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582 lines
17 KiB
582 lines
17 KiB
// Copyright (c) 1997, Microsoft Corporation, all rights reserved
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//
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// bpool.c
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// RAS L2TP WAN mini-port/call-manager driver
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// Buffer pool management routines
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//
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// 01/07/97 Steve Cobb, adapted from Gurdeep's WANARP code.
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#include "l2tpp.h"
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#include "bpool.tmh"
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// Debug count of detected double-frees that should not be happening.
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//
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ULONG g_ulDoubleBufferFrees = 0;
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// Debug count of calls to NdisAllocateBuffer/NdisCopyBuffer/NdisFreeBuffer,
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// where the total of Alloc and Copy should equal Free in idle state.
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//
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ULONG g_ulNdisAllocateBuffers = 0;
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ULONG g_ulNdisCopyBuffers = 0;
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ULONG g_ulNdisFreeBuffers = 0;
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//-----------------------------------------------------------------------------
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// Local prototypes (alphabetically)
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//-----------------------------------------------------------------------------
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CHAR*
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AddBufferBlockToPool(
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IN BUFFERPOOL* pPool );
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VOID
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FreeUnusedBufferPoolBlocks(
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IN BUFFERPOOL* pPool );
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//-----------------------------------------------------------------------------
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// Interface routines
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//-----------------------------------------------------------------------------
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VOID
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InitBufferPool(
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OUT BUFFERPOOL* pPool,
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IN ULONG ulBufferSize,
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IN ULONG ulMaxBuffers,
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IN ULONG ulBuffersPerBlock,
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IN ULONG ulFreesPerCollection,
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IN BOOLEAN fAssociateNdisBuffer,
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IN ULONG ulTag )
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// Initialize caller's buffer pool control block 'pPool'. 'UlBufferSize'
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// is the size in bytes of an individual buffer. 'UlMaxBuffers' is the
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// maximum number of buffers allowed in the entire pool or 0 for
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// unlimited. 'UlBuffersPerBlock' is the number of buffers to include in
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// each block of buffers. 'UlFreesPerCollection' is the number of
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// FreeBufferToPool calls until the next garbage collect scan, or 0 for
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// default. 'FAssociateNdisBuffer' is set if an NDIS_BUFFER should be
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// allocated and associated with each individual buffer. 'UlTag' is the
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// memory identification tag to use when allocating blocks.
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//
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// IMPORTANT: Caller's 'pPool' buffer must be protected from multiple
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// access during this call.
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//
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{
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// The requested buffer size is padded, if necessary, so it alligns
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// properly when buffer blocks are layed out. The alignment rule also
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// applies to the BUFFERBLOCKHEAD and BUFFERHEAD structures, which
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// currently align perfectly. We will verify once here, rather than code
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// around everywhere else.
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//
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ASSERT( (ALIGN_UP( sizeof(BUFFERBLOCKHEAD), ULONGLONG )
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== sizeof(BUFFERBLOCKHEAD)) );
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ASSERT( (ALIGN_UP( sizeof(BUFFERHEAD), ULONGLONG )
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== sizeof(BUFFERHEAD)) );
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pPool->ulBufferSize = ALIGN_UP( ulBufferSize, ULONGLONG );
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pPool->ulMaxBuffers = ulMaxBuffers;
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pPool->ulBuffersPerBlock = ulBuffersPerBlock;
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pPool->ulFreesSinceCollection = 0;
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pPool->fAssociateNdisBuffer = fAssociateNdisBuffer;
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pPool->ulTag = ulTag;
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if (ulFreesPerCollection)
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{
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pPool->ulFreesPerCollection = ulFreesPerCollection;
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}
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else
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{
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// Calculate default garbage collection trigger. Don't want to be too
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// aggressive here.
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//
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pPool->ulFreesPerCollection = 200 * pPool->ulBuffersPerBlock;
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}
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TRACE( TL_N, TM_Pool, ( "InitBp tag=$%08x buf=%d cnt=%d",
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pPool->ulTag, pPool->ulBufferSize, pPool->ulBuffersPerBlock ) );
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InitializeListHead( &pPool->listBlocks );
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InitializeListHead( &pPool->listFreeBuffers );
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NdisAllocateSpinLock( &pPool->lock );
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}
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BOOLEAN
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FreeBufferPool(
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IN BUFFERPOOL* pPool )
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// Free up all resources allocated in buffer pool 'pPool'. This is the
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// inverse of InitBufferPool.
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//
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// Returns true if successful, false if any of the pool could not be freed
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// due to outstanding packets.
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//
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{
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BOOLEAN fSuccess;
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TRACE( TL_N, TM_Pool, ( "FreeBp" ) );
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NdisAcquireSpinLock( &pPool->lock );
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{
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FreeUnusedBufferPoolBlocks( pPool );
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fSuccess = (pPool->ulCurBuffers == 0);
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}
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NdisReleaseSpinLock( &pPool->lock );
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return fSuccess;
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}
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CHAR*
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GetBufferFromPool(
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IN BUFFERPOOL* pPool )
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// Returns the address of the useable memory in an individual buffer
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// allocated from the pool 'pPool'. The pool is expanded, if necessary,
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// but caller should still check for NULL return since the pool may have
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// been at maximum size.
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//
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{
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LIST_ENTRY* pLink;
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BUFFERHEAD* pHead;
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CHAR* pBuffer;
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NdisAcquireSpinLock( &pPool->lock );
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{
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if (IsListEmpty( &pPool->listFreeBuffers ))
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{
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pLink = NULL;
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}
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else
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{
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pLink = RemoveHeadList( &pPool->listFreeBuffers );
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InitializeListHead( pLink );
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pHead = CONTAINING_RECORD( pLink, BUFFERHEAD, linkFreeBuffers );
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--pHead->pBlock->ulFreeBuffers;
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}
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}
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NdisReleaseSpinLock( &pPool->lock );
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if (pLink)
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{
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pBuffer = (CHAR* )(pHead + 1);
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}
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else
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{
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// The free list was empty. Try to expand the pool.
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//
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pBuffer = AddBufferBlockToPool( pPool );
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}
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DBG_if (pBuffer)
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{
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pHead = (BUFFERHEAD* )(pBuffer - sizeof(BUFFERHEAD));
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TRACE( TL_N, TM_Pool, ( "GetBfp=$%p, %d free",
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pBuffer, pHead->pBlock->ulFreeBuffers ) );
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}
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DBG_else
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{
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TRACE( TL_A, TM_Pool, ( "GetBfp failed?" ) );
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}
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return pBuffer;
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}
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VOID
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FreeBufferToPool(
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IN BUFFERPOOL* pPool,
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IN CHAR* pBuffer,
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IN BOOLEAN fGarbageCollection )
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// Returns 'pBuffer' to the pool of unused buffers 'pPool'. 'PBuffer'
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// must have been previously allocated with GetBufferFromPool.
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// 'FGarbageCollection' is set when the free should be considered for
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// purposes of garbage collection. This is used by the AddBufferToPool
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// routine to avoid counting the initial "add" frees. Normal callers
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// should set this flag.
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//
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{
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BUFFERHEAD* pHead;
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pHead = ((BUFFERHEAD* )pBuffer) - 1;
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DBG_if (fGarbageCollection)
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{
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TRACE( TL_I, TM_Pool, ( "FreeBtoP($%p) %d free",
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pBuffer, pHead->pBlock->ulFreeBuffers + 1 ) );
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}
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// Requested by Chun Ye to catch IPSEC problem.
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//
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ASSERT( pHead->pNdisBuffer && !((MDL* )pHead->pNdisBuffer)->Next );
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NdisAcquireSpinLock( &pPool->lock );
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do
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{
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if (pHead->linkFreeBuffers.Flink != &pHead->linkFreeBuffers)
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{
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ASSERT( !"Double free?" );
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++g_ulDoubleBufferFrees;
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break;
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}
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InsertHeadList( &pPool->listFreeBuffers, &pHead->linkFreeBuffers );
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++pHead->pBlock->ulFreeBuffers;
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if (fGarbageCollection)
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{
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++pPool->ulFreesSinceCollection;
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if (pPool->ulFreesSinceCollection >= pPool->ulFreesPerCollection)
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{
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// Time to collect garbage, i.e. free any blocks in the
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// pool not in use.
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//
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FreeUnusedBufferPoolBlocks( pPool );
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pPool->ulFreesSinceCollection = 0;
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}
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}
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}
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while (FALSE);
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NdisReleaseSpinLock( &pPool->lock );
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}
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NDIS_BUFFER*
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NdisBufferFromBuffer(
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IN CHAR* pBuffer )
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// Returns the NDIS_BUFFER associated with the buffer 'pBuffer' which was
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// obtained previously with GetBufferFromPool.
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//
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{
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BUFFERHEAD* pHead;
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pHead = ((BUFFERHEAD* )pBuffer) - 1;
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return pHead->pNdisBuffer;
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}
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ULONG
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BufferSizeFromBuffer(
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IN CHAR* pBuffer )
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// Returns the original size of the buffer 'pBuffer' which was obtained
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// previously with GetBufferFromPool. This is useful for undoing
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// NdisAdjustBufferLength.
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//
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{
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BUFFERHEAD* pHead;
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pHead = ((BUFFERHEAD* )pBuffer) - 1;
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return pHead->pBlock->pPool->ulBufferSize;
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}
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NDIS_BUFFER*
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PoolHandleForNdisCopyBufferFromBuffer(
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IN CHAR* pBuffer )
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// Returns the handle of the pool from which the NDIS_BUFFER associated
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// with the buffer 'pBuffer' was obtained. Caller may use the handle to
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// pass to NdisCopyBuffer, one such use per buffer at a time.
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//
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{
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BUFFERHEAD* pHead;
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pHead = ((BUFFERHEAD* )pBuffer) - 1;
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return pHead->pBlock->hNdisPool;
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}
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VOID
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CollectBufferPoolGarbage(
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BUFFERPOOL* pPool )
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// Force a garbage collection event on the pool 'pPool'.
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//
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{
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NdisAcquireSpinLock( &pPool->lock );
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{
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FreeUnusedBufferPoolBlocks( pPool );
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pPool->ulFreesSinceCollection = 0;
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}
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NdisReleaseSpinLock( &pPool->lock );
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}
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//-----------------------------------------------------------------------------
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// Local utility routines (alphabetically)
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//-----------------------------------------------------------------------------
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CHAR*
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AddBufferBlockToPool(
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IN BUFFERPOOL* pPool )
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// Allocate a new buffer block and add it to the buffer pool 'pPool'.
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//
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// Returns the address of the usable memory of an individual buffer
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// allocated from the pool or NULL if none.
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//
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{
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NDIS_STATUS status;
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BUFFERBLOCKHEAD* pNew;
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ULONG ulSize;
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ULONG ulCount;
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BOOLEAN fOk;
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BOOLEAN fAssociateNdisBuffer;
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CHAR* pReturn;
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TRACE( TL_A, TM_Pool, ( "AddBpBlock(%d+%d)",
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pPool->ulCurBuffers, pPool->ulBuffersPerBlock ) );
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fOk = FALSE;
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pNew = NULL;
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NdisAcquireSpinLock( &pPool->lock );
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{
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// Save this for reference after the lock is released.
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//
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fAssociateNdisBuffer = pPool->fAssociateNdisBuffer;
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do
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{
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if (pPool->ulMaxBuffers
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&& pPool->ulCurBuffers >= pPool->ulMaxBuffers)
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{
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// No can do. The pool's already at maximum size.
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//
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TRACE( TL_A, TM_Pool, ( "Bp maxed?" ) );
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WPLOG( LL_A, LM_Pool, ( "Bp maxed?" ) );
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break;
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}
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// Calculate the contiguous block's size and the number of buffers
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// it will hold.
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//
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ulCount = pPool->ulBuffersPerBlock;
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if (pPool->ulMaxBuffers)
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{
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if (ulCount > pPool->ulMaxBuffers - pPool->ulCurBuffers)
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{
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ulCount = pPool->ulMaxBuffers - pPool->ulCurBuffers;
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}
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}
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ulSize = sizeof(BUFFERBLOCKHEAD) +
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(ulCount * (sizeof(BUFFERHEAD) + pPool->ulBufferSize));
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// Allocate the contiguous memory block for the BUFFERBLOCK header
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// and the individual buffers.
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//
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pNew = ALLOC_NONPAGED( ulSize, pPool->ulTag );
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if (!pNew)
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{
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TRACE( TL_A, TM_Res, ( "Alloc BB?" ) );
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WPLOG( LL_A, LM_Res, ( "Alloc BB?" ) );
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break;
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}
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// Zero only the block header portion.
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//
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NdisZeroMemory( pNew, sizeof(BUFFERBLOCKHEAD) );
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if (fAssociateNdisBuffer)
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{
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// Allocate a pool of NDIS_BUFFER descriptors.
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//
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// Twice as many descriptors are allocated as buffers so
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// caller can use the PoolHandleForNdisCopyBufferFromBuffer
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// routine to obtain a pool handle to pass to the
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// NdisCopyBuffer used to trim the L2TP header from received
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// packets. In the current NDIS implmentation on NT this does
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// nothing but return a NULL handle and STATUS_SUCCESS,
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// because NDIS_BUFFER's are just MDL's,
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// NdisAllocateBufferPool is basically a no-op, and for that
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// matter, NdisCopyBuffer doesn't really use the pool handle
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// it's passed. It's cheap to stay strictly compliant here,
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// though, so we do that.
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//
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NdisAllocateBufferPool(
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&status, &pNew->hNdisPool, ulCount * 2 );
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if (status != NDIS_STATUS_SUCCESS)
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{
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TRACE( TL_A, TM_Pool, ( "AllocBp=$%x?", status ) );
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WPLOG( LL_A, LM_Pool, ( "AllocBp=$%x?", status ) );
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break;
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}
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}
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// Fill in the back pointer to the pool.
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//
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pNew->pPool = pPool;
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// Link the new block. At this point, all the buffers are
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// effectively "in use". They are made available in the loop
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// below.
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//
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pNew->ulBuffers = ulCount;
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pPool->ulCurBuffers += ulCount;
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InsertHeadList( &pPool->listBlocks, &pNew->linkBlocks );
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fOk = TRUE;
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}
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while (FALSE);
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}
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NdisReleaseSpinLock( &pPool->lock );
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if (!fOk)
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{
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// Bailing, undo whatever succeeded.
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//
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if (pNew)
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{
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if (pNew->hNdisPool)
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{
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NdisFreeBufferPool( pNew->hNdisPool );
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}
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FREE_NONPAGED( pNew );
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}
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return NULL;
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}
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|
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// Initialize each individual buffer slice and add it to the list of free
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// buffers.
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//
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{
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ULONG i;
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CHAR* pBuffer;
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BUFFERHEAD* pHead;
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pReturn = NULL;
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// For each slice of the block, where a slice consists of a BUFFERHEAD
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// and the buffer memory that immediately follows it...
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//
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for (i = 0, pHead = (BUFFERHEAD* )(pNew + 1);
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i < ulCount;
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++i, pHead = (BUFFERHEAD* )
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((CHAR* )(pHead + 1) + pPool->ulBufferSize))
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{
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pBuffer = (CHAR* )(pHead + 1);
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InitializeListHead( &pHead->linkFreeBuffers );
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pHead->pBlock = pNew;
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pHead->pNdisBuffer = NULL;
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|
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if (fAssociateNdisBuffer)
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{
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// Associate an NDIS_BUFFER descriptor from the pool we
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// allocated above.
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//
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NdisAllocateBuffer(
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&status, &pHead->pNdisBuffer, pNew->hNdisPool,
|
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pBuffer, pPool->ulBufferSize );
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|
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if (status != NDIS_STATUS_SUCCESS)
|
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{
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TRACE( TL_A, TM_Pool, ( "AllocB=$%x?", status ) );
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WPLOG( LL_A, LM_Pool, ( "AllocB=$%x?", status ) );
|
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pHead->pNdisBuffer = NULL;
|
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continue;
|
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}
|
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else
|
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{
|
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NdisInterlockedIncrement( &g_ulNdisAllocateBuffers );
|
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}
|
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}
|
|
|
|
if (pReturn)
|
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{
|
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// Add the constructed buffer to the list of free buffers.
|
|
// The 'FALSE' tells the garbage collection algorithm the
|
|
// operation is an "add" rather than a "release" and should be
|
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// ignored.
|
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//
|
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FreeBufferToPool( pPool, pBuffer, FALSE );
|
|
}
|
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else
|
|
{
|
|
// The first successfully constructed buffer is returned by
|
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// this routine.
|
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//
|
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pReturn = pBuffer;
|
|
}
|
|
}
|
|
}
|
|
|
|
return pReturn;
|
|
}
|
|
|
|
|
|
VOID
|
|
FreeUnusedBufferPoolBlocks(
|
|
IN BUFFERPOOL* pPool )
|
|
|
|
// Check if any of the blocks in pool 'pPool' are not in use, and if so,
|
|
// free them.
|
|
//
|
|
// IMPORTANT: Caller must hold the pool lock.
|
|
//
|
|
{
|
|
LIST_ENTRY* pLink;
|
|
|
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TRACE( TL_A, TM_Pool, ( "FreeUnusedBpBlocks" ) );
|
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|
|
// For each block in the pool...
|
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//
|
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pLink = pPool->listBlocks.Flink;
|
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while (pLink != &pPool->listBlocks)
|
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{
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LIST_ENTRY* pLinkNext;
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BUFFERBLOCKHEAD* pBlock;
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|
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pLinkNext = pLink->Flink;
|
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|
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pBlock = CONTAINING_RECORD( pLink, BUFFERBLOCKHEAD, linkBlocks );
|
|
if (pBlock->ulFreeBuffers >= pBlock->ulBuffers)
|
|
{
|
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ULONG i;
|
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BUFFERHEAD* pHead;
|
|
|
|
TRACE( TL_A, TM_Pool, ( "FreeBpBlock(%d-%d)",
|
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pPool->ulCurBuffers, pPool->ulBuffersPerBlock ) );
|
|
|
|
// Found a block with no buffers in use. Walk the buffer block
|
|
// removing each buffer from the pool's free list and freeing any
|
|
// associated NDIS_BUFFER descriptor.
|
|
//
|
|
for (i = 0, pHead = (BUFFERHEAD* )(pBlock + 1);
|
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i < pBlock->ulBuffers;
|
|
++i, pHead = (BUFFERHEAD* )
|
|
(((CHAR* )(pHead + 1)) + pPool->ulBufferSize))
|
|
{
|
|
RemoveEntryList( &pHead->linkFreeBuffers );
|
|
InitializeListHead( &pHead->linkFreeBuffers );
|
|
|
|
if (pHead->pNdisBuffer)
|
|
{
|
|
NdisFreeBuffer( pHead->pNdisBuffer );
|
|
NdisInterlockedIncrement( &g_ulNdisFreeBuffers );
|
|
}
|
|
}
|
|
|
|
// Remove and release the unused block.
|
|
//
|
|
RemoveEntryList( pLink );
|
|
InitializeListHead( pLink );
|
|
pPool->ulCurBuffers -= pBlock->ulBuffers;
|
|
|
|
if (pBlock->hNdisPool)
|
|
{
|
|
NdisFreeBufferPool( pBlock->hNdisPool );
|
|
}
|
|
|
|
FREE_NONPAGED( pBlock );
|
|
}
|
|
|
|
pLink = pLinkNext;
|
|
}
|
|
}
|