TITLE "Interrupt Object Support Routines" ;++ ; ; Copyright (c) 1989 Microsoft Corporation ; ; Module Name: ; ; intsup.asm ; ; Abstract: ; ; This module implements the code necessary to support interrupt objects. ; It contains the interrupt dispatch code and the code template that gets ; copied into an interrupt object. ; ; Author: ; ; Shie-Lin Tzong (shielint) 20-Jan-1990 ; ; Environment: ; ; Kernel mode only. ; ; Revision History: ; ;-- .386p .xlist KERNELONLY equ 1 include ks386.inc include i386\kimacro.inc include mac386.inc include callconv.inc include irqli386.inc .list EXTRNP _KeBugCheck,1 EXTRNP _KeBugCheckEx,5 EXTRNP _KiDeliverApc,3 EXTRNP _HalBeginSystemInterrupt,3,IMPORT EXTRNP _HalEndSystemInterrupt,2,IMPORT EXTRNP Kei386EoiHelper EXTRNP PerfInfoLogInterrupt,4,,FASTCALL if DBG extrn _DbgPrint:near extrn _MsgISRTimeout:BYTE extrn _KiISRTimeout:DWORD endif extrn _DbgPrint:near extrn _MsgISROverflow:BYTE extrn _KeTickCount:DWORD extrn _KiISROverflow:WORD extrn _KdDebuggerEnabled:BYTE MI_MOVEDI EQU 0BFH ; op code for mov edi, constant MI_DIRECTJMP EQU 0E9H ; op code for indirect jmp ; or index registers if DBG DETECT_INT_STORM EQU 1 else DETECT_INT_STORM EQU 0 endif if DETECT_INT_STORM INT_TICK_MASK EQU 03FH ; ; Macro to check for an interrupt storm on a particular interrupt object ; CHECK_INT_STORM macro Prefix mov eax, _KeTickCount ; current time and eax, NOT INT_TICK_MASK ; mask to closest 640ms cmp eax, dword ptr [edi].InTickCount ; in same 640ms second range jg Prefix&_overflowreset ; tick count has advanced since last interrupt, reset counts jl Prefix&_waittick ; we have already overflowed interrupt count for this tick, do nothing ; until the clock advances to the next tick period dec word ptr [edi].InDispatchCount jz Prefix&_interruptoverflow ; interrupt count has just overflowed Prefix&_dbg2: endm CHECK_INT_STORM_TAIL macro Prefix, BugCheckID Prefix&_interruptoverflow: dec word ptr [edi].InDispatchCount+2 jz short @f add eax, INT_TICK_MASK+1 mov [edi].InTickCount, eax ; bump tick count to next tick jmp short Prefix&_overflowreset2 @@: cmp _KdDebuggerEnabled, 0 jnz short @f stdCall _KeBugCheckEx, ; ; Debugger is enabled so do a BP instead of bugchecking ; @@: push [edi].InServiceRoutine push offset FLAT:_MsgISROverflow call _DbgPrint add esp, 8 int 3 mov eax, _KeTickCount ; current time and eax, NOT INT_TICK_MASK ; mask to closest 20 second ; ; deliberately fall through to reset the count ; Prefix&_overflowreset: mov dword ptr [edi].InTickCount, eax ; initialize time mov word ptr [edi].InDispatchCount+2, 64 ; Prefix&_overflowreset2: mov ax, _KiISROverflow mov word ptr [edi].InDispatchCount, ax ; reset count jmp Prefix&_dbg2 ; ; Additional work we do here in Prefix&_waittick is to make sure the tickcount ; didn't actually wrap and send us here. ; Prefix&_waittick: add eax, INT_TICK_MASK+1 cmp eax, dword ptr [edi].InTickCount je Prefix&_dbg2 ; exactly one tick apart, do nothing ; ; tick count must have wrapped - reset all counters ; mov eax, _KeTickCount jmp short Prefix&_overflowreset endm else CHECK_INT_STORM macro Prefix endm CHECK_INT_STORM_TAIL macro Prefix, BugCheckID endm endif page ,132 subttl "Syn0chronize Execution" _TEXT$00 SEGMENT PARA PUBLIC 'CODE' ;++ ; ; BOOLEAN ; KeSynchronizeExecution ( ; IN PKINTERRUPT Interrupt, ; IN PKSYNCHRONIZE_ROUTINE SynchronizeRoutine, ; IN PVOID SynchronizeContext ; ) ; ; Routine Description: ; ; This function synchronizes the execution of the specified routine with the ; execution of the service routine associated with the specified interrupt ; object. ; ; Arguments: ; ; Interrupt - Supplies a pointer to a control object of type interrupt. ; ; SynchronizeRoutine - Supplies a pointer to a function whose execution ; is to be synchronized with the execution of the service routine ; associated with the specified interrupt object. ; ; SynchronizeContext - Supplies a pointer to an arbitrary data structure ; which is to be passed to the function specified by the ; SynchronizeRoutine parameter. ; ; Return Value: ; ; The value returned by the SynchronizeRoutine function is returned as the ; function value. ; ;-- ASSUME DS:FLAT, ES:FLAT, SS:NOTHING, FS:NOTHING, GS:NOTHING cPublicProc _KeSynchronizeExecution ,3 push ebx ; save nonvolatile register mov ebx, 8[esp] ; get interrupt object address mov cl, BYTE PTR InSynchronizeIrql[ebx] ; get synchronization IRQL RaiseIrql cl ; raise IRQL to synchronization level push eax ; save previous IRQL ifndef NT_UP mov ebx,InActualLock[ebx] ; get actual lock address kse10: ACQUIRE_SPINLOCK ebx, ; acquire spin lock endif push 20[esp] ; push synchronization context routine CAPSTART <_KeSynchronizeExecution@12,[esp+20]> call 20[esp] ; call synchronization routine CAPEND <_KeSynchronizeExecution@12> ifndef NT_UP RELEASE_SPINLOCK ebx ; release spin lock endif mov ebx, eax ; save synchronization routine value pop ecx ; retrieve previous IRQL LowerIrql ecx ; lower IRQL to previous value mov eax, ebx ; set return value pop ebx ; restore nonvolatile register stdRET _KeSynchronizeExecution ifndef NT_UP kse20: SPIN_ON_SPINLOCK ebx, ; wait until lock is free endif stdENDP _KeSynchronizeExecution page ,132 subttl "Chained Dispatch" ;++ ; ; Routine Description: ; ; This routine is entered as the result of an interrupt being generated ; via a vector that is connected to more than one interrupt object. ; ; Arguments: ; ; edi - Supplies a pointer to the interrupt object. ; esp - Supplies a pointer to the top of trap frame ; ebp - Supplies a pointer to the top of trap frame ; ; Return Value: ; ; None. ; ;-- align 16 cPublicProc _KiChainedDispatch ,0 .FPO (2, 0, 0, 0, 0, 1) ; ; update statistic ; inc dword ptr PCR[PcPrcbData+PbInterruptCount] ; ; set ebp to the top of trap frame. We don't need to save ebp because ; it is saved in trap frame already. ; mov ebp, esp ; (ebp)->trap frame ; ; Save previous IRQL and set new priority level ; mov eax, [edi].InVector ; save vector push eax sub esp, 4 ; make room for OldIrql mov ecx, [edi].InIrql ; Irql ; ; esp - pointer to OldIrql ; eax - vector ; ecx - Irql ; stdCall _HalBeginSystemInterrupt, or eax, eax ; check for spurious int. jz kid_spuriousinterrupt stdCall _KiChainedDispatch2ndLvl INTERRUPT_EXIT ; will do an iret stdENDP _KiChainedDispatch page ,132 subttl "Chained Dispatch 2nd Level" ;++ ; ; Routine Description: ; ; This routine is entered as the result of an interrupt being generated ; via a vector that is either connected to more than one interrupt object, ; or is being 2nd level dispatched. Its function is to walk the list ; of connected interrupt objects and call each interrupt service routine. ; If the mode of the interrupt is latched, then a complete traversal of ; the chain must be performed. If any of the routines require saving the ; floating point machine state, then it is only saved once. ; ; Arguments: ; ; edi - Supplies a pointer to the interrupt object. ; ; Return Value: ; ; None. ; Uses all registers ; ;-- public _KiInterruptDispatch2ndLvl@0 _KiInterruptDispatch2ndLvl@0: nop cPublicProc _KiChainedDispatch2ndLvl,0 cPublicFpo 0, 4 push ebp sub esp, 20 ; Make room for scratch and local values ; ; [esp] OldIrql ; [esp+4] Scratch ; [esp+8] TimeStamp ; [esp+16] ISRTracingOn ; xor ebp, ebp ; init (ebp) = Interrupthandled = FALSE lea ebx, [edi].InInterruptListEntry ; (ebx)->Interrupt Head List mov ecx, PCR[PcSelfPcr] ; get address of PCR cmp [ecx]+PcPerfGlobalGroupMask, 0 ; Is event tracing on? mov [esp+16], 0 ; ISRTracingOn = 0 jne kcd120 ; ; Walk the list of connected interrupt objects and call the appropriate dispatch ; routine. ; kcd40: ; ; Raise irql level to the SynchronizeIrql level if it is not equal to current ; irql. ; mov cl, [edi+InIrql] ; [cl] = Current Irql mov esi,[edi+InActualLock] cmp [edi+InSynchronizeIrql], cl ; Is SyncIrql > current IRQL? je short kcd50 ; if e, no, go kcd50 mov cl, [edi+InSynchronizeIrql] ; (cl) = Irql to raise to RaiseIrql cl mov [esp], eax ; Save OldIrql ; ; Acquire the service routine spin lock and call the service routine. ; kcd50: ACQUIRE_SPINLOCK esi,kcd110 ; ; Check for an interrupt storm on this interrupt object ; CHECK_INT_STORM kcd if DBG mov eax, _KeTickCount ; Grab ISR start time mov [esp+4], eax ; save to local varible endif mov eax, InServiceContext[edi] ; set parameter value push eax push edi ; pointer to interrupt object CAPSTART <_KiInterruptDispatch2ndLvl@0,InServiceRoutine[edi]> call InServiceRoutine[edi] ; call specified routine CAPEND <_KiInterruptDispatch2ndLvl@0> if DBG mov ecx, [esp+4] ; (ecx) = time isr started add ecx, _KiISRTimeout ; adjust for timeout cmp _KeTickCount, ecx ; Did ISR timeout? jnc kcd200 kcd51: endif ; ; Release the service routine spin lock and check to determine if end of loop. ; RELEASE_SPINLOCK esi ; ; Lower IRQL to earlier level if we raised it to SynchronizedLevel. ; mov cl, [edi+InIrql] cmp [edi+InSynchronizeIrql], cl ; Is SyncIrql > current IRQL? je short kcd55 ; if e, no, go kcd55 mov esi, eax ; save ISR returned value ; ; Arg1 : Irql to Lower to ; mov ecx, [esp] LowerIrql cl mov eax, esi ; [eax] = ISR returned value kcd55: cmp [esp+16], 0 ; check if ISR logging is enabled jne kcd130 kcd57: or al,al ; Is interrupt handled? je short kcd60 ; if eq, interrupt not handled cmp word ptr InMode[edi], InLevelSensitive je short kcd70 ; if eq, level sensitive interrupt mov ebp, eax ; else edge shared int is handled. Remember it. kcd60: mov edi, [edi].InInterruptListEntry ; (edi)->next obj's addr of listentry cmp ebx, edi ; Are we at end of interrupt list? je short kcd65 ; if eq, reach end of list sub edi, InInterruptListEntry; (edi)->addr of next interrupt object jmp kcd40 kcd65: ; ; If this is edge shared interrupt, we need to loop till no one handle the ; interrupt. In theory only shared edge triggered interrupts come here. ; sub edi, InInterruptListEntry; (edi)->addr of next interrupt object cmp word ptr InMode[edi], InLevelSensitive je short kcd70 ; if level, exit. No one handle the interrupt? test ebp, 0fh ; does anyone handle the interrupt? je short kcd70 ; if e, no one, we can exit. xor ebp, ebp ; init local var to no one handle the int jmp kcd40 ; restart the loop. ; ; Either the interrupt is level sensitive and has been handled or the end of ; the interrupt object chain has been reached. ; ; restore frame pointer, and deallocate trap frame. kcd70: add esp, 20 ; clear local variable space pop ebp stdRet _KiChainedDispatch2ndLvl ; Service routine Lock is currently owned, spin until free and then ; attempt to acquire lock again. ifndef NT_UP kcd110: SPIN_ON_SPINLOCK esi, kcd50,,DbgMp endif ; ; If ISR event tracing is on, note that it is and take a timestamp ; kcd120: mov ecx, [ecx]+PcPerfGlobalGroupMask cmp ecx, 0 ; catch race here jz kcd40 test dword ptr [ecx+PERF_INTERRUPT_OFFSET], PERF_INTERRUPT_FLAG jz kcd40 ; return if our flag is not set mov [esp+16], 1 ; records that ISR tracing is enabled PERF_GET_TIMESTAMP ; Places 64bit in edx:eax and trashes ecx mov [esp+8], eax ; Time saved on the stack mov [esp+12], edx jmp kcd40 ; ; Log the ISR, initial time, and return value. Also, get the timestamp for the ; next iteration. ; kcd130: push eax ; save the ISRs return value mov edx, eax ; pass ISRs return value mov eax, [esp+12] ; push the initial timestamp mov ecx, [esp+16] push ecx push eax mov ecx, InServiceRoutine[edi] fstCall PerfInfoLogInterrupt PERF_GET_TIMESTAMP ; Places 64bit in edx:eax and trashes ecx mov [esp+12], eax ; Time saved on the stack mov [esp+16], edx pop eax ; restore the ISRs return value jmp kcd57 ; ; ISR took a long time to complete, abort to debugger ; if DBG kcd200: push eax ; save return code push InServiceRoutine[edi] push offset FLAT:_MsgISRTimeout call _DbgPrint add esp,8 pop eax int 3 jmp kcd51 ; continue endif CHECK_INT_STORM_TAIL kcd, 2 stdENDP _KiChainedDispatch2ndLvl page ,132 subttl "Floating Dispatch" ;++ ; ; Routine Description: ; ; This routine is entered as the result of an interrupt being generated ; via a vector that is connected to an interrupt object. Its function is ; to save the machine state and floating state and then call the specified ; interrupt service routine. ; ; Arguments: ; ; edi - Supplies a pointer to the interrupt object. ; esp - Supplies a pointer to the top of trap frame ; ebp - Supplies a pointer to the top of trap frame ; ; Return Value: ; ; None. ; ;-- align 16 cPublicProc _KiFloatingDispatch ,0 .FPO (2, 0, 0, 0, 0, 1) ; ; update statistic ; inc dword ptr PCR[PcPrcbData+PbInterruptCount] ; set ebp to the top of trap frame. We don't need to save ebp because ; it is saved in trap frame already. ; mov ebp, esp ; (ebp)->trap frame ; ; Save previous IRQL and set new priority level to interrupt obj's SyncIrql ; mov eax, [edi].InVector mov ecx, [edi].InSynchronizeIrql ; Irql push eax ; save vector sub esp, 4 ; make room for OldIrql ; arg3 - ptr to OldIrql ; arg2 - vector ; arg1 - Irql stdCall _HalBeginSystemInterrupt, or eax, eax ; check for spurious int. jz kid_spuriousinterrupt sub esp, 12 ; make room for ISRTracingOn and InitialTime mov ecx, PCR[PcSelfPcr] ; get address of PCR cmp [ecx]+PcPerfGlobalGroupMask, 0 ; Is event tracing on? mov [ebp-12], 0 ; ISRTracingOn = 0 jne kfd110 ; ; Acquire the service routine spin lock and call the service routine. ; kfd30: mov esi,[edi+InActualLock] ACQUIRE_SPINLOCK esi,kfd100 ; ; Check for an interrupt storm on this interrupt object ; CHECK_INT_STORM kfd if DBG mov ebx, _KeTickCount ; Grab current tick time endif mov eax, InServiceContext[edi] ; set parameter value push eax push edi ; pointer to interrupt object CAPSTART <_KiFloatingDispatch,InServiceRoutine[edi]> call InServiceRoutine[edi] ; call specified routine CAPEND <_KiFloatingDispatch> if DBG add ebx, _KiISRTimeout ; adjust for ISR timeout cmp _KeTickCount, ebx ; Did ISR timeout? jnc kfd200 kfd31: endif ; ; Release the service routine spin lock. ; RELEASE_SPINLOCK esi cmp [ebp-12], 0 ; check if ISR logging is enabled jne kfd120 kfd40: add esp, 12 ; ; Do interrupt exit processing ; INTERRUPT_EXIT ; will do an iret ; ; Service routine Lock is currently owned; spin until free and ; then attempt to acquire lock again. ; ifndef NT_UP kfd100: SPIN_ON_SPINLOCK esi,kfd30,,DbgMp endif ; ; If ISR event tracing is on, collect a time stamp and record that we did. ; kfd110: mov ecx, [ecx]+PcPerfGlobalGroupMask cmp ecx, 0 ; catch race here jz kfd30 test dword ptr [ecx+PERF_INTERRUPT_OFFSET], PERF_INTERRUPT_FLAG jz kfd30 ; return if our flag is not set PERF_GET_TIMESTAMP ; Places 64bit in edx:eax and trashes ecx mov [ebp-16], eax ; Time saved on the stack mov [ebp-20], edx mov [ebp-12], 1 ; Records that timestamp is on stack jmp kfd30 ; ; Log the ISR, initial time, and return value ; kfd120: mov edx, eax ; pass ISRs return value mov eax, [ebp-16] ; push InitialTime mov ecx, [ebp-20] push ecx push eax mov ecx, InServiceRoutine[edi] fstCall PerfInfoLogInterrupt jmp kfd40 ; ; ISR took a long time to complete, abort to debugger ; if DBG kfd200: push InServiceRoutine[edi] ; timed out push offset FLAT:_MsgISRTimeout call _DbgPrint add esp,8 int 3 jmp kfd31 ; continue endif CHECK_INT_STORM_TAIL kfd, 1 stdENDP _KiFloatingDispatch page ,132 subttl "Interrupt Dispatch" ;++ ; ; Routine Description: ; ; This routine is entered as the result of an interrupt being generated ; via a vector that is connected to an interrupt object. Its function is ; to directly call the specified interrupt service routine. ; ; Arguments: ; ; edi - Supplies a pointer to the interrupt object. ; esp - Supplies a pointer to the top of trap frame ; ebp - Supplies a pointer to the top of trap frame ; ; Return Value: ; ; None. ; ;-- align 16 cPublicProc _KiInterruptDispatch ,0 .FPO (2, 0, 0, 0, 0, 1) ; ; update statistic ; inc dword ptr PCR[PcPrcbData+PbInterruptCount] ; ; set ebp to the top of trap frame. We don't need to save ebp because ; it is saved in trap frame already. ; mov ebp, esp ; (ebp)->trap frame ; ; Save previous IRQL and set new priority level ; mov eax, [edi].InVector ; save vector mov ecx, [edi].InSynchronizeIrql ; Irql to raise to push eax sub esp, 4 ; make room for OldIrql stdCall _HalBeginSystemInterrupt, or eax, eax ; check for spurious int. jz kid_spuriousinterrupt sub esp, 12 ; make room for ISRTracingOn and InitialTime mov ecx, PCR[PcSelfPcr] ; get address of PCR cmp [ecx]+PcPerfGlobalGroupMask, 0 mov [ebp-12], 0 ; ISRTracingOn = 0 jne kid110 ; check if ISR logging is enabled ; ; Acquire the service routine spin lock and call the service routine. ; kid30: mov esi,[edi+InActualLock] ACQUIRE_SPINLOCK esi,kid100 ; ; Check for an interrupt storm on this interrupt object ; CHECK_INT_STORM kid if DBG mov ebx, _KeTickCount endif mov eax, InServiceContext[edi] ; set parameter value push eax push edi ; pointer to interrupt object CAPSTART <_KiInterruptDispatch,InServiceRoutine[edi]> call InServiceRoutine[edi] ; call specified routine CAPEND <_KiInterruptDispatch> if DBG add ebx, _KiISRTimeout ; adjust for ISR timeout cmp _KeTickCount, ebx ; Did ISR timeout? jnc kid200 kid31: endif ; ; Release the service routine spin lock, retrieve the return address, ; deallocate stack storage, and return. ; RELEASE_SPINLOCK esi cmp [ebp-12], 0 ; check if ISR logging is enabled jne kid120 kid40: add esp, 12 ; ; Do interrupt exit processing ; kid32: INTERRUPT_EXIT ; will do an iret kid_spuriousinterrupt: add esp, 8 ; Irql wasn't raised, exit interrupt SPURIOUS_INTERRUPT_EXIT ; without eoi or lower irql ; ; Lock is currently owned; spin until free and then attempt to acquire ; lock again. ; ifndef NT_UP kid100: SPIN_ON_SPINLOCK esi,kid30,,DbgMp endif ; ; If ISR event tracing is on, collect a time stamp and record that we did. ; kid110: mov ecx, [ecx]+PcPerfGlobalGroupMask cmp ecx, 0 ; catch race here jz kid30 test dword ptr [ecx+PERF_INTERRUPT_OFFSET], PERF_INTERRUPT_FLAG jz kid30 ; return if our flag is not set PERF_GET_TIMESTAMP ; Places 64bit in edx:eax and trashes ecx mov [ebp-16], eax ; Time saved on the stack mov [ebp-20], edx mov [ebp-12], 1 ; Records that timestamp is on stack jmp kid30 ; ; Log the ISR, initial time, and return value ; kid120: mov edx, eax ; pass the ISRs return value mov eax, [ebp-16] ; push InitialTime mov ecx, [ebp-20] push ecx push eax mov ecx, InServiceRoutine[edi] fstCall PerfInfoLogInterrupt jmp kid40 ; ; ISR took a long time to complete, abort to debugger ; if DBG kid200: push InServiceRoutine[edi] ; timed out push offset FLAT:_MsgISRTimeout call _DbgPrint add esp,8 int 3 jmp kid31 ; continue endif CHECK_INT_STORM_TAIL kid, 0 stdENDP _KiInterruptDispatch ;++ ; ; Routine Description: ; ; This routine returns the addresses of kid30 and kid32 (above) so ; that they may be patched at system startup if ISR timing is enabled. ; this is to avoid making them public. ; ; Arguments: ; ; Arg0 - Supplies the address to receive the address of kid30. ; Arg1 - Supplies the address to receive the address of kid32. ; ; Return Value: ; ; None. ; ;-- cPublicProc _KiGetInterruptDispatchPatchAddresses, 2 mov ecx, [esp+4] mov dword ptr [ecx], offset FLAT:kid30 mov ecx, [esp+8] mov dword ptr [ecx], offset FLAT:kid32 stdRet _KiGetInterruptDispatchPatchAddresses stdENDP _KiGetInterruptDispatchPatchAddresses page ,132 subttl "Interrupt Template" ;++ ; ; Routine Description: ; ; This routine is a template that is copied into each interrupt object. Its ; function is to save machine state and pass the address of the respective ; interrupt object and transfer control to the appropriate interrupt ; dispatcher. ; ; Control comes here through i386 interrupt gate and, upon entry, the ; interrupt is disabled. ; ; Note: If the length of this template changed, the corresponding constant ; defined in Ki.h needs to be updated accordingly. ; ; Arguments: ; ; None ; ; Return Value: ; ; edi - addr of interrupt object ; esp - top of trap frame ; interrupts are disabled ; ;-- _KiShutUpAssembler proc public _KiInterruptTemplate _KiInterruptTemplate label byte ; Save machine state on trap frame ENTER_INTERRUPT kit_a, kit_t ; ; the following instruction gets the addr of associated interrupt object. ; the value ? will be replaced by REAL interrupt object address at ; interrupt object initialization time. ; mov edi, addr of interrupt object ; ; Template modifications made to support BBT, include replacing bogus ; insructions (created by db and dd) with real instructions. ; This stuff gets overwritten anyway. BBT just needs to see real instructions. public _KiInterruptTemplate2ndDispatch _KiInterruptTemplate2ndDispatch equ this dword mov edi,0 public _KiInterruptTemplateObject _KiInterruptTemplateObject equ this dword ; the following instruction transfers control to the appropriate dispatcher ; code. The value ? will be replaced by real InterruptObj.DispatchAddr ; at interrupt initialization time. The dispatcher routine will be any one ; of _KiInterruptDispatch, _KiFloatingDispatch, or _KiChainDispatch. ; jmp [IntObj.DispatchAddr] jmp _KeSynchronizeExecution public _KiInterruptTemplateDispatch _KiInterruptTemplateDispatch equ this dword ENTER_DR_ASSIST kit_a, kit_t ; end of _KiInterruptTemplate if ($ - _KiInterruptTemplate) GT DISPATCH_LENGTH .err %out endif _KiShutUpAssembler endp page ,132 subttl "Unexpected Interrupt" ;++ ; ; Routine Description: ; ; This routine is entered as the result of an interrupt being generated ; via a vector that is not connected to an interrupt object. ; ; For any unconnected vector, its associated 8259 irq is masked out at ; Initialization time. So, this routine should NEVER be called. ; If somehow, this routine gets control we simple raise a BugCheck and ; stop the system. ; ; Arguments: ; ; None ; Interrupt is disabled ; ; Return Value: ; ; None. ; ;-- public _KiUnexpectedInterrupt _KiUnexpectedInterrupt proc cPublicFpo 0,0 ; stop the system stdCall _KeBugCheck, nop _KiUnexpectedInterrupt endp _TEXT$00 ends end