reactos/ntoskrnl/ke/amd64/trap.S
Timo Kreuzer 3021c2d571 [NTOS:MM] Pass page fault code to MmAccessFault
Note: before we had a BOOLEAN parameter called StoreInstruction, but in reality it was not specifying whether the fault was from a store store instruction, but whether it was an access violation rather than a page-not-present fault. On x86 without PAE there are only 2 kinds of access violations: (1) Access of a kernel mode page from user mode, which is handled early and (2) access of a read-only (or COW) page with a writing instruction. Therefore we could get away with this, even though it relied on the wrong assumption that a fault, which was not a page-not-present-fault, was automatically a write access. This commit only changes one thing: we pass the full fault-code to MmAccessFault and handle the rest from there in exactly the same way as before. More changes are coming to make things clear.
2018-01-06 18:20:24 +01:00

1059 lines
24 KiB
ArmAsm

/*
* FILE: ntoskrnl/ke/amd64/trap.S
* COPYRIGHT: See COPYING in the top level directory
* PURPOSE: System Traps, Entrypoints and Exitpoints
* PROGRAMMER: Timo Kreuzer (timo.kreuzer@reactos.org)
*/
/* INCLUDES ******************************************************************/
#include <asm.inc>
#include <ksamd64.inc>
#include <trapamd64.inc>
EXTERN KiDispatchException:PROC
EXTERN FrLdrDbgPrint:DWORD
EXTERN KeBugCheckWithTf:PROC
EXTERN MmAccessFault:PROC
EXTERN KiSystemFatalException:PROC
EXTERN KiNpxNotAvailableFaultHandler:PROC
EXTERN KiGeneralProtectionFaultHandler:PROC
EXTERN KiXmmExceptionHandler:PROC
EXTERN KiDeliverApc:PROC
EXTERN KiDpcInterruptHandler:PROC
#ifdef _WINKD_
EXTERN KdSetOwedBreakpoints:PROC
#endif
/* GLOBALS *******************************************************************/
.data
PUBLIC MsgUnimplemented
MsgUnimplemented:
.asciz "WARNING: %s at %s:%d is UNIMPLEMENTED!\n"
MsgPageFault:
.asciz "Page fault! Code = 0x%x, RIP = %p, FaultingAddress = %p\n"
MsgGeneralProtFault:
.asciz "General protection fault at %p!\n"
MsgBreakpointTrap:
.asciz "BreakpointTrap at %p\n"
MsgUnexpectedInterrupt:
.asciz "UnexpectedInterrupt Vector=0x%02lx\n"
MsgInvalidOpcodeFault:
.asciz "Invalid opcode fault at %p!\n"
MsgDoubleFault:
.asciz "Double fault at %p, rbp=%p!\n"
MsgTrapInfo:
.asciz "Trap: %s at %p\n"
MACRO(TRAPINFO, func)
LOCAL label1, label2
#if 0
jmp label2
label1: .asciz "\func"
label2:
push rax
push rcx
push rdx
push r8
push r9
push r10
push r11
sub rsp, 32
lea rcx, MsgTrapInfo[rip]
lea rdx, 1b[rip]
mov r8, [rbp + KTRAP_FRAME_Rip]
call qword ptr FrLdrDbgPrint[rip]
pop r11
pop r10
pop r9
pop r8
pop rdx
pop rcx
pop rax
add rsp, 32
#endif
ENDM
/* Helper Macros *************************************************************/
MACRO(DispatchException, Status, Number, P1, P2, P3)
mov eax, Status
mov edx, Number
mov r9, P1
mov r10, P2
mov r11, P3
call InternalDispatchException
ENDM
MACRO(Fatal, BugcheckCode)
/* Bugcheck */
mov ecx, BugcheckCode
mov rdx, rbp
call KiSystemFatalException
ENDM
/* FUNCTIONS *****************************************************************/
.code64
ALIGN 8
MACRO(UnexpectedVectorStub, Vector)
/* This nop is to make the relative jmp address 4 bytes aligned and to
make the whole code 8 bytes long */
nop
/* This is a push instruction with 8bit operand. Since the instruction
sign extends the value to 32 bits, we need to offset it */
PUBLIC KxUnexpectedInterrupt&Vector
KxUnexpectedInterrupt&Vector:
push (Vector - 128)
jmp KiUnexpectedInterrupt
ENDM
PUBLIC KiUnexpectedRange
KiUnexpectedRange:
Vector = 0
REPEAT 256
UnexpectedVectorStub %Vector
Vector = Vector+1
ENDR
PUBLIC KiUnexpectedRangeEnd
KiUnexpectedRangeEnd:
PUBLIC KiInterruptDispatchTemplate
KiInterruptDispatchTemplate:
/* This instruction pushes the return address on the stack, which is the
address of the interrupt object's DispatchCode member, then jumps
to the address stored in the interrupt object's DispatchAddress member */
call qword ptr KiInterruptDispatchTemplate[rip - KINTERRUPT_DispatchCode + KINTERRUPT_DispatchAddress]
// rbp = TrapFrame, eax = ExceptionCode, edx = NumParams, r9,r10,r11 = params
FUNC InternalDispatchException
/* Allocate stack space for EXCEPTION_RECORD and KEXCEPTION_FRAME */
sub rsp, EXCEPTION_RECORD_LENGTH + KEXCEPTION_FRAME_LENGTH
.allocstack (EXCEPTION_RECORD_LENGTH + KEXCEPTION_FRAME_LENGTH)
.endprolog
/* Set up EXCEPTION_RECORD */
lea rcx, [rsp + KEXCEPTION_FRAME_LENGTH]
mov [rcx + EXCEPTION_RECORD_ExceptionCode], eax
xor rax, rax
mov [rcx + EXCEPTION_RECORD_ExceptionFlags], eax
mov [rcx + EXCEPTION_RECORD_ExceptionRecord], rax
mov rax, [rbp + KTRAP_FRAME_Rip]
mov [rcx + EXCEPTION_RECORD_ExceptionAddress], rax
mov [rcx + EXCEPTION_RECORD_NumberParameters], edx
mov [rcx + EXCEPTION_RECORD_ExceptionInformation + HEX(00)], r9
mov [rcx + EXCEPTION_RECORD_ExceptionInformation + HEX(08)], r10
mov [rcx + EXCEPTION_RECORD_ExceptionInformation + HEX(10)], r11
/* Set up KEXCEPTION_FRAME */
mov rax, [rbp + KTRAP_FRAME_Rbp]
mov [rsp + KEXCEPTION_FRAME_Rbp], rax
mov [rsp + KEXCEPTION_FRAME_Rbx], rbx
mov [rsp + KEXCEPTION_FRAME_Rdi], rdi
mov [rsp + KEXCEPTION_FRAME_Rsi], rsi
mov [rsp + KEXCEPTION_FRAME_R12], r12
mov [rsp + KEXCEPTION_FRAME_R13], r13
mov [rsp + KEXCEPTION_FRAME_R14], r14
mov [rsp + KEXCEPTION_FRAME_R15], r15
movdqa [rsp + KEXCEPTION_FRAME_Xmm6], xmm6
movdqa [rsp + KEXCEPTION_FRAME_Xmm7], xmm7
movdqa [rsp + KEXCEPTION_FRAME_Xmm8], xmm8
movdqa [rsp + KEXCEPTION_FRAME_Xmm9], xmm9
movdqa [rsp + KEXCEPTION_FRAME_Xmm10], xmm10
movdqa [rsp + KEXCEPTION_FRAME_Xmm11], xmm11
movdqa [rsp + KEXCEPTION_FRAME_Xmm12], xmm12
movdqa [rsp + KEXCEPTION_FRAME_Xmm13], xmm13
movdqa [rsp + KEXCEPTION_FRAME_Xmm14], xmm14
movdqa [rsp + KEXCEPTION_FRAME_Xmm15], xmm15
mov qword ptr [rsp + KEXCEPTION_FRAME_Return], 0
/* Call KiDispatchException */
// rcx already points to ExceptionRecord
mov rdx, rsp // ExceptionFrame
mov r8, rbp // TrapFrame
mov r9b, [r8 + KTRAP_FRAME_PreviousMode] // PreviousMode
mov byte ptr [rsp + KEXCEPTION_FRAME_P5], 1 // FirstChance
call KiDispatchException
/* Restore registers */
mov r12, [rsp + KEXCEPTION_FRAME_R12]
mov r13, [rsp + KEXCEPTION_FRAME_R13]
mov r14, [rsp + KEXCEPTION_FRAME_R14]
mov r15, [rsp + KEXCEPTION_FRAME_R15]
movdqa xmm6, [rsp + KEXCEPTION_FRAME_Xmm6]
movdqa xmm7, [rsp + KEXCEPTION_FRAME_Xmm7]
movdqa xmm8, [rsp + KEXCEPTION_FRAME_Xmm8]
movdqa xmm9, [rsp + KEXCEPTION_FRAME_Xmm9]
movdqa xmm10, [rsp + KEXCEPTION_FRAME_Xmm10]
movdqa xmm11, [rsp + KEXCEPTION_FRAME_Xmm11]
movdqa xmm12, [rsp + KEXCEPTION_FRAME_Xmm12]
movdqa xmm13, [rsp + KEXCEPTION_FRAME_Xmm13]
movdqa xmm14, [rsp + KEXCEPTION_FRAME_Xmm14]
movdqa xmm15, [rsp + KEXCEPTION_FRAME_Xmm15]
add rsp, EXCEPTION_RECORD_LENGTH + KEXCEPTION_FRAME_LENGTH
ret
ENDFUNC
/* CPU EXCEPTION HANDLERS ****************************************************/
PUBLIC KiDivideErrorFault
FUNC KiDivideErrorFault
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
/* Enable interrupts */
sti
/* Dispatch the exception */
DispatchException STATUS_INTEGER_DIVIDE_BY_ZERO, 0, 0, 0, 0
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiDebugTrapOrFault
FUNC KiDebugTrapOrFault
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
TRAPINFO KiDebugTrapOrFault
/* Check if the frame was from kernelmode */
test word ptr [rbp + KTRAP_FRAME_SegCs], 3
jz KiDebugTrapOrFaultKMode
/* Enable interrupts for user-mode */
sti
KiDebugTrapOrFaultKMode:
/* Dispatch the exception */
DispatchException STATUS_SINGLE_STEP, 0, 0, 0, 0
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiNmiInterrupt
FUNC KiNmiInterrupt
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
UNIMPLEMENTED KiNmiInterrupt
int 3
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiBreakpointTrap
FUNC KiBreakpointTrap
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
/* Check if the frame was from kernelmode */
test word ptr [rbp + KTRAP_FRAME_SegCs], 3
jz KiBreakpointTrapKMode
/* Enable interrupts for user-mode */
sti
KiBreakpointTrapKMode:
/* Dispatch the exception */
DispatchException STATUS_BREAKPOINT, 3, BREAKPOINT_BREAK, 0, 0
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiOverflowTrap
FUNC KiOverflowTrap
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
/* Enable interrupts */
sti
/* Dispatch the exception */
DispatchException STATUS_INTEGER_OVERFLOW, 3, 0, 0, 0
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiBoundFault
FUNC KiBoundFault
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
/* Check if the frame was from kernelmode */
test word ptr [rbp + KTRAP_FRAME_SegCs], 3
jnz KiBoundFaultUserMode
/* Bugcheck */
Fatal EXCEPTION_BOUND_CHECK
KiBoundFaultUserMode:
/* Enable interrupts for user-mode */
sti
/* Dispatch the exception */
DispatchException STATUS_ARRAY_BOUNDS_EXCEEDED, 0, 0, 0, 0
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiInvalidOpcodeFault
FUNC KiInvalidOpcodeFault
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
TRAPINFO KiInvalidOpcodeFault
mov rdx, [rbp + KTRAP_FRAME_Rip]
lea rcx, MsgInvalidOpcodeFault[rip]
call qword ptr FrLdrDbgPrint[rip]
/* Enable interrupts */
sti
/* Check if the frame was from kernelmode */
test word ptr [rbp + KTRAP_FRAME_SegCs], 3
jz KiInvalidOpcodeKernel
// FIXME: handle STATUS_INVALID_LOCK_SEQUENCE
KiInvalidOpcodeKernel:
/* Kernel mode fault */
/* Dispatch the exception */
DispatchException STATUS_ILLEGAL_INSTRUCTION, 3, 0, 0, 0
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiNpxNotAvailableFault
FUNC KiNpxNotAvailableFault
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
/* Call the C handler */
mov rcx, rbp
call KiNpxNotAvailableFaultHandler
/* Check the return status code */
test eax, eax
jz KiNpxNotAvailableFaultExit
/* Dispatch the exception */
DispatchException eax, 3, 0, 0, 0
KiNpxNotAvailableFaultExit:
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiDoubleFaultAbort
FUNC KiDoubleFaultAbort
/* A zero error code is pushed */
EnterTrap (TF_HAS_ERROR_CODE OR TF_SAVE_ALL)
lea rcx, MsgDoubleFault[rip]
mov rdx, [rbp + KTRAP_FRAME_FaultAddress]
mov r8, rbp
call qword ptr FrLdrDbgPrint[rip]
/* Bugcheck */
Fatal 8 // EXCEPTION_DOUBLE_FAULT
jmp $
ENDFUNC
PUBLIC KiNpxSegmentOverrunAbort
FUNC KiNpxSegmentOverrunAbort
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
/* Bugcheck */
Fatal EXCEPTION_NPX_OVERRUN
jmp $
ENDFUNC
PUBLIC KiInvalidTssFault
FUNC KiInvalidTssFault
/* We have an error code */
EnterTrap (TF_HAS_ERROR_CODE OR TF_SAVE_ALL)
/* Bugcheck */
Fatal EXCEPTION_INVALID_TSS
jmp $
ENDFUNC
PUBLIC KiSegmentNotPresentFault
FUNC KiSegmentNotPresentFault
/* We have an error code */
EnterTrap (TF_HAS_ERROR_CODE OR TF_SAVE_ALL)
/* Bugcheck */
Fatal EXCEPTION_SEGMENT_NOT_PRESENT
jmp $
ENDFUNC
PUBLIC KiStackFault
FUNC KiStackFault
/* We have an error code */
EnterTrap (TF_HAS_ERROR_CODE OR TF_SAVE_ALL)
/* Bugcheck */
Fatal EXCEPTION_STACK_FAULT
jmp $
ENDFUNC
PUBLIC KiGeneralProtectionFault
FUNC KiGeneralProtectionFault
/* We have an error code */
EnterTrap (TF_HAS_ERROR_CODE OR TF_SAVE_ALL)
//TRAPINFO KiGeneralProtectionFault
//mov rdx, [rbp + KTRAP_FRAME_Rip]
//lea rcx, MsgGeneralProtFault[rip]
//call qword ptr FrLdrDbgPrint[rip]
/* Call the C handler */
mov rcx, rbp
call KiGeneralProtectionFaultHandler
/* Check for success */
test eax, eax
jge KiGpfExit
/* Dispatch the exception */
DispatchException eax, 3, 0, 0, 0
KiGpfFatal:
/* Bugcheck */
mov ecx, UNEXPECTED_KERNEL_MODE_TRAP
mov rdx, HEX(000D) // EXCEPTION_GP_FAULT
xor r8, r8
mov r9, [rbp + KTRAP_FRAME_ErrorCode] // error code
sub rsp, 8
mov [rsp + KTRAP_FRAME_P5+8], rbp // trap frame
call KeBugCheckWithTf
KiGpfExit:
/* Return */
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiPageFault
FUNC KiPageFault
/* We have an error code */
EnterTrap (TF_HAS_ERROR_CODE OR TF_SAVE_ALL)
TRAPINFO KiPageFault
#if 0
lea rcx, MsgPageFault[rip]
mov rdx, [rbp + KTRAP_FRAME_ErrorCode]
mov r8, [rbp + KTRAP_FRAME_Rip]
mov r9, [rbp + KTRAP_FRAME_FaultAddress]
call qword ptr FrLdrDbgPrint[rip]
#endif
/* Save page fault address */
mov rdx, cr2
mov [rbp + KTRAP_FRAME_FaultAddress], rdx
/* Enable interrupts for the page fault handler */
sti
/* Call page fault handler */
mov ecx, [rbp + KTRAP_FRAME_ErrorCode] // FaultCode
// rdx == Address
mov r8b, [rbp + KTRAP_FRAME_SegCs] // Mode
and r8b, 1
mov r9, rbp // TrapInformation
call MmAccessFault
/* Check for success */
test eax, eax
#ifndef _WINKD_
jge PageFaultReturn
#else
jl PageFaultError
/* Check whether the kernel debugger has owed breakpoints to be inserted */
call KdSetOwedBreakpoints
/* We succeeded, return */
jmp PageFaultReturn
PageFaultError:
#endif
/* Disable interrupts again for the debugger */
cli
/* Set parameter 1 to error code */
mov r9d, [rbp + KTRAP_FRAME_ErrorCode]
/* Set parameter2 to faulting address */
mov r10, cr2 // Param2 = faulting address
cmp eax, STATUS_ACCESS_VIOLATION
je AccessViolation
cmp eax, STATUS_GUARD_PAGE_VIOLATION
je SpecialCode
cmp eax, STATUS_STACK_OVERFLOW
je SpecialCode
InPageException:
/* Dispatch in-page exception */
mov r11d, eax // Param3 = Status
mov eax, STATUS_IN_PAGE_ERROR // ExceptionCode
mov edx, 3 // ParamCount
call InternalDispatchException
jmp PageFaultReturn
AccessViolation:
/* Use more proper status code */
mov eax, KI_EXCEPTION_ACCESS_VIOLATION
SpecialCode:
/* Setup a normal page fault exception */
mov edx, 2 // ParamCount
call InternalDispatchException
PageFaultReturn:
/* Return */
ExitTrap (TF_SAVE_ALL or TF_CHECKUSERAPC)
ENDFUNC
PUBLIC KiFloatingErrorFault
FUNC KiFloatingErrorFault
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
UNIMPLEMENTED KiFloatingErrorFault
int 3
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiAlignmentFault
FUNC KiAlignmentFault
/* We have an error code */
EnterTrap (TF_HAS_ERROR_CODE OR TF_SAVE_ALL)
/* Bugcheck */
Fatal EXCEPTION_ALIGNMENT_CHECK
jmp $
ENDFUNC
PUBLIC KiMcheckAbort
FUNC KiMcheckAbort
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
/* Bugcheck */
Fatal HEX(12)
jmp $
ENDFUNC
PUBLIC KiXmmException
FUNC KiXmmException
/* Push pseudo error code */
EnterTrap TF_SAVE_ALL
/* Call the C handler */
mov rcx, rbp
call KiXmmExceptionHandler
/* Check for success */
test eax, eax
jge KiXmmExit
/* Dispatch the exception */
DispatchException eax, 3, 0, 0, 0
KiXmmExit:
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
/* SOFTWARE INTERRUPT SERVICES ***********************************************/
PUBLIC KiRaiseAssertion
FUNC KiRaiseAssertion
/* We have an error code */
EnterTrap (TF_SAVE_ALL)
/* Decrement RIP to point to the INT2C instruction (2 bytes, not 1 like INT3) */
sub qword ptr [rbp + KTRAP_FRAME_Rip], 2
/* Dispatch the exception */
DispatchException STATUS_ASSERTION_FAILURE, 0, 0, 0, 0
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiDebugServiceTrap
FUNC KiDebugServiceTrap
/* No error code */
EnterTrap TF_SAVE_ALL
TRAPINFO KiDebugServiceTrap
/* Increase Rip to skip the int3 */
inc qword ptr [rbp + KTRAP_FRAME_Rip]
/* Dispatch the exception (Params = service, buffer, legth) */
DispatchException STATUS_BREAKPOINT, 3, [rbp+KTRAP_FRAME_Rax], [rbp+KTRAP_FRAME_Rcx], [rbp+KTRAP_FRAME_Rdx]
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiApcInterrupt
.PROC KiApcInterrupt
/* No error code */
EnterTrap (TF_VOLATILES or TF_IRQL)
/* Raise to APC_LEVEL */
mov rax, APC_LEVEL
mov cr8, rax
/* End the interrupt */
mov dword ptr [APIC_EOI], 0
/* Enable interrupts */
sti
/* Call the worker routine */
mov cl, [rbp + KTRAP_FRAME_SegCs] // ProcessorMode
and cl, 1
mov rdx, 0 // ExceptionFrame
mov r8, rdx // TrapFrame
call KiDeliverApc
/* Disable interrupts */
cli
/* Lower IRQL back to PASSIVE */
mov rax, PASSIVE_LEVEL
mov cr8, rax
/* Return */
ExitTrap (TF_VOLATILES or TF_IRQL)
.ENDP
EXTERN KiRetireDpcList:PROC
PUBLIC KiRetireDpcListInDpcStack
.PROC KiRetireDpcListInDpcStack
push rbp
.pushreg rbp
mov rbp, rsp
.setframe rbp, 0
.endprolog
/* Switch stack and call the function */
mov rsp, rdx
sub rsp, 40
call KiRetireDpcList
/* Restore stack, cleanup and return */
mov rsp, rbp
pop rbp
ret
.ENDP
PUBLIC KiDpcInterrupt
.PROC KiDpcInterrupt
/* No error code */
EnterTrap (TF_VOLATILES or TF_IRQL)
/* Call the worker routine */
call KiDpcInterruptHandler
/* Return, but don't send an EOI! */
ExitTrap (TF_VOLATILES or TF_IRQL)
.ENDP
PUBLIC KiIpiInterrupt
.PROC KiIpiInterrupt
/* No error code */
EnterTrap (TF_VOLATILES or TF_IRQL)
/* Raise to IPI_LEVEL */
mov rax, IPI_LEVEL
mov cr8, rax
/* End the interrupt */
mov dword ptr [APIC_EOI], 0
int 3
/* Return */
ExitTrap (TF_VOLATILES or TF_IRQL)
.ENDP
PUBLIC KiUnexpectedInterrupt
FUNC KiUnexpectedInterrupt
/* The error code is the vector */
EnterTrap (TF_HAS_ERROR_CODE OR TF_SAVE_ALL)
#if 0
/* Set bugcheck parameters */
mov ecx, TRAP_CAUSE_UNKNOWN
mov rdx, [rbp + KTRAP_FRAME_ErrorCode] // the vector
mov r8, 0 // The unknown floating-point exception
mov r9, 0 // The enabled and asserted status bits
sub rsp, 8
mov [rbp + KTRAP_FRAME_P5 + 8], rbp // trap frame
call KeBugCheckWithTf
jmp $
#endif
/* Return */
ExitTrap TF_SAVE_ALL
ENDFUNC
PUBLIC KiInterruptDispatch
FUNC KiInterruptDispatch
/* The error code is a pointer to the interrupt object's code */
EnterTrap (TF_HAS_ERROR_CODE or TF_SAVE_ALL or TF_IRQL)
/* Increase interrupt count */
inc dword ptr gs:[PcInterruptCount];
/* Load the address of the interrupt object into rcx */
mov rcx, [rbp + KTRAP_FRAME_ErrorCode]
/* Substract offset of the DispatchCode member plus 6 for the call instruction */
sub rcx, KINTERRUPT_DispatchCode + 6
/* Raise IRQL to SynchronizeIrql */
movzx rax, byte ptr [rcx + KINTERRUPT_SynchronizeIrql]
mov cr8, rax
#ifdef CONFIG_SMP
/* Acquire interrupt lock */
mov r8, [rcx + KINTERRUPT_ActualLock]
//KxAcquireSpinLock(Interrupt->ActualLock);
#endif
/* Call the ISR */
mov rdx, [rcx + KINTERRUPT_ServiceContext]
call qword ptr [rcx + KINTERRUPT_ServiceRoutine]
#ifdef CONFIG_SMP
/* Release interrupt lock */
//KxReleaseSpinLock(Interrupt->ActualLock);
#endif
/* Go back to old irql */
movzx rax, byte ptr [rbp + KTRAP_FRAME_PreviousIrql]
mov cr8, rax
/* Return */
ExitTrap (TF_SAVE_ALL or TF_SEND_EOI)
ENDFUNC
#define MAX_SYSCALL_PARAM_SIZE (16 * 8)
#define HOME_SIZE 6*8
#define SYSCALL_ALLOCATION (MAX_SYSCALL_PARAM_SIZE + HOME_SIZE)
EXTERN KiSystemCallHandler:PROC
/*! \name KiSystemCallEntry64
*
* \brief This is the entrypoint for syscalls from 64bit user mode
*
* \param rax - The system call number
* \param rcx - User mode return address, set by the syscall instruction
* \param rdx,r8,r9 - Parameters 2-4 to the service function
* \param r10 - Parameter 1 to the service function
* \param r11 - RFLAGS saved by the syscall instruction
*--*/
PUBLIC KiSystemCallEntry64
.PROC KiSystemCallEntry64
/* Old stack pointer is in rcx, lie and say we saved it in rbp */
.setframe rbp, 0
.endprolog
/* Swap gs to kernel, so we can access the PCR */
swapgs
/* Save the user mode rsp in the PCR */
mov gs:[PcUserRsp], rsp
/* Get the kernel stack from the PCR */
mov rsp, gs:[PcRspBase]
/* Allocate a TRAP_FRAME and space for parameters */
sub rsp, (KTRAP_FRAME_LENGTH + MAX_SYSCALL_PARAM_SIZE + HOME_SIZE)
#if DBG
/* Save rbp and load it with the old stack pointer */
mov [rsp + HOME_SIZE + MAX_SYSCALL_PARAM_SIZE + HOME_SIZE + KTRAP_FRAME_Rbp], rbp
mov rbp, gs:[PcUserRsp]
#endif
/* Save important volatiles in the trap frame */
mov [rsp + HOME_SIZE + MAX_SYSCALL_PARAM_SIZE + KTRAP_FRAME_Rax], rax
mov [rsp + HOME_SIZE + MAX_SYSCALL_PARAM_SIZE + KTRAP_FRAME_Rcx], rcx
mov [rsp + HOME_SIZE + MAX_SYSCALL_PARAM_SIZE + KTRAP_FRAME_R10], r10
mov [rsp + HOME_SIZE + MAX_SYSCALL_PARAM_SIZE + KTRAP_FRAME_R11], r11
/* Set sane segments */
mov ax, (KGDT64_R3_DATA or RPL_MASK)
mov ds, ax
mov es, ax
/* Call the C-handler (will enable interrupts) */
lea rcx, [rsp + SYSCALL_ALLOCATION]
call KiSystemCallHandler
/* Deallocate the handlers home stack frame */
add rsp, HOME_SIZE
/* The return value is the address of the Nt-function */
mov rcx, [rsp + 0]
mov rdx, [rsp + 8]
mov r8, [rsp + 16]
mov r9, [rsp + 24]
call rax
#if DBG
/* Restore rbp */
mov rbp, [rsp + SYSCALL_ALLOCATION + KTRAP_FRAME_Rbp]
#endif
/* Disable interrupts for return */
cli
/* Restore old trap frame */
mov rcx, gs:[PcCurrentThread]
mov rdx, [rsp + MAX_SYSCALL_PARAM_SIZE + KTRAP_FRAME_TrapFrame]
mov [rcx + KTHREAD_TrapFrame], rdx
/* Prepare user mode return address (rcx) and eflags (r11) for sysret */
mov rcx, [rsp + MAX_SYSCALL_PARAM_SIZE + KTRAP_FRAME_Rcx]
mov r11, [rsp + MAX_SYSCALL_PARAM_SIZE + KTRAP_FRAME_R11]
/* Load user mode stack (It was copied to the trap frame) */
mov rsp, [rsp + MAX_SYSCALL_PARAM_SIZE + KTRAP_FRAME_Rsp]
/* Swap gs back to user */
swapgs
/* return to user mode */
.byte HEX(48) // REX prefix to return to long mode
sysret
.ENDP
PUBLIC KiSystemCallEntry32
KiSystemCallEntry32:
swapgs
int 3
PUBLIC KiZwSystemService
FUNC KiZwSystemService
push rbp
.pushreg rbp
sub rsp, KTRAP_FRAME_LENGTH
.allocstack KTRAP_FRAME_LENGTH
mov [rsp + KTRAP_FRAME_Rsi], rsi
.savereg rsi, KTRAP_FRAME_Rsi
mov [rsp + KTRAP_FRAME_Rdi], rdi
.savereg rdi, KTRAP_FRAME_Rdi
mov rbp, rsp
.setframe rbp, 0
.endprolog
/* Get current thread */
mov r11, gs:[PcCurrentThread]
/* Save the old trap frame in TrapFrame.Rdx */
mov rdi, [r11 + KTHREAD_TrapFrame]
mov [rbp + KTRAP_FRAME_Rdx], rdi
/* Set the new trap frame and previous mode */
mov [r11 + ThTrapFrame], rbp
mov byte ptr [r11 + KTHREAD_PreviousMode], 0
/* allocate space for parameters */
sub rsp, r10
and rsp, HEX(0fffffffffffffff0)
/* Save rcx */
mov [rbp + KTRAP_FRAME_Rcx], rcx
/* copy parameters to the new location */
lea rsi, [rbp + KTRAP_FRAME_LENGTH + 16]
lea rdi, [rsp]
mov rcx, r10
shr rcx, 3
rep movsq
/* Restore rcx */
mov rcx, [rbp + KTRAP_FRAME_Rcx]
/* Call the service function */
call rax
/* Restore the old trap frame */
mov r11, gs:[PcCurrentThread]
mov rsi, [rsp + KTRAP_FRAME_Rdx]
mov [r11 + KTHREAD_TrapFrame], rsi
/* Restore rdi and rsi */
mov rsi, [rbp + KTRAP_FRAME_Rsi]
mov rdi, [rbp + KTRAP_FRAME_Rdi]
/* Cleanup the stack and return */
lea rsp, [rbp + KTRAP_FRAME_LENGTH]
pop rbp
ret
ENDFUNC
KiExitToUserApc:
int 3
/*!
* VOID
* DECLSPEC_NORETURN
* KiServiceExit(IN PKTRAP_FRAME TrapFrame, IN NTSTATUS Status));
*/
PUBLIC KiServiceExit
KiServiceExit:
mov [rcx + KTRAP_FRAME_Rax], rdx
mov rbp, rcx
mov rsp, rcx
/* Return */
//ExitTrap TF_SAVE_ALL
/*!
* VOID
* DECLSPEC_NORETURN
* KiServiceExit2(IN PKTRAP_FRAME TrapFrame);
*/
PUBLIC KiServiceExit2
.PROC KiServiceExit2
.ENDPROLOG
mov rbp, rcx
mov rsp, rcx
/* Return */
ExitTrap TF_SAVE_ALL
.ENDP
PUBLIC KiInitializeSegments
KiInitializeSegments:
mov ax, KGDT64_R3_DATA or RPL_MASK
mov gs, ax
swapgs
mov gs, ax
ret
#ifdef _MSC_VER
#undef lgdt
#undef lidt
//void __lgdt(void *Source);
PUBLIC __lgdt
__lgdt:
lgdt fword ptr [rcx]
ret
//void __sgdt(void *Destination);
PUBLIC __sgdt
__sgdt:
sgdt fword ptr [rcx]
ret
// void __lldt(unsigned short Value)
PUBLIC __lldt
__lldt:
lldt cx
ret
//void __sldt(void *Destination);
PUBLIC __sldt
__sldt:
sldt word ptr [rcx]
ret
//void __ltr(unsigned short Source);
PUBLIC __ltr
__ltr:
ltr cx
ret
//void __str(unsigned short *Destination);
PUBLIC __str
__str:
str word ptr [rcx]
ret
PUBLIC __swapgs
__swapgs:
swapgs
ret
#endif
END