/*++ Cacheint.h This file defines all of the classes required to support the generic cache manager, who's interface is defined in cache.h --*/ #ifndef _CACHEINT_H_ #define _CACHEINT_H_ #include #include "dbgtrace.h" #include "smartptr.h" //#include "refptr2.h" #include "fhashex.h" #ifdef _USE_RWNH_ #include "rwnew.h" typedef CShareLockNH _CACHELOCK ; #else #include "rw.h" typedef CShareLock _CACHELOCK ; #endif // // This class defines all the information we keep about // objects that we are holding in our cache. // // class CacheState { protected : // // Doubly linked list of CacheEntry BLOCKS ! // class CacheState* m_pPrev ; class CacheState* m_pNext ; // // Cacge State Information - Time To Live and Orphanage status ! // long m_TTL ; BOOL m_fOrphan ; // // Insert us into the list after the specified element ! // void InsertAfter( class CacheState* pPrevious ) ; // // Insert us into the circular list before the specified element ! // void InsertBefore( class CacheState* pNext ) ; // // Remove this element from the circular list ! // void Remove() ; // // The CacheList object maintains a list of these objects and ages them // out ! // friend class CacheList ; public : // // Default Constructor NULLS everything out ! // CacheState( DWORD ttl = 0 ) : m_pPrev( 0 ), m_pNext( 0 ), m_TTL( ttl ), m_fOrphan( FALSE ) { #ifdef DEBUG InterlockedIncrement( &s_cCreated ) ; #endif } // // Copy Constructor relinks linked list ! we place ourselves in the linked list // after the rhs element. // CacheState( CacheState& rhs ) : m_pPrev( 0 ), m_pNext( 0 ), m_TTL( rhs.m_TTL ), m_fOrphan( rhs.m_fOrphan ) { if( rhs.m_pPrev != 0 ) InsertAfter( &rhs ) ; #ifdef DEBUG InterlockedIncrement( &s_cCreated ) ; #endif } // // If we are in a linked list - the default destructor needs to remove us // from that list. // ~CacheState() ; // // Need a virtual function which we use to figure out when we can // safely remove an entry from the Cache !! // virtual BOOL fDeletable() { return TRUE ; } #ifdef DEBUG static long s_cCreated ; #endif } ; // // This class defines a couple of virtual functions // which are to be called from CacheList objects. // class CacheTable { protected : friend class CacheList ; // // Remove an entry from the Cache - return TRUE if // successful and pEntry destroyed. // virtual BOOL RemoveEntry( CacheState* pEntry ) ; // // Called to determine whether we want to remove a // specified entry from the cache. // virtual BOOL QueryRemoveEntry( CacheState* pEntry ) ; } ; class CacheList { private : // // Keep this element around so we can keep a doubly linked list // of the elements in the Cache List. // CacheState m_Head ; // // Make this private - nobody gets to copy us ! // CacheList( CacheList& ) ; protected : // // Number of Elements in the Cache ! // long m_cEntries ; // // Number of elements (approximately) ready to be removed from // the cache ! // long m_cReadyToDie ; public : // // Maximum number of Elements in the List ! // long m_cMax ; // // Stop hint function to be called during long shutdown loops. // PSTOPHINT_FN m_pfnStopHint; // // Initialize the Cache list ! // CacheList( long Max = 128 ) ; #ifdef DEBUG // // In debug builds the destructor helps track how many of these // are created !! // ~CacheList() ; #endif // // Append an Entry into the CacheList. We Append as this element // should have the largest Age and most likely to be the last element expired ! // // Returns TRUE if the number of entries is larger than our pre-ordained Maximum ! // BOOL Append( const CacheState* pEntry ) ; // // Remove an arbitrary Entry from the CacheList ! // // Returns TRUE if the number of remaining entries is larger than our pre-ordained Maximum ! // BOOL Remove( const CacheState* pEntry ) ; // // Walk the list and Expire any entries in there ! // This means we decrement TTL's and count up the number of // entries in the list we could drop right now ! // BOOL Expire( DWORD& cReady ) ; // // Go find those elements who's TTL has dropped below 0 and // get rid of them from the cache !! // // NOTE - if fDoCheap is set to TRUE then we use m_cReadyToDie // to figure out if there's any work we can do ! // BOOL Expunge( CacheTable* ptable, BOOL fDoCheap = FALSE, const CacheState* pProtected = 0 ) ; // // Go remove a single element who's TTL haven't dropped below 0 // and get rid of it from the Cache ! // BOOL ForceExpunge( CacheTable* ptable, const CacheState* pProtected = 0 ) ; // // Go find those elements who's TTL has dropped below 0 and // get rid of them from the cache !! // BOOL ExpungeSpecific( CacheTable* ptable, BOOL fForced ) ; // // Bump the life time of the specified object up, // as somebody is re-using it from the cache ! // void LiveLonger( CacheState* pEntry, long ttl ) ; #ifdef DEBUG static long s_cCreated ; #endif } ; // // This template class adds one member to the 'CacheState' class, // which is the Reference counting pointer to the block of data we // are keeping in the Cache ! // In addition - we let the user specify whether Cache Blocks must be // atomic. An atomic Cache block means we must never remove an element // from the Cache for which somebody external has a reference ! // (ie if fAtomic == TRUE then we only remove elements from the cache // when the reference count on the Data is zero meaning that we have the // last reference !!! // // template< class Data, class Key, class KEYREF, BOOL fAtomic = TRUE > class CacheEntry : public CacheState { public : CRefPtr< Data > m_pData ; CacheEntry* m_pNext ; // // Default constructor just passes on TTL data to CacheState object // CacheEntry( DWORD ttl=0 ) : CacheState( ttl ), m_pNext(0) {} // // We do not declare a copy constructor as the default // compiler provided copy constructor which invokes // base class and member variable copy constructors works fine ! // CacheEntry( CacheEntry& rhs ) : m_pData( rhs.m_pData ), m_pNext( rhs.m_pNext ), CacheState( *((CacheState *) &rhs) ) { } // // We do not declare a destructor as the default compiler // provided destructor works fine ! // // ~CacheEntry() ; // // Return a reference to the Key data from the data portion ! // KEYREF GetKey() { KEYREF key; m_pData->GetKey(&key) ; return key; } // // Return 0 if the provided Key matches that contained in the // data block ! // int MatchKey( KEYREF key ) { return m_pData->MatchKey( key ) ; } // // Determine whether we can remove the Data represented by this // entry from the Cache. 'fAtomic' == TRUE means that we should // only release entries from the cache when the cache is the // only component holding a reference to the entry. // This ensures that two pieces of 'Data' which are located // with the same 'Key' never exist at the same time. // BOOL fDeleteable() { if( !fAtomic ) { return TRUE ; } return m_pData->m_refs == 0 ; } } ; // // This is a base class for those objects which wish to be // called on a regularily scheduled basis. // // The constructors for this class will automatically // put the object in a doubly linked list walked by a // background thread which periodically executes a virtual function. // // class CScheduleThread { private : // // Special constructor for the 'Head' element of the // doubly linked list this class maintains. // CScheduleThread( BOOL fSpecial ) ; protected : // // Has the scheduler been initialized ? // static BOOL s_fInitialized ; // // Crit sect protecting doubly linked list. // static CRITICAL_SECTION s_critScheduleList ; // // Handle to event used to terminate background thread. // static HANDLE s_hShutdown ; // // Handle to background thread. // static HANDLE s_hThread ; // // The head element of the doubly linked list. // static CScheduleThread s_Head ; // // The thread which calls our virtual functions // static DWORD WINAPI ScheduleThread( LPVOID lpv ) ; // // Previous and Next pointers which maintain doubly linked // list of scheduled itesm. // class CScheduleThread* m_pPrev ; class CScheduleThread* m_pNext ; protected : // // Derived classes should override this function - // it will be called on a regular basis by the scheduler thread. // virtual void Schedule( void ) {} // // Constructor and Destructor automagically manage // insertion into doubly linked list of other scheduled items. // These are protected as we want people to buid only // derived objects which use this. // CScheduleThread() ; // // Member functions which put us into the regular schedule ! // void AddToSchedule() ; void RemoveFromSchedule() ; public : // // Initialize the class - don't construct // any derived objects before this is called. // static BOOL Init() ; // // Terminate class and background thread ! // static void Term() ; // // Global which tells clients how frequently they // will be called ! // static DWORD dwNotificationSeconds ; // // Destructor is protected - we should only be invoked // by derived class constructors // ~CScheduleThread() ; } ; #endif