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406dfdbc87
Sync trunk (rr49606) svn path=/branches/cmake-bringup/; revision=49607
233 lines
7.2 KiB
C
233 lines
7.2 KiB
C
/*
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* PROJECT: ReactOS HAL
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* LICENSE: GPL - See COPYING in the top level directory
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* FILE: hal/halx86/generic/memory.c
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* PURPOSE: HAL memory management
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* PROGRAMMERS: ReactOS Portable Systems Group
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*/
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/* INCLUDES ******************************************************************/
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#include <hal.h>
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#define NDEBUG
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#include <debug.h>
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/* Share with Mm headers? */
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#define MM_HAL_VA_START (PVOID)0xFFC00000
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#define MM_HAL_HEAP_START (PVOID)((ULONG_PTR)MM_HAL_VA_START + (1024 * 1024))
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/* GLOBALS *******************************************************************/
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ULONG HalpUsedAllocDescriptors;
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MEMORY_ALLOCATION_DESCRIPTOR HalpAllocationDescriptorArray[64];
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PVOID HalpHeapStart = MM_HAL_HEAP_START;
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/* PRIVATE FUNCTIONS *********************************************************/
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ULONG
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NTAPI
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HalpAllocPhysicalMemory(IN PLOADER_PARAMETER_BLOCK LoaderBlock,
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IN ULONG MaxAddress,
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IN ULONG PageCount,
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IN BOOLEAN Aligned)
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{
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ULONG UsedDescriptors, Alignment, PhysicalAddress;
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PFN_NUMBER MaxPage, BasePage;
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PLIST_ENTRY NextEntry;
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PMEMORY_ALLOCATION_DESCRIPTOR MdBlock, NewBlock, FreeBlock;
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/* Highest page we'll go */
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MaxPage = MaxAddress >> PAGE_SHIFT;
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/* We need at least two blocks */
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if ((HalpUsedAllocDescriptors + 2) > 64) return 0;
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/* Remember how many we have now */
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UsedDescriptors = HalpUsedAllocDescriptors;
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/* Loop the loader block memory descriptors */
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NextEntry = LoaderBlock->MemoryDescriptorListHead.Flink;
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while (NextEntry != &LoaderBlock->MemoryDescriptorListHead)
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{
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/* Get the block */
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MdBlock = CONTAINING_RECORD(NextEntry,
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MEMORY_ALLOCATION_DESCRIPTOR,
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ListEntry);
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/* No alignment by default */
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Alignment = 0;
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/* Unless requested, in which case we use a 64KB block alignment */
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if (Aligned) Alignment = ((MdBlock->BasePage + 0x0F) & ~0x0F) - MdBlock->BasePage;
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/* Search for free memory */
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if ((MdBlock->MemoryType == LoaderFree) ||
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(MdBlock->MemoryType == LoaderFirmwareTemporary))
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{
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/* Make sure the page is within bounds, including alignment */
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BasePage = MdBlock->BasePage;
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if ((BasePage) &&
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(MdBlock->PageCount >= PageCount + Alignment) &&
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(BasePage + PageCount + Alignment < MaxPage))
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{
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/* We found an address */
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PhysicalAddress = (BasePage + Alignment) << PAGE_SHIFT;
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break;
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}
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}
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/* Keep trying */
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NextEntry = NextEntry->Flink;
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}
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/* If we didn't find anything, get out of here */
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if (NextEntry == &LoaderBlock->MemoryDescriptorListHead) return 0;
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/* Okay, now get a descriptor */
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NewBlock = &HalpAllocationDescriptorArray[HalpUsedAllocDescriptors];
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NewBlock->PageCount = PageCount;
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NewBlock->BasePage = MdBlock->BasePage + Alignment;
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NewBlock->MemoryType = LoaderHALCachedMemory;
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/* Update count */
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UsedDescriptors++;
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HalpUsedAllocDescriptors = UsedDescriptors;
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/* Check if we had any alignment */
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if (Alignment)
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{
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/* Check if we had leftovers */
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if ((MdBlock->PageCount - Alignment) != PageCount)
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{
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/* Get the next descriptor */
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FreeBlock = &HalpAllocationDescriptorArray[UsedDescriptors];
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FreeBlock->PageCount = MdBlock->PageCount - Alignment - PageCount;
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FreeBlock->BasePage = MdBlock->BasePage + Alignment + PageCount;
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/* One more */
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HalpUsedAllocDescriptors++;
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/* Insert it into the list */
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InsertHeadList(&MdBlock->ListEntry, &FreeBlock->ListEntry);
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}
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/* Use this descriptor */
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NewBlock->PageCount = Alignment;
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InsertHeadList(&MdBlock->ListEntry, &NewBlock->ListEntry);
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}
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else
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{
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/* Consume memory from this block */
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MdBlock->BasePage += PageCount;
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MdBlock->PageCount -= PageCount;
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/* Insert the descriptor */
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InsertTailList(&MdBlock->ListEntry, &NewBlock->ListEntry);
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/* Remove the entry if the whole block was allocated */
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if (!MdBlock->PageCount == 0) RemoveEntryList(&MdBlock->ListEntry);
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}
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/* Return the address */
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return PhysicalAddress;
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}
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PVOID
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NTAPI
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HalpMapPhysicalMemory64(IN PHYSICAL_ADDRESS PhysicalAddress,
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IN ULONG PageCount)
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{
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PHARDWARE_PTE PointerPte;
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ULONG UsedPages = 0;
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PVOID VirtualAddress, BaseAddress;
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/* Start at the current HAL heap base */
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BaseAddress = HalpHeapStart;
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VirtualAddress = BaseAddress;
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/* Loop until we have all the pages required */
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while (UsedPages < PageCount)
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{
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/* If this overflows past the HAL heap, it means there's no space */
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if (VirtualAddress == NULL) return NULL;
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/* Get the PTE for this address */
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PointerPte = HalAddressToPte(VirtualAddress);
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/* Go to the next page */
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VirtualAddress = (PVOID)((ULONG_PTR)VirtualAddress + PAGE_SIZE);
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/* Check if the page is available */
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if (PointerPte->Valid)
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{
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/* PTE has data, skip it and start with a new base address */
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BaseAddress = VirtualAddress;
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UsedPages = 0;
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continue;
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}
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/* PTE is available, keep going on this run */
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UsedPages++;
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}
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/* Take the base address of the page plus the actual offset in the address */
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VirtualAddress = (PVOID)((ULONG_PTR)BaseAddress +
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BYTE_OFFSET(PhysicalAddress.LowPart));
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/* If we are starting at the heap, move the heap */
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if (BaseAddress == HalpHeapStart)
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{
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/* Past this allocation */
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HalpHeapStart = (PVOID)((ULONG_PTR)BaseAddress + (PageCount * PAGE_SIZE));
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}
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/* Loop pages that can be mapped */
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while (UsedPages--)
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{
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/* Fill out the PTE */
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PointerPte = HalAddressToPte(BaseAddress);
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PointerPte->PageFrameNumber = PhysicalAddress.QuadPart >> PAGE_SHIFT;
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PointerPte->Valid = 1;
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PointerPte->Write = 1;
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/* Move to the next address */
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PhysicalAddress.QuadPart += PAGE_SIZE;
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BaseAddress = (PVOID)((ULONG_PTR)BaseAddress + PAGE_SIZE);
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}
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/* Flush the TLB and return the address */
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HalpFlushTLB();
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return VirtualAddress;
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}
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VOID
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NTAPI
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HalpUnmapVirtualAddress(IN PVOID VirtualAddress,
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IN ULONG PageCount)
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{
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PHARDWARE_PTE PointerPte;
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ULONG i;
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/* Only accept valid addresses */
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if (VirtualAddress < MM_HAL_VA_START) return;
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/* Align it down to page size */
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VirtualAddress = (PVOID)((ULONG_PTR)VirtualAddress & ~(PAGE_SIZE - 1));
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/* Loop PTEs */
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PointerPte = HalAddressToPte(VirtualAddress);
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for (i = 0; i < PageCount; i++)
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{
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*(PULONG)PointerPte = 0;
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PointerPte++;
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}
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/* Flush the TLB */
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HalpFlushTLB();
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/* Put the heap back */
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if (HalpHeapStart > VirtualAddress) HalpHeapStart = VirtualAddress;
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}
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