/usr/src/virtualbox-guest-4.1.42/vboxguest/PhysHeap.c is in virtualbox-guest-dkms 4.1.42-dfsg-1+deb7u1.
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/** @file
* VBoxGuestLibR0 - Physical memory heap.
*/
/*
* Copyright (C) 2006-2007 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL) only, as it comes in the "COPYING.CDDL" file of the
* VirtualBox OSE distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*/
#include "VBGLInternal.h"
#include <iprt/assert.h>
#include <iprt/semaphore.h>
#include <iprt/alloc.h>
/* Physical memory heap consists of double linked list
* of chunks. Memory blocks are allocated inside these chunks
* and are members of Allocated and Free double linked lists.
*
* When allocating a block, we search in Free linked
* list for a suitable free block. If there is no such block,
* a new chunk is allocated and the new block is taken from
* the new chunk as the only chunk-sized free block.
* Allocated block is excluded from the Free list and goes to
* Alloc list.
*
* When freeing block, we check the pointer and then
* exclude block from Alloc list and move it to free list.
*
* For each chunk we maintain the allocated blocks counter.
* if 2 (or more) entire chunks are free they are immediately
* deallocated, so we always have at most 1 free chunk.
*
* When freeing blocks, two subsequent free blocks are always
* merged together. Current implementation merges blocks only
* when there is a block after the just freed one.
*
*/
#define VBGL_PH_ASSERT Assert
#define VBGL_PH_ASSERTMsg AssertMsg
// #define DUMPHEAP
#ifdef DUMPHEAP
# define VBGL_PH_dprintf(a) RTAssertMsg2Weak a
#else
# define VBGL_PH_dprintf(a)
#endif
/* Heap block signature */
#define VBGL_PH_BLOCKSIGNATURE (0xADDBBBBB)
/* Heap chunk signature */
#define VBGL_PH_CHUNKSIGNATURE (0xADDCCCCC)
/* Heap chunk allocation unit */
#define VBGL_PH_CHUNKSIZE (0x10000)
/* Heap block bit flags */
#define VBGL_PH_BF_ALLOCATED (0x1)
struct _VBGLPHYSHEAPBLOCK
{
uint32_t u32Signature;
/* Size of user data in the block. Does not include the block header. */
uint32_t cbDataSize;
uint32_t fu32Flags;
struct _VBGLPHYSHEAPBLOCK *pNext;
struct _VBGLPHYSHEAPBLOCK *pPrev;
struct _VBGLPHYSHEAPCHUNK *pChunk;
};
struct _VBGLPHYSHEAPCHUNK
{
uint32_t u32Signature;
/* Size of the chunk. Includes the chunk header. */
uint32_t cbSize;
/* Physical address of the chunk */
RTCCPHYS physAddr;
/* Number of allocated blocks in the chunk */
int32_t cAllocatedBlocks;
struct _VBGLPHYSHEAPCHUNK *pNext;
struct _VBGLPHYSHEAPCHUNK *pPrev;
};
#ifndef DUMPHEAP
#define dumpheap(a)
#else
void dumpheap (char *point)
{
VBGL_PH_dprintf(("VBGL_PH dump at '%s'\n", point));
VBGL_PH_dprintf(("Chunks:\n"));
VBGLPHYSHEAPCHUNK *pChunk = g_vbgldata.pChunkHead;
while (pChunk)
{
VBGL_PH_dprintf(("%p: pNext = %p, pPrev = %p, sign = %08X, size = %8d, allocated = %8d, phys = %08X\n",
pChunk, pChunk->pNext, pChunk->pPrev, pChunk->u32Signature, pChunk->cbSize, pChunk->cAllocatedBlocks, pChunk->physAddr));
pChunk = pChunk->pNext;
}
VBGL_PH_dprintf(("Allocated blocks:\n"));
VBGLPHYSHEAPBLOCK *pBlock = g_vbgldata.pAllocBlocksHead;
while (pBlock)
{
VBGL_PH_dprintf(("%p: pNext = %p, pPrev = %p, sign = %08X, size = %8d, flags = %08X, pChunk = %p\n",
pBlock, pBlock->pNext, pBlock->pPrev, pBlock->u32Signature, pBlock->cbDataSize, pBlock->fu32Flags, pBlock->pChunk));
pBlock = pBlock->pNext;
}
VBGL_PH_dprintf(("Free blocks:\n"));
pBlock = g_vbgldata.pFreeBlocksHead;
while (pBlock)
{
VBGL_PH_dprintf(("%p: pNext = %p, pPrev = %p, sign = %08X, size = %8d, flags = %08X, pChunk = %p\n",
pBlock, pBlock->pNext, pBlock->pPrev, pBlock->u32Signature, pBlock->cbDataSize, pBlock->fu32Flags, pBlock->pChunk));
pBlock = pBlock->pNext;
}
VBGL_PH_dprintf(("VBGL_PH dump at '%s' done\n", point));
}
#endif
DECLINLINE(void *) vbglPhysHeapBlock2Data (VBGLPHYSHEAPBLOCK *pBlock)
{
return (void *)(pBlock? (char *)pBlock + sizeof (VBGLPHYSHEAPBLOCK): NULL);
}
DECLINLINE(VBGLPHYSHEAPBLOCK *) vbglPhysHeapData2Block (void *p)
{
VBGLPHYSHEAPBLOCK *pBlock = (VBGLPHYSHEAPBLOCK *)(p? (char *)p - sizeof (VBGLPHYSHEAPBLOCK): NULL);
VBGL_PH_ASSERTMsg(pBlock == NULL || pBlock->u32Signature == VBGL_PH_BLOCKSIGNATURE,
("pBlock->u32Signature = %08X\n", pBlock->u32Signature));
return pBlock;
}
DECLINLINE(int) vbglPhysHeapEnter (void)
{
int rc = RTSemFastMutexRequest(g_vbgldata.mutexHeap);
VBGL_PH_ASSERTMsg(RT_SUCCESS(rc),
("Failed to request heap mutex, rc = %Rrc\n", rc));
return rc;
}
DECLINLINE(void) vbglPhysHeapLeave (void)
{
RTSemFastMutexRelease(g_vbgldata.mutexHeap);
}
static void vbglPhysHeapInitBlock (VBGLPHYSHEAPBLOCK *pBlock, VBGLPHYSHEAPCHUNK *pChunk, uint32_t cbDataSize)
{
VBGL_PH_ASSERT(pBlock != NULL);
VBGL_PH_ASSERT(pChunk != NULL);
pBlock->u32Signature = VBGL_PH_BLOCKSIGNATURE;
pBlock->cbDataSize = cbDataSize;
pBlock->fu32Flags = 0;
pBlock->pNext = NULL;
pBlock->pPrev = NULL;
pBlock->pChunk = pChunk;
}
static void vbglPhysHeapInsertBlock (VBGLPHYSHEAPBLOCK *pInsertAfter, VBGLPHYSHEAPBLOCK *pBlock)
{
VBGL_PH_ASSERTMsg(pBlock->pNext == NULL,
("pBlock->pNext = %p\n", pBlock->pNext));
VBGL_PH_ASSERTMsg(pBlock->pPrev == NULL,
("pBlock->pPrev = %p\n", pBlock->pPrev));
if (pInsertAfter)
{
pBlock->pNext = pInsertAfter->pNext;
pBlock->pPrev = pInsertAfter;
if (pInsertAfter->pNext)
{
pInsertAfter->pNext->pPrev = pBlock;
}
pInsertAfter->pNext = pBlock;
}
else
{
/* inserting to head of list */
pBlock->pPrev = NULL;
if (pBlock->fu32Flags & VBGL_PH_BF_ALLOCATED)
{
pBlock->pNext = g_vbgldata.pAllocBlocksHead;
if (g_vbgldata.pAllocBlocksHead)
{
g_vbgldata.pAllocBlocksHead->pPrev = pBlock;
}
g_vbgldata.pAllocBlocksHead = pBlock;
}
else
{
pBlock->pNext = g_vbgldata.pFreeBlocksHead;
if (g_vbgldata.pFreeBlocksHead)
{
g_vbgldata.pFreeBlocksHead->pPrev = pBlock;
}
g_vbgldata.pFreeBlocksHead = pBlock;
}
}
}
static void vbglPhysHeapExcludeBlock (VBGLPHYSHEAPBLOCK *pBlock)
{
if (pBlock->pNext)
{
pBlock->pNext->pPrev = pBlock->pPrev;
}
else
{
/* this is tail of list but we do not maintain tails of block lists.
* so do nothing.
*/
;
}
if (pBlock->pPrev)
{
pBlock->pPrev->pNext = pBlock->pNext;
}
else
{
/* this is head of list but we do not maintain tails of block lists. */
if (pBlock->fu32Flags & VBGL_PH_BF_ALLOCATED)
{
g_vbgldata.pAllocBlocksHead = pBlock->pNext;
}
else
{
g_vbgldata.pFreeBlocksHead = pBlock->pNext;
}
}
pBlock->pNext = NULL;
pBlock->pPrev = NULL;
}
static VBGLPHYSHEAPBLOCK *vbglPhysHeapChunkAlloc (uint32_t cbSize)
{
RTCCPHYS physAddr;
VBGLPHYSHEAPCHUNK *pChunk;
VBGLPHYSHEAPBLOCK *pBlock;
VBGL_PH_dprintf(("Allocating new chunk of size %d\n", cbSize));
/* Compute chunk size to allocate */
if (cbSize < VBGL_PH_CHUNKSIZE)
{
/* Includes case of block size 0 during initialization */
cbSize = VBGL_PH_CHUNKSIZE;
}
else
{
/* Round up to next chunk size, which must be power of 2 */
cbSize = (cbSize + (VBGL_PH_CHUNKSIZE - 1)) & ~(VBGL_PH_CHUNKSIZE - 1);
}
physAddr = 0;
/* This function allocates physical contiguous memory (below 4GB) according to the IPRT docs.
* Address < 4G is required for the port IO.
*/
pChunk = (VBGLPHYSHEAPCHUNK *)RTMemContAlloc (&physAddr, cbSize);
if (!pChunk)
{
LogRel(("vbglPhysHeapChunkAlloc: failed to alloc %u contiguous bytes.\n", cbSize));
return NULL;
}
pChunk->u32Signature = VBGL_PH_CHUNKSIGNATURE;
pChunk->cbSize = cbSize;
pChunk->physAddr = physAddr;
pChunk->cAllocatedBlocks = 0;
pChunk->pNext = g_vbgldata.pChunkHead;
pChunk->pPrev = NULL;
/* Initialize the free block, which now occupies entire chunk. */
pBlock = (VBGLPHYSHEAPBLOCK *)((char *)pChunk + sizeof (VBGLPHYSHEAPCHUNK));
vbglPhysHeapInitBlock (pBlock, pChunk, cbSize - sizeof (VBGLPHYSHEAPCHUNK) - sizeof (VBGLPHYSHEAPBLOCK));
vbglPhysHeapInsertBlock (NULL, pBlock);
g_vbgldata.pChunkHead = pChunk;
VBGL_PH_dprintf(("Allocated chunk %p, block = %p size=%x\n", pChunk, pBlock, cbSize));
return pBlock;
}
void vbglPhysHeapChunkDelete (VBGLPHYSHEAPCHUNK *pChunk)
{
char *p;
VBGL_PH_ASSERT(pChunk != NULL);
VBGL_PH_ASSERTMsg(pChunk->u32Signature == VBGL_PH_CHUNKSIGNATURE,
("pChunk->u32Signature = %08X\n", pChunk->u32Signature));
VBGL_PH_dprintf(("Deleting chunk %p size %x\n", pChunk, pChunk->cbSize));
/* first scan the chunk and exclude all blocks from lists */
p = (char *)pChunk + sizeof (VBGLPHYSHEAPCHUNK);
while (p < (char *)pChunk + pChunk->cbSize)
{
VBGLPHYSHEAPBLOCK *pBlock = (VBGLPHYSHEAPBLOCK *)p;
p += pBlock->cbDataSize + sizeof (VBGLPHYSHEAPBLOCK);
vbglPhysHeapExcludeBlock (pBlock);
}
VBGL_PH_ASSERTMsg(p == (char *)pChunk + pChunk->cbSize,
("p = %p, (char *)pChunk + pChunk->cbSize = %p, pChunk->cbSize = %08X\n",
p, (char *)pChunk + pChunk->cbSize, pChunk->cbSize));
/* Exclude chunk from the chunk list */
if (pChunk->pNext)
{
pChunk->pNext->pPrev = pChunk->pPrev;
}
else
{
/* we do not maintain tail */
;
}
if (pChunk->pPrev)
{
pChunk->pPrev->pNext = pChunk->pNext;
}
else
{
/* the chunk was head */
g_vbgldata.pChunkHead = pChunk->pNext;
}
RTMemContFree (pChunk, pChunk->cbSize);
}
DECLVBGL(void *) VbglPhysHeapAlloc (uint32_t cbSize)
{
VBGLPHYSHEAPBLOCK *pBlock, *iter;
int rc = vbglPhysHeapEnter ();
if (RT_FAILURE(rc))
return NULL;
dumpheap ("pre alloc");
pBlock = NULL;
/* If there are free blocks in the heap, look at them. */
iter = g_vbgldata.pFreeBlocksHead;
/* There will be not many blocks in the heap, so
* linear search would be fast enough.
*/
while (iter)
{
if (iter->cbDataSize == cbSize)
{
/* exact match */
pBlock = iter;
break;
}
/* Looking for a free block with nearest size */
if (iter->cbDataSize > cbSize)
{
if (pBlock)
{
if (iter->cbDataSize < pBlock->cbDataSize)
{
pBlock = iter;
}
}
else
{
pBlock = iter;
}
}
iter = iter->pNext;
}
if (!pBlock)
{
/* No free blocks, allocate a new chunk,
* the only free block of the chunk will
* be returned.
*/
pBlock = vbglPhysHeapChunkAlloc (cbSize);
}
if (pBlock)
{
VBGL_PH_ASSERTMsg(pBlock->u32Signature == VBGL_PH_BLOCKSIGNATURE,
("pBlock = %p, pBlock->u32Signature = %08X\n", pBlock, pBlock->u32Signature));
VBGL_PH_ASSERTMsg((pBlock->fu32Flags & VBGL_PH_BF_ALLOCATED) == 0,
("pBlock = %p, pBlock->fu32Flags = %08X\n", pBlock, pBlock->fu32Flags));
/* We have a free block, either found or allocated. */
if (pBlock->cbDataSize > 2*(cbSize + sizeof (VBGLPHYSHEAPBLOCK)))
{
/* Data will occupy less than a half of the block,
* the block should be split.
*/
iter = (VBGLPHYSHEAPBLOCK *)((char *)pBlock + sizeof (VBGLPHYSHEAPBLOCK) + cbSize);
/* Init the new 'iter' block, initialized blocks are always marked as free. */
vbglPhysHeapInitBlock (iter, pBlock->pChunk, pBlock->cbDataSize - cbSize - sizeof (VBGLPHYSHEAPBLOCK));
pBlock->cbDataSize = cbSize;
/* Insert the new 'iter' block after the 'pBlock' in the free list */
vbglPhysHeapInsertBlock (pBlock, iter);
}
/* Exclude pBlock from free list */
vbglPhysHeapExcludeBlock (pBlock);
/* Mark as allocated */
pBlock->fu32Flags |= VBGL_PH_BF_ALLOCATED;
/* Insert to allocated list */
vbglPhysHeapInsertBlock (NULL, pBlock);
/* Adjust the chunk allocated blocks counter */
pBlock->pChunk->cAllocatedBlocks++;
}
dumpheap ("post alloc");
vbglPhysHeapLeave ();
VBGL_PH_dprintf(("VbglPhysHeapAlloc %x size %x\n", vbglPhysHeapBlock2Data (pBlock), pBlock->cbDataSize));
return vbglPhysHeapBlock2Data (pBlock);
}
DECLVBGL(RTCCPHYS) VbglPhysHeapGetPhysAddr (void *p)
{
RTCCPHYS physAddr = 0;
VBGLPHYSHEAPBLOCK *pBlock = vbglPhysHeapData2Block (p);
if (pBlock)
{
VBGL_PH_ASSERTMsg((pBlock->fu32Flags & VBGL_PH_BF_ALLOCATED) != 0,
("pBlock = %p, pBlock->fu32Flags = %08X\n", pBlock, pBlock->fu32Flags));
if (pBlock->fu32Flags & VBGL_PH_BF_ALLOCATED)
physAddr = pBlock->pChunk->physAddr + ((char *)p - (char *)pBlock->pChunk);
}
return physAddr;
}
DECLVBGL(void) VbglPhysHeapFree (void *p)
{
VBGLPHYSHEAPBLOCK *pBlock;
VBGLPHYSHEAPBLOCK *pNeighbour;
int rc = vbglPhysHeapEnter ();
if (RT_FAILURE(rc))
return;
dumpheap ("pre free");
pBlock = vbglPhysHeapData2Block (p);
if (!pBlock)
{
vbglPhysHeapLeave ();
return;
}
VBGL_PH_ASSERTMsg((pBlock->fu32Flags & VBGL_PH_BF_ALLOCATED) != 0,
("pBlock = %p, pBlock->fu32Flags = %08X\n", pBlock, pBlock->fu32Flags));
/* Exclude from allocated list */
vbglPhysHeapExcludeBlock (pBlock);
dumpheap ("post exclude");
VBGL_PH_dprintf(("VbglPhysHeapFree %x size %x\n", p, pBlock->cbDataSize));
/* Mark as free */
pBlock->fu32Flags &= ~VBGL_PH_BF_ALLOCATED;
/* Insert to free list */
vbglPhysHeapInsertBlock (NULL, pBlock);
dumpheap ("post insert");
/* Adjust the chunk allocated blocks counter */
pBlock->pChunk->cAllocatedBlocks--;
VBGL_PH_ASSERT(pBlock->pChunk->cAllocatedBlocks >= 0);
/* Check if we can merge 2 free blocks. To simplify heap maintenance,
* we will look at block after the just freed one.
* This will not prevent us from detecting free memory chunks.
* Also in most cases blocks are deallocated in reverse allocation order
* and in that case the merging will work.
*/
pNeighbour = (VBGLPHYSHEAPBLOCK *)((char *)p + pBlock->cbDataSize);
if ((char *)pNeighbour < (char *)pBlock->pChunk + pBlock->pChunk->cbSize
&& (pNeighbour->fu32Flags & VBGL_PH_BF_ALLOCATED) == 0)
{
/* The next block is free as well. */
/* Adjust size of current memory block */
pBlock->cbDataSize += pNeighbour->cbDataSize + sizeof (VBGLPHYSHEAPBLOCK);
/* Exclude the next neighbour */
vbglPhysHeapExcludeBlock (pNeighbour);
}
dumpheap ("post merge");
/* now check if there are 2 or more free chunks */
if (pBlock->pChunk->cAllocatedBlocks == 0)
{
VBGLPHYSHEAPCHUNK *pChunk = g_vbgldata.pChunkHead;
uint32_t u32FreeChunks = 0;
while (pChunk)
{
if (pChunk->cAllocatedBlocks == 0)
{
u32FreeChunks++;
}
pChunk = pChunk->pNext;
}
if (u32FreeChunks > 1)
{
/* Delete current chunk, it will also exclude all free blocks
* remaining in the chunk from the free list, so the pBlock
* will also be invalid after this.
*/
vbglPhysHeapChunkDelete (pBlock->pChunk);
}
}
dumpheap ("post free");
vbglPhysHeapLeave ();
}
DECLVBGL(int) VbglPhysHeapInit (void)
{
int rc = VINF_SUCCESS;
/* Allocate the first chunk of the heap. */
VBGLPHYSHEAPBLOCK *pBlock = vbglPhysHeapChunkAlloc (0);
if (!pBlock)
rc = VERR_NO_MEMORY;
RTSemFastMutexCreate(&g_vbgldata.mutexHeap);
return rc;
}
DECLVBGL(void) VbglPhysHeapTerminate (void)
{
while (g_vbgldata.pChunkHead)
{
vbglPhysHeapChunkDelete (g_vbgldata.pChunkHead);
}
RTSemFastMutexDestroy(g_vbgldata.mutexHeap);
}
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