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https://github.com/reactos/reactos.git
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278 lines
6 KiB
C
278 lines
6 KiB
C
/*
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* PROJECT: ReactOS Kernel
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* LICENSE: BSD - See COPYING.ARM in the top level directory
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* FILE: ntoskrnl/mm/ARM3/iosup.c
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* PURPOSE: ARM Memory Manager I/O Mapping Functionality
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* PROGRAMMERS: ReactOS Portable Systems Group
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*/
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/* INCLUDES *******************************************************************/
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#include <ntoskrnl.h>
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#define NDEBUG
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#include <debug.h>
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#define MODULE_INVOLVED_IN_ARM3
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#include <mm/ARM3/miarm.h>
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/* GLOBALS ********************************************************************/
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//
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// Each architecture has its own caching attributes for both I/O and Physical
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// memory mappings.
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//
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// This describes the attributes for the x86 architecture. It eventually needs
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// to go in the appropriate i386 directory.
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//
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MI_PFN_CACHE_ATTRIBUTE MiPlatformCacheAttributes[2][MmMaximumCacheType] =
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{
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//
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// RAM
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//
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{MiNonCached,MiCached,MiWriteCombined,MiCached,MiNonCached,MiWriteCombined},
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//
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// Device Memory
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//
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{MiNonCached,MiCached,MiWriteCombined,MiCached,MiNonCached,MiWriteCombined},
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};
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/* PUBLIC FUNCTIONS ***********************************************************/
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/*
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* @implemented
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*/
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PVOID
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NTAPI
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MmMapIoSpace(IN PHYSICAL_ADDRESS PhysicalAddress,
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IN SIZE_T NumberOfBytes,
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IN MEMORY_CACHING_TYPE CacheType)
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{
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PFN_NUMBER Pfn;
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PFN_COUNT PageCount;
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PMMPTE PointerPte;
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PVOID BaseAddress;
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MMPTE TempPte;
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PMMPFN Pfn1 = NULL;
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MI_PFN_CACHE_ATTRIBUTE CacheAttribute;
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BOOLEAN IsIoMapping;
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//
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// Must be called with a non-zero count
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//
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ASSERT(NumberOfBytes != 0);
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//
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// Make sure the upper bits are 0 if this system
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// can't describe more than 4 GB of physical memory.
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// FIXME: This doesn't respect PAE, but we currently don't
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// define a PAE build flag since there is no such build.
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//
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#if !defined(_M_AMD64)
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ASSERT(PhysicalAddress.HighPart == 0);
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#endif
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//
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// Normalize and validate the caching attributes
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//
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CacheType &= 0xFF;
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if (CacheType >= MmMaximumCacheType) return NULL;
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//
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// Calculate page count
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//
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PageCount = ADDRESS_AND_SIZE_TO_SPAN_PAGES(PhysicalAddress.LowPart,
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NumberOfBytes);
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//
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// Compute the PFN and check if it's a known I/O mapping
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// Also translate the cache attribute
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//
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Pfn = (PFN_NUMBER)(PhysicalAddress.QuadPart >> PAGE_SHIFT);
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Pfn1 = MiGetPfnEntry(Pfn);
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IsIoMapping = (Pfn1 == NULL) ? TRUE : FALSE;
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CacheAttribute = MiPlatformCacheAttributes[IsIoMapping][CacheType];
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//
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// Now allocate system PTEs for the mapping, and get the VA
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//
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PointerPte = MiReserveSystemPtes(PageCount, SystemPteSpace);
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if (!PointerPte) return NULL;
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BaseAddress = MiPteToAddress(PointerPte);
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//
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// Check if this is uncached
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//
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if (CacheAttribute != MiCached)
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{
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//
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// Flush all caches
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//
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KeFlushEntireTb(TRUE, TRUE);
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KeInvalidateAllCaches();
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}
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//
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// Now compute the VA offset
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//
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BaseAddress = (PVOID)((ULONG_PTR)BaseAddress +
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BYTE_OFFSET(PhysicalAddress.LowPart));
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//
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// Get the template and configure caching
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//
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TempPte = ValidKernelPte;
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switch (CacheAttribute)
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{
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case MiNonCached:
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//
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// Disable the cache
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//
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MI_PAGE_DISABLE_CACHE(&TempPte);
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MI_PAGE_WRITE_THROUGH(&TempPte);
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break;
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case MiCached:
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//
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// Leave defaults
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//
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break;
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case MiWriteCombined:
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//
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// Disable the cache and allow combined writing
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//
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MI_PAGE_DISABLE_CACHE(&TempPte);
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MI_PAGE_WRITE_COMBINED(&TempPte);
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break;
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default:
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//
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// Should never happen
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//
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ASSERT(FALSE);
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break;
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}
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//
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// Sanity check and re-flush
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//
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Pfn = (PFN_NUMBER)(PhysicalAddress.QuadPart >> PAGE_SHIFT);
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ASSERT((Pfn1 == MiGetPfnEntry(Pfn)) || (Pfn1 == NULL));
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KeFlushEntireTb(TRUE, TRUE);
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KeInvalidateAllCaches();
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//
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// Do the mapping
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//
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do
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{
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//
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// Write the PFN
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//
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TempPte.u.Hard.PageFrameNumber = Pfn++;
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MI_WRITE_VALID_PTE(PointerPte++, TempPte);
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} while (--PageCount);
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//
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// We're done!
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//
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return BaseAddress;
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}
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/*
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* @implemented
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*/
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VOID
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NTAPI
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MmUnmapIoSpace(IN PVOID BaseAddress,
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IN SIZE_T NumberOfBytes)
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{
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PFN_NUMBER Pfn;
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PFN_COUNT PageCount;
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PMMPTE PointerPte;
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//
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// Sanity check
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//
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ASSERT(NumberOfBytes != 0);
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//
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// Get the page count
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//
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PageCount = ADDRESS_AND_SIZE_TO_SPAN_PAGES(BaseAddress, NumberOfBytes);
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//
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// Get the PTE and PFN
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//
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PointerPte = MiAddressToPte(BaseAddress);
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Pfn = PFN_FROM_PTE(PointerPte);
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//
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// Is this an I/O mapping?
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//
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if (!MiGetPfnEntry(Pfn))
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{
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//
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// Destroy the PTE
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//
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RtlZeroMemory(PointerPte, PageCount * sizeof(MMPTE));
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//
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// Blow the TLB
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//
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KeFlushEntireTb(TRUE, TRUE);
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}
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//
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// Release the PTEs
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//
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MiReleaseSystemPtes(PointerPte, PageCount, 0);
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}
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/*
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* @implemented
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*/
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PVOID
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NTAPI
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MmMapVideoDisplay(IN PHYSICAL_ADDRESS PhysicalAddress,
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IN SIZE_T NumberOfBytes,
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IN MEMORY_CACHING_TYPE CacheType)
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{
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PAGED_CODE();
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//
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// Call the real function
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//
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return MmMapIoSpace(PhysicalAddress, NumberOfBytes, CacheType);
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}
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/*
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* @implemented
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*/
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VOID
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NTAPI
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MmUnmapVideoDisplay(IN PVOID BaseAddress,
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IN SIZE_T NumberOfBytes)
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{
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//
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// Call the real function
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//
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MmUnmapIoSpace(BaseAddress, NumberOfBytes);
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}
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LOGICAL
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NTAPI
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MmIsIoSpaceActive(IN PHYSICAL_ADDRESS StartAddress,
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IN SIZE_T NumberOfBytes)
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{
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UNIMPLEMENTED;
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return FALSE;
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}
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/* EOF */
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