windows-nt/Source/XPSP1/NT/base/ntos/ke/ia64/apcuser.c

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2020-09-26 03:20:57 -05:00
/*++
Module Name:
apcuser.c
Abstract:
This module implements the machine dependent code necessary to initialize
a user mode APC.
Author:
William K. Cheung 26-Oct-1995
based on MIPS version by David N. Cutler (davec) 23-Apr-1990
Environment:
Kernel mode only, IRQL APC_LEVEL.
Revision History:
--*/
#include "ki.h"
#include "kxia64.h"
VOID
KiSaveHigherFPVolatile (
PVOID
);
VOID
KiInitializeUserApc (
IN PKEXCEPTION_FRAME ExceptionFrame,
IN PKTRAP_FRAME TrapFrame,
IN PKNORMAL_ROUTINE NormalRoutine,
IN PVOID NormalContext,
IN PVOID SystemArgument1,
IN PVOID SystemArgument2
)
/*++
Routine Description:
This function is called to initialize the context for a user mode APC.
Arguments:
ExceptionFrame - Supplies a pointer to an exception frame.
TrapFrame - Supplies a pointer to a trap frame.
NormalRoutine - Supplies a pointer to the user mode APC routine.
NormalContext - Supplies a pointer to the user context for the APC
routine.
SystemArgument1 - Supplies the first system supplied value.
SystemArgument2 - Supplies the second system supplied value.
Return Value:
None.
--*/
{
CONTEXT ContextRecord;
EXCEPTION_RECORD ExceptionRecord;
LONG Length;
ULONGLONG UserStack;
PULONGLONG Arguments;
//
// Move the user mode state from the trap and exception frames to the
// context frame.
//
ContextRecord.ContextFlags = CONTEXT_FULL;
//
// Push the user RSE state back out to user mode.
//
KeFlushUserRseState (TrapFrame);
KiSaveHigherFPVolatile(GET_HIGH_FLOATING_POINT_REGISTER_SAVEAREA(KeGetCurrentThread()->StackBase));
TrapFrame->StIPSR &= ~(1i64 << PSR_MFH);
KeContextFromKframes(TrapFrame, ExceptionFrame, &ContextRecord);
//
// Transfer the context information to the user stack, initialize the
// APC routine parameters, and modify the trap frame so execution will
// continue in user mode at the user mode APC dispatch routine.
//
// We build the following structure on the user stack:
//
// | |
// |-------------------------------|
// | |
// | Interrupted user's |
// | stack frame |
// | |
// | |
// |-------------------------------|
// | Slack Space due to the |
// | 16-byte stack alignment |
// | - - - - - - - - - - - - - - - |
// | NormalRoutine |
// | SystemArgument2 |
// | SystemArgument1 |
// | NormalContext |
// | - - - - - - - - - - - - - - - |
// | Context Frame |
// | Filled in with state |
// | of interrupted user |
// | program |
// | - - - - - - - - - - - - - - - |
// | Stack Scratch Area |
// |-------------------------------|
// | |
try {
USHORT LocalFrameSize;
PPLABEL_DESCRIPTOR Plabel = (PPLABEL_DESCRIPTOR) KeUserApcDispatcher;
//
// Compute total length of 4 arguments, context record, and
// stack scratch area.
//
// Compute the new 16-byte aligned user stack pointer.
//
Length = (4 * sizeof(ULONGLONG) + CONTEXT_LENGTH +
STACK_SCRATCH_AREA + 15) & (~15);
UserStack = (ContextRecord.IntSp & (~15)) - Length;
Arguments = (PULONGLONG)(UserStack + STACK_SCRATCH_AREA + CONTEXT_LENGTH);
//
// Probe user stack area for writeability and then transfer the
// context record to the user stack.
//
ProbeForWriteSmallStructure((PCHAR)UserStack, Length, sizeof(QUAD));
RtlCopyMemory((PVOID)(UserStack+STACK_SCRATCH_AREA),
&ContextRecord, sizeof(CONTEXT));
//
// Set the address of the user APC routine, the APC parameters, the
// interrupt frame set, the new global pointer, and the new stack
// pointer in the current trap frame. The four APC parameters are
// passed via the scratch registers t0 thru t3.
// Set the continuation address so control will be transfered to
// the user APC dispatcher.
//
*Arguments++ = (ULONGLONG)NormalContext; // 1st argument
*Arguments++ = (ULONGLONG)SystemArgument1; // 2nd argument
*Arguments++ = (ULONGLONG)SystemArgument2; // 3rd argument
*Arguments++ = (ULONGLONG)NormalRoutine; // 4th argument
*(PULONGLONG)UserStack = Plabel->GlobalPointer; // user apc dispatcher gp
TrapFrame->IntNats = 0; // sanitize integer Nats
TrapFrame->IntSp = UserStack; // stack pointer
TrapFrame->StIIP = Plabel->EntryPoint; // entry point from plabel
TrapFrame->StIPSR &= ~(0x3ULL << PSR_RI); // start at bundle boundary
TrapFrame->RsPFS &= 0xffffffc000000000i64; // set the initial frame
TrapFrame->StIFS &= 0xffffffc000000000i64; // set the initial frame
// size of KeUserApcDispatcher
// to be zero.
TrapFrame->StFPSR = USER_FPSR_INITIAL;
//
// If an exception occurs, then copy the exception information to an
// exception record and handle the exception.
//
} except (KiCopyInformation(&ExceptionRecord,
(GetExceptionInformation())->ExceptionRecord)) {
//
// Set the address of the exception to the current program address
// and raise the exception by calling the exception dispatcher.
//
ExceptionRecord.ExceptionAddress = (PVOID)(TrapFrame->StIIP);
KiDispatchException(&ExceptionRecord,
ExceptionFrame,
TrapFrame,
UserMode,
TRUE);
}
return;
}