Source code of Windows XP (NT5)
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

352 lines
11 KiB

TITLE "Interrupt Object Support Routines"
;++
;
; Copyright (c) 2000 Microsoft Corporation
;
; Module Name:
;
; intsup.asm
;
; Abstract:
;
; This module implements the platform specific code to support interrupt
; objects. It contains the interrupt dispatch code and the code template
; that gets copied into an interrupt object.
;
; Author:
;
; David N. Cutler (davec) 19-Jun-2000
;
; Environment:
;
; Kernel mode only.
;
;--
include ksamd64.inc
extern KeBugCheck:proc
extern KiInitiateUserApc:proc
extern __imp_HalEndSystemInterrupt:qword
subttl "Interrupt Exception Handler"
;++
;
; EXCEPTION_DISPOSITION
; KiInterruptHandler (
; IN PEXCEPTION_RECORD ExceptionRecord,
; IN PVOID EstablisherFrame,
; IN OUT PCONTEXT ContextRecord,
; IN OUT PDISPATCHER_CONTEXT DispatcherContext
; )
;
; Routine Description:
;
; This routine is the exception handler for the interrupt dispatcher. The
; dispatching or unwinding of an exception across an interrupt causes a
; bug check.
;
; Arguments:
;
; ExceptionRecord (rcx) - Supplies a pointer to an exception record.
;
; EstablisherFrame (rdx) - Supplies the frame pointer of the establisher
; of this exception handler.
;
; ContextRecord (r8) - Supplies a pointer to a context record.
;
; DispatcherContext (r9) - Supplies a pointer to the dispatcher context
; record.
;
; Return Value:
;
; There is no return from this routine.
;
;--
IhFrame struct
P1Home dq ? ; parameter home address
IhFrame ends
NESTED_ENTRY KiInterruptHandler, _TEXT$00
alloc_stack (sizeof IhFrame) ; allocate stack frame
END_PROLOGUE
mov ecx, INTERRUPT_UNWIND_ATTEMPTED ; set bug check code
test dword ptr ErExceptionFlags[rcx], EXCEPTION_UNWIND ; test for unwind
jnz short KiIH10 ; if nz, unwind in progress
mov ecx, INTERRUPT_EXCEPTION_NOT_HANDLED ; set bug check code
KiIH10: call KeBugCheck ; bug check - no return
nop ; fill - do not remove
NESTED_END KiInterruptHandler, _TEXT$00
subttl "Chained Dispatch"
;++
;
; VOID
; KiChainedDispatch (
; VOID
; );
;
; 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:
;
; rbp - Supplies a pointer to the interrupt object.
;
; Return Value:
;
; None.
;
;--
NESTED_ENTRY KiChainedDispatch, _TEXT$00, KiInterruptHandler
.pushframe code ; mark machine frame
.pushreg rbp ; mark mark nonvolatile register push
GENERATE_INTERRUPT_FRAME ; generate interrupt frame
movzx ecx, byte ptr InIrql[rsi] ; set interrupt IRQL
ENTER_INTERRUPT <NoEOI> ; raise IRQL and enable interrupts
call KiScanInterruptObjectList ; scan interrupt object list
EXIT_INTERRUPT ; do EOI, lower IRQL, and restore state
NESTED_END KiChainedDispatch, _TEXT$00
subttl "Scan Interrupt Object List"
;++
;
; Routine Description:
;
; This routine scans the list of interrupt objects for chained interrupt
; dispatch. If the mode of the interrupt is latched, then a complete scan
; of the list must be performed. Otherwise, the scan can be cut short as
; soon as an interrupt routine returns
;
; Arguments:
;
; rsi - Supplies a pointer to the interrupt object.
;
; Return Value:
;
; None.
;
;--
SiFrame struct
P1Home dq ? ; interrupt object parameter
P2Home dq ? ; service context parameter
Return db ? ; service routine return value
Fill db 15 dup (?) ; fill
SavedRbx dq ? ; saved register RBX
SavedRdi dq ? ; saved register RDI
SavedR12 dq ? ; saved register RSI
SiFrame ends
NESTED_ENTRY KiScanInterruptObjectList, _TEXT$00
push_reg r12 ; save nonvolatile registers
push_reg rdi ;
push_reg rbx ;
alloc_stack (sizeof SiFrame - (3 * 8)) ; allocate stack frame
END_PROLOGUE
lea rbx, InInterruptListEntry[rsi] ; get list head address
mov r12, rbx ; set address of first list entry
;
; Scan the list of connected interrupt objects and call the service routine.
;
Si05: xor edi, edi ; clear interrupt handled flag
Si10: sub r12, InInterruptListEntry ; compute interrupt object address
movzx ecx, byte ptr InSynchronizeIrql[r12] ; get synchronization IRQL
cmp cl, InIrql[rsi] ; check if equal interrupt IRQL
je short Si20 ; if e, IRQL levels equal
SetIrql ; set IRQL to synchronization level
Si20: AcquireSpinLock InActualLock[r12] ; acquire interrupt spin lock
mov rcx, r12 ; set interrupt object parameter
mov rdx, InServiceContext[r12] ; set context parameter
call qword ptr InServiceRoutine[r12] ; call interrupt service routine
mov SiFrame.Return[rsp], al ; save return value
ReleaseSpinLock InActualLock[r12] ; release interrupt spin lock
movzx ecx, byte ptr InIrql[rsi] ; get interrupt IRQL
cmp cl, InSynchronizeIrql[r12] ; check if equal synchronization IRQL
je short Si30 ; if e, IRQL levels equal
SetIrql ; set IRQL to interrupt level
Si30: test byte ptr SiFrame.Return[rsp], 0ffh ; test if interrupt handled
jz short Si40 ; if z, interrupt not handled
cmp word ptr InMode[r12], InLatched ; check if latched interrupt
jne short Si50 ; if ne, not latched interrupt
inc edi ; indicate latched interrupt handled
Si40: mov r12, InInterruptListEntry[r12] ; get next interrupt list entry
cmp r12, rbx ; check if end of list
jne Si10 ; if ne, not end of list
;
; The complete interrupt object list has been scanned. This can only happen
; if the interrupt is a level sensitive interrupt and no interrupt was handled
; or the interrupt is a latched interrupt. Therefore, if any interrupt was
; handled it was a latched interrupt and the list needs to be scanned again
; to ensure that no interrupts are lost.
;
test edi, edi ; test if any interrupts handled
jnz Si05 ; if nz, latched interrupt handled
Si50: add rsp, sizeof SiFrame - (3 * 8) ; deallocate stack frame
pop rbx ; restore nonvolatile register
pop rdi ;
pop r12 ;
ret ;
NESTED_END KiscanInterruptObjectList, _TEXT$00
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.
;
; N.B. On entry rbp and rsi have been saved on the stack.
;
; Arguments:
;
; rbp - Supplies a pointer to the interrupt object.
;
; Return Value:
;
; None.
;
;--
NESTED_ENTRY KiInterruptDispatch, _TEXT$00, KiInterruptHandler
.pushframe code ; mark machine frame
.pushreg rbp ; mark mark nonvolatile register push
GENERATE_INTERRUPT_FRAME ; generate interrupt frame
;
; N.B. It is possible for a interrupt to occur at an IRQL that is lower
; than the current IRQL. This happens when the IRQL raised and at
; the same time an interrupt request is granted.
;
movzx ecx, byte ptr InIrql[rsi] ; set interrupt IRQL
ENTER_INTERRUPT <NoEOI> ; raise IRQL and enable interrupts
lea rax, (-128)[rbp] ; set trap frame address
mov InTrapFrame[rsi], rax ;
AcquireSpinLock InActualLock[rsi] ; acquire interrupt spin lock
mov rcx, rsi ; set address of interrupt object
mov rdx, InServiceContext[rsi] ; set service context
call qword ptr InServiceRoutine[rsi] ; call interrupt service routine
ReleaseSpinLock InActualLock[rsi] ; release interrupt spin lock
EXIT_INTERRUPT ; do EOI, lower IRQL, and restore state
NESTED_END KiInterruptDispatch, _TEXT$00
subttl "Disable Processor Interrupts"
;++
;
; BOOLEAN
; KeDisableInterrupts(
; VOID
; )
;
; Routine Description:
;
; This function saves the state of the interrupt enable flag, clear the
; state of the interrupt flag (disables interrupts), and return the old
; inerrrupt enable flag state.
;
; Arguments:
;
; None.
;
; Return Value:
;
; If interrupts were previously enabled, then 1 is returned as the function
; value. Otherwise, 0 is returned.
;
;--
DiFrame struct
Flags dd ? ; processor flags
Fill dd ? ; fill
DiFrame ends
NESTED_ENTRY KeDisableInterrupts, _TEXT$00
push_eflags ; push processor flags
END_PROLOGUE
mov eax, DiFrame.Flags[rsp] ; isolate interrupt enable bit
shr eax, EFLAGS_IF_SHIFT ;
and al, 1 ;
cli ; disable interrupts
add rsp, sizeof DiFrame ; deallocate stack frame
ret ; return
NESTED_END KeDisableInterrupts, _TEXT$00
subttl "Interrupt Template"
;++
;
; Routine Description:
;
; This routine is a template that is copied into each interrupt object.
; Its function is to save volatile machine state, compute the interrupt
; object address, and transfer control to the appropriate interrupt
; dispatcher.
;
; N.B. Interrupts are disabled on entry to this routine.
;
; Arguments:
;
; None.
;
; Return Value:
;
; N.B. Control does not return to this routine. The respective interrupt
; dispatcher dismisses the interrupt directly.
;
;--
LEAF_ENTRY KiInterruptTemplate, _TEXT$00
push rax ; push dummy vector number
push rbp ; save nonvolatile register
lea rbp, KiInterruptTemplate - InDispatchCode ; get interrupt object address
jmp qword ptr InDispatchAddress[rbp] ; finish in common code
LEAF_END KiInterruptTemplate, _TEXT$00
end