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Diffstat (limited to 'TAO/tao/Stub.cpp')
-rw-r--r-- | TAO/tao/Stub.cpp | 907 |
1 files changed, 0 insertions, 907 deletions
diff --git a/TAO/tao/Stub.cpp b/TAO/tao/Stub.cpp deleted file mode 100644 index 084243fcc68..00000000000 --- a/TAO/tao/Stub.cpp +++ /dev/null @@ -1,907 +0,0 @@ -// $Id$ - -// @ (#)iiopobj.cpp 1.9 95/11/04 -// Copyright 1995 by Sun Microsystems Inc. -// All Rights Reserved -// -// XXXX Bridge: CORBA::Object operations -// -// Some CORBA::Object and other operations are specific to this STUB -// based implementation, and can neither be used by other kinds of -// objref nor have a default implementation. - -#include "tao/Stub.h" -#include "tao/Sequence.h" -#include "tao/Sequence_T.h" -#include "tao/Object.h" -#include "tao/GIOP.h" -#include "tao/NVList.h" -#include "tao/Invocation.h" -#include "tao/ORB_Core.h" -#include "tao/Client_Strategy_Factory.h" -#include "ace/Auto_Ptr.h" - -#if !defined (__ACE_INLINE__) -# include "tao/Stub.i" -#endif /* ! __ACE_INLINE__ */ - -#include "tao/Timeprobe.h" - -ACE_RCSID(tao, TAO_Stub, "$Id$") - -#if defined (ACE_ENABLE_TIMEPROBES) - -static const char *TAO_TAO_Stub_Timeprobe_Description[] = - { - "TAO_Stub::do_static_call - start", - "TAO_Stub::do_static_call - end", - "TAO_Stub::do_static_call - set_cancel", - "TAO_Stub::do_static_call - grab_orb_core", - "TAO_Stub::do_static_call - invocation_ctor", - "TAO_Stub::do_static_call - invocation_start", - "TAO_Stub::do_static_call - put_params" - }; - -enum - { - // Timeprobe description table start key - TAO_STUB_OBJECT_DO_STATIC_CALL_START = 500, - TAO_STUB_OBJECT_DO_STATIC_CALL_END, - TAO_STUB_OBJECT_DO_STATIC_CALL_SET_CANCEL, - TAO_STUB_OBJECT_DO_STATIC_CALL_GRAB_ORB_CORE, - TAO_STUB_OBJECT_DO_STATIC_CALL_INVOCATION_CTOR, - TAO_STUB_OBJECT_DO_STATIC_CALL_INVOCATION_START, - TAO_STUB_OBJECT_DO_STATIC_CALL_PUT_PARAMS - }; - -// Setup Timeprobes -ACE_TIMEPROBE_EVENT_DESCRIPTIONS (TAO_TAO_Stub_Timeprobe_Description, - TAO_STUB_OBJECT_DO_STATIC_CALL_START); - -#endif /* ACE_ENABLE_TIMEPROBES */ - -TAO_Stub::TAO_Stub (char *repository_id, - const TAO_MProfile &profiles, - TAO_ORB_Core* orb_core) - : type_id (repository_id), - base_profiles_ ((CORBA::ULong) 0), - forward_profiles_ (0), - profile_in_use_ (0), - profile_lock_ptr_ (0), - profile_success_ (0), - // what about ACE_SYNCH_MUTEX refcount_lock_ - refcount_ (1), - use_locate_request_ (0), - first_locate_request_ (0), - orb_core_ (orb_core) -#if defined (TAO_HAS_CORBA_MESSAGING) - , policies_ (0) -#endif /* TAO_HAS_CORBA_MESSAGING */ -{ - if (this->orb_core_ == 0) - { - if (TAO_debug_level > 0) - { - ACE_DEBUG ((LM_DEBUG, - "TAO: (%P|%t) TAO_Stub created with default " - "ORB core\n")); - } - this->orb_core_ = TAO_ORB_Core_instance (); - } - - this->profile_lock_ptr_ = - this->orb_core_->client_factory ()->create_iiop_profile_lock (); - - this->set_base_profiles (profiles); -} - -// Quick'n'dirty hash of objref data, for partitioning objrefs into -// sets. -// -// NOTE that this must NOT go across the network! - -// @@ Use all profiles for hash function!!!!! FRED -// can get different values, depending on the profile_in_use!! -CORBA::ULong -TAO_Stub::hash (CORBA::ULong max, - CORBA::Environment &env) -{ - // we rely on the profile object to has it's address info - if (profile_in_use_) - return profile_in_use_->hash (max, env); - ACE_ERROR_RETURN((LM_ERROR, "(%P|%t) hash called on a null profile!\n"), 0); -} - -// Expensive comparison of objref data, to see if two objrefs -// certainly point at the same object. (It's quite OK for this to -// return FALSE, and yet have the two objrefs really point to the same -// object.) -// -// NOTE that this must NOT go across the network! -// @@ Two object references are the same if any two profiles are the same! -CORBA::Boolean -TAO_Stub::is_equivalent (CORBA::Object_ptr other_obj, - CORBA::Environment &env) -{ - if (CORBA::is_nil (other_obj) == 1) - return 0; - - TAO_Profile *other_profile = other_obj->_stubobj ()->profile_in_use_; - TAO_Profile *this_profile = this->profile_in_use_; - - if (other_profile == 0 || this_profile == 0) - return 0; - - // Compare the profiles - return this_profile->is_equivalent (other_profile, env); -} - -// Memory managment - -CORBA::ULong -TAO_Stub::_incr_refcnt (void) -{ - ACE_GUARD_RETURN (ACE_SYNCH_MUTEX, guard, this->refcount_lock_, 0); - - return this->refcount_++; -} - -CORBA::ULong -TAO_Stub::_decr_refcnt (void) -{ - { - ACE_GUARD_RETURN (ACE_SYNCH_MUTEX, mon, this->refcount_lock_, 0); - this->refcount_--; - if (this->refcount_ != 0) - return this->refcount_; - } - - delete this; - return 0; -} - -// Note that if the repository ID (typeID) is NULL, it will make -// narrowing rather expensive, though it does ensure that type-safe -// narrowing code gets thoroughly exercised/debugged! Without a -// typeID, the _narrow will be required to make an expensive remote -// "is_a" call. - -// THREADING NOTE: Code below this point is of course thread-safe (at -// least on supported threaded platforms), so the caller of these -// routines need only ensure that the data being passed in is not -// being modified by any other thread. -// -// As an _experiment_ (to estimate the performance cost) remote calls -// are currently deemed "cancel-safe". That means that they can be -// called by threads when they're in asynchronous cancellation mode. -// The only effective way to do this is to disable async cancellation -// for the duration of the call. There are numerous rude interactions -// with code generators for C++ ... cancellation handlers just do -// normal stack unwinding like exceptions, but exceptions are purely -// synchronous and sophisticated code generators rely on that to -// generate better code, which in some cases may be very hard to -// unwind. - -class TAO_Synchronous_Cancellation_Required - // = TITLE - // Stick one of these at the beginning of a block that can't - // support asynchronous cancellation, and which must be - // cancel-safe. - // - // = EXAMPLE - // somefunc() - // { - // TAO_Synchronous_Cancellation_Required NOT_USED; - // ... - // } -{ -public: - // These should probably be in a separate inline file, but they're - // only used within this one file right now, and we always want them - // inlined, so here they sit. - TAO_Synchronous_Cancellation_Required (void) - : old_type_ (0) - { -#if !defined (VXWORKS) - ACE_OS::thr_setcanceltype (THR_CANCEL_DEFERRED, &old_type_); -#endif /* ! VXWORKS */ - } - - ~TAO_Synchronous_Cancellation_Required (void) - { -#if !defined (VXWORKS) - int dont_care; - ACE_OS::thr_setcanceltype(old_type_, &dont_care); -#endif /* ! VXWORKS */ - } -private: - int old_type_; -}; - -// "Stub interpreter" for static stubs. IDL compiler (or human -// equivalent thereof :-) should just dump a read-only description of -// the call into "calldata" and do varargs calls to this routine, -// which does all the work. - -void -TAO_Stub::do_static_call (CORBA::Environment &ACE_TRY_ENV, - const TAO_Call_Data *info, - void** args) - -{ - ACE_FUNCTION_TIMEPROBE (TAO_STUB_OBJECT_DO_STATIC_CALL_START); - - TAO_Synchronous_Cancellation_Required NOT_USED; - - ACE_TIMEPROBE (TAO_STUB_OBJECT_DO_STATIC_CALL_SET_CANCEL); - - ACE_TIMEPROBE (TAO_STUB_OBJECT_DO_STATIC_CALL_GRAB_ORB_CORE); - - // Do a locate_request if necessary/wanted. - // Suspect that you will be forwarded, so be proactive! - // strategy for reducing overhead when you think a request will - // be forwarded. No standard way now to know. - if (this->use_locate_request_ && this->first_locate_request_) - { - TAO_GIOP_Locate_Request_Invocation call (this, - this->orb_core_); - - // Simply let these exceptions propagate up - // (if any of them occurs.) - call.start (ACE_TRY_ENV); - ACE_CHECK; - - call.invoke (ACE_TRY_ENV); - ACE_CHECK; - - this->first_locate_request_ = 0; - } - - if (info->is_roundtrip) - { - TAO_GIOP_Twoway_Invocation call (this, info->opname, - this->orb_core_); - ACE_TIMEPROBE (TAO_STUB_OBJECT_DO_STATIC_CALL_INVOCATION_CTOR); - - // We may need to loop through here more than once if we're - // forwarded to some other object reference. - // - // NOTE: A quality-of-service policy may be useful to establish - // here, specifically one controlling how many times the call is - // reissued before failing the call on the assumption that - // something is broken. - // - // NOTE: something missing is a dynamic way to change the policy - // of whether to issue LocateRequest messages or not. This code - // uses a simple, fixed policy: never use LocateRequest - // messages. - // - for (;;) - { - call.start (ACE_TRY_ENV); - ACE_CHECK; - - ACE_TIMEPROBE (TAO_STUB_OBJECT_DO_STATIC_CALL_INVOCATION_START); - - // Make the call ... blocking for the response. - this->put_params (ACE_TRY_ENV, info, call, args); - ACE_CHECK; - - ACE_TIMEPROBE (TAO_STUB_OBJECT_DO_STATIC_CALL_PUT_PARAMS); - - int status = - call.invoke (info->excepts, - info->except_count, - ACE_TRY_ENV); - ACE_CHECK; - - if (status == TAO_INVOKE_RESTART) - continue; - - if (status == TAO_INVOKE_EXCEPTION) - return; // Shouldn't happen - - if (status != TAO_INVOKE_OK) - ACE_THROW (CORBA::UNKNOWN (TAO_DEFAULT_MINOR_CODE, CORBA::COMPLETED_MAYBE)); - - // The only case left is status == TAO_INVOKE_OK, exit the - // loop. We cannot retry because at this point we either - // got a reply or something with an status of - // COMPLETED_MAYBE, thus we cannot reissue the request if we - // are to satisfy the "at most once" semantics. - break; - } - - // Now, get all the "return", "out", and "inout" parameters - // from the response message body ... return parameter is - // first, the rest are in the order defined in the IDL spec - // (which is also the order that DII users are required to - // use). - - const TAO_Param_Data *pdp = info->params; - for (void** i = args; - i != args + info->param_count; - i++, pdp++) - { - void *ptr = *i; - - // if it is an inout parameter, it would become - // necessary to first release the "in" memory - if (pdp->mode == PARAM_INOUT) - { - // @@ TODO - add others as we test each case - // (ASG) will do 03/22/98. - // @@ IMHO this should be handled in the stub - // (coryan) - switch (pdp->tc->kind (TAO_IN_ENV)) - { - case CORBA::tk_string: - { - CORBA::string_free (*(char **)ptr); - *(char **)ptr = 0; - } - break; - default: - break; - } - } - - if (pdp->mode == PARAM_RETURN - || pdp->mode == PARAM_OUT - || pdp->mode == PARAM_INOUT) - { - // The language mapping's memory allocation - // policy says that some data is heap-allocated. - // This interpreter is told about the relevant - // policy by whoever built the operation - // description (e.g. the IDL compiler) so it - // doesn't have to know the policy associated - // with a particular language binding - // (e.g. C/C++ differ, and C++ even has - // different policies for different kinds of - // structures). - if (pdp->value_size == 0) - { - call.get_value (pdp->tc, ptr, ACE_TRY_ENV); - ACE_CHECK; - } - else - { - // @@ (ASG) - I think we must completely - // get rid of this case because IDL compiler - // generated stubs will use this function - // and they better allocate all the memory. - - // assert (value_size == tc->size()); - *(void **)ptr = new CORBA::Octet [pdp->value_size]; - call.get_value (pdp->tc, *(void **)ptr, ACE_TRY_ENV); - ACE_CHECK; - } - } - } - } // if (two way) - else - { - TAO_GIOP_Oneway_Invocation call (this, info->opname, - this->orb_core_); - ACE_TIMEPROBE (TAO_STUB_OBJECT_DO_STATIC_CALL_INVOCATION_CTOR); - - for (;;) - { - call.start (ACE_TRY_ENV); - ACE_CHECK; - - this->put_params (ACE_TRY_ENV, info, call, args); - ACE_CHECK; - - ACE_TIMEPROBE (TAO_STUB_OBJECT_DO_STATIC_CALL_PUT_PARAMS); - int status = call.invoke (ACE_TRY_ENV); - ACE_CHECK; - - if (status == TAO_INVOKE_RESTART) - continue; - - if (status == TAO_INVOKE_EXCEPTION) - return; // Shouldn't happen - - if (status != TAO_INVOKE_OK) - ACE_THROW (CORBA::UNKNOWN (TAO_DEFAULT_MINOR_CODE, CORBA::COMPLETED_MAYBE)); - - break; - } - } -} - -void -TAO_Stub::put_params (CORBA::Environment &ACE_TRY_ENV, - const TAO_Call_Data *info, - TAO_GIOP_Invocation &call, - void** args) -{ - // Now, put all "in" and "inout" parameters into the request - // message body. - // - // Some "inout" data have an extra level of indirection, - // specified by the language mapping's memory allocation - // policies ... the indirection only shows up here when it's - // needed later for allocating "out" memory, otherwise there's - // just one indirection. - - const TAO_Param_Data *pdp = info->params; - for (void** i = args; - i != args + info->param_count; - i++, pdp++) - { - void *ptr = *i; - - if (pdp->mode == PARAM_IN) - { - call.put_param (pdp->tc, ptr, ACE_TRY_ENV); - } - else if (pdp->mode == PARAM_INOUT) - { - if (pdp->value_size == 0) - call.put_param (pdp->tc, ptr, ACE_TRY_ENV); - else - call.put_param (pdp->tc, *(void **)ptr, ACE_TRY_ENV); - } - ACE_CHECK; - } -} - -#if !defined (TAO_HAS_MINIMUM_CORBA) - -// DII analogue of the above. - -void -TAO_Stub::do_dynamic_call (const char *opname, - CORBA::Boolean is_roundtrip, - CORBA::NVList_ptr args, - CORBA::NamedValue_ptr result, - CORBA::Flags, - CORBA::ExceptionList &exceptions, - CORBA::Environment &ACE_TRY_ENV) -{ - TAO_Synchronous_Cancellation_Required NOT_USED; - - // Do a locate_request if necessary/wanted. - // Suspect that you will be forwarded, so be proactive! - // strategy for reducing overhead when you think a request will - // be forwarded. No standard way now to know. - if (this->use_locate_request_ && this->first_locate_request_) - { - TAO_GIOP_Locate_Request_Invocation call (this, this->orb_core_); - - // Simply let these exceptions propagate up - // (if any of them occurs.) - call.start (ACE_TRY_ENV); - ACE_CHECK; - - call.invoke (ACE_TRY_ENV); - ACE_CHECK; - - this->first_locate_request_ = 0; - } - - if (is_roundtrip) - { - TAO_GIOP_Twoway_Invocation call (this, opname, this->orb_core_); - - // Loop as needed for forwarding; see above. - - for (;;) - { - call.start (ACE_TRY_ENV); - ACE_CHECK; - - this->put_params (call, args, ACE_TRY_ENV); - ACE_CHECK; - - // Make the call ... blocking for the response. - int status = - call.invoke (exceptions, ACE_TRY_ENV); - ACE_CHECK; - - if (status == TAO_INVOKE_RESTART) - continue; - - if (status == TAO_INVOKE_EXCEPTION) - return; // Shouldn't happen - - if (status != TAO_INVOKE_OK) - ACE_THROW (CORBA::UNKNOWN (TAO_DEFAULT_MINOR_CODE, CORBA::COMPLETED_MAYBE)); - - // The only case left is status == TAO_INVOKE_OK, exit the - // loop. We cannot retry because at this point we either - // got a reply or something with an status of - // COMPLETED_MAYBE, thus we cannot reissue the request if we - // are to satisfy the "at most once" semantics. - break; - } - - // Now, get all the "return", "out", and "inout" parameters - // from the response message body ... return parameter is - // first, the rest are in the order defined in the IDL spec - // (which is also the order that DII users are required to - // use). - - if (result != 0) - { -#if 0 - // @@ (ASG) I need to look into this OUT_LIST_MEMORY stuff - // (4/21/98). - // @@ (Carlos) All this code seems bogus, we know that - // allocating memory of behalf of the user is and endless - // source of trouble (due to vtbls and the such). - - // If caller didn't set OUT_LIST_MEMORY flag, allocate - // memory for return value ... - - if (!(flags & CORBA::OUT_LIST_MEMORY)) - { - CORBA::TypeCode_var tcp = result->value ()->type (); - size_t size = tcp->size (ACE_TRY_ENV); - ACE_CHECK; - - if (size != 0) - { - void *ptr = new CORBA::Octet [size]; - - result->value ()->replace (tcp.in (), ptr, 1, ACE_TRY_ENV); - ACE_CHECK; - } - } -#endif - if (!result->value ()->value_) - { - // storage was not allocated. In this case, we - // simply grab the portion of the CDR stream - // that contained this parameter, The - // application should use the appropriate >>= - // operator to retrieve the value - char *begin, *end; - TAO_InputCDR temp (call.inp_stream ()); - CORBA::TypeCode::traverse_status retval; - CORBA::Any *any = result->value (); - - begin = call.inp_stream ().rd_ptr (); - // skip the parameter to get the ending position - retval = temp.skip (any->type_, ACE_TRY_ENV); - ACE_CHECK; - - if (retval == CORBA::TypeCode::TRAVERSE_CONTINUE) - { - end = temp.rd_ptr (); - any->cdr_ = new ACE_Message_Block (end - begin); - TAO_OutputCDR out (any->cdr_); - - retval = out.append (any->type_, - &call.inp_stream (), ACE_TRY_ENV); - ACE_CHECK; - - if (retval == CORBA::TypeCode::TRAVERSE_CONTINUE) - { - any->any_owns_data_ = 1; - any->value_ = 0; - } - } - } - else - { - // the application had allocated the top level - // storage. We simply retrieve the data - call.get_value (result->value ()->type_, - result->value ()->value_, ACE_TRY_ENV); - ACE_CHECK; - } - } - - for (u_int i = 0; i < args->count (); i++) - { - CORBA::NamedValue_ptr value = args->item (i, ACE_TRY_ENV); - ACE_CHECK; - - CORBA::Any *any = value->value (); - - if (value->flags () == CORBA::ARG_OUT - || value->flags () == CORBA::ARG_INOUT) - { -#if 0 - // @@ (ASG) need to deal with this - - // If caller didn't set OUT_LIST_MEMORY flag, allocate - // memory for this parameter ... - if (!(flags & CORBA::OUT_LIST_MEMORY)) - { - CORBA::TypeCode_var tcp = value->value ()->type (); - size_t size = tcp->size (ACE_TRY_ENV); - ACE_CHECK; - - if (size != 0) - { - CORBA::Octet *ptr = new CORBA::Octet [size]; - - value->value ()->replace (tcp.in (), ptr, - 1, ACE_TRY_ENV); - ACE_CHECK; - } - } -#endif - if (!any->value_) - { - // storage was not allocated. In this case, - // we simply grab the portion of the CDR - // stream that contained this parameter, The - // application should use the appropriate - // >>= operator to retrieve the value - char *begin, *end; - TAO_InputCDR temp (call.inp_stream ()); - CORBA::TypeCode::traverse_status retval; - - begin = call.inp_stream ().rd_ptr (); - // skip the parameter to get the ending position - retval = temp.skip (any->type_, ACE_TRY_ENV); - ACE_CHECK; - - if (retval == CORBA::TypeCode::TRAVERSE_CONTINUE) - { - end = temp.rd_ptr (); - any->cdr_ = new ACE_Message_Block (end - begin); - TAO_OutputCDR out (any->cdr_); - - retval = out.append (any->type_, - &call.inp_stream (), ACE_TRY_ENV); - ACE_CHECK; - - if (retval == CORBA::TypeCode::TRAVERSE_CONTINUE) - { - any->any_owns_data_ = 1; - any->value_ = 0; - } - } - } - else - { - // the application had allocated the top level - // storage. We simply retrieve the data - call.get_value (any->type_, - (void *) any->value_, ACE_TRY_ENV); - ACE_CHECK; - } - } - } - } - else - { - TAO_GIOP_Oneway_Invocation call (this, opname, this->orb_core_); - - for (;;) - { - call.start (ACE_TRY_ENV); - ACE_CHECK; - - this->put_params (call, args, ACE_TRY_ENV); - ACE_CHECK; - - int status = call.invoke (ACE_TRY_ENV); - ACE_CHECK; - - if (status == TAO_INVOKE_RESTART) - continue; - - if (status == TAO_INVOKE_EXCEPTION) - return; // Shouldn't happen - - if (status != TAO_INVOKE_OK) - ACE_THROW (CORBA::UNKNOWN (TAO_DEFAULT_MINOR_CODE, CORBA::COMPLETED_MAYBE)); - - break; - } - } -} - -void -TAO_Stub::put_params (TAO_GIOP_Invocation &call, - CORBA::NVList_ptr args, - CORBA::Environment &ACE_TRY_ENV) -{ - // Now, put all "in" and "inout" parameters into the request - // message body. - - for (u_int i = 0; i < args->count (); i++) - { - CORBA::NamedValue_ptr value = args->item (i, ACE_TRY_ENV); - ACE_CHECK; - - if (value->flags () == CORBA::ARG_IN - || value->flags () == CORBA::ARG_INOUT) - { - // If the Any owns the data, then we have allocated space. - if (value->value ()->any_owns_data_) - { - call.put_param (value->value ()->type_, - value->value ()->value_, ACE_TRY_ENV); - ACE_CHECK; - } - else - { - TAO_OutputCDR &cdr = call.out_stream (); - TAO_InputCDR in (value->value ()->cdr_, - TAO_ENCAP_BYTE_ORDER, - this->orb_core_); - cdr.append (value->value ()->type_, &in, ACE_TRY_ENV); - ACE_CHECK; - } - } - } -} - -#endif /* TAO_HAS_MINIMUM_CORBA */ - -// **************************************************************** - -#if defined (TAO_HAS_CORBA_MESSAGING) -CORBA::Policy_ptr -TAO_Stub::get_policy ( - CORBA::PolicyType type, - CORBA::Environment &ACE_TRY_ENV) -{ - ACE_GUARD_RETURN (ACE_SYNCH_MUTEX, guard, - this->refcount_lock_, - CORBA::Policy::_nil ()); - - if (this->policies_ == 0) - return CORBA::Policy::_nil (); - - return this->policies_->get_policy (type, ACE_TRY_ENV); -} - -CORBA::Policy_ptr -TAO_Stub::get_client_policy ( - CORBA::PolicyType type, - CORBA::Environment &ACE_TRY_ENV) -{ - ACE_GUARD_RETURN (ACE_SYNCH_MUTEX, guard, - this->refcount_lock_, - CORBA::Policy::_nil ()); - - CORBA::Policy_var result; - if (this->policies_ != 0) - { - result = this->policies_->get_policy (type, ACE_TRY_ENV); - ACE_CHECK_RETURN (CORBA::Policy::_nil ()); - } - - if (CORBA::is_nil (result.in ())) - { - TAO_Policy_Current *policy_current = - this->orb_core_->policy_current (); - if (policy_current != 0) - { - result = policy_current->get_policy (type, ACE_TRY_ENV); - ACE_CHECK_RETURN (CORBA::Policy::_nil ()); - } - } - - if (CORBA::is_nil (result.in ())) - { - TAO_Policy_Manager *policy_manager = - this->orb_core_->policy_manager (); - if (policy_manager != 0) - { - result = policy_manager->get_policy (type, ACE_TRY_ENV); - ACE_CHECK_RETURN (CORBA::Policy::_nil ()); - } - } - - if (CORBA::is_nil (result.in ())) - { - result = this->orb_core_->get_default_policy (type, ACE_TRY_ENV); - ACE_CHECK_RETURN (CORBA::Policy::_nil ()); - } - - return result._retn (); -} - -TAO_Stub* -TAO_Stub::set_policy_overrides ( - const CORBA::PolicyList & policies, - CORBA::SetOverrideType set_add, - CORBA::Environment &ACE_TRY_ENV) -{ - // Notice the use of an explicit constructor.... - auto_ptr<TAO_Policy_Manager_Impl> policy_manager (new TAO_Policy_Manager_Impl); - - if (set_add == CORBA::SET_OVERRIDE) - { - policy_manager->set_policy_overrides (policies, - set_add, - ACE_TRY_ENV); - ACE_CHECK_RETURN (0); - } - else if (this->policies_ == 0) - { - policy_manager->set_policy_overrides (policies, - CORBA::SET_OVERRIDE, - ACE_TRY_ENV); - ACE_CHECK_RETURN (0); - } - else - { - *policy_manager = *this->policies_; - policy_manager->set_policy_overrides (policies, - set_add, - ACE_TRY_ENV); - ACE_CHECK_RETURN (0); - } - - TAO_Stub* stub; - ACE_NEW_RETURN (stub, TAO_Stub (CORBA::string_dup (this->type_id.in ()), - this->base_profiles_, - this->orb_core_), - 0); - stub->policies_ = policy_manager.release (); - return stub; -} - -CORBA::PolicyList * -TAO_Stub::get_policy_overrides ( - const CORBA::PolicyTypeSeq & types, - CORBA::Environment &ACE_TRY_ENV) -{ - if (this->policies_ == 0) - return 0; - - return this->policies_->get_policy_overrides (types, ACE_TRY_ENV); -} - -CORBA::Boolean -TAO_Stub::validate_connection ( - CORBA::PolicyList_out inconsistent_policies, - CORBA::Environment &ACE_TRY_ENV) -{ - // @@ What is a good default value to return.... - inconsistent_policies = 0; - return 0; -} - -void -TAO_Stub::add_forward_profiles (const TAO_MProfile &mprofiles) -{ - // we assume that the profile_in_use_ is being - // forwarded! Grab the lock so things don't change. - ACE_MT (ACE_GUARD (ACE_Lock, - guard, - *this->profile_lock_ptr_)); - - TAO_MProfile *now_pfiles = this->forward_profiles_; - if (now_pfiles == 0) - now_pfiles = &this->base_profiles_; - - ACE_NEW (this->forward_profiles_, - TAO_MProfile (mprofiles)); - - // forwarded profile points to the new IOR (profiles) - this->profile_in_use_->forward_to (this->forward_profiles_); - - // new profile list points back to the list which was forwarded. - this->forward_profiles_->forward_from (now_pfiles); - - // make sure we start at the beginning of mprofiles - this->forward_profiles_->rewind (); -} - - -#if defined (ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION) - -template class auto_ptr<TAO_Policy_Manager_Impl>; -template class ACE_Auto_Basic_Ptr<TAO_Policy_Manager_Impl>; - -#elif defined (ACE_HAS_TEMPLATE_INSTANTIATION_PRAGMA) - -#pragma instantiate auto_ptr<TAO_Policy_Manager_Impl> -#pragma instantiate ACE_Auto_Basic_Ptr<TAO_Policy_Manager_Impl> - -#endif /* ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION */ - -#endif /* TAO_HAS_CORBA_MESSAGING */ |