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327 lines
9.0 KiB
327 lines
9.0 KiB
/*++
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Copyright (c) 1990 Microsoft Corporation
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Module Name:
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thredini.c
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Abstract:
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This module implements the machine dependent functions to set the initial
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context and data alignment handling mode for a process or thread object.
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Author:
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David N. Cutler (davec) 1-Apr-1990
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Environment:
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Kernel mode only.
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Revision History:
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Joe Notarangelo 21-Apr-1992
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very minor changes for ALPHA
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1. psr definition
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2. pte and mask (from 3ffffc to 1ffffc), mips page size is 4k
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our first alpha page size is 8k
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mips code shifts right 10 (12-2) and then turns off the
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upper 10 bits, alpha shifts right 11 (13-2) and so must
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turn off upper 11 bits
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3. Insert register values into context structure as quadwords
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to insure that the written values are in canonical form
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Thomas Van Baak (tvb) 9-Oct-1992
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Adapted for Alpha AXP.
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--*/
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#include "ki.h"
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//
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// The following assert macros are used to check that an input object is
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// really the proper type.
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//
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#define ASSERT_PROCESS(E) { \
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ASSERT((E)->Header.Type == ProcessObject); \
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}
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#define ASSERT_THREAD(E) { \
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ASSERT((E)->Header.Type == ThreadObject); \
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}
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VOID
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KiInitializeContextThread (
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IN PKTHREAD Thread,
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IN PKSYSTEM_ROUTINE SystemRoutine,
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IN PKSTART_ROUTINE StartRoutine OPTIONAL,
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IN PVOID StartContext OPTIONAL,
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IN PCONTEXT ContextRecord OPTIONAL
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)
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/*++
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Routine Description:
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This function initializes the machine dependent context of a thread object.
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N.B. This function does not check the accessibility of the context record.
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It is assumed the the caller of this routine is either prepared to
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handle access violations or has probed and copied the context record
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as appropriate.
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Arguments:
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Thread - Supplies a pointer to a dispatcher object of type thread.
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SystemRoutine - Supplies a pointer to the system function that is to be
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called when the thread is first scheduled for execution.
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StartRoutine - Supplies an optional pointer to a function that is to be
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called after the system has finished initializing the thread. This
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parameter is specified if the thread is a system thread and will
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execute totally in kernel mode.
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StartContext - Supplies an optional pointer to an arbitrary data structure
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which will be passed to the StartRoutine as a parameter. This
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parameter is specified if the thread is a system thread and will
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execute totally in kernel mode.
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ContextRecord - Supplies an optional pointer a context frame which contains
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the initial user mode state of the thread. This parameter is specified
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if the thread is a user thread and will execute in user mode. If this
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parameter is not specified, then the Teb parameter is ignored.
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Return Value:
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None.
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--*/
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{
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PKEXCEPTION_FRAME CxFrame;
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PKEXCEPTION_FRAME ExFrame;
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ULONG_PTR InitialStack;
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PKTRAP_FRAME TrFrame;
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//
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// If a context frame is specified, then initialize a trap frame and
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// and an exception frame with the specified user mode context.
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//
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InitialStack = (ULONG_PTR)Thread->InitialStack;
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if (ARGUMENT_PRESENT(ContextRecord)) {
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TrFrame = (PKTRAP_FRAME)(((InitialStack) -
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sizeof(KTRAP_FRAME)) & ~((ULONG_PTR)15));
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ExFrame = (PKEXCEPTION_FRAME)(((ULONG_PTR)TrFrame -
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sizeof(KEXCEPTION_FRAME)) & ~((ULONG_PTR)15));
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CxFrame = (PKEXCEPTION_FRAME)(((ULONG_PTR)ExFrame -
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sizeof(KEXCEPTION_FRAME)) & ~((ULONG_PTR)15));
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//
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// Zero the exception and trap frames and copy information from the
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// specified context frame to the trap and exception frames.
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//
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RtlZeroMemory((PVOID)ExFrame, sizeof(KEXCEPTION_FRAME));
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RtlZeroMemory((PVOID)TrFrame, sizeof(KTRAP_FRAME));
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KeContextToKframes(TrFrame, ExFrame,
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ContextRecord,
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ContextRecord->ContextFlags | CONTEXT_CONTROL,
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UserMode);
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//
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// If the FPCR quadword in the specified context record is zero,
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// then assume it is a default value and force floating point round
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// to nearest mode (the hardware default mode is chopped rounding
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// which is not desirable for NT). It would be nice to initialize
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// the SoftFpcr here also but not all threads have a Teb.
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//
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if (TrFrame->Fpcr == 0) {
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((PFPCR)(&TrFrame->Fpcr))->DynamicRoundingMode = ROUND_TO_NEAREST;
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}
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//
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// Set the saved previous processor mode in the trap frame and the
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// previous processor mode in the thread object to user mode.
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//
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TrFrame->PreviousMode = UserMode;
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Thread->PreviousMode = UserMode;
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//
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// Initialize the return address in the exception frame.
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//
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ExFrame->IntRa = 0;
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} else {
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ExFrame = NULL;
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CxFrame = (PKEXCEPTION_FRAME)(((InitialStack) -
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sizeof(KEXCEPTION_FRAME)) & ~((ULONG_PTR)15));
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//
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// Set the previous mode in thread object to kernel.
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//
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Thread->PreviousMode = KernelMode;
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}
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//
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// Initialize context switch frame and set thread start up parameters.
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//
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// N.B. ULONG becomes canonical longword with (ULONGLONG)(LONG) cast.
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//
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CxFrame->SwapReturn = (ULONGLONG)(LONG_PTR)KiThreadStartup;
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if (ExFrame == NULL) {
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CxFrame->IntFp = (ULONGLONG)(LONG_PTR)ExFrame;
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} else {
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CxFrame->IntFp = (ULONGLONG)(LONG_PTR)TrFrame;
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}
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CxFrame->IntS0 = (ULONGLONG)(LONG_PTR)ContextRecord;
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CxFrame->IntS1 = (ULONGLONG)(LONG_PTR)StartContext;
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CxFrame->IntS2 = (ULONGLONG)(LONG_PTR)StartRoutine;
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CxFrame->IntS3 = (ULONGLONG)(LONG_PTR)SystemRoutine;
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CxFrame->Psr = 0; // clear everything
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((PSR *)(&CxFrame->Psr))->INTERRUPT_ENABLE = 1;
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((PSR *)(&CxFrame->Psr))->IRQL = DISPATCH_LEVEL;
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((PSR *)(&CxFrame->Psr))->MODE = 0;
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//
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// Set the initial kernel stack pointer.
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//
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Thread->KernelStack = (PVOID)(ULONGLONG)(LONG_PTR)CxFrame;
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return;
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}
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BOOLEAN
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KeSetAutoAlignmentProcess (
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IN PKPROCESS Process,
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IN BOOLEAN Enable
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)
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/*++
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Routine Description:
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This function sets the data alignment handling mode for the specified
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process and returns the previous data alignment handling mode.
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Arguments:
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Process - Supplies a pointer to a dispatcher object of type process.
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Enable - Supplies a boolean value that determines the handling of data
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alignment exceptions for the process. A value of TRUE causes all
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data alignment exceptions to be automatically handled by the kernel.
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A value of FALSE causes all data alignment exceptions to be actually
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raised as exceptions.
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Return Value:
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A value of TRUE is returned if data alignment exceptions were
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previously automatically handled by the kernel. Otherwise, a value
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of FALSE is returned.
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--*/
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{
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KIRQL OldIrql;
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BOOLEAN Previous;
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ASSERT_PROCESS(Process);
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//
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// Raise IRQL to dispatcher level and lock dispatcher database.
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//
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KiLockDispatcherDatabase(&OldIrql);
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//
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// Capture the previous data alignment handling mode and set the
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// specified data alignment mode.
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//
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Previous = Process->AutoAlignment;
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Process->AutoAlignment = Enable;
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//
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// Unlock dispatcher database, lower IRQL to its previous value, and
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// return the previous data alignment mode.
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//
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KiUnlockDispatcherDatabase(OldIrql);
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return Previous;
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}
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BOOLEAN
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KeSetAutoAlignmentThread (
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IN PKTHREAD Thread,
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IN BOOLEAN Enable
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)
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/*++
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Routine Description:
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This function sets the data alignment handling mode for the specified
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thread and returns the previous data alignment handling mode.
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Arguments:
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Thread - Supplies a pointer to a dispatcher object of type thread.
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Enable - Supplies a boolean value that determines the handling of data
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alignment exceptions for the thread. A value of TRUE causes all
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data alignment exceptions to be automatically handled by the kernel.
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A value of FALSE causes all data alignment exceptions to be actually
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raised as exceptions.
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Return Value:
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A value of TRUE is returned if data alignment exceptions were
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previously automatically handled by the kernel. Otherwise, a value
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of FALSE is returned.
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--*/
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{
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KIRQL OldIrql;
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BOOLEAN Previous;
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ASSERT_THREAD(Thread);
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//
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// Raise IRQL to dispatcher level and lock dispatcher database.
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//
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KiLockDispatcherDatabase(&OldIrql);
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//
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// Capture the previous data alignment handling mode and set the
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// specified data alignment mode.
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//
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Previous = Thread->AutoAlignment;
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Thread->AutoAlignment = Enable;
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//
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// Unlock dispatcher database, lower IRQL to its previous value, and
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// return the previous data alignment mode.
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//
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KiUnlockDispatcherDatabase(OldIrql);
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return Previous;
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}
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