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e46c2dd1b3
This allows to accomplish great things, such as crashing when dereferencing NULL pointer.
481 lines
14 KiB
C
481 lines
14 KiB
C
/*
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* VideoPort driver
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*
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* Copyright (C) 2002, 2003, 2004 ReactOS Team
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*
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*/
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#include "videoprt.h"
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#include <ndk/kefuncs.h>
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#include <ndk/halfuncs.h>
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#include <ndk/mmfuncs.h>
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#define NDEBUG
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#include <debug.h>
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/* PRIVATE FUNCTIONS **********************************************************/
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#define IsLowV86Mem(_Seg, _Off) ((((_Seg) << 4) + (_Off)) < (0xa0000))
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/* Those two functions below are there so that CSRSS can't access low mem.
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* Expecially, MAKE IT CRASH ON NULL ACCESS */
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static
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VOID
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ProtectLowV86Mem(VOID)
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{
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/* We pass a non-NULL address so that ZwAllocateVirtualMemory really does it
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* And we truncate one page to get the right range spanned. */
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PVOID BaseAddress = (PVOID)1;
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NTSTATUS Status;
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SIZE_T ViewSize = 0xa0000 - PAGE_SIZE;
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/* We should only do that for CSRSS. */
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ASSERT(PsGetCurrentProcess() == (PEPROCESS)CsrProcess);
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/* Commit (again) the pages, but with PAGE_NOACCESS protection */
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Status = ZwAllocateVirtualMemory(NtCurrentProcess(),
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&BaseAddress,
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0,
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&ViewSize,
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MEM_COMMIT,
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PAGE_NOACCESS);
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ASSERT(NT_SUCCESS(Status));
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}
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static
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VOID
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UnprotectLowV86Mem(VOID)
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{
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/* We pass a non-NULL address so that ZwAllocateVirtualMemory really does it
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* And we truncate one page to get the right range spanned. */
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PVOID BaseAddress = (PVOID)1;
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NTSTATUS Status;
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SIZE_T ViewSize = 0xa0000 - PAGE_SIZE;
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/* We should only do that for CSRSS, for the v86 address space */
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ASSERT(PsGetCurrentProcess() == (PEPROCESS)CsrProcess);
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/* Commit (again) the pages, but with PAGE_READWRITE protection */
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Status = ZwAllocateVirtualMemory(NtCurrentProcess(),
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&BaseAddress,
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0,
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&ViewSize,
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MEM_COMMIT,
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PAGE_READWRITE);
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ASSERT(NT_SUCCESS(Status));
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}
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#if defined(_M_IX86) || defined(_M_AMD64)
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NTSTATUS
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NTAPI
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IntInitializeVideoAddressSpace(VOID)
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{
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OBJECT_ATTRIBUTES ObjectAttributes;
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UNICODE_STRING PhysMemName = RTL_CONSTANT_STRING(L"\\Device\\PhysicalMemory");
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NTSTATUS Status;
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HANDLE PhysMemHandle;
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PVOID BaseAddress;
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LARGE_INTEGER Offset;
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SIZE_T ViewSize;
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#ifdef _M_IX86
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CHAR IVTAndBda[1024 + 256];
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#endif // _M_IX86
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/* Free the 1MB pre-reserved region. In reality, ReactOS should simply support us mapping the view into the reserved area, but it doesn't. */
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BaseAddress = 0;
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ViewSize = 1024 * 1024;
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Status = ZwFreeVirtualMemory(NtCurrentProcess(),
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&BaseAddress,
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&ViewSize,
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MEM_RELEASE);
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if (!NT_SUCCESS(Status))
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{
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DPRINT1("Couldn't unmap reserved memory (%x)\n", Status);
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return 0;
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}
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/* Open the physical memory section */
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InitializeObjectAttributes(&ObjectAttributes,
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&PhysMemName,
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OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE,
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NULL,
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NULL);
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Status = ZwOpenSection(&PhysMemHandle,
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SECTION_ALL_ACCESS,
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&ObjectAttributes);
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if (!NT_SUCCESS(Status))
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{
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DPRINT1("Couldn't open \\Device\\PhysicalMemory\n");
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return Status;
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}
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/* Map the BIOS and device registers into the address space */
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Offset.QuadPart = 0xa0000;
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ViewSize = 0x100000 - 0xa0000;
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BaseAddress = (PVOID)0xa0000;
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Status = ZwMapViewOfSection(PhysMemHandle,
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NtCurrentProcess(),
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&BaseAddress,
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0,
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ViewSize,
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&Offset,
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&ViewSize,
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ViewUnmap,
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0,
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PAGE_EXECUTE_READWRITE);
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if (!NT_SUCCESS(Status))
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{
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DPRINT1("Couldn't map physical memory (%x)\n", Status);
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ZwClose(PhysMemHandle);
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return Status;
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}
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/* Close physical memory section handle */
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ZwClose(PhysMemHandle);
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if (BaseAddress != (PVOID)0xa0000)
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{
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DPRINT1("Couldn't map physical memory at the right address (was %x)\n",
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BaseAddress);
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return STATUS_UNSUCCESSFUL;
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}
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/* Allocate some low memory to use for the non-BIOS
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* parts of the v86 mode address space
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*/
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BaseAddress = (PVOID)0x1;
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ViewSize = 0xa0000 - 0x1000;
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Status = ZwAllocateVirtualMemory(NtCurrentProcess(),
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&BaseAddress,
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0,
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&ViewSize,
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MEM_RESERVE | MEM_COMMIT,
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PAGE_EXECUTE_READWRITE);
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if (!NT_SUCCESS(Status))
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{
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DPRINT1("Failed to allocate virtual memory (Status %x)\n", Status);
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return Status;
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}
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if (BaseAddress != (PVOID)0x0)
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{
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DPRINT1("Failed to allocate virtual memory at right address (was %x)\n",
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BaseAddress);
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return 0;
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}
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#ifdef _M_IX86
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/* Get the real mode IVT and BDA from the kernel */
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Status = NtVdmControl(VdmInitialize, IVTAndBda);
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if (!NT_SUCCESS(Status))
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{
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DPRINT1("NtVdmControl failed (status %x)\n", Status);
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return Status;
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}
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#endif // _M_IX86
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/* Protect the V86 address space after this */
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ProtectLowV86Mem();
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/* Return success */
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return STATUS_SUCCESS;
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}
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#else
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NTSTATUS
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NTAPI
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IntInitializeVideoAddressSpace(VOID)
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{
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UNIMPLEMENTED;
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NT_ASSERT(FALSE);
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return STATUS_NOT_IMPLEMENTED;
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}
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#endif
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VP_STATUS
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NTAPI
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IntInt10AllocateBuffer(
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IN PVOID Context,
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OUT PUSHORT Seg,
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OUT PUSHORT Off,
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IN OUT PULONG Length)
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{
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NTSTATUS Status;
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#ifdef _M_IX86
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PVOID MemoryAddress;
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PKPROCESS CallingProcess = (PKPROCESS)PsGetCurrentProcess();
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KAPC_STATE ApcState;
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SIZE_T Size;
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TRACE_(VIDEOPRT, "IntInt10AllocateBuffer\n");
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IntAttachToCSRSS(&CallingProcess, &ApcState);
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Size = *Length;
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MemoryAddress = (PVOID)0x20000;
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Status = ZwAllocateVirtualMemory(NtCurrentProcess(),
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&MemoryAddress,
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0,
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&Size,
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MEM_COMMIT,
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PAGE_EXECUTE_READWRITE);
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if (!NT_SUCCESS(Status))
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{
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WARN_(VIDEOPRT, "- ZwAllocateVirtualMemory failed\n");
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IntDetachFromCSRSS(&CallingProcess, &ApcState);
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return ERROR_NOT_ENOUGH_MEMORY;
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}
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if (MemoryAddress > (PVOID)(0x100000 - Size))
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{
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ZwFreeVirtualMemory(NtCurrentProcess(),
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&MemoryAddress,
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&Size,
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MEM_RELEASE);
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WARN_(VIDEOPRT, "- Unacceptable memory allocated\n");
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IntDetachFromCSRSS(&CallingProcess, &ApcState);
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return ERROR_NOT_ENOUGH_MEMORY;
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}
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*Length = (ULONG)Size;
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*Seg = (USHORT)((ULONG_PTR)MemoryAddress >> 4);
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*Off = (USHORT)((ULONG_PTR)MemoryAddress & 0xF);
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INFO_(VIDEOPRT, "- Segment: %x\n", (ULONG_PTR)MemoryAddress >> 4);
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INFO_(VIDEOPRT, "- Offset: %x\n", (ULONG_PTR)MemoryAddress & 0xF);
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INFO_(VIDEOPRT, "- Length: %x\n", *Length);
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IntDetachFromCSRSS(&CallingProcess, &ApcState);
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return NO_ERROR;
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#else
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Status = x86BiosAllocateBuffer(Length, Seg, Off);
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return NT_SUCCESS(Status) ? NO_ERROR : ERROR_NOT_ENOUGH_MEMORY;
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#endif
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}
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VP_STATUS
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NTAPI
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IntInt10FreeBuffer(
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IN PVOID Context,
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IN USHORT Seg,
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IN USHORT Off)
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{
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NTSTATUS Status;
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#ifdef _M_IX86
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PVOID MemoryAddress = (PVOID)((ULONG_PTR)(Seg << 4) | Off);
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PKPROCESS CallingProcess = (PKPROCESS)PsGetCurrentProcess();
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KAPC_STATE ApcState;
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SIZE_T Size = 0;
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TRACE_(VIDEOPRT, "IntInt10FreeBuffer\n");
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INFO_(VIDEOPRT, "- Segment: %x\n", Seg);
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INFO_(VIDEOPRT, "- Offset: %x\n", Off);
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IntAttachToCSRSS(&CallingProcess, &ApcState);
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Status = ZwFreeVirtualMemory(NtCurrentProcess(),
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&MemoryAddress,
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&Size,
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MEM_RELEASE);
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IntDetachFromCSRSS(&CallingProcess, &ApcState);
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return Status;
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#else
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Status = x86BiosFreeBuffer(Seg, Off);
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return NT_SUCCESS(Status) ? NO_ERROR : ERROR_INVALID_PARAMETER;
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#endif
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}
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VP_STATUS
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NTAPI
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IntInt10ReadMemory(
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IN PVOID Context,
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IN USHORT Seg,
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IN USHORT Off,
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OUT PVOID Buffer,
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IN ULONG Length)
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{
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#ifdef _M_IX86
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PKPROCESS CallingProcess = (PKPROCESS)PsGetCurrentProcess();
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KAPC_STATE ApcState;
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TRACE_(VIDEOPRT, "IntInt10ReadMemory\n");
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INFO_(VIDEOPRT, "- Segment: %x\n", Seg);
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INFO_(VIDEOPRT, "- Offset: %x\n", Off);
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INFO_(VIDEOPRT, "- Buffer: %x\n", Buffer);
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INFO_(VIDEOPRT, "- Length: %x\n", Length);
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IntAttachToCSRSS(&CallingProcess, &ApcState);
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if (IsLowV86Mem(Seg, Off))
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UnprotectLowV86Mem();
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RtlCopyMemory(Buffer, (PVOID)((ULONG_PTR)(Seg << 4) | Off), Length);
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if (IsLowV86Mem(Seg, Off))
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ProtectLowV86Mem();
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IntDetachFromCSRSS(&CallingProcess, &ApcState);
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return NO_ERROR;
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#else
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NTSTATUS Status;
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Status = x86BiosReadMemory(Seg, Off, Buffer, Length);
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return NT_SUCCESS(Status) ? NO_ERROR : ERROR_INVALID_PARAMETER;
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#endif
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}
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VP_STATUS
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NTAPI
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IntInt10WriteMemory(
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IN PVOID Context,
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IN USHORT Seg,
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IN USHORT Off,
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IN PVOID Buffer,
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IN ULONG Length)
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{
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#ifdef _M_IX86
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PKPROCESS CallingProcess = (PKPROCESS)PsGetCurrentProcess();
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KAPC_STATE ApcState;
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TRACE_(VIDEOPRT, "IntInt10WriteMemory\n");
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INFO_(VIDEOPRT, "- Segment: %x\n", Seg);
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INFO_(VIDEOPRT, "- Offset: %x\n", Off);
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INFO_(VIDEOPRT, "- Buffer: %x\n", Buffer);
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INFO_(VIDEOPRT, "- Length: %x\n", Length);
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IntAttachToCSRSS(&CallingProcess, &ApcState);
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if (IsLowV86Mem(Seg, Off))
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UnprotectLowV86Mem();
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RtlCopyMemory((PVOID)((ULONG_PTR)(Seg << 4) | Off), Buffer, Length);
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if (IsLowV86Mem(Seg, Off))
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ProtectLowV86Mem();
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IntDetachFromCSRSS(&CallingProcess, &ApcState);
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return NO_ERROR;
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#else
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NTSTATUS Status;
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Status = x86BiosWriteMemory(Seg, Off, Buffer, Length);
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return NT_SUCCESS(Status) ? NO_ERROR : ERROR_INVALID_PARAMETER;
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#endif
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}
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VP_STATUS
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NTAPI
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IntInt10CallBios(
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IN PVOID Context,
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IN OUT PINT10_BIOS_ARGUMENTS BiosArguments)
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{
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#ifdef _M_AMD64
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X86_BIOS_REGISTERS BiosContext;
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#else
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CONTEXT BiosContext;
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#endif
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NTSTATUS Status;
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PKPROCESS CallingProcess = (PKPROCESS)PsGetCurrentProcess();
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KAPC_STATE ApcState;
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/* Attach to CSRSS */
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IntAttachToCSRSS(&CallingProcess, &ApcState);
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/* Clear the context */
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RtlZeroMemory(&BiosContext, sizeof(BiosContext));
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/* Fill out the bios arguments */
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BiosContext.Eax = BiosArguments->Eax;
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BiosContext.Ebx = BiosArguments->Ebx;
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BiosContext.Ecx = BiosArguments->Ecx;
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BiosContext.Edx = BiosArguments->Edx;
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BiosContext.Esi = BiosArguments->Esi;
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BiosContext.Edi = BiosArguments->Edi;
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BiosContext.Ebp = BiosArguments->Ebp;
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BiosContext.SegDs = BiosArguments->SegDs;
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BiosContext.SegEs = BiosArguments->SegEs;
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/* Do the ROM BIOS call */
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(void)KeWaitForMutexObject(&VideoPortInt10Mutex,
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Executive,
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KernelMode,
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FALSE,
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NULL);
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/* The kernel needs access here */
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UnprotectLowV86Mem();
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#ifdef _M_AMD64
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Status = x86BiosCall(0x10, &BiosContext) ? STATUS_SUCCESS : STATUS_UNSUCCESSFUL;
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#else
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Status = Ke386CallBios(0x10, &BiosContext);
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#endif
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ProtectLowV86Mem();
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KeReleaseMutex(&VideoPortInt10Mutex, FALSE);
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/* Return the arguments */
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BiosArguments->Eax = BiosContext.Eax;
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BiosArguments->Ebx = BiosContext.Ebx;
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BiosArguments->Ecx = BiosContext.Ecx;
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BiosArguments->Edx = BiosContext.Edx;
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BiosArguments->Esi = BiosContext.Esi;
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BiosArguments->Edi = BiosContext.Edi;
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BiosArguments->Ebp = BiosContext.Ebp;
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BiosArguments->SegDs = (USHORT)BiosContext.SegDs;
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BiosArguments->SegEs = (USHORT)BiosContext.SegEs;
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/* Detach and return status */
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IntDetachFromCSRSS(&CallingProcess, &ApcState);
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if (NT_SUCCESS(Status))
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{
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return NO_ERROR;
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}
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return ERROR_INVALID_PARAMETER;
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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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VP_STATUS
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NTAPI
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VideoPortInt10(
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IN PVOID HwDeviceExtension,
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IN PVIDEO_X86_BIOS_ARGUMENTS BiosArguments)
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{
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INT10_BIOS_ARGUMENTS Int10BiosArguments;
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VP_STATUS Status;
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if (!CsrProcess)
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{
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return ERROR_INVALID_PARAMETER;
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}
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/* Copy arguments to other format */
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RtlCopyMemory(&Int10BiosArguments, BiosArguments, sizeof(*BiosArguments));
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Int10BiosArguments.SegDs = 0;
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Int10BiosArguments.SegEs = 0;
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/* Do the BIOS call */
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Status = IntInt10CallBios(NULL, &Int10BiosArguments);
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/* Copy results back */
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RtlCopyMemory(BiosArguments, &Int10BiosArguments, sizeof(*BiosArguments));
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return Status;
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}
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