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|
// $Id$
// @@ as with TAO, this has a strong coupling to the Internet ORB
// (IIOP) code. We should make it know less about that protocol
// component and have a loose table-driven coupling to ORB/protocol
// library components.
#include "tao/corba.h"
#include "ace/Dynamic_Service.h"
#include "ace/Service_Repository.h"
#include "ace/Object_Manager.h"
#include "ace/SOCK_Dgram_Mcast.h"
#include "tao/TAO_Internal.h"
#include "tao/Timeprobe.h"
#if !defined (__ACE_INLINE__)
# include "tao/ORB.i"
#endif /* ! __ACE_INLINE__ */
// COM's IUnknown support
// {A201E4C7-F258-11ce-9598-0000C07CA898}
DEFINE_GUID (IID_STUB_Object,
0xa201e4c7, 0xf258, 0x11ce, 0x95, 0x98, 0x0, 0x0, 0xc0, 0x7c, 0xa8, 0x98);
CORBA::String_var::String_var (char *p)
: ptr_ (p)
{
// NOTE: According to the CORBA spec this string must *not* be
// copied, but it is non-compliant to use it/release it in the
// calling code. argument is consumed. p should never be NULL
}
CORBA::String_var::String_var (const CORBA::String_var& r)
{
this->ptr_ = CORBA::string_dup (r.ptr_);
}
CORBA::String_var::~String_var (void)
{
if (this->ptr_ != 0)
{
CORBA::string_free (this->ptr_);
this->ptr_ = 0;
}
}
TAO_Export CORBA::String
CORBA::string_dup (const CORBA::Char *str)
{
return CORBA::string_copy (str);
}
CORBA_ORB::CORBA_ORB (void)
: refcount_ (1),
open_called_(CORBA::B_FALSE),
should_shutdown_(CORBA::B_FALSE),
name_service_ (CORBA_Object::_nil ()),
schedule_service_ (CORBA_Object::_nil ()),
event_service_ (CORBA_Object::_nil ())
{
}
CORBA_ORB::~CORBA_ORB (void)
{
TAO_ORB_Core_instance ()->fini ();
ACE_MT (ACE_GUARD (ACE_Recursive_Thread_Mutex, tao_mon, *ACE_Static_Object_Lock::instance ()));
CORBA_ORB::orb_init_count_--;
if (CORBA_ORB::orb_init_count_ == 0)
{
// Other <fini> stuff should go here...
TAO_Exceptions::fini ();
}
}
// Set up listening endpoints.
int
CORBA_ORB::open (void)
{
if (this->open_called_ != CORBA::B_FALSE)
return 1;
this->open_called_ = CORBA::B_TRUE;
TAO_ORB_Core *ocp = TAO_ORB_Core_instance ();
TAO_Server_Strategy_Factory *f = ocp->server_factory ();
// Initialize the endpoint ... or try!
if (ocp->acceptor ()->open (ocp->orb_params ()->addr (),
ocp->reactor(),
f->creation_strategy (),
f->accept_strategy (),
f->concurrency_strategy (),
f->scheduling_strategy ()) == -1)
// Need to return an error somehow!! Maybe set do_exit?
return -1;
if (ocp->acceptor ()->acceptor ().get_local_addr (ocp->addr ()) == -1)
return -1;
ocp->orb_params ()->addr (ocp->addr ());
return 0;
}
void
CORBA_ORB::shutdown (CORBA::Boolean wait_for_completion)
{
ACE_UNUSED_ARG (wait_for_completion);
this->should_shutdown_ = CORBA::B_TRUE;
TAO_ORB_Core_instance ()->reactor ()->wakeup_all_threads ();
return;
}
ULONG
CORBA_ORB::Release (void)
{
{
ACE_MT (ACE_GUARD_RETURN (ACE_SYNCH_MUTEX, mon, this->lock_, 0));
ACE_ASSERT (this != 0);
if (--refcount_ != 0)
return this->refcount_;
}
delete this;
return 0;
}
void
CORBA_ORB::create_list (CORBA::Long count,
CORBA::NVList_ptr &retval)
{
assert (CORBA::ULong (count) <= UINT_MAX);
// create an empty list
retval = new CORBA::NVList;
// if count is greater than 0, create a list of NamedValues
if (count != 0)
{
retval->max_ = (CORBA::ULong) count;
for (CORBA::Long i=0; i < count; i++)
{
CORBA::NamedValue_ptr nv = new CORBA::NamedValue;
retval->values_.enqueue_tail (nv);
}
}
}
int
CORBA_ORB::perform_work (ACE_Time_Value *tv)
{
ACE_Reactor *r = TAO_ORB_Core_instance ()->reactor ();
// Set the owning thread of the Reactor to the one which we're
// currently in. This is necessary b/c it's possible that the
// application is calling us from a thread other than that in which
// the Reactor's CTOR (which sets the owner) was called.
r->owner (ACE_Thread::self ());
return r->handle_events (tv);
}
int
CORBA_ORB::run (ACE_Time_Value *tv)
{
ACE_Reactor *r = TAO_ORB_Core_instance ()->reactor ();
// Set the owning thread of the Reactor to the one which we're
// currently in. This is necessary b/c it's possible that the
// application is calling us from a thread other than that in which
// the Reactor's CTOR (which sets the owner) was called.
r->owner (ACE_Thread::self ());
// This method should only be called by servers, so now we set up
// for listening!
if (this->open () == -1)
return -1;
// Loop "forever" handling client requests.
while (this->should_shutdown_ == 0)
{
ACE_TIMEPROBE (" -> CORBA_ORB::run handling events");
switch (r->handle_events (tv))
{
case 0: // Timed out, so we return to caller.
return 0;
/* NOTREACHED */
case -1: // Something else has gone wrong, so return to caller.
return -1;
/* NOTREACHED */
default: // Some handlers were dispatched, so keep on processing
// requests until we're told to shutdown .
ACE_TIMEPROBE (" -> CORBA_ORB::run events handled");
break;
/* NOTREACHED */
}
}
/* NOTREACHED */
return 0;
}
int
CORBA_ORB::run (const ACE_Time_Value &tv)
{
return this->run ((ACE_Time_Value *) &tv);
}
CORBA_Object_ptr
CORBA_ORB::resolve_poa (void)
{
CORBA::Environment env;
TAO_POA *poa = TAO_ORB_Core_instance ()->root_poa ();
PortableServer::POA_var result = poa->_this (env);
if (env.exception () != 0)
return CORBA_Object::_nil ();
else
return result._retn ();
}
CORBA_Object_ptr
CORBA_ORB::resolve_poa_current (void)
{
// Return the pointer to this thread's POACurrent.
CORBA::Environment env;
TAO_POA_Current *poa_current = TAO_ORB_Core_instance ()->poa_current ();
if (poa_current == 0)
return CORBA_Object::_nil ();
PortableServer::Current_var result = poa_current->_this (env);
if (env.exception () != 0)
return CORBA_Object::_nil ();
else
return result._retn ();
}
CORBA_Object_ptr
CORBA_ORB::resolve_name_service (void)
{
CORBA::Environment env;
CORBA_Object_ptr return_value = CORBA_Object::_nil ();
// First check to see if we've already initialized this.
if (this->name_service_ != CORBA_Object::_nil ())
// @@ Someone please double-check this ;-)
return_value = this->name_service_;
char *name_service_ior =
TAO_ORB_Core_instance ()->orb_params ()->name_service_ior ();
// Second, check to see if the user has give us a parameter on
// the command-line.
if (name_service_ior == 0)
// Third, check to see if the user has an environment variable.
name_service_ior = ACE_OS::getenv ("NameService");
if (name_service_ior != 0)
{
this->name_service_ =
this->string_to_object (name_service_ior, env);
// check for errors
if (env.exception () != 0)
this->name_service_ = CORBA_Object::_nil ();
// Return ior.
return_value = this->name_service_;
}
else
{
// First, determine if the port was supplied on the command line
u_short port =
TAO_ORB_Core_instance ()->orb_params ()->name_service_port ();
if (port == 0)
{
// Look for the port among our environment variables.
const char *port_number = ACE_OS::getenv ("NameServicePort");
if (port_number != 0)
port = ACE_OS::atoi (port_number);
else
port = TAO_DEFAULT_NAME_SERVER_REQUEST_PORT;
}
return_value =
this->multicast_to_service (TAO_SERVICEID_NAMESERVICE, port);
}
return CORBA_Object::_duplicate (return_value);
}
CORBA_Object_ptr
CORBA_ORB::resolve_trading_service (void)
{
CORBA::Environment env;
CORBA_Object_ptr return_value = CORBA_Object::_nil ();
// First check to see if we've already initialized this.
if (this->trading_service_ != CORBA_Object::_nil ())
// @@ Someone please double-check this ;-)
return_value = this->trading_service_;
else
{
char *trading_service_ior =
TAO_ORB_Core_instance ()->orb_params ()->trading_service_ior ();
// Second, check to see if the user has give us a parameter on
// the command-line.
if (trading_service_ior == 0)
// Third, check to see if the user has an environment variable.
trading_service_ior = ACE_OS::getenv ("TradingService");
if (trading_service_ior != 0)
{
this->trading_service_ =
this->string_to_object (trading_service_ior, env);
// check for errors
if (env.exception () != 0)
this->trading_service_ = CORBA_Object::_nil ();
// Return ior.
return_value = this->trading_service_;
}
else
{
// First, determine if the port was supplied on the command line
u_short port =
TAO_ORB_Core_instance ()->orb_params ()->trading_service_port ();
if (port == 0)
{
// Look for the port among our environment variables.
const char *port_number = ACE_OS::getenv ("TradingServicePort");
if (port_number != 0)
port = ACE_OS::atoi (port_number);
else
port = TAO_DEFAULT_TRADING_SERVER_REQUEST_PORT;
}
return_value =
this->multicast_to_service (TAO_SERVICEID_TRADINGSERVICE, port);
}
}
return CORBA_Object::_duplicate (return_value);
}
CORBA_Object_ptr
CORBA_ORB::multicast_to_service (TAO_Service_ID service_id,
u_short port)
{
CORBA::Environment env;
// Use UDP multicast to locate the service.
CORBA_Object_ptr return_value = CORBA_Object::_nil ();
// This is the code that implements the multicast
// Naming Service locator.
ACE_SOCK_Dgram_Mcast multicast;
ACE_INET_Addr remote_addr;
// This starts out initialized to all zeros!
ACE_INET_Addr multicast_addr (port,
ACE_DEFAULT_MULTICAST_ADDR);
// Subscribe to multicast address.
if (multicast.subscribe (multicast_addr) == -1)
return return_value;
// Prepare connection for the reply.
ACE_INET_Addr response_addr;
ACE_SOCK_Dgram response;
// Choose any local port, we don't really care.
if (response.open (ACE_Addr::sap_any) == -1)
{
ACE_ERROR ((LM_ERROR, "open failed.\n"));
return return_value;
}
if (response.get_local_addr (response_addr) == -1)
{
ACE_ERROR ((LM_ERROR, "get_local_addr failed.\n"));
return return_value;
}
struct
{
u_short reply_port;
CORBA::Short service_id;
} mcast_info;
// Figure out what port to listen on for server replies,
// and convert to network byte order.
mcast_info.reply_port = htons (response_addr.get_port_number ());
mcast_info.service_id = htons (service_id);
// Send multicast of one byte, enough to wake up server.
ssize_t n_bytes =
multicast.send (&mcast_info, sizeof (mcast_info));
ACE_DEBUG ((LM_DEBUG, "sent multicast request."));
// check for errors
if (n_bytes == -1)
return return_value;
ACE_DEBUG ((LM_DEBUG,
"%s; Sent multicast. Reply port is %u. # of bytes sent is %d.\n",
__FILE__,
response_addr.get_port_number (),
n_bytes));
// Wait for response until TAO_DEFAULT_NAME_SERVER_TIMEOUT.
ACE_Time_Value timeout (TAO_DEFAULT_NAME_SERVER_TIMEOUT);
// receive response message
char buf[ACE_MAX_DGRAM_SIZE];
n_bytes = response.recv (buf, BUFSIZ, remote_addr, 0, &timeout);
// Close endpoint for response.
int retval = response.close ();
// check for errors
if (n_bytes == -1 || retval == -1)
return return_value;
// null terminate message
buf[n_bytes] = 0;
ACE_DEBUG ((LM_DEBUG,
"%s; Service resolved to ior: '%s'\n",
__FILE__,
buf));
// convert ior to an object reference
CORBA_Object_ptr objectified_ior =
this->string_to_object ((CORBA::String) buf, env);
// check for errors
if (env.exception () == 0)
return_value = objectified_ior;
// Return ior.
return return_value;
}
CORBA_Object_ptr
CORBA_ORB::resolve_initial_references (CORBA::String name)
{
if (ACE_OS::strcmp (name, TAO_OBJID_NAMESERVICE) == 0)
return this->resolve_name_service ();
if (ACE_OS::strcmp (name, TAO_OBJID_TRADINGSERVICE) == 0)
return this->resolve_trading_service ();
else if (ACE_OS::strcmp (name, TAO_OBJID_ROOTPOA) == 0)
return this->resolve_poa ();
else if (ACE_OS::strcmp (name, TAO_OBJID_POACURRENT) == 0)
return this->resolve_poa_current ();
else
return CORBA_Object::_nil ();
}
int
CORBA_ORB::preconnect (CORBA::String connections)
{
return TAO_ORB_Core_instance ()->preconnect (connections);
}
// Create an objref
CORBA::Object_ptr
CORBA_ORB::key_to_object (const TAO_ObjectKey &key,
const char *type_id,
CORBA::Environment &env)
{
CORBA::String id;
IIOP_Object *data;
if (type_id)
id = CORBA::string_copy (type_id);
else
id = 0;
data = new IIOP_Object (id,
IIOP::Profile (TAO_ORB_Core_instance ()->orb_params ()->addr (),
key));
if (data != 0)
env.clear ();
else
{
env.exception (new CORBA::NO_MEMORY (CORBA::COMPLETED_NO));
return 0;
}
// Create the CORBA level proxy
CORBA_Object *new_obj = new CORBA_Object (data);
// Clean up in case of errors.
if (new_obj == 0)
{
data->Release ();
env.exception (new CORBA::INTERNAL (CORBA::COMPLETED_NO));
}
return new_obj;
}
// String utility support; this can need to be integrated with the
// ORB's own memory allocation subsystem.
CORBA::String
CORBA::string_copy (const CORBA::Char *str)
{
if (!str)
return 0;
CORBA::String retval =
CORBA::string_alloc (ACE_OS::strlen (str));
// clear the contents of the allocated string
ACE_OS::memset(retval, '\0', ACE_OS::strlen (str));
return ACE_OS::strcpy (retval, str);
}
CORBA::String_var &
CORBA::String_var::operator= (char *p)
{
if (this->ptr_ != p)
{
if (this->ptr_ != 0)
CORBA::string_free (this->ptr_);
this->ptr_ = p;
}
return *this;
}
CORBA::String_var &
CORBA::String_var::operator= (const char *p)
{
if (this->ptr_ != 0)
CORBA::string_free (this->ptr_);
this->ptr_ = CORBA::string_dup (p);
return *this;
}
CORBA::String_var &
CORBA::String_var::operator= (const CORBA::String_var& r)
{
if (this != &r)
{
if (this->ptr_ != 0)
CORBA::string_free (this->ptr_);
this->ptr_ = CORBA::string_dup (r.ptr_);
}
return *this;
}
// Wide Character string utility support; this can need to be
// integrated with the ORB's own memory allocation subsystem.
CORBA::WString
CORBA::wstring_alloc (CORBA::ULong len)
{
return new CORBA::WChar [(size_t) (len + 1)];
}
CORBA::WString
CORBA::wstring_copy (const CORBA::WChar *const str)
{
if (!str)
return 0;
CORBA::WString retval = CORBA::wstring_alloc (ACE_OS::wslen (str));
return ACE_OS::wscpy (retval, str);
}
void
CORBA::wstring_free (CORBA::WChar *const str)
{
delete [] str;
}
void
CORBA_ORB::init_orb_globals (CORBA::Environment &env)
{
ACE_MT (ACE_GUARD (ACE_Recursive_Thread_Mutex, tao_mon, *ACE_Static_Object_Lock::instance ()));
// Put these initializations here so that exceptions are enabled
// immediately.
if (CORBA_ORB::orb_init_count_ == 0)
{
TAO_Marshal::init ();
TAO_Exceptions::init (env);
TAO_IIOP_Interpreter::init ();
}
CORBA_ORB::orb_init_count_++;
}
// ORB initialisation, per OMG document 94-9-46.
//
// XXX in addition to the "built in" Internet ORB, there will be ORBs
// which are added separately, e.g. through a DLL listed in the
// registry. Registry will be used to assign orb names and to
// establish which is the default.
CORBA::ORB_ptr
CORBA::ORB_init (int &argc,
char *const *argv,
const char * /* orb_name */,
CORBA::Environment &env)
{
// Using ACE_Static_Object_Lock::instance() precludes <ORB_init>
// from being called within a static object CTOR.
ACE_MT (ACE_GUARD_RETURN (ACE_SYNCH_RECURSIVE_MUTEX, guard,
*ACE_Static_Object_Lock::instance (), 0));
env.clear ();
// @@ We need to make sure it's ok for the following 3
// initialization routines to be called multiple times. Or better
// yet, ensure that we just call them the first time, e.g., by
// putting them in some type of TAO_Object_Manager, along with the
// Typecode_Constants...
CORBA_ORB::init_orb_globals ();
if (env.exception () != 0)
return 0;
// Verify some of the basic implementation requirements. This test
// gets optimized away by a decent compiler (or else the rest of the
// routine does).
//
// NOTE: we still "just" assume that native floating point is IEEE.
if (sizeof (CORBA::Short) != 2
|| sizeof (CORBA::Long) != 4
|| sizeof (CORBA::LongLong) != 8
|| sizeof (CORBA::Float) != 4
|| sizeof (CORBA::Double) != 8
|| sizeof (CORBA::LongDouble) != 16
|| sizeof (CORBA::WChar) < 2
|| sizeof (void *) != ACE_SIZEOF_VOID_P)
{
ACE_DEBUG ((LM_DEBUG, "%s; ERROR: unexpected basic type size; "
"s:%d l:%d ll:%d f:%d d:%d ld:%d wc:%d v:%d\n",
__FILE__,
sizeof (CORBA::Short),
sizeof (CORBA::Long),
sizeof (CORBA::LongLong),
sizeof (CORBA::Float),
sizeof (CORBA::Double),
sizeof (CORBA::LongDouble),
sizeof (CORBA::WChar),
sizeof (void *)));
env.exception (new CORBA::INITIALIZE (CORBA::COMPLETED_NO));
return 0;
}
// Initialize the ORB Core instance.
int result = TAO_ORB_Core_instance ()->init (argc, (char **)argv);
// check for errors and return 0 if error.
if (result == -1)
{
env.exception (new CORBA::BAD_PARAM (CORBA::COMPLETED_NO));
return 0;
}
return TAO_ORB_Core_instance()->orb ();
}
#define TAO_HASH_ADDR ACE_Hash_Addr<ACE_INET_Addr>
#if defined (ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION)
template class TAO_Unbounded_Sequence<CORBA::Octet>;
template class ACE_Dynamic_Service<TAO_Server_Strategy_Factory>;
template class ACE_Dynamic_Service<TAO_Client_Strategy_Factory>;
template class ACE_Cached_Connect_Strategy<TAO_Client_Connection_Handler, ACE_SOCK_CONNECTOR, ACE_SYNCH_RW_MUTEX>;
template class ACE_Cached_Connect_Strategy<TAO_Client_Connection_Handler, ACE_SOCK_CONNECTOR, ACE_SYNCH_NULL_MUTEX>;
template class ACE_Atomic_Op<ACE_SYNCH_MUTEX, u_int>;
template class ACE_Hash_Map_Entry<TAO_HASH_ADDR, TAO_Client_Connection_Handler *>;
template class ACE_Hash_Map_Manager<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_RW_MUTEX>;
template class ACE_Hash_Map_Iterator_Base<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_RW_MUTEX>;
template class ACE_Hash_Map_Iterator<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_RW_MUTEX>;
template class ACE_Hash_Map_Reverse_Iterator<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_RW_MUTEX>;
template class ACE_Hash_Map_Manager<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_NULL_MUTEX>;
template class ACE_Hash_Map_Iterator_Base<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_NULL_MUTEX>;
template class ACE_Hash_Map_Iterator<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_NULL_MUTEX>;
template class ACE_Hash_Map_Reverse_Iterator<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_NULL_MUTEX>;
#elif defined (ACE_HAS_TEMPLATE_INSTANTIATION_PRAGMA)
#pragma instantiate TAO_Unbounded_Sequence<CORBA::Octet>
#pragma instantiate ACE_Dynamic_Service<TAO_Server_Strategy_Factory>
#pragma instantiate ACE_Dynamic_Service<TAO_Client_Strategy_Factory>
#pragma instantiate ACE_Cached_Connect_Strategy<TAO_Client_Connection_Handler, ACE_SOCK_CONNECTOR, ACE_SYNCH_RW_MUTEX>
#pragma instantiate ACE_Cached_Connect_Strategy<TAO_Client_Connection_Handler, ACE_SOCK_CONNECTOR, ACE_SYNCH_NULL_MUTEX>
#pragma instantiate ACE_Atomic_Op<ACE_SYNCH_MUTEX, u_int>
//#pragma instantiate TAO_HASH_ADDR
#pragma instantiate ACE_Hash_Map_Entry<TAO_HASH_ADDR, TAO_Client_Connection_Handler *>
#pragma instantiate ACE_Hash_Map_Manager<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_RW_MUTEX>
#pragma instantiate ACE_Hash_Map_Iterator_Base<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_RW_MUTEX>
#pragma instantiate ACE_Hash_Map_Iterator<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_RW_MUTEX>
#pragma instantiate ACE_Hash_Map_Reverse_Iterator<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_RW_MUTEX>
#pragma instantiate ACE_Hash_Map_Manager<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_NULL_MUTEX>
#pragma instantiate ACE_Hash_Map_Iterator_Base<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_NULL_MUTEX>
#pragma instantiate ACE_Hash_Map_Iterator<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_NULL_MUTEX>
#pragma instantiate ACE_Hash_Map_Reverse_Iterator<TAO_HASH_ADDR, TAO_Client_Connection_Handler *, ACE_SYNCH_NULL_MUTEX>
#endif /* ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION */
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