Leaked source code of windows server 2003
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title "Call Out to User Mode"
;++
;
; Copyright (c) 2000 Microsoft Corporation
;
; Module Name:
;
; callout.asm
;
; Abstract:
;
; This module implements the code necessary to call out from kernel
; mode to user mode.
;
; Author:
;
; David N. Cutler (davec) 30-Aug-2000
;
; Environment:
;
; Kernel mode only.
;
;--
include ksamd64.inc
extern KeUserCallbackDispatcher:qword
extern KiSystemServiceExit:proc
extern MmGrowKernelStack:proc
extern PsConvertToGuiThread:proc
subttl "Call User Mode Function"
;++
;
; NTSTATUS
; KiCallUserMode (
; IN PVOID *Outputbuffer,
; IN PULONG OutputLength
; )
;
; Routine Description:
;
; This function calls a user mode function from kernel mode.
;
; N.B. This function calls out to user mode and the NtCallbackReturn
; function returns back to the caller of this function. Therefore,
; the stack layout must be consistent between the two routines.
;
; Arguments:
;
; OutputBuffer (rcx) - Supplies a pointer to the variable that receivies
; the address of the output buffer.
;
; OutputLength (rdx) - Supplies a pointer to a variable that receives
; the length of the output buffer.
;
; Return Value:
;
; The final status of the call out function is returned as the status
; of the function.
;
; N.B. This function does not return to its caller. A return to the
; caller is executed when a NtCallbackReturn system service is
; executed.
;
; N.B. This function does return to its caller if a kernel stack
; expansion is required and the attempted expansion fails.
;
;--
NESTED_ENTRY KiCallUserMode, _TEXT$00
GENERATE_EXCEPTION_FRAME <Rbp> ; generate exception frame
;
; Save argument registers in frame and allocate a legacy floating point
; save area.
;
mov CuOutputBuffer[rbp], rcx ; save output buffer address
mov CuOutputLength[rbp], rdx ; save output length address
sub rsp, LEGACY_SAVE_AREA_LENGTH ; allocate legacy save area
;
; Check if sufficient room is available on the kernel stack for another
; system call.
;
mov rbx, gs:[PcCurrentThread] ; get current thread address
lea rax, (- KERNEL_LARGE_STACK_COMMIT)[rsp] ; compute bottom address
cmp rax, ThStackLimit[rbx] ; check if limit exceeded
jae short KiCU10 ; if ae, limit not exceeded
mov rcx, rsp ; set current stack address
call MmGrowKernelStack ; attempt to grow kernel stack
or eax, eax ; check for successful completion
jne short KiCU20 ; if ne, attempt to grow failed
;
; Save the callback stack address and the initial stack address in the current
; frame.
;
KiCU10: mov rax, ThCallbackStack[rbx] ; save current callback stack address
mov CuCallbackStack[rbp], rax ;
mov rsi, ThInitialStack[rbx] ; save initial stack address
mov CuInitialStack[rbp], rsi ;
mov ThCallbackstack[rbx], rbp ; set new callback stack address
;
; If the legacy state is scrub, then copy the legacy state template to the
; new legacy state area.
;
cmp byte ptr ThNpxState[rbx], LEGACY_STATE_SCRUB ; check if scrub state
jne short KiCU15 ; if ne, not scrubbing legacy state
mov ecx, (LEGACY_SAVE_AREA_LENGTH / 8) ; set length of copy
mov rdi, rsp ; set destination address
movsq ; copy legacy floating template
;
; Save the current trap frame address and establish a new initial kernel stack
; address;
;
KiCU15: mov rsi, ThTrapFrame[rbx] ; save current trap frame address
mov CuTrapFrame[rbp], rsi ;
mov rdi, gs:[PcTss] ; get processor TSS address
cli ; disable interrupts
mov ThInitialStack[rbx], rsp ; set new initial stack address
mov TssRsp0[rdi], rsp ; set initial stack address in TSS
;
; Construct a trap frame to facilitate the transfer into user mode via
; the standard system call exit.
;
; N.B. Interrupts are not enabled throughout the remainder of the system
; service exit.
;
sub rsp, KTRAP_FRAME_LENGTH ; allocate a trap frame
mov rdi, rsp ; set destination address
mov rcx, (KTRAP_FRAME_LENGTH / 8) ; set length of copy
rep movsq ; copy trap frame
lea rbp, 128[rsp] ; set frame pointer address
mov rax, KeUserCallbackDispatcher ; set user return address
mov TrRip[rbp], rax ;
jmp KiSystemServiceExit ; exit through service dispatch
;
; An attempt to grow the kernel stack failed.
;
KiCU20: mov rsp, rbp ; deallocate legacy save area
RESTORE_EXCEPTION_STATE <Rbp> ; restore exception state/deallocate
ret ;
NESTED_END KiCallUserMode, _TEXT$00
subttl "Convert To Gui Thread"
;++
;
; NTSTATUS
; KiConvertToGuiThread (
; VOID
; );
;
; Routine Description:
;
; This routine is a stub routine which is called by the system service
; dispatcher to convert the current thread to a GUI thread. The process
; of converting to a GUI mode thread involves allocating a large stack,
; switching to the large stack, and then calling the win32k subsystem
; to record state. In order to switch the kernel stack the frame pointer
; used in the system service dispatch must be relocated.
;
; N.B. The address of the pushed rbp in this routine is located from the
; trap frame address in switch kernel stack.
;
; Arguments:
;
; None.
;
; Implicit arguments:
;
; rbp - Supplies a pointer to the trap frame.
;
; Return Value:
;
; The status returned by the real convert to GUI thread is returned as the
; function status.
;
;--
NESTED_ENTRY KiConvertToGuiThread, _TEXT$00
push_reg rbp ; save frame pointer
END_PROLOGUE
call PsConvertToGuiThread ; convert to GUI thread
pop rbp ; restore frame pointer
ret ;
NESTED_END KiConvertToGuiThread, _TEXT$00
subttl "Switch Kernel Stack"
;++
;
; PVOID
; KeSwitchKernelStack (
; IN PVOID StackBase,
; IN PVOID StackLimit
; )
;
; Routine Description:
;
; This function switches to the specified large kernel stack.
;
; N.B. This function can ONLY be called when there are no variables
; in the stack that refer to other variables in the stack, i.e.,
; there are no pointers into the stack.
;
; N.B. The address of the frame pointer used in the system service
; dispatcher is located using the trap frame.
;
; Arguments:
;
; StackBase (rcx) - Supplies a pointer to the base of the new kernel
; stack.
;
; StackLimit (rdx) - Suplies a pointer to the limit of the new kernel
; stack.
;
; Return Value:
;
; The previous stack base is returned as the function value.
;
;--
SkFrame struct
Fill dq ? ; fill to 8 mod 16
SavedRdi dq ? ; saved register RDI
SavedRsi dq ? ; saved register RSI
SkFrame ends
NESTED_ENTRY KeSwitchKernelStack, _TEXT$00
push_reg rsi ; save nonvolatile registers
push_reg rdi ;
alloc_stack (sizeof SkFrame - (2 * 8)) ; allocate stack frame
END_PROLOGUE
;
; Save the address of the new stack and copy the current stack to the new
; stack.
;
mov r8, rcx ; save new stack base address
mov r10, gs:[PcCurrentThread] ; get current thread address
mov rcx, ThStackBase[r10] ; get current stack base address
mov r9, ThTrapFrame[r10] ; get current trap frame address
sub r9, rcx ; relocate trap frame address
add r9, r8 ;
mov ThTrapFrame[r10], r9 ; set new trap frame address
sub rcx, rsp ; compute length of copy in bytes
mov rdi, r8 ; compute destination address of copy
sub rdi, rcx ;
mov r9, rdi ; save new stack pointer address
mov rsi, rsp ; set source address of copy
shr rcx, 3 ; compute length of copy on quadwords
rep movsq ; copy old stack to new stack
mov rcx, ThTrapFrame[r10] ; get new trap frame address
lea rax, 128[rcx] ; compute new frame address
mov (-2 * 8)[rcx], rax ; set relocated frame pointer
;
; Switch to the new kernel stack and return the address of the old kernel
; stack.
;
mov rax, ThStackBase[r10] ; get current stack base address
cli ; disable interrupts
mov byte ptr ThLargeStack[r10], 1 ; set large stack TRUE
mov ThStackBase[r10], r8 ; set new stack base address
sub r8, LEGACY_SAVE_AREA_LENGTH ; compute initial stack address
mov ThInitialStack[r10], r8 ; set new initial stack address
mov ThStackLimit[r10], rdx ; set new stack limit address
mov r10, gs:[PcTss] ; get processor TSS address
mov TssRsp0[r10], r8 ; set initial stack address in TSS
mov rsp, r9 ; set new stack pointer address
sti ;
add rsp, sizeof SkFrame - (2 * 8) ; deallocate stack frame
pop rdi ; restore nonvolatile registers
pop rsi ;
ret ; return
NESTED_END KeSwitchKernelStack, _TEXT$00
subttl "Return from User Mode Callback"
;++
;
; NTSTATUS
; NtCallbackReturn (
; IN PVOID OutputBuffer OPTIONAL,
; IN ULONG OutputLength,
; IN NTSTATUS Status
; )
;
; Routine Description:
;
; This function returns from a user mode callout to the kernel
; mode caller of the user mode callback function.
;
; N.B. This function returns to the function that called out to user
; mode and the KiCallUserMode function calls out to user mode.
; Therefore, the stack layout must be consistent between the
; two routines.
;
; Arguments:
;
; OutputBuffer (rcx) - Supplies an optional pointer to an output buffer.
;
; OutputLength (rdx) - Supplies the length of the output buffer.
;
; Status (r8) - Supplies the status value returned to the caller of the
; callback function.
;
; Return Value:
;
; If the callback return cannot be executed, then an error status is
; returned. Otherwise, the specified callback status is returned to
; the caller of the callback function.
;
; N.B. This function returns to the function that called out to user
; mode is a callout is currently active.
;
;--
LEAF_ENTRY NtCallbackReturn, _TEXT$00
mov r11, gs:[PcCurrentThread] ; get current thread address
mov r10, ThCallbackStack[r11] ; get callback stack address
cmp r10, 0 ; check if callback active
je KiCb10 ; if zero, callback not active
mov rax, r8 ; save completion status
;
; Store the output buffer address and length.
;
mov r9, CuOutputBuffer[r10] ; get address to store output buffer
mov [r9], rcx ; store output buffer address
mov r9, CuOutputLength[r10] ; get address to store output length
mov [r9], edx ; store output buffer length
;
; Restore the previous callback stack address and trap frame address.
;
cli ; disable interrupts
mov r8, CuTrapFrame[r10] ; get previous trap frame address
mov ThTrapFrame[r11], r8 ; restore previous trap frame address
test byte ptr TrDr7[r8], DR7_ACTIVE ; test if previous debug active
setnz byte ptr ThDebugActive[r11] ; set correct thread debug active
mov r8, CuCallbackStack[r10] ; get previous callback stack address
mov ThCallbackStack[r11], r8 ; restore previous callback stack address
;
; Restore initial stack address.
;
mov r9, CuInitialStack[r10] ; get previous initial stack address
mov ThInitialStack[r11], r9 ; restore initial stack address
mov r8, gs:[PcTss] ; get processor TSS address
mov TssRsp0[r8], r9 ; set initial stack address in TSS
mov rsp, r10 ; trim stack back to callback frame
RESTORE_EXCEPTION_STATE <Rbp> ; restore exception state/deallocate
sti ; enable interrupts
ret ; return
;
; No callback is currently active.
;
KiCB10: mov eax, STATUS_NO_CALLBACK_ACTIVE ; set service status
ret ; return
LEAF_END NtCallbackReturn, _TEXT$00
end