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111 lines
2.7 KiB
111 lines
2.7 KiB
// TITLE("Compute Timer Table Index")
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//++
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//
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// Copyright (c) 1993 Microsoft Corporation
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//
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// Module Name:
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//
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// timindex.s
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//
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// Abstract:
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//
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// This module implements the code necessary to compute the timer table
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// index for a timer.
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//
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// Author:
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//
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// David N. Cutler (davec) 17-May-1993
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// Joe Notarangelo 20-Jul-1993 (Alpha AXP version)
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//
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// Environment:
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//
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// Kernel mode only.
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//
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// Revision History:
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//
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//--
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#include "ksalpha.h"
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SBTTL("Compute Timer Table Index")
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//++
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//
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// ULONG
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// KiComputeTimerTableIndex (
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// IN LARGE_INTEGER Interval,
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// IN LARGE_INTEGER CurrentTime,
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// IN PKTIMER Timer
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// )
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//
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// Routine Description:
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//
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// This function computes the timer table index for the specified timer
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// object and stores the due time in the timer object.
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//
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// N.B. The interval parameter is guaranteed to be negative since it is
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// expressed as relative time.
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//
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// The formula for due time calculation is:
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//
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// Due Time = Current Time - Interval
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//
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// The formula for the index calculation is:
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//
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// Index = (Due Time / Maximum Time) & (Table Size - 1)
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//
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// The index division is performed using reciprocal multiplication.
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//
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// Arguments:
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//
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// Interval (a0) - Supplies the relative time at which the timer is
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// to expire.
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//
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// CurrentTime (a1) - Supplies the current interrupt time.
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//
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// Timer (a2) - Supplies a pointer to a dispatch object of type timer.
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//
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// Return Value:
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//
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// The time table index is returned as the function value and the due
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// time is stored in the timer object.
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//
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//--
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LEAF_ENTRY(KiComputeTimerTableIndex)
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//
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// Compute the due time and store in the timer object.
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//
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subq a1, a0, t0 // compute due time
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stq t0, TiDueTime(a2) // set due time of timer object
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//
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// Capture global values for magic divide, the reciprocal multiply value
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// and the shift count.
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//
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lda t2, KiTimeIncrementReciprocal // get address of reciprocal
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ldq t1, 0(t2) // get timer reciprocal for magic divide
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lda t2, KiTimeIncrementShiftCount // get address of shift count
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ldq_u t10, 0(t2) // read surrounding quadword
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extbl t10, t2, t10 // extract shift count for magic divide
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//
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// Do the reciprocal multiply and capture the upper 64 bits of the
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// 128 bit product with umulh instruction.
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//
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umulh t0, t1, t11 // t11 = upper 64 bits of product
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//
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// Right shift the result by the specified shift count and mask off extra
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// bits.
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//
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srl t11, t10, t0 // t0 = division result
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ldil t3, TIMER_TABLE_SIZE - 1 // get mask value
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and t0, t3, v0 // v0 = mask result
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ret zero, (ra) // return
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.end KiComputeTimerTableIndex
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