/*++ Copyright (c) 1995 Microsoft Corporation Module Name: buffer.c Abstract: This module contains the code that is very specific to initialization and unload operations in the irenum driver Author: Brian Lieuallen, 7-13-2000 Environment: Kernel mode Revision History : --*/ #include #include #include typedef struct _BUFFER_POOL { KSPIN_LOCK SpinLock; SLIST_HEADER ListHead; LONG ReferenceCount; #if DBG LONG TotalBuffers; LONG BufferInUse; BOOLEAN Freed; #endif } BUFFER_POOL, *PBUFFER_POOL; VOID FreeBuffer( PIRCOMM_BUFFER Buffer ); VOID RemoveReferenceOnBufferPool( PBUFFER_POOL BufferPool ) { LONG Count=InterlockedDecrement(&BufferPool->ReferenceCount); if (Count == 0) { PSINGLE_LIST_ENTRY ListEntry; ASSERT(BufferPool->Freed); ListEntry=ExInterlockedPopEntrySList( &BufferPool->ListHead, &BufferPool->SpinLock ); while (ListEntry != NULL) { PIRCOMM_BUFFER Buffer=CONTAINING_RECORD(ListEntry,IRCOMM_BUFFER,ListEntry); IoFreeIrp(Buffer->Irp); IoFreeMdl(Buffer->Mdl); FREE_POOL(Buffer); ListEntry=ExInterlockedPopEntrySList( &BufferPool->ListHead, &BufferPool->SpinLock ); } FREE_POOL(BufferPool); } return; } BUFFER_POOL_HANDLE CreateBufferPool( ULONG StackDepth, ULONG BufferSize, ULONG BufferCount ) { PBUFFER_POOL BufferPool; ULONG i; BufferPool=ALLOCATE_NONPAGED_POOL(sizeof(*BufferPool)); if (BufferPool == NULL) { return NULL; } BufferPool->ReferenceCount=1; #if DBG BufferPool->BufferInUse=0; BufferPool->TotalBuffers=BufferCount; BufferPool->Freed=FALSE; #endif KeInitializeSpinLock( &BufferPool->SpinLock ); ExInitializeSListHead( &BufferPool->ListHead ); for (i=0; iBufferLength=BufferSize; #if !DBG Buffer->FreeBuffer=FreeBuffer; #endif Buffer->BufferPool=BufferPool; Buffer->Irp=IoAllocateIrp((CCHAR)StackDepth,FALSE); if (Buffer->Irp == NULL) { FREE_POOL(Buffer); goto CleanUp; } Buffer->Mdl=IoAllocateMdl( &Buffer->Data[0], BufferSize, FALSE, // primary FALSE, // chage quota NULL ); if (Buffer->Mdl == NULL) { IoFreeIrp(Buffer->Irp); FREE_POOL(Buffer); goto CleanUp; } MmBuildMdlForNonPagedPool( Buffer->Mdl ); ExInterlockedPushEntrySList( &BufferPool->ListHead, &Buffer->ListEntry, &BufferPool->SpinLock ); } return BufferPool; CleanUp: FreeBufferPool(BufferPool); return NULL; } VOID FreeBufferPool( BUFFER_POOL_HANDLE Handle ) { PBUFFER_POOL BufferPool=Handle; #if DBG BufferPool->Freed=TRUE; #endif RemoveReferenceOnBufferPool(BufferPool); return; } PIRCOMM_BUFFER GetBuffer( BUFFER_POOL_HANDLE Handle ) { PBUFFER_POOL BufferPool=Handle; PSINGLE_LIST_ENTRY ListEntry; InterlockedIncrement(&BufferPool->ReferenceCount); ListEntry=ExInterlockedPopEntrySList( &BufferPool->ListHead, &BufferPool->SpinLock ); if (ListEntry != NULL) { PIRCOMM_BUFFER Buffer=CONTAINING_RECORD(ListEntry,IRCOMM_BUFFER,ListEntry); #if DBG InterlockedIncrement(&BufferPool->BufferInUse); Buffer->FreeBuffer=FreeBuffer; #endif return Buffer; } RemoveReferenceOnBufferPool(BufferPool); return NULL; } VOID FreeBuffer( PIRCOMM_BUFFER Buffer ) { PBUFFER_POOL BufferPool=Buffer->BufferPool; #if DBG Buffer->FreeBuffer=NULL; Buffer->Context=NULL; IoReuseIrp(Buffer->Irp,STATUS_CANCELLED); InterlockedDecrement(&BufferPool->BufferInUse); #endif ExInterlockedPushEntrySList( &BufferPool->ListHead, &Buffer->ListEntry, &BufferPool->SpinLock ); RemoveReferenceOnBufferPool(BufferPool); return; }