windows-nt/Source/XPSP1/NT/base/ntos/ke/i386/timindex.asm

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TITLE "Compute Timer Table Index"
;++
;
; Copyright (c) 1993 Microsoft Corporation
;
; Module Name:
;
; timindex.asm
;
; Abstract:
;
; This module implements the code necessary to compute the timer table
; index for a timer.
;
; Author:
;
; David N. Cutler (davec) 19-May-1993
;
; Environment:
;
; Any mode.
;
; Revision History:
;
;--
.386p
.xlist
include ks386.inc
include callconv.inc ; calling convention macros
.list
extrn _KiTimeIncrementReciprocal:dword
extrn _KiTimeIncrementShiftCount:BYTE
_TEXT$00 SEGMENT DWORD PUBLIC 'CODE'
ASSUME DS:FLAT, ES:FLAT, SS:NOTHING, FS:NOTHING, GS:NOTHING
page
subttl "Compute Timer Table Index"
;++
;
; ULONG
; KiComputeTimerTableIndex (
; IN LARGE_INTEGER Interval,
; IN LARGE_INTEGER CurrentTime,
; IN PKTIMER Timer
; )
;
; Routine Description:
;
; This function computes the timer table index for the specified timer
; object and stores the due time in the timer object.
;
; N.B. The interval parameter is guaranteed to be negative since it is
; expressed as relative time.
;
; The formula for due time calculation is:
;
; Due Time = Current Time - Interval
;
; The formula for the index calculation is:
;
; Index = (Due Time / Maximum time) & (Table Size - 1)
;
; The time increment division is performed using reciprocal multiplication.
;
; Arguments:
;
; Interval - Supplies the relative time at which the timer is to
; expire.
;
; CurrentCount - Supplies the current system tick count.
;
; Timer - Supplies a pointer to a dispatch object of type timer.
;
; Return Value:
;
; The time table index is returned as the function value and the due
; time is stored in the timer object.
;
;--
LocalStack equ 20
Interval equ [esp+LocalStack+4]
CurrentTime equ [esp+LocalStack+12]
Timer equ [esp+LocalStack+20]
cPublicProc _KiComputeTimerTableIndex ,5
sub esp, LocalStack
mov [esp+16], ebx
mov ebx,CurrentTime ; get low current time
mov ecx,CurrentTime + 4 ; get high current time
sub ebx,Interval ; subtract low parts
sbb ecx,Interval + 4 ; subtract high parts and borrow
mov eax,Timer ; get address of timer object
mov [eax].TiDueTime.LiLowPart,ebx ; set low part of due time
mov [eax].TiDueTime.LiHighPart,ecx ; set high part of due time
;
; Compute low 32-bits of dividend times low 32-bits of divisor.
;
mov eax,ebx ; copy low 32-bits of dividend
mul [_KiTimeIncrementReciprocal] ; multiply by low 32-bits of divisor
mov [esp+12], edx ; save high order 32-bits of product
;
; Compute low 32-bits of dividend times high 32-bits of divisor.
;
mov eax,ebx ; copy low 32-bits of dividend
mul [_KiTimeIncrementReciprocal+4] ;multiply by high 32-bits of divisor
mov [esp+8], eax ; save full 64-bit product
mov [esp+4], edx ;
;
; Compute high 32-bits of dividend times low 32-bits of divisor.
;
mov eax,ecx ; copy high 32-bits of dividend
mul [_KiTimeIncrementReciprocal] ; multiply by low 32-bits of divisor
mov [esp+0], edx ; save high 32-bits of product
;
; Compute carry out of low 64-bits of 128-bit product.
;
xor ebx,ebx ; clear carry accumlator
add eax,[esp]+8 ; generate carry
adc ebx,0 ; accumlate carry
add eax,[esp]+12 ; generate carry
adc ebx,0 ; accumulate carry
;
; Compute high 32-bits of dividend times high 32-bits of divisor.
;
mov eax,ecx ; copy high 32-bits of dividend
mul [_KiTimeIncrementReciprocal+4] ; multiply by high 32-bits of divisor
;
; Compute high 64-bits of 128-bit product.
;
add eax,ebx ; add carry from low 64-bits
adc edx,0 ; propagate carry
add eax,[esp]+0 ; add and generate carry
adc edx,0 ; propagate carry
add eax,[esp]+4 ; add and generate carry
adc edx,0 ; propagate carry
;
; Right shift the result by the specified shift count and mask off extra
; bits.
;
mov cl,[_KiTimeIncrementShiftCount] ; get shift count value
shrd eax,edx,cl ; extract appropriate product bits
mov ebx, [esp+16] ; restore register
add esp, LocalStack ; trim stack
and eax,(TIMER_TABLE_SIZE-1); reduce to size of table
stdRET _KicomputeTimerTableIndex
stdENDP _KiComputeTimerTableIndex
_TEXT$00 ends
end