Source code of Windows XP (NT5)
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;++
;
;Copyright (c) 1991 Microsoft Corporation
;
;Module Name:
;
; ixsysint.asm
;
;Abstract:
;
; This module implements the HAL routines to enable/disable system
; interrupts.
;
;Author:
;
; John Vert (jvert) 22-Jul-1991
;
;Environment:
;
; Kernel Mode
;
;Revision History:
;
;--
.386p
.xlist
include hal386.inc
include callconv.inc ; calling convention macros
include i386\ix8259.inc
include i386\kimacro.inc
include mac386.inc
.list
extrn KiI8259MaskTable:DWORD
EXTRNP _KeBugCheck,1,IMPORT
ifdef IRQL_METRICS
extrn HalPostponedIntCount:dword
endif
extrn _HalpEisaELCR:dword ; Set bit indicates LEVEL
extrn _HalpEisaIrqIgnore:dword
extrn SWInterruptHandlerTable:dword
extrn _HalpIrqMiniportInitialized:dword
extrn HalpHardwareInterruptLevel:proc
extrn _PciirqmpGetTrigger@4:proc
extrn _PciirqmpSetTrigger@4:proc
;
; Constants used to initialize CMOS/Real Time Clock
;
CMOS_CONTROL_PORT EQU 70h ; command port for cmos
CMOS_DATA_PORT EQU 71h ; cmos data port
;
; Macros to Read/Write/Reset CMOS to initialize RTC
;
; CMOS_READ
;
; Description: This macro read a byte from the CMOS register specified
; in (AL).
;
; Parameter: (AL) = address/register to read
; Return: (AL) = data
;
CMOS_READ MACRO
OUT CMOS_CONTROL_PORT,al ; ADDRESS LOCATION AND DISABLE NMI
IODelay ; I/O DELAY
IN AL,CMOS_DATA_PORT ; READ IN REQUESTED CMOS DATA
IODelay ; I/O DELAY
ENDM
_DATA SEGMENT DWORD PUBLIC 'DATA'
align dword
;
; HalDismissSystemInterrupt does an indirect jump through this table so it
; can quickly execute specific code for different interrupts.
;
public HalpSpecialDismissTable
HalpSpecialDismissTable label dword
dd offset FLAT:HalpDismissNormal ; irq 0
dd offset FLAT:HalpDismissNormal ; irq 1
dd offset FLAT:HalpDismissNormal ; irq 2
dd offset FLAT:HalpDismissNormal ; irq 3
dd offset FLAT:HalpDismissNormal ; irq 4
dd offset FLAT:HalpDismissNormal ; irq 5
dd offset FLAT:HalpDismissNormal ; irq 6
dd offset FLAT:HalpDismissIrq07 ; irq 7
dd offset FLAT:HalpDismissNormal ; irq 8
dd offset FLAT:HalpDismissNormal ; irq 9
dd offset FLAT:HalpDismissNormal ; irq A
dd offset FLAT:HalpDismissNormal ; irq B
dd offset FLAT:HalpDismissNormal ; irq C
dd offset FLAT:HalpDismissIrq0d ; irq D
dd offset FLAT:HalpDismissNormal ; irq E
dd offset FLAT:HalpDismissIrq0f ; irq F
dd offset FLAT:HalpDismissNormal ; irq 10
dd offset FLAT:HalpDismissNormal ; irq 11
dd offset FLAT:HalpDismissNormal ; irq 12
dd offset FLAT:HalpDismissNormal ; irq 13
dd offset FLAT:HalpDismissNormal ; irq 14
dd offset FLAT:HalpDismissNormal ; irq 15
dd offset FLAT:HalpDismissNormal ; irq 16
dd offset FLAT:HalpDismissNormal ; irq 17
dd offset FLAT:HalpDismissNormal ; irq 18
dd offset FLAT:HalpDismissNormal ; irq 19
dd offset FLAT:HalpDismissNormal ; irq 1A
dd offset FLAT:HalpDismissNormal ; irq 1B
dd offset FLAT:HalpDismissNormal ; irq 1C
dd offset FLAT:HalpDismissNormal ; irq 1D
dd offset FLAT:HalpDismissNormal ; irq 1E
dd offset FLAT:HalpDismissNormal ; irq 1F
dd offset FLAT:HalpDismissNormal ; irq 20
dd offset FLAT:HalpDismissNormal ; irq 21
dd offset FLAT:HalpDismissNormal ; irq 22
dd offset FLAT:HalpDismissNormal ; irq 23
_DATA ENDS
_TEXT SEGMENT DWORD PUBLIC 'DATA'
public HalpSpecialDismissLevelTable
HalpSpecialDismissLevelTable label dword
dd offset FLAT:HalpDismissLevel ; irq 0
dd offset FLAT:HalpDismissLevel ; irq 1
dd offset FLAT:HalpDismissLevel ; irq 2
dd offset FLAT:HalpDismissLevel ; irq 3
dd offset FLAT:HalpDismissLevel ; irq 4
dd offset FLAT:HalpDismissLevel ; irq 5
dd offset FLAT:HalpDismissLevel ; irq 6
dd offset FLAT:HalpDismissIrq07Level ; irq 7
dd offset FLAT:HalpDismissLevel ; irq 8
dd offset FLAT:HalpDismissLevel ; irq 9
dd offset FLAT:HalpDismissLevel ; irq A
dd offset FLAT:HalpDismissLevel ; irq B
dd offset FLAT:HalpDismissLevel ; irq C
dd offset FLAT:HalpDismissIrq0dLevel ; irq D
dd offset FLAT:HalpDismissLevel ; irq E
dd offset FLAT:HalpDismissIrq0fLevel ; irq F
_TEXT ENDS
_TEXT$01 SEGMENT DWORD PUBLIC 'CODE'
ASSUME DS:FLAT, ES:FLAT, SS:NOTHING, FS:NOTHING, GS:NOTHING
;++
;BOOLEAN
;HalBeginSystemInterrupt(
; IN KIRQL Irql
; IN CCHAR Vector,
; OUT PKIRQL OldIrql
; )
;
;
;
;Routine Description:
;
; This routine is used to dismiss the specified vector number. It is called
; before any interrupt service routine code is executed.
;
; N.B. This routine does NOT preserve EAX or EBX
;
; On a UP machine the interrupt dismissed at BeginSystemInterrupt time.
; This is fine since the irql is being raise to mask it off.
; HalEndSystemInterrupt is simply a LowerIrql request.
;
;
;Arguments:
;
; Irql - Supplies the IRQL to raise to
;
; Vector - Supplies the vector of the interrupt to be dismissed
;
; OldIrql- Location to return OldIrql
;
;
;Return Value:
;
; FALSE - Interrupt is spurious and should be ignored
;
; TRUE - Interrupt successfully dismissed and Irql raised.
;
;--
align dword
HbsiIrql equ byte ptr [esp+4]
HbsiVector equ byte ptr [esp+8]
HbsiOldIrql equ dword ptr [esp+12]
cPublicProc _HalBeginSystemInterrupt ,3
.FPO ( 0, 3, 0, 0, 0, 0 )
xor ecx, ecx
mov cl, HbsiVector ; (ecx) = System Vector
sub ecx, PRIMARY_VECTOR_BASE ; (ecx) = 8259 IRQ #
if DBG
cmp ecx, 1fh
jbe hbsi00
int 3
hbsi00:
endif
jmp HalpSpecialDismissTable[ecx*4]
HalpDismissIrq0f:
;
; Check to see if this is a spurious interrupt
;
mov al, OCW3_READ_ISR ; tell 8259 we want to read ISR
out PIC2_PORT0, al
IODelay ; delay
in al, PIC2_PORT0 ; (al) = content of PIC 1 ISR
test al, 10000000B ; Is In-Service register set?
jnz short HalpDismissNormal ; No, this is NOT a spurious int,
; go do the normal interrupt stuff
HalpIrq0fSpurious:
;
; This is a spurious interrupt.
; Because the slave PIC is cascaded to irq2 of master PIC, we need to
; dismiss the interupt on master PIC's irq2.
;
mov al, PIC2_EOI ; Specific eoi to master for pic2 eoi
out PIC1_PORT0, al ; send irq2 specific eoi to master
mov eax,0 ; return FALSE
stdRET _HalBeginSystemInterrupt
HalpDismissIrq07:
;
; Check to see if this is a spurious interrupt
;
mov al, OCW3_READ_ISR ; tell 8259 we want to read ISR
out PIC1_PORT0, al
IODelay ; delay
in al, PIC1_PORT0 ; (al) = content of PIC 1 ISR
test al, 10000000B ; Is In-Service register set?
jnz HalpDismissNormal ; No, so this is NOT a spurious int
mov eax, 0 ; return FALSE
stdRET _HalBeginSystemInterrupt
HalpDismissIrq0d:
;
; Clear the NPX busy latch.
;
xor al,al
out I386_80387_BUSY_PORT, al
align 4
HalpDismissNormal:
;
; Raise IRQL to requested level
;
xor ebx,ebx
mov al, HbsiIrql ; (al) = New irql
; (ecx) = IRQ #
mov bl, PCR[PcIrql] ; (ebx) = Current Irql
;
; Now we check to make sure the Irql of this interrupt > current Irql.
; If it is not, we dismiss it as spurious and set the appropriate bit
; in the IRR so we can dispatch the interrupt when Irql is lowered
;
cmp al, bl
jbe Hdsi300
mov PCR[PcIrql], al ; set new Irql
mov edx, HbsiOldIrql ; save current irql to OldIrql variable
mov byte ptr [edx], bl
;
; Dismiss interrupt.
;
mov eax, ecx ; (eax) = IRQ #
cmp eax, 8 ; EOI to master or slave?
jae short Hbsi100 ; EIO to both master and slave
or al, PIC1_EOI_MASK ; create specific eoi mask for master
out PIC1_PORT0, al ; dismiss the interrupt
sti
mov eax, 1 ; return TRUE
stdRET _HalBeginSystemInterrupt
align 4
Hbsi100:
add al, OCW2_SPECIFIC_EOI - 8 ; specific eoi to slave
out PIC2_PORT0, al
mov al, PIC2_EOI ; specific eoi to master for pic2 eoi
out PIC1_PORT0, al ; send irq2 specific eoi to master
sti
mov eax, 1 ; return TRUE
stdRET _HalBeginSystemInterrupt
align 4
Hdsi300:
;
; An interrupt has come in at a lower Irql, so we dismiss it as spurious and
; set the appropriate bit in the IRR so that KeLowerIrql knows to dispatch
; it when Irql is lowered.
;
; (ecx) = 8259 IRQ#
; (al) = New Irql
; (ebx) = Current Irql
;
mov eax, 1
add ecx, 4 ; (ecx) = Irq # + 4
shl eax, cl
or PCR[PcIRR], eax
;
; Raise Irql to prevent it from happening again
;
;
; Get the PIC masks for Irql
;
mov eax, KiI8259MaskTable[ebx*4]
or eax, PCR[PcIDR]
;
; Write the new interrupt mask register back to the 8259
;
SET_8259_MASK
Hbsi390:
ifdef IRQL_METRICS
lock inc HalPostponedIntCount
endif
xor eax, eax ; return FALSE, spurious interrupt
stdRET _HalBeginSystemInterrupt
HalpDismissIrq0fLevel:
;
; Check to see if this is a spurious interrupt
;
mov al, OCW3_READ_ISR ; tell 8259 we want to read ISR
out PIC2_PORT0, al
IODelay ; delay
in al, PIC2_PORT0 ; (al) = content of PIC 1 ISR
test al, 10000000B ; Is In-Service register set?
jnz short HalpDismissLevel ; No, this is NOT a spurious int,
; go do the normal interrupt stuff
jmp HalpIrq0fSpurious
HalpDismissIrq07Level:
;
; Check to see if this is a spurious interrupt
;
mov al, OCW3_READ_ISR ; tell 8259 we want to read ISR
out PIC1_PORT0, al
IODelay ; delay
in al, PIC1_PORT0 ; (al) = content of PIC 1 ISR
test al, 10000000B ; Is In-Service register set?
jnz short HalpDismissLevel ; No, so this is NOT a spurious int
mov eax, 0 ; return FALSE
stdRET _HalBeginSystemInterrupt
HalpDismissIrq0dLevel:
;
; Clear the NPX busy latch.
;
xor al,al
out I386_80387_BUSY_PORT, al
align 4
HalpDismissLevel:
;
; Mask this level interrupt off
; (ecx) = 8259 IRQ#
;
mov al, HbsiIrql ; (al) = New irql
mov eax, KiI8259MaskTable[eax*4] ; get 8259's masks
or eax, PCR[PcIDR] ; mask disabled irqs
SET_8259_MASK ; send mask to 8259s
;
; The SWInterruptHandler for this vector has been set to a NOP.
; Set the vector's IRR so that Lower Irql will clear the 8259 mask for this
; Irq when the irql is lowered below this level.
;
mov eax, ecx ; (eax) = Irq #
mov ebx, 1
add ecx, 4 ; (ecx) = Irq # + 4
shl ebx, cl
or PCR[PcIRR], ebx
;
; Dismiss interrupt. Current interrupt is already masked off.
; Then check to make sure the Irql of this interrupt > current Irql.
; If it is not, we dismiss it as spurious - since this is a level interrupt
; when the 8259's are unmasked the interrupt will reoccur
;
mov cl, HbsiIrql
mov bl, PCR[PcIrql]
mov edx, HbsiOldIrql
cmp eax, 8 ; EOI to master or slave?
jae short Hbsi450 ; EIO to both master and slave
or al, PIC1_EOI_MASK ; create specific eoi mask for master
out PIC1_PORT0, al ; dismiss the interrupt
cmp cl, bl
jbe short Hbsi390 ; Spurious?
mov PCR[PcIrql], cl ; raise to new irql
mov byte ptr [edx], bl ; return old irql
sti
mov eax, 1 ; return TRUE
stdRET _HalBeginSystemInterrupt
align 4
Hbsi450:
add al, OCW2_SPECIFIC_EOI - 8 ; specific eoi to slave
out PIC2_PORT0, al
mov al, PIC2_EOI ; specific eoi to master for pic2 eoi
out PIC1_PORT0, al ; send irq2 specific eoi to master
cmp cl, bl
jbe Hbsi390 ; Spurious?
mov PCR[PcIrql], cl ; raise to new irql
mov byte ptr [edx], bl ; return old irql
sti
mov eax, 1 ; return TRUE
stdRET _HalBeginSystemInterrupt
stdENDP _HalBeginSystemInterrupt
;++
;VOID
;HalDisableSystemInterrupt(
; IN CCHAR Vector,
; IN KIRQL Irql
; )
;
;
;
;Routine Description:
;
; Disables a system interrupt.
;
;Arguments:
;
; Vector - Supplies the vector of the interrupt to be disabled
;
; Irql - Supplies the interrupt level of the interrupt to be disabled
;
;Return Value:
;
; None.
;
;--
cPublicProc _HalDisableSystemInterrupt ,2
.FPO ( 0, 2, 0, 0, 0, 0 )
;
movzx ecx, byte ptr [esp+4] ; (ecx) = Vector
sub ecx, PRIMARY_VECTOR_BASE ; (ecx) = 8259 irq #
mov edx, 1
shl edx, cl ; (ebx) = bit in IMR to disable
cli
or PCR[PcIDR], edx
xor eax, eax
;
; Get the current interrupt mask register from the 8259
;
in al, PIC2_PORT1
shl eax, 8
in al, PIC1_PORT1
;
; Mask off the interrupt to be disabled
;
or eax, edx
;
; Write the new interrupt mask register back to the 8259
;
out PIC1_PORT1, al
shr eax, 8
out PIC2_PORT1, al
PIC2DELAY
sti
stdRET _HalDisableSystemInterrupt
stdENDP _HalDisableSystemInterrupt
;++
;
;BOOLEAN
;HalEnableSystemInterrupt(
; IN ULONG Vector,
; IN KIRQL Irql,
; IN KINTERRUPT_MODE InterruptMode
; )
;
;
;Routine Description:
;
; Enables a system interrupt
;
;Arguments:
;
; Vector - Supplies the vector of the interrupt to be enabled
;
; Irql - Supplies the interrupt level of the interrupt to be enabled.
;
;Return Value:
;
; None.
;
;--
cPublicProc _HalEnableSystemInterrupt ,3
.FPO ( 0, 3, 0, 0, 0, 0 )
movzx ecx, byte ptr [esp+4] ; (ecx) = vector
sub ecx, PRIMARY_VECTOR_BASE
jc hes_error
cmp ecx, CLOCK2_LEVEL
jnc hes_error
;
; Use the IRQ miniport to get the HW state.
;
cmp _HalpIrqMiniportInitialized, 0
jz hes_noMPGet
push ecx
lea eax, _HalpEisaELCR
push eax
call _PciirqmpGetTrigger@4
pop ecx
hes_noMPGet:
bt _HalpEisaIrqIgnore,ecx ;;Is this Eisa Ignore bit set?
jc short hes_ProgPic
;
; Clear or set the edge\level mask bit depending on what the caller wants.
;
btr _HalpEisaELCR, ecx
mov al, [esp+12]
cmp al, 0
jnz short hes_edge
bt _HalpEisaELCR, ecx
jc short @F
; Caller wants level triggered interrupts
; if IRQ routing is turned on, try and provide it
cmp _HalpIrqMiniportInitialized, 0
jz short @F
bts _HalpEisaELCR, ecx
@@:
mov SWInterruptHandlerTable+4*4[ecx*4], offset HalpHardwareInterruptLevel
mov edx, HalpSpecialDismissLevelTable[ecx*4]
mov HalpSpecialDismissTable[ecx*4], edx
hes_edge:
cmp _HalpIrqMiniportInitialized, 0
jz hes_ProgPIC
;
; Program the HW to make it match the callers request.
;
mov eax, _HalpEisaELCR
push ecx
push eax
call _PciirqmpSetTrigger@4
pop ecx
if 0
.err
;;
;; We can't just arbitrarily blast ports. This makes machines do really weird things
;;
hes_noMPSet:
mov edx, 4d0h
out dx, al
inc edx
mov al, ah
out dx, al
endif
hes_ProgPIC:
mov eax, 1
shl eax, cl ; (ebx) = bit in IMR to enable
not eax
cli
and PCR[PcIDR], eax
;
; Get the PIC masks for Irql 0
;
mov eax, KiI8259MaskTable[0]
or eax, PCR[PcIDR]
;
; Write the new interrupt mask register back to the 8259
;
SET_8259_MASK
sti
mov eax, 1 ; return TRUE
stdRET _HalEnableSystemInterrupt
hes_error:
if DBG
int 3
endif
xor eax, eax ; FALSE
stdRET _HalEnableSystemInterrupt
stdENDP _HalEnableSystemInterrupt
_TEXT$01 ENDS
END