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// -*- C++ -*-
//=============================================================================
/**
* @file Transport_Cache_Manager_T.h
*
* @author Balachandran Natarajan <bala@cs.wustl.edu>
*/
//=============================================================================
#ifndef TAO_CONNECTION_CACHE_MANAGER_T_H
#define TAO_CONNECTION_CACHE_MANAGER_T_H
#include /**/ "ace/pre.h"
#include "ace/Null_Mutex.h"
#include "ace/Thread_Mutex.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
#define ACE_LACKS_PRAGMA_ONCE
#endif /* ACE_LACKS_PRAGMA_ONCE */
#include "ace/Hash_Map_Manager_T.h"
#include "tao/Cache_Entries_T.h"
#include "tao/orbconf.h"
#if defined (TAO_HAS_MONITOR_POINTS) && (TAO_HAS_MONITOR_POINTS == 1)
#include "ace/Monitor_Size.h"
#endif /* TAO_HAS_MONITOR_POINTS==1 */
ACE_BEGIN_VERSIONED_NAMESPACE_DECL
class ACE_Handle_Set;
template <class T> class ACE_Unbounded_Set;
template <class T> class ACE_Unbounded_Set_Iterator;
ACE_END_VERSIONED_NAMESPACE_DECL
TAO_BEGIN_VERSIONED_NAMESPACE_DECL
class TAO_Connection_Handler;
class TAO_Resource_Factory;
template <class ACE_COND_MUTEX> class TAO_Condition;
namespace TAO
{
typedef ACE_Unbounded_Set<TAO_Connection_Handler*> Connection_Handler_Set;
/**
* @brief The Transport Cache Manager for TAO
*
* This class provides interfaces associating a TAO_Cache_ExtId
* & TAO_Cache_IntId. This class is wrapper around the
* ACE_Hash_Map_Manager class which is used as a container to Cache
* the connections. This class protects the entries with a lock. The
* map is updated only by holding the lock. The more compeling reason
* to have the lock in this class and not in the Hash_Map is that, we
* do quite a bit of work in this class for which we need a lock.
*/
template <typename TT, typename TRDT, typename PSTRAT>
class Transport_Cache_Manager_T
{
public:
typedef TT transport_type;
typedef TRDT transport_descriptor_type;
typedef PSTRAT purging_strategy;
/// results of a find
enum Find_Result
{
CACHE_FOUND_NONE,
CACHE_FOUND_CONNECTING,
CACHE_FOUND_BUSY,
CACHE_FOUND_AVAILABLE
};
typedef Cache_ExtId_T <transport_descriptor_type> Cache_ExtId;
typedef Cache_IntId_T <transport_type> Cache_IntId;
// Some useful typedef's
typedef ACE_Hash_Map_Manager_Ex <Cache_ExtId,
Cache_IntId,
ACE_Hash<Cache_ExtId>,
ACE_Equal_To<Cache_ExtId>,
ACE_Null_Mutex>
HASH_MAP;
typedef typename HASH_MAP::iterator HASH_MAP_ITER;
typedef ACE_Hash_Map_Entry <Cache_ExtId,
Cache_IntId>
HASH_MAP_ENTRY;
typedef TAO_Condition<TAO_SYNCH_MUTEX> CONDITION;
// == Public methods
/// Constructor
Transport_Cache_Manager_T (
int percent,
purging_strategy* purging_strategy,
size_t cache_maximum,
bool locked,
const char *orbid);
/// Destructor
~Transport_Cache_Manager_T (void);
/// Add the transport to the cache.
/**
* The transport has the property definition based on which caching
* can be done. This method sets the cache entry status. By
* default the status is set to <CODE>ENTRY_IDLE_AND_PURGABLE</CODE>
*/
int cache_transport (transport_descriptor_type *prop,
transport_type *transport,
Cache_Entries_State state =
ENTRY_IDLE_AND_PURGABLE);
/// Check the Transport Cache to check whether the connection exists
/// in the Cache and return the connection
Find_Result find_transport (
transport_descriptor_type *prop,
transport_type *&transport,
size_t & busy_count);
/// Remove entries from the cache depending upon the strategy.
int purge (void);
/// Purge the entry from the Cache Map
int purge_entry (HASH_MAP_ENTRY *& entry);
/// Mark the entry as connected.
void mark_connected (HASH_MAP_ENTRY *& entry, bool state);
/// Make the entry idle and ready for use.
int make_idle (HASH_MAP_ENTRY *&entry);
/// Modify the state setting on the provided entry.
void set_entry_state (HASH_MAP_ENTRY *&entry,
TAO::Cache_Entries_State state);
/// Mark the entry as touched. This call updates the purging
/// strategy policy information.
int update_entry (HASH_MAP_ENTRY *&entry);
/// Close the underlying hash map manager and return any handlers
/// still registered
int close (Connection_Handler_Set &handlers);
/// Return a set of connection handlers that belong to transports
/// that have a RW wait strategy.
/**
* This call is used for a specific use case by the ORB_Core
* during shutdown. The only way the ORB can wake up threads
* waiting on these sockets for replies is to iterate over
* these blockable transports and close the socket
* handles. Without these the threads will continue to wait there
* for ever.
*/
bool blockable_client_transports (Connection_Handler_Set &handlers);
/// Return the current size of the cache.
size_t current_size (void) const;
/// Return the total size of the cache.
size_t total_size (void) const;
/// Return the underlying cache map
HASH_MAP &map (void);
private:
/// Lookup entry<key,value> in the cache. Grabs the lock and calls the
/// implementation function find_i.
Find_Result find (
transport_descriptor_type *prop,
transport_type *&transport,
size_t & busy_count);
/**
* Non-Locking version and actual implementation of bind ()
* call. Calls bind on the Hash_Map_Manager that it holds. If the
* bind succeeds, it adds the Hash_Map_Entry in to the
* Transport for its reference.
*/
int bind_i (Cache_ExtId &ext_id, Cache_IntId &int_id);
/**
* Non-locking version and actual implementation of find ()
* call. This calls the find () on the underlying
* Hash_Map_Manager. If the find succeeds, it calls the
* get_idle_transport ().
*/
Find_Result find_i (
transport_descriptor_type *prop,
transport_type *&transport,
size_t & busy_count);
/// Non-locking version and actual implementation of make_idle ().
int make_idle_i (HASH_MAP_ENTRY *entry);
/// Non-locking version and actual implementation of close ()
int close_i (Connection_Handler_Set &handlers);
/// Purge the entry from the Cache Map
int purge_entry_i (HASH_MAP_ENTRY *entry);
private:
/**
* Tries to find if the @c int_id_ in @a entry is available for use.
*/
bool is_entry_available_i (const HASH_MAP_ENTRY &entry);
/**
* Tries to find if the @c int_id_ in @a entry is connect pending
*/
bool is_entry_connecting_i (const HASH_MAP_ENTRY &entry);
/**
* Tries to find if the @c int_id_ in @a entry is purgable
*/
bool is_entry_purgable_i (HASH_MAP_ENTRY &entry);
#if !defined(ACE_LACKS_QSORT)
/// Used by qsort
static int cpscmp(const void* a, const void* b);
#endif
typedef HASH_MAP_ENTRY** DESCRIPTOR_SET;
/// Sort the list of entries
void sort_set (DESCRIPTOR_SET& entries, int size);
/// Fill sorted_set in with the transport_descriptor_type's in
/// a sorted order.
int fill_set_i (DESCRIPTOR_SET& sorted_set);
/// Non-locking version of blockable_client_transports ().
bool blockable_client_transports_i (Connection_Handler_Set &handlers);
private:
/// The percentage of the cache to purge at one time
int percent_;
/// The underlying connection purging strategy
purging_strategy *purging_strategy_;
/// The hash map that has the connections
HASH_MAP cache_map_;
TAO_SYNCH_MUTEX cache_map_mutex_;
/// The lock that is used by the cache map
ACE_Lock *cache_lock_;
/// Maximum size of the cache
size_t cache_maximum_;
#if defined (TAO_HAS_MONITOR_POINTS) && (TAO_HAS_MONITOR_POINTS == 1)
/// Connection cache purge monitor.
ACE::Monitor_Control::Size_Monitor *purge_monitor_;
/// Connection cache size monitor.
ACE::Monitor_Control::Size_Monitor *size_monitor_;
#endif /* TAO_HAS_MONITOR_POINTS==1 */
};
}
TAO_END_VERSIONED_NAMESPACE_DECL
#if defined (__ACE_INLINE__)
# include "tao/Transport_Cache_Manager_T.inl"
#endif /* __ACE_INLINE__ */
#if defined (ACE_TEMPLATES_REQUIRE_SOURCE)
#include "tao/Transport_Cache_Manager_T.cpp"
#endif /* ACE_TEMPLATES_REQUIRE_SOURCE */
#if defined (ACE_TEMPLATES_REQUIRE_PRAGMA)
#pragma implementation ("tao/Transport_Cache_Manager_T.cpp")
#endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */
#include /**/ "ace/post.h"
#endif /*TAO_CONNECTION_CACHE_MANAGER_T_H*/
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