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|
// $Id$
// @ (#)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"
#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,
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 (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);
}
TAO_Stub::TAO_Stub (char *repository_id,
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 (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 ();
}
// @@ does this need to be freed?
this->profile_lock_ptr_ =
this->orb_core_->client_factory ()->create_iiop_profile_lock ();
this->set_base_profiles (profiles);
}
#if 0
TAO_Stub::TAO_Stub (char *repository_id,
TAO_Profile *profile)
: 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)
{
// @@ XXX need to verify type and deal with wrong types
this->profile_lock_ptr_ =
this->orb_core_->client_factory ()->create_iiop_profile_lock ();
base_profiles_.set (1);
base_profiles_.give_profile (profile);
reset_base ();
}
TAO_Stub::TAO_Stub (char *repository_id)
: 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)
{
this->profile_lock_ptr_ =
this->orb_core_->client_factory ()->create_iiop_profile_lock ();
}
#endif /* 0 */
// 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);
}
int operator==(const TAO_opaque& rhs,
const TAO_opaque& lhs)
{
if (rhs.length () != lhs.length ())
return 0;
for (CORBA::ULong i = 0;
i < rhs.length ();
++i)
if (rhs[i] != lhs[i])
return 0;
return 1;
}
int operator!=(const TAO_opaque& rhs,
const TAO_opaque& lhs)
{
return !(rhs == lhs);
}
// 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 (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 (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 (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 (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 */
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