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// -*- C++ -*-
//=============================================================================
/**
* @file default_resource.h
*
* $Id$
*
* @author Chris Cleeland
* @author Carlos O'Ryan
*/
//=============================================================================
#ifndef TAO_DEFAULT_RESOURCE_H
#define TAO_DEFAULT_RESOURCE_H
#include /**/ "ace/pre.h"
#include "ace/Service_Config.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
#include "tao/Resource_Factory.h"
class TAO_Object_Adapter;
class TAO_IOR_Parser;
class TAO_LF_Strategy;
class TAO_Codeset_Descriptor_Base;
class ACE_Reactor_Impl;
/**
* @class TAO_Default_Resource_Factory
*
* @brief TAO's default resource factory
*
* Using a <{resource source specifier}> as a discriminator, the
* factory can return resource instances which are, e.g., global,
* stored in thread-specific storage, stored in shared memory,
* etc.
*
* @note When using an ORB created by a dynamically loaded object, it
* is generally necessary to pre-load a "Resource_Factory" prior
* to initializing the ORB. In the case of the
* TAO_Default_Resource_Factory, this can be done by adding the
* following Service Configurator directive to your `svc.conf'
* file before your the directive that loads the object that
* initialized your ORB:
* @par
* static Resource_Factory ""
* @par
* Alternatively, explicitly pre-load the Resource_Factory using
* the following in your code:
* @par
* ACE_Service_Config::process_directive (
* ACE_TEXT ("static Resource_Factory \"\"") );
* @par
* In both cases, place the appropriate resource factory
* arguments, if any, between the quotes immediately following
* "Resource_Factory."
*/
class TAO_Export TAO_Default_Resource_Factory
: public TAO_Resource_Factory
{
public:
/// Constructor.
TAO_Default_Resource_Factory (void);
/// Destructor.
virtual ~TAO_Default_Resource_Factory (void);
/**
* @name Service Configurator Hooks
*/
//@{
/// Dynamic linking hook
virtual int init (int argc, ACE_TCHAR *argv[]);
/// Parse svc.conf arguments
int parse_args (int argc, ACE_TCHAR* argv[]);
//@}
/**
* @name Member Accessors
*/
//@{
int get_parser_names (char **&names,
int &number_of_names);
enum
{
TAO_ALLOCATOR_THREAD_LOCK
};
/// Modify and get the source for the CDR allocators
int cdr_allocator_source (void);
// = Resource Retrieval
virtual int use_locked_data_blocks (void) const;
virtual ACE_Reactor *get_reactor (void);
virtual void reclaim_reactor (ACE_Reactor *);
virtual TAO_Acceptor_Registry *get_acceptor_registry (void);
virtual TAO_Connector_Registry *get_connector_registry (void);
virtual ACE_Allocator* input_cdr_dblock_allocator (void);
virtual ACE_Allocator* input_cdr_buffer_allocator (void);
virtual ACE_Allocator* input_cdr_msgblock_allocator (void);
virtual int input_cdr_allocator_type_locked (void);
virtual ACE_Allocator* output_cdr_dblock_allocator (void);
virtual ACE_Allocator* output_cdr_buffer_allocator (void);
virtual ACE_Allocator* output_cdr_msgblock_allocator (void);
virtual ACE_Allocator* amh_response_handler_allocator (void);
virtual ACE_Allocator* ami_response_handler_allocator (void);
virtual TAO_ProtocolFactorySet *get_protocol_factories (void);
virtual int init_protocol_factories (void);
virtual TAO_Codeset_Manager * codeset_manager (void);
virtual int cache_maximum (void) const;
virtual int purge_percentage (void) const;
virtual int max_muxed_connections (void) const;
virtual ACE_Lock *create_cached_connection_lock (void);
virtual ACE_Lock *create_object_key_table_lock (void);
virtual ACE_Lock *create_corba_object_lock (void);
virtual int locked_transport_cache (void);
virtual TAO_Flushing_Strategy *create_flushing_strategy (void);
virtual TAO_Connection_Purging_Strategy *create_purging_strategy (void);
TAO_Resource_Factory::Resource_Usage resource_usage_strategy (void) const;
virtual TAO_LF_Strategy *create_lf_strategy (void);
virtual void disable_factory (void);
virtual bool drop_replies_during_shutdown (void) const;
//@}
protected:
/// Obtain the reactor implementation
virtual ACE_Reactor_Impl *allocate_reactor_impl (void) const;
/// Add a Parser name to the list of Parser names.
int add_to_ior_parser_names (const char *);
void report_option_value_error (const ACE_TCHAR* option_name,
const ACE_TCHAR* option_value);
protected:
/// The type of data blocks that the ORB should use
int use_locked_data_blocks_;
/// The number of the different types of Parsers.
int parser_names_count_;
/// Array consisting of the names of the parsers
char **parser_names_;
/// Index of the current element in the parser_names_ array
int index_;
/// list of loaded protocol factories.
TAO_ProtocolFactorySet protocol_factories_;
/// Specifies the typeof purging strategy we should use for cleaning
/// up unused connections
TAO_Resource_Factory::Purging_Strategy connection_purging_type_;
/// Specifies the maximum number of connections which should get cached
/// in the ORB.
int cache_maximum_;
/// Specifies the percentage of entries which should get purged on
/// demand.
int purge_percentage_;
/// Specifies the limit on the number of muxed connections
/// allowed per-property for the ORB. A value of 0 indicates no
/// limit
int max_muxed_connections_;
/// If <0> then we create reactors with signal handling disabled.
int reactor_mask_signals_;
/**
* Flag that is set to 1 if the reactor obtained from the
* get_reactor() method is dynamically allocated. If this flag is
* set to 1, then the reclaim_reactor() method with call the delete
* operator on the given reactor. This flag is necessary to make
* sure that a reactor not allocated by the default resource factory
* is not reclaimed by the default resource factory. Such a
* situation can occur when a resource factory derived from the
* default one overrides the get_reactor() method but does not
* override the reclaim_reactor() method.
*/
int dynamically_allocated_reactor_;
virtual int load_default_protocols (void);
/// This flag is used to determine whether options have been
/// processed via the init() function. It is necessary to
/// properly report errors when the default factory is replaced.
int options_processed_;
/// This flag specifies whether the factory has been disabled.
/// If it has been disabled we should print warnings if options
/// were processed before (or later).
int factory_disabled_;
private:
void init_codeset_descriptors (void);
enum Lock_Type
{
TAO_NULL_LOCK,
TAO_THREAD_LOCK
};
/// Type of lock used by the cached connector.
Lock_Type cached_connection_lock_type_;
/// Type of lock used by the corba object.
Lock_Type object_key_table_lock_type_;
/// Type of lock used by the corba object.
Lock_Type corba_object_lock_type_;
enum Flushing_Strategy_Type
{
TAO_LEADER_FOLLOWER_FLUSHING,
TAO_REACTIVE_FLUSHING,
TAO_BLOCKING_FLUSHING
};
/// Type of flushing strategy configured
Flushing_Strategy_Type flushing_strategy_type_;
TAO_Codeset_Manager *codeset_manager_;
TAO_Codeset_Descriptor_Base *char_codeset_descriptor_;
TAO_Codeset_Descriptor_Base * wchar_codeset_descriptor_;
/// Resource usage strategy
Resource_Usage resource_usage_strategy_;
/// Flag to indicate whether replies should be dropped during ORB
/// shutdown.
bool drop_replies_;
};
ACE_STATIC_SVC_DECLARE_EXPORT (TAO, TAO_Default_Resource_Factory)
ACE_FACTORY_DECLARE (TAO, TAO_Default_Resource_Factory)
#include /**/ "ace/post.h"
#endif /* TAO_DEFAULT_CLIENT_H */
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