>
*/
//=============================================================================
#ifndef TAO_INVOCATION_H
#define TAO_INVOCATION_H
#include "ace/pre.h"
#include "CDR.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
#include "Stub.h"
#include "Any.h"
#include "Synch_Reply_Dispatcher.h"
#include "TAOC.h"
#include "operation_details.h"
#include "target_specification.h"
#include "Invocation_Endpoint_Selectors.h"
struct TAO_Exception_Data;
class TAO_Transport;
enum TAO_Invoke_Status
{
/// invoke() call successful.
TAO_INVOKE_OK,
/// The request must be restarted, a temporary failure has ocurred.
TAO_INVOKE_RESTART,
/// An exception was raised.
TAO_INVOKE_EXCEPTION
};
// ****************************************************************
/**
* @class TAO_GIOP_Invocation
*
* @brief Encapsulates common behavior for both oneway and twoway
* invocations.
*
* This class connects (or lookups a connection from the cache) to the
* remote server, builds the CDR stream for the Request, send the CDR
* stream and expects the response and interprets the incoming CDR
* stream.
*/
class TAO_Export TAO_GIOP_Invocation
{
friend class RT_Endpoint_Selector_Factory;
friend class TAO_Default_Endpoint_Selector;
friend class TAO_Priority_Endpoint_Selector;
friend class TAO_Bands_Endpoint_Selector;
friend class TAO_Protocol_Endpoint_Selector;
friend class TAO_Priority_Protocol_Selector;
friend class TAO_Bands_Protocol_Selector;
friend class TAO_Client_Priority_Policy_Selector;
public:
/// Default constructor. This should never get called, it is here
/// only to appease older versions of g++.
TAO_GIOP_Invocation (void);
/// Constructor.
TAO_GIOP_Invocation (TAO_Stub *data,
const char *operation,
CORBA::ULong opname_len,
CORBA::Boolean argument_flag,
TAO_ORB_Core *orb_core,
int byte_order = TAO_ENCAP_BYTE_ORDER);
/**
* This destructor is virtual so that the derived synchronous
* invocation classes can call <idle> method on the <Transport>, if
* they want to. All the synchronous invocations <idle> the
* Transport, but asynchronous invocations do not do that.
*/
virtual ~TAO_GIOP_Invocation (void);
/**
* Initialize the Request header.
* The <message_size> field of the GIOP header is left blank and
* must be filled later.
* @par
* The function only returns once a connection has been succesfully
* established *OR* all profiles have been tried. In that case it
* raises the CORBA::TRANSIENT exception.
*/
void prepare_header (CORBA::Octet response_flags,
CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/// Accessor to the request ServiceContextList. Only valid when
/// sending a request message.
TAO_Service_Context& request_service_context (void);
/// Accessor to the reply ServiceContextList. Only valid when
/// after receiving a reply message.
TAO_Service_Context& reply_service_context (void);
/// Return the request id of this invocation.
CORBA::ULong request_id (void) const;
/// Return the name of the operation being invoked.
const char *operation (void);
/// Return the underlying output stream.
TAO_OutputCDR &out_stream (void);
// CORBA::Boolean restart_flag (void);
/// Set the value for the restart flag.
void restart_flag (CORBA::Boolean flag);
/// Resets the forwarding profile and behaves like we are fowarded
/// (to the same server).
int close_connection (void);
/// Establishes a connection to the remote server, initializes
/// the GIOP headers in the output CDR.
void start (CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/// Dynamically allocate \param inconsistent_policies_ PolicyList.
void init_inconsistent_policies (CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/// Return PolicyList stored in \param inconsistent_policies_ and
/// give up its ownership. User must deallocate memory.
CORBA::PolicyList *get_inconsistent_policies (void);
/**
* Add the given object reference to the list of forward profiles.
* This basically emulates a LOCATION_FORWARD reply from the
* server. It is needed by such things as the
* PortableInterceptor::ForwardRequest exception.
* @par
* The forward object reference can be retrieved by invoking the
* forward_reference() method in this class.
* It returns TAO_INVOKE_RESTART unless an exception is raised.
*/
int location_forward (CORBA::Object_ptr forward,
CORBA::Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/// Return the object reference returned in the LOCATION_FORWARD
/// reply. The return reference is only valid if the reply status
/// for the current reply is TAO_INVOKE_RESTART.
CORBA::Object_ptr forward_reference (void);
/// Returns true if a location forward was
CORBA::Boolean received_location_forward (void) const;
protected:
/// Sends the request, does not wait for the response.
/**
* Returns TAO_INVOKE_RESTART if the write call failed and the
* request must be re-attempted.
* @par
* Notice that the same profile is tried again because it may be
* that the server closed the connection simply to release
* resources.
*/
int invoke (CORBA::Boolean is_roundtrip,
CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/**
* Helper method, the response for a Request or LocateRequest was a
* LOCATION_FORWARD or TAO_GIOP_OBJECT_FORWARD.
* In any case we must demarshal the object reference and setup the
* profiles. The returned forward object reference can be retrieved
* by invoking the forward_reference() method in this class.
* It returns TAO_INVOKE_RESTART unless an exception is raised.
*/
int location_forward (TAO_InputCDR &inp_stream,
CORBA::Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/**
* Helper method that factors out code common to the
* location_forward() above, and adds the given object reference to
* the list of a forward profiles.
*
* The forward object reference can be retrieved by invoking the
* forward_reference() method in this class.
*/
void location_forward_i (TAO_Stub *stubobj,
CORBA::Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/**
* Add RT-related context to the service context list if the
* invocation target supports RTCORBA::CLIENT_PROPAGATED priority
* model.
*/
void add_rt_service_context (CORBA_Environment &ACE_TRY_ENV);
protected:
/// The object on which this invocation is going.
TAO_Stub *stub_;
/// Buffer used for both the output and input CDR streams, this is
/// "safe" because we only one of the streams at a time.
char buffer_[ACE_CDR::DEFAULT_BUFSIZE];
/// The relevant operation detail
TAO_Operation_Details op_details_;
TAO_Target_Specification target_spec_;
/// Stream into which the response is placed.
TAO_OutputCDR out_stream_;
/// The orb_core context where we make this invocation.
TAO_ORB_Core* orb_core_;
/// This invocation is using this transport.
/// @note may change...
TAO_Transport *transport_;
/// Strategy for making decisions about which endpoint/profile to
/// use for invocation.
TAO_Invocation_Endpoint_Selector *endpoint_selector_;
/// Flag indicating whether <endpoint_selector_> has been
/// initialized.
int is_selector_initialized_;
#if (TAO_HAS_RT_CORBA == 1)
/// Store information used by endpoint_selector_ for making endpoint
/// selection decisions.
TAO_Endpoint_Selection_State endpoint_selection_state_;
#endif /* TAO_HAS_RT_CORBA == 1 */
/**
* If current effective policies cause the invocation to raise
* CORBA::INV_POLICY exception, the conflicting/problematic policies
* are stored in this list. This is used by \param
* Object::_validate_connection method to inform clients about
* causes of invocation failure.
* @par
* Conflicting policies are only stored in this list if \param
* init_inconsistent_policies method has been called prior to the
* beginning of invocation. This saves extra work of conflicting
* policies 'logging' when it's not needed.
*/
CORBA::PolicyList_var inconsistent_policies_;
/// This invocation is using this profile.
TAO_Profile *profile_;
/// This invocation is using this endpoint from \param profile_.
TAO_Endpoint *endpoint_;
/// The timeout remaining for this request. It is initialized in
/// start() and updated as required.
//@{
ACE_Time_Value max_wait_time_value_;
ACE_Time_Value *max_wait_time_;
//@}
/**
* Flag indicating whether RTCORBA-specific service context list
* processing has taken place. This is needed because
* prepare_header() may get called multiple times, but we only need
* to do the service context list processing once.
*/
int rt_context_initialized_;
/**
* This flag is turned on when the previous invocation on an
* endpoint or a profile returned a TAO_INVOKE_RESTART. FT CORBA
* relies on this flag for guarenteeing unique id's during
* reinvocations.
*/
CORBA::Boolean restart_flag_;
/**
* Object reference returned in a LOCATION_FORWARD reply. This
* reference is only valid when the reply status is
* TAO_INVOKE_RESTART and
*/
CORBA::Object_var forward_reference_;
/// Flag is true when a LOCATION_FORWARD reply is received.
CORBA::Boolean received_location_forward_;
};
// ****************************************************************
/**
* @class TAO_GIOP_Synch_Invocation
*
* @brief TAO_GIOP_Synch_Invocation.
*
* Base class for TAO_GIOP_Twoway_Invocation and
* TAO_GIOP_Oneway_Invocation.
*/
class TAO_Export TAO_GIOP_Synch_Invocation : public TAO_GIOP_Invocation
{
public:
/// Default constructor. This should never get called, it is here
/// only to appease older versions of g++.
TAO_GIOP_Synch_Invocation (void);
/// Constructor.
TAO_GIOP_Synch_Invocation (TAO_Stub *stub,
const char *operation,
CORBA::ULong opname_len,
CORBA::Boolean argument_flag,
TAO_ORB_Core *orb_core,
int byte_order = TAO_ENCAP_BYTE_ORDER);
/// Destructor.
virtual ~TAO_GIOP_Synch_Invocation (void);
/// Return the underlying input stream. Called by the stub to
/// demarshal the results of the upcall into whatever return
/// arguments there may be.
TAO_InputCDR &inp_stream (void);
protected:
/// Implementation of the invoke() methods, handles the basic
/// send/reply code and the system exceptions.
int invoke_i (CORBA::Boolean is_locate_request,
CORBA::Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/// Reply dispatcher for the current synchronous invocation.
TAO_Synch_Reply_Dispatcher rd_;
};
// ****************************************************************
/**
* @class TAO_GIOP_Twoway_Invocation
*
* @brief Encapsulate a two-way invocation.
*
* Sends a two-way request, and expects the reply. This class
* connects (or lookups a connection from the cache) to the remote
* server, builds the CDR stream for the Request, send the CDR stream
* and expects the response and interprets the incoming CDR stream.
*/
class TAO_Export TAO_GIOP_Twoway_Invocation
: public TAO_GIOP_Synch_Invocation
{
public:
/// Constructor.
TAO_GIOP_Twoway_Invocation (TAO_Stub *stub,
const char *operation,
CORBA::ULong opname_len,
CORBA::Boolean argument_flag,
TAO_ORB_Core *orb_core,
int byte_order = TAO_ENCAP_BYTE_ORDER);
/// Destructor.
virtual ~TAO_GIOP_Twoway_Invocation (void);
/// Establishes a connection to the remote server, initializes
/// the GIOP headers in the output CDR.
void start (CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/**
* Special purpose invoke method used by the generated stubs. This
* accomplishes the same task as the normal invoke except that
* Exceptions are allocated and decoded here. This reduces the
* footprint of the generated stubs.
*/
int invoke (TAO_Exception_Data *excepts,
CORBA::ULong except_count,
CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::Exception));
};
// ****************************************************************
/**
* @class TAO_GIOP_Oneway_Invocation
*
* @brief Encapsulate a one-way invocation.
*/
class TAO_Export TAO_GIOP_Oneway_Invocation
: public TAO_GIOP_Synch_Invocation
{
public:
/// Constructor.
TAO_GIOP_Oneway_Invocation (TAO_Stub *stub,
const char *operation,
CORBA::ULong opname_len,
CORBA::Boolean argument_flag,
TAO_ORB_Core *orb_core,
int byte_order = TAO_ENCAP_BYTE_ORDER);
/// Destructor.
virtual ~TAO_GIOP_Oneway_Invocation (void);
/// Establishes a connection to the remote server, initializes
/// the GIOP headers in the output CDR.
void start (CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/// Send request, without blocking for any response.
int invoke (CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/// Accessor for private member.
TAO::SyncScope sync_scope (void);
private:
/// Our sync scope.
TAO::SyncScope sync_scope_;
};
// ****************************************************************
/**
* @class TAO_GIOP_Locate_Request_Invocation
*
* @brief Sends a locate request message.
*/
class TAO_Export TAO_GIOP_Locate_Request_Invocation
: public TAO_GIOP_Synch_Invocation
{
public:
/// Constructor.
TAO_GIOP_Locate_Request_Invocation (TAO_Stub *data,
TAO_ORB_Core *orb_core);
/// Destructor.
~TAO_GIOP_Locate_Request_Invocation (void);
/// Establishes a connection to the remote server, initializes
/// the GIOP headers in the output CDR.
void start (CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
/// Send request, without blocking for any response.
int invoke (CORBA_Environment &ACE_TRY_ENV)
ACE_THROW_SPEC ((CORBA::SystemException));
};
// ****************************************************************
#if defined (__ACE_INLINE__)
# include "Invocation.i"
#endif /* __ACE_INLINE__ */
#include "ace/post.h"
#endif /* TAO_INVOCATION_H */
|