/*++ Copyright (c) 1996 Microsoft Corporation Module Name: refcnt.c Abstract: This module exports Reference Counting support functions. By including a Reference Count Control Block (REF_CNT) in a dynamic type, and using this API, a Reference scheme can be implemented for that type. Author: Shreedhar Madhavapeddi (ShreeM) 15-March-1999 Revision History: --*/ // // Include Files // #include "precomp.h" #define EXPAND_TAG(t) ((CHAR *)(&Tag))[0],((CHAR *)(&Tag))[1],((CHAR *)(&Tag))[2],((CHAR *)(&Tag))[3] VOID ReferenceInit ( IN PREF_CNT pRefCnt, PVOID InstanceHandle, VOID (*DeleteHandler)( PVOID ) ) /*++ Routine Description: ReferenceInit initializes and adds one reference to the supplied Reference Control Block. If provided, an instance handle and delete handler are saved for use by the ReferenceRemove function when all references to the instance are removed. Arguments: pRefCnt - pointer to uninitialized Reference Control Block InstanceHandle - handle to the managed instance. DeleteHandler - pointer to delete function, NULL is OK. Return Value: The function's value is VOID. --*/ { IF_DEBUG(REFCOUNTX) { WSPRINT(( "ReferenceInit( 0x%x, 0x%x, 0x%x )\n", pRefCnt, InstanceHandle, DeleteHandler )); } ASSERT( pRefCnt ); // Set the reference to 1 and save the instance // handle and the delete handler. pRefCnt->Count = 0; pRefCnt->Instance = InstanceHandle; pRefCnt->DeleteHandler = DeleteHandler; #if DBG pRefCnt->Sig = REF_SIG; RtlZeroMemory(pRefCnt->Tags, sizeof(REF_TAG) * TAG_CNT); pRefCnt->Tags[0].Tag = 'LTOT'; RefInitLock(pRefCnt->Lock); #endif } VOID ReferenceAdd ( IN PREF_CNT pRefCnt ) /*++ Routine Description: Arguments: Return Value: --*/ { ASSERT( pRefCnt ); InterlockedIncrement(&pRefCnt->Count); IF_DEBUG(REFCOUNTX) { WSPRINT(( "R+%d\n", pRefCnt->Count )); } } VOID ReferenceAddCount ( IN PREF_CNT pRefCnt, IN UINT Count ) /*++ Routine Description: Arguments: Return Value: --*/ { ASSERT( pRefCnt->Count > 0 ); InterlockedExchangeAdd(&pRefCnt->Count, Count); } PVOID ReferenceRemove ( IN PREF_CNT pRefCnt ) /*++ Routine Description: Arguments: Return Value: --*/ { UINT Count; UINT NoReference; UINT i; PVOID pInstance; ASSERT( pRefCnt ); // Trap remove reference on a zero count ASSERT(pRefCnt->Count>0); pInstance = pRefCnt->Instance; //ASSERT( pRefCnt->Count > 0 ); // If the decremented count is non zero return the instance handle if (InterlockedDecrement(&pRefCnt->Count) > 0 ) { IF_DEBUG(REFCOUNTX) { WSPRINT(( "R-%d\n", pRefCnt->Count )); WSPRINT(( "ReferenceRemove:remaining: %d\n", pRefCnt->Count )); } #if DBG RefFreeLock(pRefCnt->Lock); #endif return(pInstance); } // Delete this instance if a delete handler is available if( pRefCnt->DeleteHandler ) { #if DBG // sanity check for (i = 1; i < TAG_CNT; i++) { if ((pRefCnt->Tags[i].Tag != 0) && (pRefCnt->Tags[i].Count != 0)) { IF_DEBUG(ERRORS) { WSPRINT(("Allors!! There is a NON-zero ref and we are deleting...\n")); } DEBUGBREAK(); } } IF_DEBUG(REFCOUNTX) { WSPRINT(( "Executing DeleteHandler for %X\n", pRefCnt->Instance )); } // // All the Dereference* code takes the locks, so lets take it here. // Also, Take the global lock before releasing the ref lock. // // Time to delete the ref lock too. RefFreeLock(pRefCnt->Lock); #endif GetLock(pGlobals->Lock); #if DBG RefDeleteLock(pRefCnt->Lock); #endif (pRefCnt->DeleteHandler)( pRefCnt->Instance ); FreeLock(pGlobals->Lock); } // Indicate no active references to this instance return( NULL ); } // // API Test Support // #if DBG VOID ReferenceApiTest( VOID ) { REF_CNT RefCnt; IF_DEBUG(REFCOUNTX) { WSPRINT( ( "\nReferenceApiTest\n" )); WSPRINT(( "\nTest #1: NULL delete handler\n" )); } ReferenceInit( &RefCnt, &RefCnt, NULL ); ReferenceAdd( &RefCnt ); ReferenceAdd( &RefCnt ); ReferenceAdd( &RefCnt ); while( ReferenceRemove( &RefCnt ) ) { ; } IF_DEBUG(REFCOUNTX) { WSPRINT(( "\nTest #2: Delete Handler - TBD\n" )); } } VOID ReferenceAddDbg(PREF_CNT pRefCnt, ULONG Tag) { int i; int TotalPerArray = 0; RefGetLock(pRefCnt->Lock); //ASSERT(pRefCnt->Sig == REF_SIG); if (pRefCnt->Sig != REF_SIG) { DEBUGBREAK(); } IF_DEBUG(REFCOUNTX) { WSPRINT(("TCREF: add %X (%c%c%c%c) %d\n", pRefCnt, EXPAND_TAG(Tag), pRefCnt->Count)); } for (i = 1; i < TAG_CNT; i++) { if (pRefCnt->Tags[i].Tag == 0 || pRefCnt->Tags[i].Tag == Tag) { pRefCnt->Tags[i].Tag = Tag; InterlockedIncrement(&pRefCnt->Tags[i].Count); break; } } //ASSERT(i < TAG_CNT); if (i >= TAG_CNT) { DEBUGBREAK(); } ReferenceAdd(pRefCnt); InterlockedIncrement(&pRefCnt->Tags[0].Count); // sanity check for (i = 1; i < TAG_CNT; i++) { if (pRefCnt->Tags[i].Tag != 0) { TotalPerArray += pRefCnt->Tags[i].Count; continue; } } ASSERT(TotalPerArray == pRefCnt->Tags[0].Count); if (TotalPerArray != pRefCnt->Tags[0].Count) { DbgBreakPoint(); } RefFreeLock(pRefCnt->Lock); } VOID ReferenceRemoveDbg(PREF_CNT pRefCnt, ULONG Tag) { int i; int TotalPerArray = 0; BOOLEAN FoundIt = FALSE; RefGetLock(pRefCnt->Lock); if (pRefCnt->Sig != REF_SIG) { DEBUGBREAK(); } //ASSERT(pRefCnt->Sig == REF_SIG); IF_DEBUG(REFCOUNTX) { WSPRINT(("TCREF: remove %X (%c%c%c%c) %d\n", pRefCnt, EXPAND_TAG(Tag), pRefCnt->Count)); } for (i = 1; i < TAG_CNT; i++) { if (pRefCnt->Tags[i].Tag == Tag) { FoundIt = TRUE; if(pRefCnt->Tags[i].Count <= 0) { DEBUGBREAK(); } //ASSERT(pRefCnt->Tags[i].Count > 0); InterlockedDecrement(&pRefCnt->Tags[i].Count); if (pRefCnt->Tags[i].Count == 0) pRefCnt->Tags[i].Tag = Tag; break; } } if (!FoundIt) { DEBUGBREAK(); } ASSERT(FoundIt); ASSERT(pRefCnt->Tags[0].Count > 0); InterlockedDecrement(&pRefCnt->Tags[0].Count); // sanity check for (i = 1; i < TAG_CNT; i++) { if (pRefCnt->Tags[i].Tag != 0) { TotalPerArray += pRefCnt->Tags[i].Count; continue; } } ASSERT(TotalPerArray == pRefCnt->Tags[0].Count); if (TotalPerArray != pRefCnt->Tags[0].Count) { DbgPrint("Tag %X, RefCnt %X, perArray %d, total %d\n", Tag, pRefCnt, TotalPerArray, pRefCnt->Tags[0].Count); DbgBreakPoint(); } ReferenceRemove(pRefCnt); } #endif