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1359 lines
38 KiB
1359 lines
38 KiB
title "Irql Processing"
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;++
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;
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; Copyright (c) 1989 Microsoft Corporation
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;
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; Module Name:
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;
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; ixirql.asm
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;
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; Abstract:
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;
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; This module implements the code necessary to raise and lower i386
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; Irql and dispatch software interrupts with the 8259 PIC.
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;
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; Author:
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;
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; Shie-Lin Tzong (shielint) 8-Jan-1990
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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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; John Vert (jvert) 27-Nov-1991
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; Moved from kernel into HAL
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;
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;--
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.386p
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.xlist
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include hal386.inc
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include callconv.inc ; calling convention macros
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include i386\ix8259.inc
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include i386\kimacro.inc
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include mac386.inc
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.list
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EXTRNP _KeBugCheck,1,IMPORT
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EXTRNP _KiDispatchInterrupt,0,IMPORT
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extrn _HalpApcInterrupt:near
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extrn _HalpDispatchInterrupt:near
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extrn _KiUnexpectedInterrupt:near
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extrn _HalpBusType:DWORD
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extrn _HalpApcInterrupt2ndEntry:NEAR
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extrn _HalpDispatchInterrupt2ndEntry:NEAR
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extrn HalpSpecialDismissLevelTable:dword
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extrn HalpSpecialDismissTable:dword
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extrn _HalpEisaELCR:dword
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;
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; Initialization control words equates for the PICs
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;
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ICW1_ICW4_NEEDED equ 01H
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ICW1_CASCADE equ 00H
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ICW1_INTERVAL8 equ 00H
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ICW1_LEVEL_TRIG equ 08H
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ICW1_EDGE_TRIG equ 00H
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ICW1_ICW equ 10H
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ICW4_8086_MODE equ 001H
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ICW4_NORM_EOI equ 000H
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ICW4_NON_BUF_MODE equ 000H
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ICW4_SPEC_FULLY_NESTED equ 010H
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ICW4_NOT_SPEC_FULLY_NESTED equ 000H
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OCW2_NON_SPECIFIC_EOI equ 020H
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OCW2_SPECIFIC_EOI equ 060H
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OCW2_SET_PRIORITY equ 0c0H
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PIC_SLAVE_IRQ equ 2
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PIC1_BASE equ 30H
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PIC2_BASE equ 38H
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;
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; Interrupt flag bit maks for EFLAGS
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;
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EFLAGS_IF equ 200H
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EFLAGS_SHIFT equ 9
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;
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; Hardware irq active masks
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;
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IRQ_ACTIVE_MASK equ 0fffffff0h
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_TEXT SEGMENT DWORD PUBLIC 'DATA'
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;
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; PICsInitializationString - Master PIC initialization command string
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;
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ifdef MCA
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PICsInitializationString dw PIC1_PORT0
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;
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; Master PIC initialization command
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;
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db ICW1_ICW + ICW1_LEVEL_TRIG + ICW1_INTERVAL8 +\
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ICW1_CASCADE + ICW1_ICW4_NEEDED
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db PIC1_BASE
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db 1 SHL PIC_SLAVE_IRQ
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db ICW4_NOT_SPEC_FULLY_NESTED + \
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ICW4_NON_BUF_MODE + \
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ICW4_NORM_EOI + \
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ICW4_8086_MODE
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;
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; Slave PIC initialization command strings
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;
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dw PIC2_PORT0
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db ICW1_ICW + ICW1_LEVEL_TRIG + ICW1_INTERVAL8 +\
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ICW1_CASCADE + ICW1_ICW4_NEEDED
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db PIC2_BASE
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db PIC_SLAVE_IRQ
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db ICW4_NOT_SPEC_FULLY_NESTED + \
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ICW4_NON_BUF_MODE + \
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ICW4_NORM_EOI + \
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ICW4_8086_MODE
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dw 0 ; end of string
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else
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PICsInitializationString dw PIC1_PORT0
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;
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; Master PIC initialization command
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;
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db ICW1_ICW + ICW1_EDGE_TRIG + ICW1_INTERVAL8 +\
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ICW1_CASCADE + ICW1_ICW4_NEEDED
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db PIC1_BASE
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db 1 SHL PIC_SLAVE_IRQ
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db ICW4_NOT_SPEC_FULLY_NESTED + \
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ICW4_NON_BUF_MODE + \
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ICW4_NORM_EOI + \
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ICW4_8086_MODE
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;
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; Slave PIC initialization command strings
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;
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dw PIC2_PORT0
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db ICW1_ICW + ICW1_EDGE_TRIG + ICW1_INTERVAL8 +\
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ICW1_CASCADE + ICW1_ICW4_NEEDED
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db PIC2_BASE
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db PIC_SLAVE_IRQ
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db ICW4_NOT_SPEC_FULLY_NESTED + \
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ICW4_NON_BUF_MODE + \
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ICW4_NORM_EOI + \
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ICW4_8086_MODE
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dw 0 ; end of string
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endif
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align 4
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public KiI8259MaskTable
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KiI8259MaskTable label dword
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dd 00000000000000000000000000000000B ; irql 0
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dd 00000000000000000000000000000000B ; irql 1
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dd 00000000000000000000000000000000B ; irql 2
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dd 00000000000000000000000000000000B ; irql 3
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dd 11111111100000000000000000000000B ; irql 4
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dd 11111111110000000000000000000000B ; irql 5
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dd 11111111111000000000000000000000B ; irql 6
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dd 11111111111100000000000000000000B ; irql 7
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dd 11111111111110000000000000000000B ; irql 8
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dd 11111111111111000000000000000000B ; irql 9
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dd 11111111111111100000000000000000B ; irql 10
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dd 11111111111111110000000000000000B ; irql 11
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dd 11111111111111111000000000000000B ; irql 12
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dd 11111111111111111100000000000000B ; irql 13
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dd 11111111111111111110000000000000B ; irql 14
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dd 11111111111111111111000000000000B ; irql 15
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dd 11111111111111111111100000000000B ; irql 16
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dd 11111111111111111111110000000000B ; irql 17
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dd 11111111111111111111111000000000B ; irql 18
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dd 11111111111111111111111000000000B ; irql 19
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dd 11111111111111111111111010000000B ; irql 20
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dd 11111111111111111111111011000000B ; irql 21
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dd 11111111111111111111111011100000B ; irql 22
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dd 11111111111111111111111011110000B ; irql 23
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dd 11111111111111111111111011111000B ; irql 24
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dd 11111111111111111111111011111000B ; irql 25
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dd 11111111111111111111111011111010B ; irql 26
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dd 11111111111111111111111111111010B ; irql 27
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dd 11111111111111111111111111111011B ; irql 28
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dd 11111111111111111111111111111011B ; irql 29
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dd 11111111111111111111111111111011B ; irql 30
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dd 11111111111111111111111111111011B ; irql 31
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;
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; This table is used to mask all pending interrupts below a given Irql
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; out of the IRR
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;
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align 4
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public FindHigherIrqlMask
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FindHigherIrqlMask label dword
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dd 11111111111111111111111111111110B ; irql 0
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dd 11111111111111111111111111111100B ; irql 1 (APC)
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dd 11111111111111111111111111111000B ; irql 2 (DISPATCH)
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dd 11111111111111111111111111110000B ; irql 3
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dd 00000111111111111111111111110000B ; irql 4
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dd 00000011111111111111111111110000B ; irql 5
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dd 00000001111111111111111111110000B ; irql 6
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dd 00000000111111111111111111110000B ; irql 7
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dd 00000000011111111111111111110000B ; irql 8
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dd 00000000001111111111111111110000B ; irql 9
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dd 00000000000111111111111111110000B ; irql 10
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dd 00000000000011111111111111110000B ; irql 11
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dd 00000000000001111111111111110000B ; irql 12
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dd 00000000000000111111111111110000B ; irql 13
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dd 00000000000000011111111111110000B ; irql 14
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dd 00000000000000001111111111110000B ; irql 15
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dd 00000000000000000111111111110000B ; irql 16
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dd 00000000000000000011111111110000B ; irql 17
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dd 00000000000000000001111111110000B ; irql 18
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dd 00000000000000000001111111110000B ; irql 19
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dd 00000000000000000001011111110000B ; irql 20
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dd 00000000000000000001001111110000B ; irql 20
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dd 00000000000000000001000111110000B ; irql 22
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dd 00000000000000000001000011110000B ; irql 23
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dd 00000000000000000001000001110000B ; irql 24
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dd 00000000000000000001000000110000B ; irql 25
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dd 00000000000000000001000000010000B ; irql 26
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dd 00000000000000000000000000010000B ; irql 27
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dd 00000000000000000000000000000000B ; irql 28
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dd 00000000000000000000000000000000B ; irql 29
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dd 00000000000000000000000000000000B ; irql 30
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dd 00000000000000000000000000000000B ; irql 31
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_TEXT ENDS
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_DATA SEGMENT DWORD PUBLIC 'DATA'
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align 4
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;
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; The following tables define the addresses of software interrupt routers
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;
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;
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; Use this table if there is NO machine state frame on stack already
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;
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public SWInterruptHandlerTable
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SWInterruptHandlerTable label dword
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dd offset FLAT:_KiUnexpectedInterrupt ; irql 0
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dd offset FLAT:_HalpApcInterrupt ; irql 1
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dd offset FLAT:_HalpDispatchInterrupt2 ; irql 2
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dd offset FLAT:_KiUnexpectedInterrupt ; irql 3
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dd offset FLAT:HalpHardwareInterrupt00 ; 8259 irq#0
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dd offset FLAT:HalpHardwareInterrupt01 ; 8259 irq#1
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dd offset FLAT:HalpHardwareInterrupt02 ; 8259 irq#2
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dd offset FLAT:HalpHardwareInterrupt03 ; 8259 irq#3
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dd offset FLAT:HalpHardwareInterrupt04 ; 8259 irq#4
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dd offset FLAT:HalpHardwareInterrupt05 ; 8259 irq#5
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dd offset FLAT:HalpHardwareInterrupt06 ; 8259 irq#6
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dd offset FLAT:HalpHardwareInterrupt07 ; 8259 irq#7
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dd offset FLAT:HalpHardwareInterrupt08 ; 8259 irq#8
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dd offset FLAT:HalpHardwareInterrupt09 ; 8259 irq#9
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dd offset FLAT:HalpHardwareInterrupt10 ; 8259 irq#10
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dd offset FLAT:HalpHardwareInterrupt11 ; 8259 irq#11
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dd offset FLAT:HalpHardwareInterrupt12 ; 8259 irq#12
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dd offset FLAT:HalpHardwareInterrupt13 ; 8259 irq#13
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dd offset FLAT:HalpHardwareInterrupt14 ; 8259 irq#14
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dd offset FLAT:HalpHardwareInterrupt15 ; 8259 irq#15
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_DATA ENDS
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_TEXT SEGMENT DWORD PUBLIC 'DATA'
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;
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; Use this table if there is already a machine state frame on stack
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;
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public SWInterruptHandlerTable2
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SWInterruptHandlerTable2 label dword
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dd offset FLAT:_KiUnexpectedInterrupt ; irql 0
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dd offset FLAT:_HalpApcInterrupt2ndEntry ; irql 1
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dd offset FLAT:_HalpDispatchInterrupt2ndEntry ; irql 2
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;
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; The following table picks up the highest pending software irq level
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; from software irr
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;
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public SWInterruptLookUpTable
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SWInterruptLookUpTable label byte
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db 0 ; SWIRR=0, so highest pending SW irql= 0
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db 0 ; SWIRR=1, so highest pending SW irql= 0
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db 1 ; SWIRR=2, so highest pending SW irql= 1
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db 1 ; SWIRR=3, so highest pending SW irql= 1
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db 2 ; SWIRR=4, so highest pending SW irql= 2
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db 2 ; SWIRR=5, so highest pending SW irql= 2
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db 2 ; SWIRR=6, so highest pending SW irql= 2
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db 2 ; SWIRR=7, so highest pending SW irql= 2
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_TEXT ENDS
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_DATA SEGMENT DWORD PUBLIC 'DATA'
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ifdef IRQL_METRICS
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public HalRaiseIrqlCount
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public HalLowerIrqlCount
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public HalQuickLowerIrqlCount
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public HalApcSoftwareIntCount
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public HalDpcSoftwareIntCount
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public HalHardwareIntCount
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public HalPostponedIntCount
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public Hal8259MaskCount
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HalRaiseIrqlCount dd 0
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HalLowerIrqlCount dd 0
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HalQuickLowerIrqlCount dd 0
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HalApcSoftwareIntCount dd 0
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HalDpcSoftwareIntCount dd 0
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HalHardwareIntCount dd 0
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HalPostponedIntCount dd 0
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Hal8259MaskCount dd 0
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endif
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_DATA ENDS
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page ,132
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subttl "Raise Irql"
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_TEXT$01 SEGMENT PARA PUBLIC 'CODE'
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ASSUME DS:FLAT, ES:FLAT, SS:FLAT, FS:NOTHING, GS:NOTHING
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;++
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;
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; KIRQL
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; KfRaiseIrql (
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; IN KIRQL NewIrql,
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; )
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;
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; Routine Description:
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;
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; This routine is used to raise IRQL to the specified value.
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; Also, a mask will be used to mask off all the lower lever 8259
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; interrupts.
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;
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; Arguments:
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;
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; (cl) = NewIrql - the new irql to be raised to
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;
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; Return Value:
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;
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; OldIrql - the addr of a variable which old irql should be stored
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;
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;--
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cPublicFastCall KfRaiseIrql,1
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cPublicFpo 0, 0
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xor eax, eax ; Eliminate partial stall on return to caller
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mov al, PCR[PcIrql] ; (al) = Old Irql
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mov PCR[PcIrql], cl ; set new irql
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ifdef IRQL_METRICS
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inc HalRaiseIrqlCount
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endif
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if DBG
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cmp al, cl ; old > new?
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ja short Kri99 ; yes, go bugcheck
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fstRET KfRaiseIrql
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cPublicFpo 2, 2
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Kri99:
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movzx eax, al
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movzx ecx, cl
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push ecx ; put new irql where we can find it
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push eax ; put old irql where we can find it
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mov byte ptr PCR[PcIrql],0 ; avoid recursive error
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stdCall _KeBugCheck, <IRQL_NOT_GREATER_OR_EQUAL> ; never return
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endif
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fstRET KfRaiseIrql
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fstENDP KfRaiseIrql
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;++
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;
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; KIRQL
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; KeRaiseIrqlToDpcLevel (
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; )
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;
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; Routine Description:
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;
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; This routine is used to raise IRQL to DPC level.
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;
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; Arguments:
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;
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; Return Value:
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;
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; OldIrql - the addr of a variable which old irql should be stored
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;
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;--
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cPublicProc _KeRaiseIrqlToDpcLevel,0
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cPublicFpo 0, 0
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xor eax, eax ; Eliminate partial stall
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mov al, PCR[PcIrql] ; (al) = Old Irql
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mov byte ptr PCR[PcIrql], DISPATCH_LEVEL ; set new irql
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ifdef IRQL_METRICS
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inc HalRaiseIrqlCount
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endif
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if DBG
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cmp al, DISPATCH_LEVEL ; old > new?
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ja short Krid99 ; yes, go bugcheck
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endif
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stdRET _KeRaiseIrqlToDpcLevel
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if DBG
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cPublicFpo 0,1
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Krid99: movzx eax, al
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push eax ; put old irql where we can find it
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stdCall _KeBugCheck, <IRQL_NOT_GREATER_OR_EQUAL> ; never return
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stdRET _KeRaiseIrqlToDpcLevel
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endif
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stdENDP _KeRaiseIrqlToDpcLevel
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;++
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;
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; KIRQL
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; KeRaiseIrqlToSynchLevel (
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; )
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;
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; Routine Description:
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;
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; This routine is used to raise IRQL to SYNC level.
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;
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; Arguments:
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;
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; Return Value:
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;
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; OldIrql - the addr of a variable which old irql should be stored
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;
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;--
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cPublicProc _KeRaiseIrqlToSynchLevel,0
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cPublicFpo 0, 0
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xor eax, eax ; Eliminate partial stall
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mov al, PCR[PcIrql] ; (al) = Old Irql
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mov byte ptr PCR[PcIrql], SYNCH_LEVEL ; set new irql
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ifdef IRQL_METRICS
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inc HalRaiseIrqlCount
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endif
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if DBG
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cmp al, SYNCH_LEVEL ; old > new?
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ja short Kris99 ; yes, go bugcheck
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endif
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stdRET _KeRaiseIrqlToSynchLevel
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if DBG
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cPublicFpo 0,1
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Kris99: movzx eax, al
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push eax ; put old irql where we can find it
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stdCall _KeBugCheck, <IRQL_NOT_GREATER_OR_EQUAL> ; never return
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stdRET _KeRaiseIrqlToSynchLevel
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endif
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stdENDP _KeRaiseIrqlToSynchLevel
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;++
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;
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; VOID
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; KfLowerIrql (
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; IN KIRQL NewIrql
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; )
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;
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; Routine Description:
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;
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; This routine is used to lower IRQL to the specified value.
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; The IRQL and PIRQL will be updated accordingly. Also, this
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; routine checks to see if any software interrupt should be
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; generated. The following condition will cause software
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; interrupt to be simulated:
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; any software interrupt which has higher priority than
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; current IRQL's is pending.
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;
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; NOTE: This routine simulates software interrupt as long as
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; any pending SW interrupt level is higher than the current
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; IRQL, even when interrupts are disabled.
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;
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; Arguments:
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;
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; (cl) = NewIrql - the new irql to be set.
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;
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; Return Value:
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;
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; None.
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;
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;--
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cPublicFastCall KfLowerIrql,1
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cPublicFpo 0, 0
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and ecx, 0ffh
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ifdef IRQL_METRICS
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inc HalLowerIrqlCount
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endif
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if DBG
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cmp cl,PCR[PcIrql] ; Make sure we are not lowering to
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ja KliBug ; ABOVE current level
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endif
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pushfd
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cli
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mov PCR[PcIrql], ecx
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mov edx, PCR[PcIRR]
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and edx, FindHigherIrqlMask[ecx*4] ; (edx) is the bitmask of
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; pending interrupts we need to
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; dispatch now.
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jnz short Kli10 ; go dispatch pending interrupts
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;
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; no interrupts pending, return quickly.
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|
;
|
|
|
|
popfd
|
|
|
|
ifdef IRQL_METRICS
|
|
inc HalQuickLowerIrqlCount
|
|
endif
|
|
fstRET KfLowerIrql
|
|
|
|
cPublicFpo 1, 1
|
|
align 4
|
|
Kli10:
|
|
|
|
;
|
|
; If there is a pending hardware interrupt, then the PICs have been
|
|
; masked to reflect the actual Irql.
|
|
;
|
|
|
|
bsr ecx, edx ; (ecx) = Pending irq level
|
|
cmp ecx, DISPATCH_LEVEL
|
|
ja short Kli40
|
|
|
|
call SWInterruptHandlerTable[ecx*4] ; Dispatch the pending int.
|
|
popfd
|
|
|
|
cPublicFpo 1, 0
|
|
fstRET KfLowerIrql
|
|
|
|
Kli40:
|
|
;
|
|
; Clear all the interrupt masks
|
|
;
|
|
|
|
mov eax, PCR[PcIDR]
|
|
SET_8259_MASK
|
|
|
|
mov edx, 1
|
|
shl edx, cl
|
|
xor PCR[PcIRR], edx ; clear bit in IRR
|
|
call SWInterruptHandlerTable[ecx*4] ; Dispatch the pending int.
|
|
popfd
|
|
|
|
cPublicFpo 1, 0
|
|
fstRET KfLowerIrql
|
|
|
|
if DBG
|
|
cPublicFpo 1, 2
|
|
KliBug:
|
|
push ecx ; new irql for debugging
|
|
push PCR[PcIrql] ; old irql for debugging
|
|
mov byte ptr PCR[PcIrql],HIGH_LEVEL ; avoid recursive error
|
|
stdCall _KeBugCheck, <IRQL_NOT_LESS_OR_EQUAL> ; never return
|
|
endif
|
|
|
|
fstENDP KfLowerIrql
|
|
|
|
;++
|
|
;
|
|
; VOID
|
|
; HalEndSystemInterrupt
|
|
; IN KIRQL NewIrql,
|
|
; IN ULONG Vector
|
|
; )
|
|
;
|
|
; Routine Description:
|
|
;
|
|
; This routine is used to lower IRQL to the specified value.
|
|
; The IRQL and PIRQL will be updated accordingly. Also, this
|
|
; routine checks to see if any software interrupt should be
|
|
; generated. The following condition will cause software
|
|
; interrupt to be simulated:
|
|
; any software interrupt which has higher priority than
|
|
; current IRQL's is pending.
|
|
;
|
|
; NOTE: This routine simulates software interrupt as long as
|
|
; any pending SW interrupt level is higher than the current
|
|
; IRQL, even when interrupts are disabled.
|
|
;
|
|
; Arguments:
|
|
;
|
|
; NewIrql - the new irql to be set.
|
|
;
|
|
; Vector - Vector number of the interrupt
|
|
;
|
|
; Note that esp+12 is the beginning of interrupt/trap frame and upon
|
|
; entering to this routine the interrupts are off.
|
|
;
|
|
; Return Value:
|
|
;
|
|
; None.
|
|
;
|
|
;--
|
|
|
|
HeiNewIrql equ [esp + 4]
|
|
|
|
cPublicProc _HalEndSystemInterrupt ,2
|
|
cPublicFpo 2, 0
|
|
|
|
xor ecx, ecx
|
|
mov cl, byte ptr HeiNewIrql ; get new irql value
|
|
|
|
ifdef IRQL_METRICS
|
|
inc HalLowerIrqlCount
|
|
endif
|
|
|
|
mov edx, PCR[PcIRR]
|
|
and edx, FindHigherIrqlMask[ecx*4] ; (edx) is the bitmask of
|
|
; pending interrupts we need to
|
|
; dispatch now.
|
|
mov PCR[PcIrql], ecx
|
|
jnz short Hei10 ; go dispatch pending interrupts
|
|
|
|
;
|
|
; no interrupts pending, return quickly.
|
|
;
|
|
|
|
|
|
ifdef IRQL_METRICS
|
|
inc HalQuickLowerIrqlCount
|
|
endif
|
|
stdRET _HalEndSystemInterrupt
|
|
|
|
align 4
|
|
Hei10:
|
|
|
|
;
|
|
; If there is any delayed hardware interrupt being serviced, we leave
|
|
; the interrupt masked and simply return.
|
|
;
|
|
|
|
test PCR[PcIrrActive], IRQ_ACTIVE_MASK
|
|
jnz short Hei50
|
|
|
|
bsr ecx, edx ; (eax) = Pending irq level
|
|
cmp ecx, DISPATCH_LEVEL
|
|
jle short Hei40
|
|
|
|
;
|
|
; Clear all the interrupt masks
|
|
;
|
|
|
|
align 4
|
|
Hei15:
|
|
mov eax, PCR[PcIDR]
|
|
SET_8259_MASK
|
|
;
|
|
; The pending interrupt is a hardware interrupt. To prevent the delayed
|
|
; interrupts from overflowing stack, we check if the pending level is already
|
|
; active. If yes, we simply return and let the higher level EndSystemInterrupt
|
|
; handle it.
|
|
;
|
|
; (ecx) = pending vector
|
|
;
|
|
|
|
mov edx, 1
|
|
shl edx, cl
|
|
test PCR[PcIrrActive], edx ; if the pending int is being
|
|
; processed, just return.
|
|
jne short Hei50
|
|
or PCR[PcIrrActive], edx ; Set Active bit
|
|
xor PCR[PcIRR], edx ; clear bit in IRR
|
|
call SWInterruptHandlerTable[ecx*4] ; Note, it destroys eax
|
|
xor PCR[PcIrrActive], edx ; Clear bit in ActiveIrql
|
|
mov eax, PCR[PcIRR] ; Reload IRR
|
|
mov ecx, PCR[PcIrql]
|
|
and eax, FindHigherIrqlMask[ecx*4] ; Is any interrupt pending
|
|
jz short Hei50 ; (Most time it will be zero.)
|
|
bsr ecx, eax ; (edx) = Pending irq level
|
|
cmp ecx, DISPATCH_LEVEL
|
|
ja short Hei15
|
|
|
|
Hei40:
|
|
|
|
;
|
|
; The pending interrupt is at Software Level. We simply make current
|
|
; interrupt frame the new pending software interrupt's frame and
|
|
; jmp to the handler routine.
|
|
;
|
|
|
|
add esp, 12
|
|
jmp SWInterruptHandlerTable2[ecx*4] ; Note, it destroys eax
|
|
|
|
|
|
Hei50:
|
|
stdRET _HalEndSystemInterrupt
|
|
|
|
stdENDP _HalEndSystemInterrupt
|
|
|
|
;++
|
|
;
|
|
; VOID
|
|
; HalpEndSoftwareInterrupt
|
|
; IN KIRQL NewIrql,
|
|
; )
|
|
;
|
|
; Routine Description:
|
|
;
|
|
; This routine is used to lower IRQL from software interrupt
|
|
; leverl to the specified value.
|
|
; The IRQL and PIRQL will be updated accordingly. Also, this
|
|
; routine checks to see if any software interrupt should be
|
|
; generated. The following condition will cause software
|
|
; interrupt to be simulated:
|
|
; any software interrupt which has higher priority than
|
|
; current IRQL's is pending.
|
|
;
|
|
; NOTE: This routine simulates software interrupt as long as
|
|
; any pending SW interrupt level is higher than the current
|
|
; IRQL, even when interrupts are disabled.
|
|
;
|
|
; Arguments:
|
|
;
|
|
; NewIrql - the new irql to be set.
|
|
;
|
|
; Note that esp+8 is the beginning of interrupt/trap frame and upon
|
|
; entering to this routine the interrupts are off.
|
|
;
|
|
; Return Value:
|
|
;
|
|
; None.
|
|
;
|
|
;--
|
|
|
|
HesNewIrql equ [esp + 4]
|
|
|
|
cPublicProc _HalpEndSoftwareInterrupt ,1
|
|
cPublicFpo 1, 0
|
|
|
|
movzx ecx, byte ptr HesNewIrql ; get new irql value
|
|
mov edx, PCR[PcIRR]
|
|
and edx, FindHigherIrqlMask[ecx*4] ; (edx) is the bitmask of
|
|
; pending interrupts we need to
|
|
; dispatch now.
|
|
mov PCR[PcIrql], ecx
|
|
jnz short Hes10
|
|
|
|
stdRET _HalpEndSoftwareInterrupt
|
|
|
|
align 4
|
|
Hes10:
|
|
;
|
|
; Check if any delayed hardware interrupt is being serviced. If yes, we
|
|
; simply return.
|
|
;
|
|
|
|
test PCR[PcIrrActive], IRQ_ACTIVE_MASK
|
|
jnz short Hes90
|
|
|
|
;
|
|
; If there is a pending hardware interrupt, then the PICs have been
|
|
; masked to reflect the actual Irql.
|
|
;
|
|
|
|
bsr ecx, edx ; (ecx) = Pending irq level
|
|
cmp ecx, DISPATCH_LEVEL
|
|
ja short Hes20
|
|
|
|
;
|
|
; Pending interrupt is a soft interrupt. Recycle stack frame
|
|
;
|
|
|
|
add esp, 8
|
|
jmp SWInterruptHandlerTable2[ecx*4] ; Note, it destroys eax
|
|
|
|
Hes20:
|
|
;
|
|
; Clear all the interrupt masks
|
|
;
|
|
|
|
mov eax, PCR[PcIDR]
|
|
SET_8259_MASK
|
|
|
|
;
|
|
; (ecx) = Pending level
|
|
;
|
|
|
|
mov edx, 1
|
|
shl edx, cl
|
|
|
|
or PCR[PcIrrActive], edx ; Set Active bit
|
|
xor PCR[PcIRR], edx ; clear bit in IRR
|
|
|
|
call SWInterruptHandlerTable[ecx*4] ; Dispatch the pending int.
|
|
|
|
xor PCR[PcIrrActive], edx ; Clear bit in ActiveIrql
|
|
|
|
movzx ecx, byte ptr HesNewIrql ; get new irql value
|
|
mov edx, PCR[PcIRR]
|
|
and edx, FindHigherIrqlMask[ecx*4] ; (edx) is the bitmask of
|
|
; pending interrupts we need to
|
|
; dispatch now.
|
|
jnz short Hes10
|
|
|
|
Hes90: stdRET _HalpEndSoftwareInterrupt
|
|
|
|
stdENDP _HalpEndSoftwareInterrupt
|
|
|
|
page ,132
|
|
subttl "DispatchInterrupt 2"
|
|
|
|
;++
|
|
;
|
|
; VOID
|
|
; HalpDispatchInterrupt2(
|
|
; VOID
|
|
; );
|
|
;
|
|
; Routine Description:
|
|
;
|
|
; The functional description is the same as HalpDispatchInterrupt.
|
|
;
|
|
; This function differs from HalpDispatchInterrupt in how it has been
|
|
; optimized. This function is optimized for dispatching dispatch interrupts
|
|
; for LowerIrql, ReleaseSpinLock, and RequestSoftwareInterrupt.
|
|
;
|
|
; Arguments:
|
|
;
|
|
; None
|
|
; Interrupt is disabled
|
|
;
|
|
; Return Value:
|
|
;
|
|
; (edx) = 1 shl DISPATCH_LEVEL
|
|
;
|
|
; Warnings:
|
|
;
|
|
; Not all SW int handles this hal uses save all the registers
|
|
; callers to SWInterruptHandler for H/W interrupts assume that
|
|
; ONLY EAX & ECX are destroyed.
|
|
;
|
|
; Note: this function saves EBX since KiDispatchInterrupt uses
|
|
; the value without preserving it.
|
|
;--
|
|
|
|
cPublicProc _HalpDispatchInterrupt2
|
|
cPublicFpo 0, 2
|
|
|
|
xor ecx, ecx
|
|
and dword ptr PCR[PcIRR], not (1 shl DISPATCH_LEVEL) ; clear the pending bit in IRR
|
|
|
|
mov cl, PCR[PcIrql]
|
|
|
|
mov byte ptr PCR[PcIrql], DISPATCH_LEVEL; set new irql
|
|
push ecx ; Save OldIrql
|
|
|
|
;
|
|
; Now it is safe to enable interrupt to allow higher priority interrupt
|
|
; to come in.
|
|
;
|
|
sti
|
|
|
|
push ebx
|
|
stdCall _KiDispatchInterrupt ; Handle DispatchInterrupt
|
|
pop ebx
|
|
pop ecx ; (ecx) = OldIrql
|
|
mov edx, 1 shl DISPATCH_LEVEL
|
|
|
|
cli
|
|
|
|
mov eax, PCR[PcIRR]
|
|
mov PCR[PcIrql], ecx ; restore current irql
|
|
|
|
and eax, FindHigherIrqlMask[ecx*4] ; (eax) is the bitmask of
|
|
; pending interrupts we need to
|
|
; dispatch now.
|
|
|
|
jnz short diq10 ; go dispatch pending interrupts
|
|
stdRET _HalpDispatchInterrupt2
|
|
|
|
diq10:
|
|
;
|
|
; If there is a pending hardware interrupt, then the PICs have been
|
|
; masked to reflect the actual Irql.
|
|
;
|
|
|
|
bsr ecx, eax ; (ecx) = Pending irq level
|
|
cmp ecx, DISPATCH_LEVEL
|
|
jbe short diq20
|
|
|
|
;
|
|
; Clear all the interrupt masks
|
|
;
|
|
|
|
mov eax, PCR[PcIDR]
|
|
SET_8259_MASK
|
|
|
|
mov edx, 1
|
|
shl edx, cl
|
|
xor PCR[PcIRR], edx ; clear bit in IRR
|
|
|
|
diq20:
|
|
;
|
|
; (ecx) = Pending level
|
|
;
|
|
|
|
jmp SWInterruptHandlerTable[ecx*4] ; Dispatch the pending int.
|
|
diq90: stdRET _HalpDispatchInterrupt2
|
|
|
|
stdENDP _HalpDispatchInterrupt2
|
|
|
|
page ,132
|
|
subttl "Get current irql"
|
|
|
|
;++
|
|
;
|
|
; KIRQL
|
|
; KeGetCurrentIrql (VOID)
|
|
;
|
|
; Routine Description:
|
|
;
|
|
; This routine returns to current IRQL.
|
|
;
|
|
; Arguments:
|
|
;
|
|
; None.
|
|
;
|
|
; Return Value:
|
|
;
|
|
; The current IRQL.
|
|
;
|
|
;--
|
|
|
|
cPublicProc _KeGetCurrentIrql ,0
|
|
cPublicFpo 0, 0
|
|
|
|
movzx eax, byte ptr PCR[PcIrql] ; Current irql is in the PCR
|
|
stdRET _KeGetCurrentIrql
|
|
stdENDP _KeGetCurrentIrql
|
|
|
|
|
|
|
|
;++
|
|
;
|
|
; KIRQL
|
|
; HalpDisableAllInterrupts (VOID)
|
|
;
|
|
; Routine Description:
|
|
;
|
|
; This routine is called during a system crash. The hal needs all
|
|
; interrupts disabled.
|
|
;
|
|
; Arguments:
|
|
;
|
|
; None.
|
|
;
|
|
; Return Value:
|
|
;
|
|
; Old Irql level
|
|
;
|
|
;--
|
|
|
|
cPublicProc _HalpDisableAllInterrupts,0
|
|
cPublicFpo 0, 0
|
|
|
|
;
|
|
; Mask interrupts off at PIC
|
|
; (raising to high_level does not work on lazy irql implementation)
|
|
;
|
|
mov eax, KiI8259MaskTable[HIGH_LEVEL*4]; get pic masks for the new irql
|
|
or eax, PCR[PcIDR] ; mask irqs which are disabled
|
|
SET_8259_MASK ; set 8259 masks
|
|
|
|
mov al, byte ptr PCR[PcIrql]
|
|
mov byte ptr PCR[PcIrql], HIGH_LEVEL ; set new irql
|
|
|
|
stdRET _HalpDisableAllInterrupts
|
|
|
|
stdENDP _HalpDisableAllInterrupts
|
|
|
|
;++
|
|
;
|
|
; VOID
|
|
; HalpReenableInterrupts (
|
|
; IN KIRQL Irql
|
|
; )
|
|
;
|
|
; Routine Description:
|
|
;
|
|
; This routine restores the PIC to a given state.
|
|
;
|
|
; Arguments:
|
|
;
|
|
; Irql - Irql state to restore to.
|
|
;
|
|
; Return Value:
|
|
;
|
|
; None
|
|
;
|
|
;--
|
|
|
|
HriNewIrql equ [esp + 4]
|
|
|
|
cPublicProc _HalpReenableInterrupts,1
|
|
cPublicFpo 1, 0
|
|
|
|
mov al, HriNewIrql
|
|
mov byte ptr PCR[PcIrql],al ; set new irql
|
|
|
|
mov eax, PCR[PcIDR] ; mask irqs which are disabled
|
|
SET_8259_MASK ; set 8259 masks
|
|
|
|
stdRET _HalpReenableInterrupts
|
|
|
|
stdENDP _HalpReenableInterrupts
|
|
|
|
page ,132
|
|
subttl "Postponed Hardware Interrupt Dispatcher"
|
|
;++
|
|
;
|
|
; VOID
|
|
; HalpHardwareInterruptNN (
|
|
; VOID
|
|
; );
|
|
;
|
|
; Routine Description:
|
|
;
|
|
; These routines branch through the IDT to simulate the appropriate
|
|
; hardware interrupt. They use the "INT nn" instruction to do this.
|
|
;
|
|
; Arguments:
|
|
;
|
|
; None.
|
|
;
|
|
; Returns:
|
|
;
|
|
; None.
|
|
;
|
|
; Environment:
|
|
;
|
|
; IRET frame is on the stack
|
|
;
|
|
;--
|
|
cPublicProc _HalpHardwareInterruptTable, 0
|
|
cPublicFpo 0,0
|
|
|
|
public HalpHardwareInterrupt00
|
|
HalpHardwareInterrupt00 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 0
|
|
ret
|
|
|
|
public HalpHardwareInterrupt01
|
|
HalpHardwareInterrupt01 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 1
|
|
ret
|
|
|
|
public HalpHardwareInterrupt02
|
|
HalpHardwareInterrupt02 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 2
|
|
ret
|
|
|
|
public HalpHardwareInterrupt03
|
|
HalpHardwareInterrupt03 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 3
|
|
ret
|
|
|
|
public HalpHardwareInterrupt04
|
|
HalpHardwareInterrupt04 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 4
|
|
ret
|
|
|
|
public HalpHardwareInterrupt05
|
|
HalpHardwareInterrupt05 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 5
|
|
ret
|
|
|
|
public HalpHardwareInterrupt06
|
|
HalpHardwareInterrupt06 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 6
|
|
ret
|
|
|
|
public HalpHardwareInterrupt07
|
|
HalpHardwareInterrupt07 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 7
|
|
ret
|
|
|
|
public HalpHardwareInterrupt08
|
|
HalpHardwareInterrupt08 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 8
|
|
ret
|
|
|
|
public HalpHardwareInterrupt09
|
|
HalpHardwareInterrupt09 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 9
|
|
ret
|
|
|
|
public HalpHardwareInterrupt10
|
|
HalpHardwareInterrupt10 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 10
|
|
ret
|
|
|
|
public HalpHardwareInterrupt11
|
|
HalpHardwareInterrupt11 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 11
|
|
ret
|
|
|
|
public HalpHardwareInterrupt12
|
|
HalpHardwareInterrupt12 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 12
|
|
ret
|
|
|
|
public HalpHardwareInterrupt13
|
|
HalpHardwareInterrupt13 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 13
|
|
ret
|
|
|
|
public HalpHardwareInterrupt14
|
|
HalpHardwareInterrupt14 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 14
|
|
ret
|
|
|
|
public HalpHardwareInterrupt15
|
|
HalpHardwareInterrupt15 label byte
|
|
ifdef IRQL_METRICS
|
|
lock inc HalHardwareIntCount
|
|
endif
|
|
int PRIMARY_VECTOR_BASE + 15
|
|
ret
|
|
|
|
public HalpHardwareInterruptLevel
|
|
HalpHardwareInterruptLevel label byte
|
|
cPublicFpo 0,0
|
|
xor eax, eax
|
|
mov al, PCR[PcIrql]
|
|
mov ecx, PCR[PcIRR]
|
|
and ecx, FindHigherIrqlMask[eax*4] ; (ecx) is the bitmask of
|
|
; pending interrupts we need to
|
|
; dispatch now.
|
|
jz short lvl_90 ; no pending ints
|
|
|
|
test PCR[PcIrrActive], IRQ_ACTIVE_MASK
|
|
jnz short lvl_90 ; let guy furture down the stack handle it
|
|
|
|
mov eax, ecx ; (eax) = bitmask
|
|
bsr ecx, eax ; (cl) = set bit
|
|
|
|
mov eax, 1
|
|
shl eax, cl
|
|
xor PCR[PcIRR], eax ; clear bit in IRR
|
|
|
|
call SWInterruptHandlerTable[ecx*4] ; Dispatch the pending int.
|
|
align 4
|
|
lvl_90:
|
|
ret
|
|
|
|
stdENDP _HalpHardwareInterruptTable
|
|
|
|
|
|
_TEXT$01 ends
|
|
|
|
page ,132
|
|
subttl "Interrupt Controller Chip Initialization"
|
|
|
|
_TEXT$02 SEGMENT DWORD PUBLIC 'CODE'
|
|
ASSUME DS:FLAT, ES:FLAT, SS:FLAT, FS:NOTHING, GS:NOTHING
|
|
;++
|
|
;
|
|
; VOID
|
|
; HalpInitializePICs (
|
|
; BOOLEAN EnableInterrupts
|
|
; )
|
|
;
|
|
; Routine Description:
|
|
;
|
|
; This routine sends the 8259 PIC initialization commands and
|
|
; masks all the interrupts on 8259s.
|
|
;
|
|
; Arguments:
|
|
;
|
|
; EnableInterrupts - If this is true, then this function will
|
|
; explicitly enable interrupts at the end,
|
|
; as it always did in the past. If this
|
|
; is false, then it will preserve the interrupt
|
|
; flag.
|
|
;
|
|
; Return Value:
|
|
;
|
|
; None.
|
|
;
|
|
;--
|
|
|
|
EnableInterrupts equ [esp + 0ch]
|
|
|
|
cPublicProc _HalpInitializePICs ,1
|
|
cPublicFpo 0, 0
|
|
|
|
push esi ; save caller's esi
|
|
pushfd
|
|
cli ; disable interrupt
|
|
|
|
lea esi, PICsInitializationString
|
|
lodsw ; (AX) = PIC port 0 address
|
|
Hip10: movzx edx, ax
|
|
outsb ; output ICW1
|
|
IODelay
|
|
inc edx ; (DX) = PIC port 1 address
|
|
outsb ; output ICW2
|
|
IODelay
|
|
outsb ; output ICW3
|
|
IODelay
|
|
outsb ; output ICW4
|
|
IODelay
|
|
mov al, 0FFH ; mask all 8259 irqs
|
|
out dx,al ; write mask to PIC
|
|
lodsw
|
|
cmp ax, 0 ; end of init string?
|
|
jne short Hip10 ; go init next PIC
|
|
|
|
;
|
|
; Read EISA defined ELCR. If it looks good save it away.
|
|
; If a PCI interrupts is later connected, the vector will
|
|
; be assumed level if it's in the ELCR.
|
|
;
|
|
mov edx, 4d1h ; Eisa Edge/Level port
|
|
in al, dx ; get e/l irq 8-f
|
|
mov ah, al
|
|
dec edx
|
|
in al, dx ; get e/l irq 0-7
|
|
and eax, 0def8h ; clear reserved bits
|
|
cmp eax, 0def8h ; all set?
|
|
je short Hip50 ; Yes, register not implemented
|
|
|
|
mov _HalpEisaELCR, eax ; Save possible ELCR settings
|
|
|
|
|
|
;
|
|
; If this is an EISA machine, mark all interrupts in the EISA ELCR
|
|
; as level interrupts
|
|
;
|
|
cmp _HalpBusType, MACHINE_TYPE_EISA
|
|
jne short Hip50
|
|
|
|
;
|
|
; Verify this isn't an OPTI chipset machine which claims to be
|
|
; EISA, but neglects to follow the EISA spec...
|
|
;
|
|
|
|
mov edx, 0481h ; DmaPageHighPort.Channel2
|
|
mov al, 055h
|
|
out dx, al ; out to Eisa DMA register
|
|
in al, dx ; read it back
|
|
cmp al, 055h ; if it doesn't stick, then machine
|
|
jne short Hip50 ; isn't support all eisa registers
|
|
|
|
;
|
|
; Ok - loop and mark all EISA level interrupts
|
|
;
|
|
|
|
mov eax, _HalpEisaELCR
|
|
xor ecx, ecx ; start at irq 0
|
|
Hip30:
|
|
test eax, 1 ; is level bit set?
|
|
jz short Hip40 ; no, go to next
|
|
|
|
;
|
|
; Found a level sensitive interrupt:
|
|
; Set the SWInterruptHandler for the irql to be a NOP.
|
|
; Set the SpecialDismiss entry for the irq to be the level version
|
|
;
|
|
mov SWInterruptHandlerTable+4*4[ecx], offset HalpHardwareInterruptLevel
|
|
|
|
mov edx, HalpSpecialDismissLevelTable[ecx]
|
|
mov HalpSpecialDismissTable[ecx], edx
|
|
|
|
Hip40:
|
|
add ecx, 4 ; next vector
|
|
shr eax, 1 ; shift bits down
|
|
jnz short Hip30 ; more set bits, then loop
|
|
|
|
|
|
Hip50:
|
|
mov al, EnableInterrupts
|
|
.if (al != 0)
|
|
or [esp], EFLAGS_INTERRUPT_MASK ; enable interrupts
|
|
.endif
|
|
popfd
|
|
pop esi ; restore caller's esi
|
|
stdRET _HalpInitializePICs
|
|
stdENDP _HalpInitializePICs
|
|
|
|
|
|
_TEXT$02 ends
|
|
|
|
end
|