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// -*- C++ -*-
//
// $Id$
#include "ServerRequestInfo.h"
#include "POA.h"
#include "POA_Policy_Set.h"
#include "tao/TAO_Server_Request.h"
#include "tao/ORB_Core.h"
#include "tao/PolicyC.h"
#include "tao/ORB_Core.h"
ACE_RCSID (TAO_PortableServer,
ServerRequestInfo,
"$Id$")
#if (TAO_HAS_INTERCEPTORS == 1)
# if !defined (__ACE_INLINE__)
# include "ServerRequestInfo.inl"
# endif /* !__ACE_INLINE__ */
TAO_ServerRequestInfo::TAO_ServerRequestInfo (
TAO_ServerRequest &server_request,
TAO_Object_Adapter::Servant_Upcall *servant_upcall)
: server_request_ (server_request),
servant_upcall_ (servant_upcall),
caught_exception_ (0),
reply_status_ (-1)
{
}
CORBA::ULong
TAO_ServerRequestInfo::request_id (ACE_ENV_SINGLE_ARG_DECL_NOT_USED)
ACE_THROW_SPEC ((CORBA::SystemException))
{
// The request ID returned by this method need not correspond to the
// GIOP request ID sent with the client request. The request ID
// must be unique across all outstanding requests. To avoid locking
// overhead, the address of the TAO_ServerRequest object is used as
// the request ID. This guarantees that the request ID is unique.
//
// For 64-bit platforms, only the lower 32 bits are used. Hopefully
// that will be enough to ensure uniqueness.
// This is basically the same trick used in
// TAO_GIOP_Invocation::generate_request_id(). However, no right
// shifting of 64 bit addresses is performed since the
// TAO_ServerRequest object is not large enough to allow that trick.
CORBA::ULong id = 0;
// Note that we reinterpret_cast to an "unsigned long" instead of
// CORBA::ULong since we need to first cast to an integer large
// enough to hold an address to avoid compile-time warnings on some
// 64-bit platforms.
if (sizeof (this) == 4) // 32 bit address
id =
ACE_reinterpret_cast (unsigned long, &(this->server_request_));
else if (sizeof (this) == 8) // 64 bit address -- use lower 32 bits
id =
ACE_reinterpret_cast (unsigned long,
&(this->server_request_)) & 0xFFFFFFFFu;
else
// @@ Rather than fallback on the GIOP request ID, we should use
// an atomically incremented variable specific to the ORB, or
// perhaps specific to the process.
id = this->server_request_.request_id (); // Fallback
return id;
}
char *
TAO_ServerRequestInfo::operation (ACE_ENV_SINGLE_ARG_DECL_NOT_USED)
ACE_THROW_SPEC ((CORBA::SystemException))
{
return CORBA::string_dup (this->server_request_.operation ());
}
Dynamic::ParameterList *
TAO_ServerRequestInfo::arguments (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
Dynamic::ExceptionList *
TAO_ServerRequestInfo::exceptions (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
Dynamic::ContextList *
TAO_ServerRequestInfo::contexts (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
Dynamic::RequestContext *
TAO_ServerRequestInfo::operation_context (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
CORBA::Any *
TAO_ServerRequestInfo::result (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
CORBA::Boolean
TAO_ServerRequestInfo::response_expected (ACE_ENV_SINGLE_ARG_DECL_NOT_USED)
ACE_THROW_SPEC ((CORBA::SystemException))
{
return this->server_request_.response_expected ();
}
# if TAO_HAS_CORBA_MESSAGING == 1
Messaging::SyncScope
TAO_ServerRequestInfo::sync_scope (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
if (this->server_request_.sync_with_server ())
return Messaging::SYNC_WITH_SERVER;
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
-1);
}
#endif /* TAO_HAS_CORBA_MESSAGING */
PortableInterceptor::ReplyStatus
TAO_ServerRequestInfo::reply_status (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
if (this->reply_status_ == -1)
// A reply hasn't been received yet.
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
-1);
return this->reply_status_;
}
CORBA::Object_ptr
TAO_ServerRequestInfo::forward_reference (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
if (this->reply_status_ != PortableInterceptor::LOCATION_FORWARD)
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
CORBA::Object::_nil ());
// TAO_ServerRequest::forward_location() already duplicates the
// object reference. There is no need to duplicate it here.
return this->server_request_.forward_location ();
}
CORBA::Any *
TAO_ServerRequestInfo::get_slot (PortableInterceptor::SlotId id
ACE_ENV_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException,
PortableInterceptor::InvalidSlot))
{
// Retrieve the total number of assigned slots from the PICurrent.
// No TSS access is incurred.
TAO_PICurrent *pi_current =
this->server_request_.orb_core ()->pi_current ();
if (pi_current == 0)
ACE_THROW_RETURN (CORBA::INTERNAL (), 0);
pi_current->check_validity (id ACE_ENV_ARG_PARAMETER);
ACE_CHECK_RETURN (0);
// Retrieve the request scope PICurrent object.
TAO_PICurrent_Impl &rsc = this->server_request_.rs_pi_current ();
return rsc.get_slot (id ACE_ENV_ARG_PARAMETER);
}
IOP::ServiceContext *
TAO_ServerRequestInfo::get_request_service_context (
IOP::ServiceId id
ACE_ENV_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
TAO_Service_Context &service_context_list =
this->server_request_.request_service_context ();
return this->get_service_context_i (service_context_list,
id
ACE_ENV_ARG_PARAMETER);
}
IOP::ServiceContext *
TAO_ServerRequestInfo::get_reply_service_context (
IOP::ServiceId id
ACE_ENV_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
TAO_Service_Context &service_context_list =
this->server_request_.reply_service_context ();
return this->get_service_context_i (service_context_list,
id
ACE_ENV_ARG_PARAMETER);
}
IOP::ServiceContext *
TAO_ServerRequestInfo::get_service_context_i (
TAO_Service_Context &service_context_list,
IOP::ServiceId id
ACE_ENV_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
IOP::ServiceContext_var service_context;
if (service_context_list.get_context (id, service_context.out ()) != 0)
{
// Found.
return service_context._retn ();
}
else
{
// Not found.
ACE_THROW_RETURN (CORBA::BAD_PARAM (TAO_OMG_VMCID | 26,
CORBA::COMPLETED_NO),
0);
}
}
// Use at own risk. There is no way currently of extracting an
// exception from an Any. This method is in place just to be compliant
// with the spec.
CORBA::Any *
TAO_ServerRequestInfo::sending_exception (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
if (this->reply_status_ != PortableInterceptor::SYSTEM_EXCEPTION
&& this->reply_status_ != PortableInterceptor::USER_EXCEPTION)
{
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
// The spec says that if it is a user exception which cannot be
// inserted then the UNKNOWN exception should be thrown with minor
// code 1.
CORBA::Any * temp = 0;
ACE_NEW_THROW_EX (temp,
CORBA::Any,
CORBA::NO_MEMORY (
CORBA_SystemException::_tao_minor_code (
TAO_DEFAULT_MINOR_CODE,
ENOMEM),
CORBA::COMPLETED_NO));
ACE_CHECK_RETURN (0);
CORBA::Any_var caught_exception = temp;
if (this->caught_exception_ != 0)
(*temp) <<= *(this->caught_exception_);
return caught_exception._retn ();
}
// = TAO specific method done since there currently is no simple way
// to extract exceptions from an Any
CORBA::Exception *
TAO_ServerRequestInfo::_sending_exception (ACE_ENV_SINGLE_ARG_DECL_NOT_USED)
ACE_THROW_SPEC ((CORBA::SystemException))
{
return this->caught_exception_;
}
char *
TAO_ServerRequestInfo::server_id (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
if (this->servant_upcall_ != 0)
return
CORBA::string_dup (this->server_request_.orb_core ()->server_id ());
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
char *
TAO_ServerRequestInfo::orb_id (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
if (this->servant_upcall_ != 0)
return
CORBA::string_dup (this->server_request_.orb_core ()->orbid ());
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
PortableInterceptor::AdapterName *
TAO_ServerRequestInfo::adapter_name (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
// The adapter_name attribute defines a name for the object adapter
// that services requests for the invoked object. In the case of the
// POA, the adapter_name is the sequence of names from the root POA
// to the POA that services the request. The root POA is not named
// in this sequence.
if (this->servant_upcall_ != 0)
return
this->servant_upcall_->poa ().adapter_name (
ACE_ENV_SINGLE_ARG_PARAMETER);
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
CORBA::OctetSeq *
TAO_ServerRequestInfo::object_id (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
if (this->servant_upcall_ != 0)
{
const PortableServer::ObjectId &id =
this->servant_upcall_->user_id ();
CORBA::OctetSeq *tmp = 0;
ACE_NEW_THROW_EX (tmp,
CORBA::OctetSeq,
CORBA::NO_MEMORY (
CORBA::SystemException::_tao_minor_code (
TAO_DEFAULT_MINOR_CODE,
ENOMEM),
CORBA::COMPLETED_NO));
ACE_CHECK_RETURN (0);
CORBA::OctetSeq_var obj_id = tmp;
// @@ It would be nice to avoid this copy. However, we can't be
// sure if the octet sequence will out live the POA from
// which the object ID is ultimately obtained. In the event
// the octet sequence does out live the POA, a copy is indeed
// necessary. Do a copy to be on the safe side. In any
// case, this is still faster than the
// PortableServer::Current::object_id() method since no TSS
// access is involved.
CORBA::ULong len = id.length ();
obj_id->length (len);
CORBA::Octet *buffer = obj_id->get_buffer ();
ACE_OS_String::memcpy (buffer, id.get_buffer (), len);
return obj_id._retn ();
}
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
CORBA::OctetSeq *
TAO_ServerRequestInfo::adapter_id (ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
if (this->servant_upcall_ != 0)
return this->servant_upcall_->poa ().id (ACE_ENV_SINGLE_ARG_PARAMETER);
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
0);
}
char *
TAO_ServerRequestInfo::target_most_derived_interface (
ACE_ENV_SINGLE_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
// Implemented in the generated skeleton.
ACE_THROW_RETURN (CORBA::NO_RESOURCES (TAO_OMG_VMCID | 1,
CORBA::COMPLETED_NO),
0);
}
CORBA::Policy_ptr
TAO_ServerRequestInfo::get_server_policy (CORBA::PolicyType type
ACE_ENV_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
// @@ Currently, it is only possible to retrieve the server policy
// only during and after the receive_request() interception
// point, i.e. within the skeleton.
if (this->servant_upcall_ != 0)
{
TAO_POA_Policy_Set &policies =
this->servant_upcall_->poa ().policies ();
// @@ This brain damaged implementation exists due to the fact
// neither TAO_POA nor TAO_POA_Policy_Set exposes any methods
// useful for retrieving a given Policy in the POA's
// PolicyList. So, I use the lame interfaces for now.
// -Ossama
const CORBA::ULong num_policies = policies.num_policies ();
for (CORBA::ULong i = 0; i < num_policies; ++i)
{
// @@ This incurs at least two locks per loop iteration due
// to the reference counting found within the policy
// object reference!!!
CORBA::Policy_var policy = policies.get_policy_by_index (i);
CORBA::PolicyType ptype = policy->policy_type (ACE_ENV_SINGLE_ARG_PARAMETER);
ACE_CHECK_RETURN (CORBA::Policy::_nil ());
if (ptype == type)
return policy._retn ();
}
// No policy matching the given PolicyType was found.
ACE_THROW_RETURN (CORBA::INV_POLICY (TAO_OMG_VMCID | 3,
CORBA::COMPLETED_NO),
CORBA::Policy::_nil ());
}
// @@ Technically, we shouldn't be throwing this exception since
// this method should be valid in all server side request
// interception points.
ACE_THROW_RETURN (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 14,
CORBA::COMPLETED_NO),
CORBA::Policy::_nil ());
}
void
TAO_ServerRequestInfo::set_slot (PortableInterceptor::SlotId id,
const CORBA::Any &data
ACE_ENV_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException,
PortableInterceptor::InvalidSlot))
{
// Retrieve the total number of assigned slots from the PICurrent
// object. No TSS access is incurred.
TAO_PICurrent *pi_current =
this->server_request_.orb_core ()->pi_current ();
if (pi_current == 0)
ACE_THROW (CORBA::INTERNAL ());
pi_current->check_validity (id ACE_ENV_ARG_PARAMETER);
ACE_CHECK;
// Retrieve the "request scope current" (RSC).
TAO_PICurrent_Impl &rsc = this->server_request_.rs_pi_current ();
// If the RSC was logically copied to the TSC, then deep copy the
// contents of the RSC to the TSC before modifying the RSC. The TSC
// should not be altered by modifications to the RSC.
TAO_PICurrent_Impl *tsc = rsc.pi_peer ();
if (tsc != 0)
tsc->copy (rsc, 1); // Deep copy
rsc.set_slot (id, data ACE_ENV_ARG_PARAMETER);
ACE_CHECK;
}
CORBA::Boolean
TAO_ServerRequestInfo::target_is_a (const char * /* id */
ACE_ENV_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
// Implemented in the generated skeleton.
ACE_THROW_RETURN (CORBA::NO_RESOURCES (TAO_OMG_VMCID | 1,
CORBA::COMPLETED_NO), 0);
}
void
TAO_ServerRequestInfo::add_reply_service_context (
const IOP::ServiceContext & service_context,
CORBA::Boolean replace
ACE_ENV_ARG_DECL)
ACE_THROW_SPEC ((CORBA::SystemException))
{
// Get the service context from the list
TAO_Service_Context &service_context_list =
this->server_request_.reply_service_context ();
if (service_context_list.set_context (service_context, replace) == 0)
{
ACE_THROW (CORBA::BAD_INV_ORDER (TAO_OMG_VMCID | 15,
CORBA::COMPLETED_NO));
}
}
#endif /* TAO_HAS_INTERCEPTORS == 1 */
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