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|
// This may look like C, but it's really -*- C++ -*-
// $Id$
// ============================================================================
//
// = LIBRARY
// TAO
//
// = FILENAME
// ORB.h
//
// = DESCRIPTION
// Header file for CORBA's <ORB> type and <CORBA> type.
//
// = AUTHOR
// Copyright 1994-1995 by Sun Microsystems Inc. and Douglas C. Schmidt.
//
// ============================================================================
#ifndef TAO_ORB_H
# define TAO_ORB_H
#include "tao/corba.h"
// ObjectIds recognized by CORBA_ORB::resolve_initial_references ()...
// of course, no guarantees are made that the call will return
// something useful.
#define TAO_OBJID_NAMESERVICE "NameService"
#define TAO_OBJID_TRADINGSERVICE "TradingService"
#define TAO_OBJID_ROOTPOA "RootPOA"
#define TAO_DEFAULT_ROOTPOA_NAME ""
#define TAO_OBJID_POACURRENT "POACurrent"
#define TAO_OBJID_INTERFACEREP "InterfaceRepository"
typedef enum
{
TAO_SERVICEID_NAMESERVICE,
TAO_SERVICEID_TRADINGSERVICE
} TAO_Service_ID;
// For some reason, PC compilers don't implement "natural" alignment,
// but only use fixed alignment policies. The following #pragmas
// configure fixed one-byte alignment policy, since some fixed policy
// needs to apply throughout an ORB.
#if defined (_MSC_VER)
# pragma pack (push, 1) // VC++, stack 1-byte alignment policy
# ifdef _DEBUG // convert from VC++ convention ...
# define DEBUG // ... to normal convention
# endif
#elif defined (__BORLANDC__)
# pragma option -a // BC++, use 1 byte alignment
#endif
#if !defined (TAO_CONST)
// Something to document the fact that we want to put 'const' in front
// of a type, but that it won't turn out the way we want, e.g., we
// really want to express that a CORBA_String is const, but since
// CORBA_String is a char*, the const modifies the pointer and not the
// pointed-to, and some compilers (like SGI's EDG-derived thang)
// complain.
#define TAO_CONST
#endif /* TAO_CONST */
// Forward declarations of some data types are needed.
class TAO_POA_Manager;
class TAO_POA_Policies;
class TAO_Object_Table;
class CORBA_Any;
class CORBA_Any_var;
class CORBA_Any_out;
//typedef class CORBA_Any *CORBA_Any_ptr;
class CORBA_TypeCode;
class CORBA_TypeCode_var;
class CORBA_TypeCode_out;
//typedef class CORBA_TypeCode *CORBA_TypeCode_ptr;
class CORBA_Exception;
//typedef class CORBA_Exception *CORBA_Exception_ptr;
class CORBA_Request;
class CORBA_Request_var;
class CORBA_Request_out;
//typedef class CORBA_Request *CORBA_Request_ptr;
class CORBA_NamedValue;
class CORBA_NamedValue_var;
class CORBA_NamedValue_out;
//typedef class CORBA_NamedValue *CORBA_NamedValue_ptr;
class CORBA_NVList;
class CORBA_NVList_var;
class CORBA_NVList_out;
//typedef class CORBA_NVList *CORBA_NVList_ptr;
class CORBA_ORB;
class CORBA_ORB_var;
class CORBA_ORB_out;
//typedef class CORBA_ORB *CORBA_ORB_ptr;
class CORBA_Object;
class CORBA_Object_var;
class CORBA_Object_out;
//typedef class CORBA_Object *CORBA_Object_ptr;
class CORBA_ServerRequest;
//typedef class CORBA_ServerRequest *CORBA_ServerRequest_ptr;
class CORBA_Environment;
//typedef class CORBA_Environment *CORBA_Environment_ptr;
class CORBA_Principal;
//typedef class CORBA_Principal *CORBA_Principal_ptr;
class CORBA_SystemException;
class CORBA_UserException;
class CORBA_Policy;
class CORBA_Policy_var;
class CORBA_Policy_out;
class CORBA_PolicyList;
class CORBA_PolicyList_var;
class CORBA_PolicyList_out;
class CORBA_Current;
class CORBA_Current_var;
class CORBA_Current_out;
// forward declarations of system exceptions
#define TAO_SYSTEM_EXCEPTION(name) class CORBA_ ## name
TAO_SYSTEM_EXCEPTION(UNKNOWN);
TAO_SYSTEM_EXCEPTION(BAD_PARAM);
TAO_SYSTEM_EXCEPTION(NO_MEMORY);
TAO_SYSTEM_EXCEPTION(IMP_LIMIT);
TAO_SYSTEM_EXCEPTION(COMM_FAILURE);
TAO_SYSTEM_EXCEPTION(INV_OBJREF);
TAO_SYSTEM_EXCEPTION(OBJECT_NOT_EXIST);
TAO_SYSTEM_EXCEPTION(NO_PERMISSION);
TAO_SYSTEM_EXCEPTION(INTERNAL);
TAO_SYSTEM_EXCEPTION(MARSHAL);
TAO_SYSTEM_EXCEPTION(INITIALIZE);
TAO_SYSTEM_EXCEPTION(NO_IMPLEMENT);
TAO_SYSTEM_EXCEPTION(BAD_TYPECODE);
TAO_SYSTEM_EXCEPTION(BAD_OPERATION);
TAO_SYSTEM_EXCEPTION(NO_RESOURCES);
TAO_SYSTEM_EXCEPTION(NO_RESPONSE);
TAO_SYSTEM_EXCEPTION(PERSIST_STORE);
TAO_SYSTEM_EXCEPTION(BAD_INV_ORDER);
TAO_SYSTEM_EXCEPTION(TRANSIENT);
TAO_SYSTEM_EXCEPTION(FREE_MEM);
TAO_SYSTEM_EXCEPTION(INV_IDENT);
TAO_SYSTEM_EXCEPTION(INV_FLAG);
TAO_SYSTEM_EXCEPTION(INTF_REPOS);
TAO_SYSTEM_EXCEPTION(BAD_CONTEXT);
TAO_SYSTEM_EXCEPTION(OBJ_ADAPTER);
TAO_SYSTEM_EXCEPTION(DATA_CONVERSION);
#undef TAO_SYSTEM_EXCEPTION
class CORBA_UnknownUserException;
typedef class CORBA_ImplementationDef *
CORBA_ImplementationDef_ptr;
typedef class CORBA_InterfaceDef *
CORBA_InterfaceDef_ptr;
// =Forward declarations
struct TAO_Dispatch_Context;
class TAO_Object_Table_Impl;
class TAO_Operation_Table;
class TAO_Client_Strategy_Factory;
class TAO_Server_Strategy_Factory;
class TAO_ORB_Parameters;
class TAO_InputCDR;
class TAO_OutputCDR;
// The new (POA) base class for servants.
class TAO_ServantBase;
// enum values defined in nvlist.h, bitwise ORed.
typedef u_int CORBA_Flags;
#if defined (ghs) && defined (CHORUS)
// This is non-compliant, but a nasty but with Green Hills C++68000 1.8.8
// forces us into it. TAO/tests/POA/RootPOA/RootPOA reveals the problem.
typedef unsigned long CORBA_Boolean;
#else /* ! (ghs && CHORUS) */
typedef u_char CORBA_Boolean;
#endif /* ! (ghs && CHORUS) */
typedef struct TAO_Leader_Follower_Info_Struct
{
ACE_SYNCH_MUTEX leader_follower_lock_;
// do protect the access to the following three members
ACE_Unbounded_Set<ACE_SYNCH_CONDITION *> follower_set_;
// keep a set of followers around (protected)
int leaders_;
// 0 if no leader is around, 1 if there is a leader
// > 1 if we do nested upcalls (protected)
ACE_thread_t leader_thread_ID_;
// thread ID of the leader thread (protected)
} TAO_Leader_Follower_Info;
// forward declare sequences.
template <class T> class TAO_Unbounded_Sequence;
template <class T> class TAO_Unbounded_Object_Sequence;
class TAO_Export CORBA
{
// = TITLE
// Provides the CORBA namespace.
//
// = DESCRIPTION
// This class allows the use of CORBA::Foo, as well as CORBA_Foo
// for all standard types Foo.
public:
typedef CORBA_Boolean Boolean;
typedef Boolean &Boolean_out;
// Out type for boolean.
typedef u_char Octet;
typedef Octet &Octet_out;
// Out type for octet.
typedef ACE_INT16 Short;
typedef Short &Short_out;
// Out type for Short.
typedef ACE_UINT16 UShort;
typedef UShort &UShort_out;
// Out type for UShort.
// = CORBA "Long" (and its unsigned cousin) are 32 bits.
typedef ACE_INT32 Long;
typedef ACE_UINT32 ULong;
// 94-9-32 Appendix A, also the OMG C++ mapping, stipulate that 64
// bit integers are "LongLong".
typedef Long &Long_out;
// Out type for long.
typedef ULong &ULong_out;
// Out type for unsigned long.
// = The following are IDL extensions, not yet standard.
typedef ACE_UINT64 ULongLong;
# if defined (_MSC_VER) && _MSC_VER >= 900
typedef __int64 LongLong;
# elif ACE_SIZEOF_LONG == 8
typedef long LongLong;
# elif ACE_SIZEOF_LONG_LONG == 8 && !defined (ACE_LACKS_LONGLONG_T)
# if defined (sun) && !defined (ACE_LACKS_U_LONGLONG_T)
// sun #defines u_longlong_t, maybe other platforms do also.
// Use it, at least with g++, so that its -pedantic doesn't
// complain about no ANSI C++ long long.
typedef longlong_t LongLong;
# else
// LynxOS 2.5.0 and Linux don't have u_longlong_t.
typedef long long LongLong;
# endif /* sun */
# else /* no native 64 bit integer type */
// If "long long" isn't native, programs can't use these data
// types in normal arithmetic expressions. If any particular
// application can cope with the loss of range, it can define
// conversion operators itself.
# define NONNATIVE_LONGLONG
# if defined (ACE_BIG_ENDIAN)
struct LongLong { Long h, l; };
# else
struct LongLong { Long l, h; };
# endif /* ! ACE_BIG_ENDIAN */
# endif /* no native 64 bit integer type */
typedef LongLong &LongLong_out;
// Out type for long long.
typedef ULongLong &ULongLong_out;
// Out type for unsigned long long.
# if ACE_SIZEOF_FLOAT == 4
typedef float Float;
# else /* ACE_SIZEOF_FLOAT != 4 */
# define TAO_NONNATIVE_FLOAT
struct Float
{
# if ACE_SIZEOF_INT == 4
// Use u_int to get word alignment.
u_int f;
# else /* ACE_SIZEOF_INT != 4 */
// Applications will probably have trouble with this.
char f[4];
# endif /* ACE_SIZEOF_INT != 4 */
};
# endif /* ACE_SIZEOF_FLOAT != 4 */
typedef Float &Float_out; // out type for float
# if ACE_SIZEOF_DOUBLE == 8
typedef double Double;
# else /* ACE_SIZEOF_DOUBLE != 8 */
# define TAO_NONNATIVE_DOUBLE
struct Double
{
# if ACE_SIZEOF_LONG == 8
// Use u_long to get word alignment.
u_long f;
# else /* ACE_SIZEOF_INT != 8 */
// Applications will probably have trouble with this.
char f[8];
# endif /* ACE_SIZEOF_INT != 8 */
};
# endif /* ACE_SIZEOF_DOUBLE != 8 */
typedef Double &Double_out;
// Out type for double.
// 94-9-32 Appendix A defines a 128 bit floating point "long double"
// data type, with greatly extended precision and four more bits of
// exponent (compared to "double"). This is an IDL extension, not
// yet standard.
# if ACE_SIZEOF_LONG_DOUBLE == 16
typedef long double LongDouble;
# else
# define NONNATIVE_LONGDOUBLE
struct LongDouble
{
char ld[16];
};
# endif /* ACE_SIZEOF_LONG_DOUBLE != 16 */
typedef LongDouble &LongDouble_out;
// Out type for long doubles.
typedef char Char;
typedef Char &Char_out;
// Out type for char.
typedef TAO_Unbounded_Sequence<Octet> OctetSeq;
typedef Char *String;
// = String memory management.
static String string_alloc (ULong len);
static String string_copy (const Char *);
static String string_dup (const Char *);
static void string_free (Char *);
class TAO_Export String_var
{
// = TITLE
// String var class. Provides automatic deallocation of storage
// for the string once it goes out of scope.
public:
String_var (void);
// default constructor.
String_var (char *p);
// constructor, owns p.
String_var (const char *p);
// constructor. Makes a copy of p.
String_var (const String_var &s);
// copy constructor.
~String_var (void);
// destructor.
String_var &operator= (char *p);
// assignment operator.
String_var &operator= (const char *p);
// assignment to a const char*. Makes a copy.
String_var &operator= (const String_var &s);
// assignment operator.
operator char *();
// access and modify.
operator const char *() const;
// only read privileges.
char &operator[] (ULong index);
// allows access and modification using an index.
char operator[] (ULong index) const;
// allows only accessing thru an index.
// = in, out, out, and _retn operations.
// ORBOS/97-05-15, Appendix C.2
const char *in (void) const;
// for in parameter.
char *&inout (void);
// for inout parameter.
char *&out (void);
// for out parameter.
char *_retn (void);
// for string of return type.
private:
char *ptr_;
// instance.
};
class TAO_Export String_out
{
// = TITLE
// String_out
//
// = DESCRIPTION
// To support the memory management for "out" parameter passing
// mode. ORBOS/97-05-15, Appendix C.2 defines a String_out class
public:
// = operations.
String_out (char *&p);
// Construction from a reference to a string.
String_out (String_var &p);
// Construction from a var.
String_out (const String_out &s);
// Copy constructor.
String_out &operator= (const String_out &s);
// Assignment from a string_out.
String_out &operator= (char *p);
// Assignment from a string.
operator char *&();
// Cast.
char *&ptr (void);
// Return underlying instance.
private:
char *&ptr_;
// Instance.
// assignment from _var disallowed
void operator= (const String_var &);
};
// WChar is an IDL extension, not yet standard. We use 32 bits
// because that's what many platforms use for their native wchar_t.
typedef ACE_OS::WChar WChar;
typedef WChar *WString;
typedef WChar &WChar_out;
// Out type for WChar.
// = String memory management routines.
static WString wstring_alloc (ULong len);
static WString wstring_copy (const WChar *const);
static WString wstring_dup (const WChar *const);
static void wstring_free (WChar *const);
// = various CORBA defined classes.
typedef CORBA_Any Any;
typedef CORBA_Any_var Any_var;
typedef CORBA_Any_out Any_out;
typedef Any *Any_ptr;
typedef CORBA_Environment Environment;
typedef Environment *Environment_ptr;
typedef CORBA_Exception Exception;
typedef Exception *Exception_ptr;
typedef CORBA_NamedValue NamedValue;
typedef NamedValue *NamedValue_ptr;
typedef CORBA_NamedValue_var NamedValue_var;
typedef CORBA_NamedValue_out NamedValue_out;
typedef CORBA_NVList NVList;
typedef NVList *NVList_ptr;
typedef CORBA_NVList_var NVList_var;
typedef CORBA_NVList_out NVList_out;
typedef CORBA_Object Object;
typedef CORBA_Object *Object_ptr;
typedef CORBA_Object_var Object_var;
typedef CORBA_Object_out Object_out;
typedef CORBA_Principal Principal;
typedef CORBA_Principal *Principal_ptr;
typedef CORBA_ORB ORB;
typedef CORBA_ORB *ORB_ptr;
typedef CORBA_ORB_var ORB_var;
typedef CORBA_ORB_out ORB_out;
typedef CORBA_Request Request;
typedef Request *Request_ptr;
typedef CORBA_Request_var Request_var;
typedef CORBA_Request_out Request_out;
typedef CORBA_ServerRequest ServerRequest;
typedef ServerRequest *ServerRequest_ptr;
typedef CORBA_SystemException SystemException;
typedef CORBA_TypeCode TypeCode;
typedef TypeCode *TypeCode_ptr;
typedef CORBA_TypeCode_var TypeCode_var;
typedef CORBA_TypeCode_out TypeCode_out;
typedef CORBA_UserException UserException;
typedef CORBA_ExceptionList ExceptionList;
typedef CORBA_ExceptionList *ExceptionList_ptr;
typedef CORBA_ImplementationDef *ImplementationDef_ptr;
typedef class CORBA_InterfaceDef *InterfaceDef_ptr;
typedef CORBA_Policy Policy;
typedef CORBA_Policy *Policy_ptr;
typedef CORBA_Policy_var Policy_var;
typedef CORBA_Policy_out Policy_out;
typedef CORBA_PolicyList PolicyList;
typedef CORBA_PolicyList_var PolicyList_var;
typedef CORBA_PolicyList_out PolicyList_out;
typedef CORBA_Current Current;
typedef CORBA_Current *Current_ptr;
typedef CORBA_Current_var Current_var;
typedef CORBA_Current_out Current_out;
// enum values defined in nvlist.hh, bitwise ORed.
typedef u_int Flags;
enum CompletionStatus
{
// = Completion Status for System exceptions
COMPLETED_YES, // successful or exceptional completion
COMPLETED_NO, // didn't change any state; retry is OK
COMPLETED_MAYBE // can't say what happened; retry unsafe
};
enum ExceptionType
{
// = Exception type.
NO_EXCEPTION,
SYSTEM_EXCEPTION,
USER_EXCEPTION
};
// all the system exception classes
#define TAO_SYSTEM_EXCEPTION(name) \
typedef CORBA_ ## name name
TAO_SYSTEM_EXCEPTION(UNKNOWN);
TAO_SYSTEM_EXCEPTION(BAD_PARAM);
TAO_SYSTEM_EXCEPTION(NO_MEMORY);
TAO_SYSTEM_EXCEPTION(IMP_LIMIT);
TAO_SYSTEM_EXCEPTION(COMM_FAILURE);
TAO_SYSTEM_EXCEPTION(INV_OBJREF);
TAO_SYSTEM_EXCEPTION(OBJECT_NOT_EXIST);
TAO_SYSTEM_EXCEPTION(NO_PERMISSION);
TAO_SYSTEM_EXCEPTION(INTERNAL);
TAO_SYSTEM_EXCEPTION(MARSHAL);
TAO_SYSTEM_EXCEPTION(INITIALIZE);
TAO_SYSTEM_EXCEPTION(NO_IMPLEMENT);
TAO_SYSTEM_EXCEPTION(BAD_TYPECODE);
TAO_SYSTEM_EXCEPTION(BAD_OPERATION);
TAO_SYSTEM_EXCEPTION(NO_RESOURCES);
TAO_SYSTEM_EXCEPTION(NO_RESPONSE);
TAO_SYSTEM_EXCEPTION(PERSIST_STORE);
TAO_SYSTEM_EXCEPTION(BAD_INV_ORDER);
TAO_SYSTEM_EXCEPTION(TRANSIENT);
TAO_SYSTEM_EXCEPTION(FREE_MEM);
TAO_SYSTEM_EXCEPTION(INV_IDENT);
TAO_SYSTEM_EXCEPTION(INV_FLAG);
TAO_SYSTEM_EXCEPTION(INTF_REPOS);
TAO_SYSTEM_EXCEPTION(BAD_CONTEXT);
TAO_SYSTEM_EXCEPTION(OBJ_ADAPTER);
TAO_SYSTEM_EXCEPTION(DATA_CONVERSION);
#undef TAO_SYSTEM_EXCEPTION
typedef CORBA_UnknownUserException UnknownUserException;
// = all the CORBA::is_nil methods.
static Boolean is_nil (Object_ptr);
static Boolean is_nil (Environment_ptr);
static Boolean is_nil (NamedValue_ptr);
static Boolean is_nil (NVList_ptr);
static Boolean is_nil (Request_ptr);
// static Boolean is_nil (Context_ptr);
static Boolean is_nil (TypeCode_ptr);
static Boolean is_nil (ORB_ptr);
static Boolean is_nil (Principal_ptr);
static Boolean is_nil (ServerRequest_ptr req);
// = all the CORBA release methods.
static void release (Object_ptr);
static void release (Environment_ptr);
static void release (NamedValue_ptr);
static void release (NVList_ptr);
static void release (Request_ptr);
static void release (Principal_ptr);
// static Boolean release (Context_ptr);
static void release (TypeCode_ptr);
static void release (ORB_ptr);
static void release (ServerRequest_ptr req);
enum TCKind
{
// = Kinds of typecodes.
// Do not change these enum values, or duplicate them if you need
// to add values. They are used to index tables, and if you
// change the values you'll need to find and update all of those
// tables. The values are also part of the Common Data
// Representation, and hence are part of IIOP and other ORB
// protocols.
tk_null = 0,
tk_void = 1,
tk_short = 2,
tk_long = 3,
tk_ushort = 4,
tk_ulong = 5,
tk_float = 6,
tk_double = 7,
tk_boolean = 8,
tk_char = 9,
tk_octet = 10,
tk_any = 11,
tk_TypeCode = 12,
tk_Principal = 13,
tk_objref = 14,
tk_struct = 15,
tk_union = 16,
tk_enum = 17,
tk_string = 18,
tk_sequence = 19,
tk_array = 20,
tk_alias = 21, // 94-11-7
tk_except = 22, // 94-11-7
// = These five are OMG-IDL data type extensions.
tk_longlong = 23, // 94-9-32 Appendix A (+ 2)
tk_ulonglong = 24, // 94-9-32 Appendix A (+ 2)
tk_longdouble = 25, // 94-9-32 Appendix A (+ 2)
tk_wchar = 26, // 94-9-32 Appendix A (+ 2)
tk_wstring = 27, // 94-9-32 Appendix A (+ 2)
// This symbol is not defined by CORBA 2.0. It's used to speed up
// dispatch based on TCKind values, and lets many important ones
// just be table lookups. It must always be the last enum value!!
TC_KIND_COUNT
};
// All the typecode constants
static TypeCode_ptr _tc_null;
static TypeCode_ptr _tc_void;
static TypeCode_ptr _tc_short;
static TypeCode_ptr _tc_long;
static TypeCode_ptr _tc_ushort;
static TypeCode_ptr _tc_ulong;
static TypeCode_ptr _tc_float;
static TypeCode_ptr _tc_double;
static TypeCode_ptr _tc_boolean;
static TypeCode_ptr _tc_char;
static TypeCode_ptr _tc_octet;
static TypeCode_ptr _tc_any;
static TypeCode_ptr _tc_TypeCode;
static TypeCode_ptr _tc_Principal;
static TypeCode_ptr _tc_Object;
static TypeCode_ptr _tc_string;
static TypeCode_ptr _tc_alias;
static TypeCode_ptr _tc_except;
static TypeCode_ptr _tc_longlong;
static TypeCode_ptr _tc_ulonglong;
static TypeCode_ptr _tc_longdouble;
static TypeCode_ptr _tc_wchar;
static TypeCode_ptr _tc_wstring;
// = Typecode constants for system exceptions.
#define TAO_SYSTEM_EXCEPTION(name) \
static TypeCode_ptr _tc_ ## name
TAO_SYSTEM_EXCEPTION(UNKNOWN);
TAO_SYSTEM_EXCEPTION(BAD_PARAM);
TAO_SYSTEM_EXCEPTION(NO_MEMORY);
TAO_SYSTEM_EXCEPTION(IMP_LIMIT);
TAO_SYSTEM_EXCEPTION(COMM_FAILURE);
TAO_SYSTEM_EXCEPTION(INV_OBJREF);
TAO_SYSTEM_EXCEPTION(OBJECT_NOT_EXIST);
TAO_SYSTEM_EXCEPTION(NO_PERMISSION);
TAO_SYSTEM_EXCEPTION(INTERNAL);
TAO_SYSTEM_EXCEPTION(MARSHAL);
TAO_SYSTEM_EXCEPTION(INITIALIZE);
TAO_SYSTEM_EXCEPTION(NO_IMPLEMENT);
TAO_SYSTEM_EXCEPTION(BAD_TYPECODE);
TAO_SYSTEM_EXCEPTION(BAD_OPERATION);
TAO_SYSTEM_EXCEPTION(NO_RESOURCES);
TAO_SYSTEM_EXCEPTION(NO_RESPONSE);
TAO_SYSTEM_EXCEPTION(PERSIST_STORE);
TAO_SYSTEM_EXCEPTION(BAD_INV_ORDER);
TAO_SYSTEM_EXCEPTION(TRANSIENT);
TAO_SYSTEM_EXCEPTION(FREE_MEM);
TAO_SYSTEM_EXCEPTION(INV_IDENT);
TAO_SYSTEM_EXCEPTION(INV_FLAG);
TAO_SYSTEM_EXCEPTION(INTF_REPOS);
TAO_SYSTEM_EXCEPTION(BAD_CONTEXT);
TAO_SYSTEM_EXCEPTION(OBJ_ADAPTER);
TAO_SYSTEM_EXCEPTION(DATA_CONVERSION);
#undef TAO_SYSTEM_EXCEPTION
static TypeCode_ptr _tc_UnknownUserException;
static ORB_ptr ORB_init (int &argc,
char *const *argv,
const char *orb_name = 0,
Environment &env = CORBA_Environment::default_environment ());
// ORB initialisation, per OMG document 94-9-46.
enum
{
// = Define flags for NVList add methods
ARG_IN = 0x01,
ARG_OUT = 0x02,
ARG_INOUT = 0x04,
IN_COPY_VALUE = 0x08,
OUT_LIST_MEMORY = 0x10
};
static CORBA::TypeCode_ptr _tc_Policy;
static CORBA::TypeCode_ptr _tc_PolicyList;
static CORBA::TypeCode_ptr _tc_Current;
typedef char *Identifier;
typedef CORBA::String_var Identifier_var;
typedef CORBA::String_out Identifier_out;
static CORBA::TypeCode_ptr _tc_Identifier;
typedef char *RepositoryId;
typedef CORBA::String_var RepositoryId_var;
typedef CORBA::String_out RepositoryId_out;
static CORBA::TypeCode_ptr _tc_RepositoryId;
typedef CORBA::ULong PolicyType;
typedef CORBA::ULong_out PolicyType_out;
static CORBA::TypeCode_ptr _tc_PolicyType;
}; // end of class (namespace) CORBA
#include "tao/Sequence.h"
#include "tao/Sequence_T.h"
#include "tao/Object_KeyC.h"
#include "tao/Union.h"
class STUB_Object;
// Forward declarations.
class TAO_Export CORBA_ORB
{
// = TITLE
// ORB pseudo-objref.
//
// = DESCRIPTION
//
// The "ORB" pseudo-object is used in bootstrapping, such as to
// create object references from strings. This class is intended
// to be inherited by others, which will provide some more of the
// CORBA support. Implementations of this "CORBA::ORB" class must
// know how to create stringify/destringify their objrefs, as well
// as how to marshal and unmarshal them.
//
public:
// ORB_Core has special privileges
friend class TAO_ORB_Core;
static CORBA::ORB_ptr _duplicate (CORBA::ORB_ptr orb);
// Return a duplicate of <{orb}>. When work with this duplicate is
// complete, it should be freed up using <CORBA::release()>.
static CORBA::ORB_ptr _nil (void);
// Returns a pointer to a nil ORB, i.e., an non-existent ORB. This
// can be used for initialization or in comparisons.
virtual CORBA::Object_ptr string_to_object (CORBA::String str,
CORBA_Environment &_env = CORBA_Environment::default_environment ()) = 0;
// Turn a string-ified object reference back into an object pointer.
// Each type of ORB, e.g. an IIOP ORB, must implement this.
// Typically these strings are created using <object_to_string()>.
virtual CORBA::String object_to_string (CORBA::Object_ptr obj,
CORBA_Environment &_env = CORBA_Environment::default_environment ()) = 0;
// Turn an object reference into a string. Each type of ORB,
// e.g. an IIOP ORB, must implement this. This can be used by
// servers to publish their whereabouts to clients. The output of
// this is typically eventually given to <string_to_object()> as an
// argument.
virtual TAO_ServantBase *_get_collocated_servant (STUB_Object *p) = 0;
// Return the object pointer of an collocated object it there is
// one, otherwise, return 0. Each type of ORB, e. g., IIOP ORB,
// must implement this and determine what is a collocated object
// based on information provided in the STUB_Object.
void create_list (CORBA::Long count,
CORBA::NVList_ptr &retval);
// = New Things from the POA Specification
//
// Of all of these operations, only <run> is currently implemented.
// Others require clarification of design or more implementation
// than is currently available.
CORBA::Boolean work_pending (void);
// Returns an indication of whether the ORB needs the <{main thread}> to
// perform some work.
int perform_work (ACE_Time_Value * = 0);
// If called by the <{main thread}>, this operation performs an
// implementation-defined unit of work. Otherwise, it does nothing.
//
// It is platform-specific how the application and ORB arrange to
// use compatible threading primitives.
int run (ACE_Time_Value *tv = 0);
// Instructs the ORB to initialize itself and run its event loop in
// the current thread, not returning until the ORB has shut down.
// If an error occurs during initialization or a run-time this
// method will return -1. If <tv> is non-NULL then if no requests
// arrive at this thread before the timeout elapses we return to the
// caller with a value of 0 (this allows timeouts). Otherwise, if
// we've returned since we've been asked to shut down the value of 1
// is returned.
//
// <{Note that this interface differs from the POA specification,
// which is reproduced below:}>
//
// Returns when the ORB has shut down. If called by the main
// thread, it enables the ORB to perform work using the main
// thread. Otherwise, it simply waits until the ORB has shut down.
//
// This operation can be used instead of perform_work() to give the
// main thread to the ORB if there are no other activities that need
// to share the main thread. Even in a pure multi-threaded server,
// calling run() in the main thread is useful to ensure that the
// process does not exit until the ORB has been shut down.
void shutdown (CORBA::Boolean wait_for_completion = 0);
// This operation instructs the ORB to shut down. Shutting down the
// ORB causes all Object Adapters to be shut down. If
// <wait_for_completion> parameter is TRUE, this operation blocks
// until all ORB processing (including request processing and object
// deactivation or other operations associated with object adapters)
// has completed. <[NOTE]> <wait_for_completion>=TRUE is not
// currently supported.
CORBA_Object_ptr resolve_initial_references (CORBA::String name,
ACE_Time_Value *timeout = 0);
// This method acts as a mini-bootstrapping Naming Service, which is
// provided by the ORB for certain well-known object references.
// TAO supports the "NameService", "TradingService", "RootPOA", and
// "POACurrent" via this method. The <timeout> value bounds the
// amount of time the ORB blocks waiting to resolve the service.
// This is most useful for bootstrapping remote services, such as
// the "NameService" or "TradingService", that are commonly resolved
// via multicast. By default, the value is 0, which means "use the
// <TAO_DEFAULT_SERVICE_RESOLUTION_TIMEOUT> timeout period". Note
// that by using a default value for the <timeout> parameter, TAO
// will remains compliant with the CORBA
// <resolve_initial_references> specification.
// = TAO-specific extensions to the CORBA specification.
CORBA_Object_ptr resolve_root_poa (const char *adapter_name = TAO_DEFAULT_ROOTPOA_NAME,
TAO_POA_Manager *poa_manager = 0,
const TAO_POA_Policies *policies = 0,
TAO_Object_Table *active_object_map = 0);
// Resolve the POA.
STUB_Object *create_stub_object (const TAO_ObjectKey &key,
const char *type_id,
CORBA_Environment &_env = CORBA_Environment::default_environment ());
// Makes sure that the ORB is open and then creates an IIOP object
// based on the endpoint.
CORBA_Object_ptr key_to_object (const TAO_ObjectKey &key,
const char *type_id,
CORBA_Environment &_env = CORBA_Environment::default_environment ());
// Convert key into an object reference. Return Object_ptr as out
// parameter. Errors will come through the environment.
//
// Object IDs are assigned and used by servers to identify objects.
//
// Type IDs are repository IDs, assigned as part of OMG-IDL
// interface definition to identify specific interfaces and their
// relationships to other OMG-IDL interfaces. It's OK to provide a
// null type ID. Providing a null object key will result in an
// INV_OBJREF exception.
//
// Clients which invoke operations using one of these references
// when the server is not active (or after the last reference to the
// POA is released) will normally see an OBJECT_NOT_EXIST exception
// reported by the ORB. If the POA is a "Named POA" the client's
// ORB will not normally return OBJECT_NOT_EXIST unless the POA
// reports that fault.
int run (const ACE_Time_Value &tv);
// This is the same as the more "standard" <run> method, except that
// you don't need to put the & in front of <tv>.
int preconnect (CORBA::String connections);
// Establish connectsion to each of the comma-separated
// <{host}>:<{port}> combinations specified in <connections>.
int open (void);
// Set up the ORB Core's acceptor to listen on the
// previously-specified port for requests. Returns -1 on failure,
// else 0.
static void init_orb_globals (CORBA_Environment &_env = CORBA_Environment::default_environment ());
// Initialize the ORB globals correctly, i.e., only when they
// haven't been initialized yet.
static CORBA::Boolean orb_free_resources (void);
// Indicates if we have reached a point where all ORB owned
// resources will be deallocated.
// Reference counting...
virtual CORBA::ULong _incr_refcnt (void);
virtual CORBA::ULong _decr_refcnt (void);
TAO_Leader_Follower_Info &leader_follower_info (void);
// Get access to the leader_follower_info
void should_shutdown (int value);
// Set the shutdown flag to <value>.
int should_shutdown (void);
// Get the shutdown flag value
// Forward declaration and typedefs for the exception thrown by
// the ORB Dynamic Any factory functions.
class CORBA_ORB_InconsistentTypeCode;
typedef CORBA_ORB_InconsistentTypeCode InconsistentTypeCode;
typedef CORBA_ORB_InconsistentTypeCode *InconsistentTypeCode_ptr;
// Typecode for the above exception.
static CORBA::TypeCode_ptr _tc_InconsistentTypeCode;
// Dynamic Any factory functions.
CORBA_DynAny_ptr create_dyn_any (const CORBA_Any& any,
CORBA::Environment& env);
CORBA_DynAny_ptr create_basic_dyn_any (CORBA_TypeCode_ptr tc,
CORBA::Environment& env);
CORBA_DynStruct_ptr create_dyn_struct (CORBA_TypeCode_ptr tc,
CORBA::Environment& env);
CORBA_DynSequence_ptr create_dyn_sequence (CORBA_TypeCode_ptr tc,
CORBA::Environment& env);
CORBA_DynArray_ptr create_dyn_array (CORBA_TypeCode_ptr tc,
CORBA::Environment& env);
CORBA_DynUnion_ptr create_dyn_union (CORBA_TypeCode_ptr tc,
CORBA::Environment& env);
CORBA_DynEnum_ptr create_dyn_enum (CORBA_TypeCode_ptr tc,
CORBA::Environment& env);
protected:
// We must be created via the <ORB_init> call.
CORBA_ORB (void);
virtual ~CORBA_ORB (void);
CORBA_Object_ptr resolve_poa_current (void);
// Resolve the POA current.
private:
CORBA_Object_ptr resolve_name_service (ACE_Time_Value *timeout);
// Resolve the name service object reference.
CORBA_Object_ptr resolve_trading_service (ACE_Time_Value *timeout);
// Resolve the trading object reference.
CORBA_Object_ptr multicast_to_service (TAO_Service_ID service_id,
u_short port,
ACE_Time_Value *timeout);
// Resolve the refernce of a service of type <name>.
ACE_SYNCH_MUTEX lock_;
// lock required for mutual exclusion between multiple threads.
u_int refcount_;
// Maintains a reference count of number of instantiations of the
// ORB.
u_int open_called_;
// Flag which denotes that the open method was called.
ACE_SYNCH_MUTEX open_lock_;
// Mutual exclusion for calling open.
ACE_Lock *shutdown_lock_;
// Pointer to our shutdown lock.
int should_shutdown_;
// Flag which denotes that the ORB should shut down and <run> should
// return.
CORBA_Object_ptr name_service_;
// If this is non-_nil(), then this is the object reference to our
// configured Naming Context.
CORBA_Object_ptr schedule_service_;
// If this is non-_nil(), then this is the object reference to our
// configured RtecScheduler::Scheduler.
CORBA_Object_ptr event_service_;
// If this is non-_nil(), then this is the object reference to our
// configured Event Channel.
CORBA_Object_ptr trading_service_;
// If this is non-_nil(), then this is the object reference to our
// configured Trading.
static int orb_init_count_;
// Count of the number of times that <ORB_init> has been called.
// This must be protected by <ACE_Static_Object_Lock>.
ACE_SYNCH_CONDITION* cond_become_leader_;
// wait to become the leader if the leader-follower model is active
TAO_Leader_Follower_Info leader_follower_info_;
// Information about the leader follower model
// = NON-PROVIDED METHODS
CORBA_ORB (const CORBA_ORB &);
CORBA_ORB &operator= (const CORBA_ORB &);
};
class TAO_Export CORBA_ORB_var
{
public:
CORBA_ORB_var (void); // default constructor
CORBA_ORB_var (CORBA::ORB_ptr);
CORBA_ORB_var (const CORBA_ORB_var &); // copy constructor
~CORBA_ORB_var (void); // destructor
CORBA_ORB_var &operator= (CORBA::ORB_ptr);
CORBA_ORB_var &operator= (const CORBA_ORB_var &);
CORBA::ORB_ptr operator-> (void) const;
operator const CORBA::ORB_ptr &() const;
operator CORBA::ORB_ptr &();
// in, inout, out, _retn
CORBA::ORB_ptr in (void) const;
CORBA::ORB_ptr &inout (void);
CORBA::ORB_ptr &out (void);
CORBA::ORB_ptr _retn (void);
CORBA::ORB_ptr ptr (void) const;
private:
CORBA::ORB_ptr ptr_;
};
class TAO_Export CORBA_ORB_out
{
public:
CORBA_ORB_out (CORBA::ORB_ptr &);
CORBA_ORB_out (CORBA_ORB_var &);
CORBA_ORB_out (CORBA_ORB_out &);
CORBA_ORB_out &operator= (CORBA_ORB_out &);
CORBA_ORB_out &operator= (const CORBA_ORB_var &);
CORBA_ORB_out &operator= (CORBA::ORB_ptr);
operator CORBA::ORB_ptr &();
CORBA::ORB_ptr &ptr (void);
CORBA::ORB_ptr operator-> (void);
private:
CORBA::ORB_ptr &ptr_;
};
#if defined (__ACE_INLINE__)
# include "tao/ORB.i"
#endif /* __ACE_INLINE__ */
#if defined (_MSC_VER)
// VC++, goes back to other padding rules
# pragma pack (pop)
#endif /* _MSV_VER */
#endif /* TAO_ORB_H */
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