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windows-xp/Source/XPSP1/NT/base/published/kxamd64.w

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;++
;
; Copyright (c) Microsoft Corporation. All rights reserved.
;
;
; Module:
;
; kxamd64.w
;
; Astract:
;
; Contains AMD64 architecture constants and assembly macros.
;
; Author:
;
; David N. Cutler (davec) 27-May-2000
;
; Revision History:
;
;--
;
; Define macros to build unwind data for prologues.
;
push_reg macro Reg
pushq Reg
.pushreg Reg
endm
push_eflags macro
pushfd
.allocstack 8
endm
alloc_stack macro Size
sub rsp, Size
.allocstack Size
endm
save_reg macro Reg, Offset
mov Offset[rsp], Reg
.savereg Reg, Offset
endm
save_xmm macro Reg, Offset
movq Offset[rsp], Reg
.savexmm Reg, Offset
endm
save_xmm128 macro Reg, Offset
movdqa Offset[rsp], Reg
.savexmm128 Reg, Offset
endm
push_frame macro Code
.pushframe Code
endm
set_frame macro Reg, Offset
if Offset
lea Reg, Offset[rsp]
else
mov reg, rsp
endif
.setframe Reg, Offset
endm
END_PROLOGUE macro
.endprolog
endm
;
; Define macro to acquire spin lock.
;
; Arguments:
;
; None.
;
; N.B. The registers rax amd r11 are destroyed by this macro.
;
; N.B. This macro is restricted to using only rax and r11.
;
AcquireSpinLock macro Address
local exit, spin, start
ifndef NT_UP
ifdifi <Address>, <r11>
mov r11, Address ; get spin lock address
endif
start: mov rax, r11 ; set spin lock address
xchg [r11], rax ; try to acquire lock
test rax, rax ; test if lock previously owned
jz short exit ; if z, lock acquired
spin: cmp qword ptr [r11], 0 ; check if lock currently owned
je short start ; if e, lock not owned
jmp short spin ; spin
exit: ; continue
endif
endm
;
; Define macro to release spin lock.
;
; Arguments:
;
; None.
;
; N.B. The register r11 is destroyed by this macro.
;
; N.B. This macro is restricted to using only r11.
;
ReleaseSpinLock macro Address
local exit
ifndef NT_UP
ifdifi <Address>, <r11>
mov r11, Address ; get spin lock address
endif
if DBG
cmp [r11], r11 ; check if owner is spin lock address
je short exit ; if e, lock owner is correct
int 3 ; break into debugger
endif
exit: mov qword ptr [r11], 0 ; release spin lock
endif
endm
;
; Define macro to perform the equivalent of reading cr8.
;
; Arguments:
;
; None
;
; The equivalent of the contents of cr8 is returned in rax
;
; N.B. This macro is restricted to using only rax.
;
ReadCr8 macro
mov rax, cr8 ; read IRQL
endm
;
; Define macro to perform the equivalent of writing cr8.
;
; Arguments:
;
; rcx - The desired value of cr8.
;
WriteCr8 macro
mov cr8, rcx ; write IRQL
endm
;
; Define macro to get current IRQL.
;
; Arguments:
;
; None.
;
; The previous IRQL is returned in rax.
;
CurrentIrql macro
ReadCr8 ; get current IRQL
endm
;
; Define macro to lower IRQL.
;
; Arguments:
;
; rcx - Supplies the new IRQL.
;
; N.B. The register rax is destroyed.
;
; N.B. This macro is restricted to using only rax and rcx.
;
LowerIrql macro
local exit
if DBG
ReadCr8 ; get current IRQL
cmp eax, ecx ; check new IRQL
jge short exit ; if ge, new IRQL okay
int 3 ; break into debugger
endif
exit: WriteCr8 ; set new IRQL
endm
;
; Define macro to raise IRQL.
;
; Arguments:
;
; rcx - Supplies the new IRQL.
;
; The previous IRQL is returned in rax.
;
; N.B. This macro is restricted to using only rax and rcx.
;
RaiseIrql macro
local exit
ReadCr8 ; get current IRQL
if DBG
cmp eax, ecx ; check new IRQL
jle short exit ; if le, new IRQL okay
int 3 ; break into debugger
endif
exit: WriteCr8 ; set new IRQL
endm
;
; Define macro to set IRQL.
;
; Arguments:
;
; rcx - Supplies the new IRQL.
;
; N.B. This macro is restricted to using only rcx.
;
SetIrql macro
WriteCr8 ; set new IRQL
endm
;
; Define macro to swap IRQL.
;
; Arguments:
;
; rcx - Supplies the new IRQL.
;
; The previous IRQL is returned in rax.
;
; N.B. This macro is restricted to using only rax and rcx.
;
SwapIrql macro
ReadCr8 ; get current IRQL
WriteCr8 ; set new IRQL
endm
;
; Define alternate entry macro.
;
ALTERNATE_ENTRY macro Name
Name:
endm
;
; Define function entry/end macros.
;
LEAF_ENTRY macro Name, Section
Section segment para public 'CODE'
align 16
public Name
Name proc
endm
LEAF_END macro Name, section
Name endp
Section ends
endm
NESTED_ENTRY macro Name, Section, Handler
Section segment para public 'CODE'
align 16
public Name
ifb <Handler>
Name proc frame
else
Name proc frame:Handler
endif
endm
NESTED_END macro Name, section
Name endp
Section ends
endm
;
; Define restore exception state macro.
;
; This macro restores the nonvolatile state.
;
; Arguments:
;
; Flag - If blank, then nonvolatile floating and integer registers are
; restored. If nonblank and identical to "Rbp", then rbp is restored
; in addition to the nonvolatile floating and integer registers. If
; nonblank and identical to "NoFp", then only the nonvolatile integer
; registers are restored.
;
; Implicit arguments:
;
; rsp - Supplies the address of the exception frame.
;
RESTORE_EXCEPTION_STATE macro Flag
ifdif <Flag>, <NoFp>
movdqa xmm6, qword ptr ExXmm6[rsp] ; restore nonvolatile xmm registers
movdqa xmm7, qword ptr ExXmm7[rsp] ;
movdqa xmm8, qword ptr ExXmm8[rsp] ;
movdqa xmm9, qword ptr ExXmm9[rsp] ;
movdqa xmm10, qword ptr ExXmm10[rsp] ;
movdqa xmm11, qword ptr ExXmm11[rsp] ;
movdqa xmm12, qword ptr ExXmm12[rsp] ;
movdqa xmm13, qword ptr ExXmm13[rsp] ;
movdqa xmm14, qword ptr ExXmm14[rsp] ;
movdqa xmm15, qword ptr ExXmm15[rsp] ;
endif
ifidn <Flag>, <NoPop>
mov rbx, ExRbx[rsp] ; restore nonvolatile integer registers
mov rdi, ExRdi[rsp] ;
mov rsi, ExRsi[rsp] ;
mov r12, ExR12[rsp] ;
mov r13, ExR13[rsp] ;
mov r14, ExR14[rsp] ;
mov r15, ExR15[rsp] ;
else
ifidn <Flag>, <Rbp>
add rsp, KEXCEPTION_FRAME_LENGTH - (9 * 8) ; deallocate frame
pop rbp ; restore nonvolatile integer register
else
add rsp, KEXCEPTION_FRAME_LENGTH - (8 * 8) ; deallocate frame
endif
pop rbx ; restore integer nonvolatile registers
pop rdi ;
pop rsi ;
pop r12 ;
pop r13 ;
pop r14 ;
pop r15 ;
endif
endm
;
; Define generate exception frame macro.
;
; This macro allocates an exception frame and saves the nonvolatile state.
;
; Arguments:
;
; Flag - If blank, then nonvolatile floating and integer registers are
; saved. If nonblank and identical to "Rbp", then rbp is saved in
; addition to the nonvolatile floating and integer registers. If
; nonblank and identical to "NoFp", then only the nonvolatile integer
; registers are saved.
;
; Implicit arguments:
;
; The top of the stack is assumed to contain a return address.
;
GENERATE_EXCEPTION_FRAME macro Flag
push_reg r15 ; push integer nonvolatile registers
push_reg r14 ;
push_reg r13 ;
push_reg r12 ;
push_reg rsi ;
push_reg rdi ;
push_reg rbx ;
ifidn <Flag>, <Rbp>
push_reg rbp ; push frame pointer
alloc_stack KEXCEPTION_FRAME_LENGTH - (9 * 8) ; allocate frame
set_frame rbp, 0 ; set frame register
else
alloc_stack KEXCEPTION_FRAME_LENGTH - (8 * 8) ; allocate frame
endif
ifdif <Flag>, <NoFp>
save_xmm128 xmm6, ExXmm6 ; save xmm nonvolatile registers
save_xmm128 xmm7, ExXmm7 ;
save_xmm128 xmm8, ExXmm8 ;
save_xmm128 xmm9, ExXmm9 ;
save_xmm128 xmm10, ExXmm10 ;
save_xmm128 xmm11, ExXmm11 ;
save_xmm128 xmm12, ExXmm12 ;
save_xmm128 xmm13, ExXmm13 ;
save_xmm128 xmm14, ExXmm14 ;
save_xmm128 xmm15, ExXmm15 ;
endif
END_PROLOGUE
endm
;
; Define restore trap state macro.
;
; This macro restores the volatile state, and if necessary, restorss the
; user debug state, deallocats the trap frame, and exits the trap.
;
; N.B. This macro must preserve eax in case it is not reloaded from the
; trap frame.
;
; Arguments:
;
; State - Determines what state is restored and what tests are made. Valid
; values are:
;
; Service - restore state for a service executed from user mode.
; Kernel - restore state for a service executed from kernel mode.
; Volatile - restore state for a trap or interrupt.
;
; Disable - If blank, then disable interrupts.
;
; Implicit arguments:
;
; rbp - Supplies the address of the trap frame.
;
RESTORE_TRAP_STATE macro State, Disable
local first, second, third
ifb <Disable>
cli ; disable interrupts
endif
ifdif <State>, <Kernel>
;
; State is either <Volatile> or <Service>
;
ifidn <State>, <Volatile>
test byte ptr TrSegCs[rbp], MODE_MASK ; test if previous mode user
jz third ; if z, previous mode not user
endif
mov rcx, gs:[PcCurrentThread] ; get current thread address
cmp byte ptr ThApcState + AsUserApcPending[rcx], 0 ; APC pending?
je short first ; if e, no user APC pending
ifidn <State>, <Service>
mov TrRax[rbp], eax ; save service status
endif
mov ecx, APC_LEVEL ; get APC level
SetIrql ; set IRQL to APC level
sti ; allow interrupts
call KiInitiateUserApc ; initiate APC execution
cli ; disable interrupts
mov ecx, PASSIVE_LEVEL ; get PASSIVE level
SetIrql ; set IRQL to PASSIVE level
ifidn <State>, <Service>
mov eax, TrRax[rbp] ; restore service status
endif
first: ldmxcsr TrMxCsr[rbp] ; restore user mode XMM control/status
xor edx, edx ; assume debug breakpoints not active
test byte ptr TrDr7[rbp], DR7_ACTIVE ; test if breakpoints enabled
jz short second ; if z, no breakpoints enabled
mov dr7, rdx ; clear control register before loading
mov rcx, TrDr0[rbp] ; restore debug registers
mov rdx, TrDr1[rbp] ;
mov dr0, rcx ;
mov dr1, rdx ;
mov rcx, TrDr2[rbp] ;
mov rdx, TrDr3[rbp] ;
mov dr2, rcx ;
mov dr3, rdx ;
xor ecx, ecx ;
mov rdx, TrDr7[rbp] ;
mov dr6, rcx ;
second: mov dr7, rdx ;
;
; At this point it is known that the return will be to user mode.
;
ifidn <State>, <Volatile>
movdqa xmm0, qword ptr TrXmm0[rbp] ; restore volatile XMM registers
movdqa xmm1, qword ptr TrXmm1[rbp] ;
movdqa xmm2, qword ptr TrXmm2[rbp] ;
movdqa xmm3, qword ptr TrXmm3[rbp] ;
movdqa xmm4, qword ptr TrXmm4[rbp] ;
movdqa xmm5, qword ptr TrXmm5[rbp] ;
mov r11, TrR11[rbp] ; restore volatile integer state
mov r10, TrR10[rbp] ;
mov r9, TrR9[rbp] ;
mov r8, TrR8[rbp] ;
mov rdx, TrRdx[rbp] ;
mov rcx, TrRcx[rbp] ;
mov rax, TrRax[rbp] ;
mov rsp, rbp ; trim stack to frame offset
mov rbp, TrRbp[rbp] ; restore RBP
add rsp, (KTRAP_FRAME_LENGTH - (5 * 8) - 128) ; deallocate stack
swapgs ; swap GS base to user mode TEB
iretq ;
else
mov rcx, TrRip[rbp] ; get return address
mov r11, TrEFlags[rbp] ; get previous EFLAGS
mov rsp, rbp ; trim stack to frame offset
mov rbp, TrRbp[rbp] ; restore RBP
mov rsp, TrRsp[rsp] ; restore RSP
swapgs ; swap GS base to user mode TEB
sysretq ; return from system call to user mode
endif
ifidn <State>, <Volatile>
third: movdqa xmm0, qword ptr TrXmm0[rbp] ; restore volatile XMM registers
movdqa xmm1, qword ptr TrXmm1[rbp] ;
movdqa xmm2, qword ptr TrXmm2[rbp] ;
movdqa xmm3, qword ptr TrXmm3[rbp] ;
movdqa xmm4, qword ptr TrXmm4[rbp] ;
movdqa xmm5, qword ptr TrXmm5[rbp] ;
mov r11, TrR11[rbp] ; restore volatile integer state
mov r10, TrR10[rbp] ;
mov r9, TrR9[rbp] ;
mov r8, TrR8[rbp] ;
mov rdx, TrRdx[rbp] ;
mov rcx, TrRcx[rbp] ;
mov rax, TrRax[rbp] ;
mov rsp, rbp ; trim stack to frame offset
mov rbp, TrRbp[rbp] ; restore RBP
add rsp, (KTRAP_FRAME_LENGTH - (5 * 8) - 128) ; deallocate stack
iretq ;
endif
;
; State is <Kernel>
;
else
mov rsp, rbp ; trim stack to frame offset
mov rbp, TrRbp[rbp] ; restore RBP
mov rsp, TrRsp[rsp] ; restore RSP
sti ; enable interrupts
ret ; return from system call to kernel mode
endif
endm
;
; Define save trap state macro.
;
; This macro saves the volatile state, and if necessary, saves the user
; debug state and loads the kernel debug state.
;
; Arguments:
;
; Service - If non-blank, then a partial trap frame is being restored for
; a system service.
;
; Implicit arguments:
;
; rbp - Supplies the address of the trap frame.
;
SAVE_TRAP_STATE macro Service
local first, second, third
ifb <Service>
mov TrRax[rbp], rax ; save volatile integer registers
mov TrRcx[rbp], rcx ;
mov TrRdx[rbp], rdx ;
mov TrR8[rbp], r8 ;
mov TrR9[rbp], r9 ;
mov TrR10[rbp], r10 ;
mov TrR11[rbp], r11 ;
endif
test byte ptr TrSegCs[rbp], MODE_MASK ; test if previous mode user
jz third ; if z, previous mode kernel
ifb <Service>
swapgs ; swap GS base to kernel mode PCR
endif
stmxcsr TrMxCsr[rbp] ; save XMM control/status
ldmxcsr dword ptr gs:[PcMxCsr] ; set default XMM control/status
mov r11, dr7 ; get debug control register
test r11b, DR7_ACTIVE ; test if breakpoints enabled
jz short first ; if z, breakpoints not enabled
mov r10, dr0 ; save debug registers
mov r11, dr1 ;
mov TrDr0[rbp], r10 ;
mov TrDr1[rbp], r11 ;
mov r10, dr2 ;
mov r11, dr3 ;
mov TrDr2[rbp], r10 ;
mov TrDr3[rbp], r11 ;
mov r10, dr6 ;
mov r11, dr7 ;
mov TrDr6[rbp], r10 ;
first: mov TrDr7[rbp], r11 ;
xor r11, r11 ; assume debug breakpoints not active
test byte ptr gs:[PcKernelDr7], DR7_ACTIVE ; test if breakpoints enabled
jz short second ; if z, no breakpoints enabled
mov dr7, r11 ; clear control register before loading registers
mov r10, gs:[PcKernelDr0] ; set debug registers
mov r11, gs:[PcKernelDr1] ;
mov dr0, r10 ;
mov dr1, r11 ;
mov r10, gs:[PcKernelDr2] ;
mov r11, gs:[PcKernelDr3] ;
mov dr2, r10 ;
mov dr3, r11 ;
xor r10, r10 ;
mov r11, gs:[PcKernelDr7] ;
mov dr6, r10 ;
second: mov dr7, r11 ;
third: cld ; clear direction flag
ifb <Service>
movdqa qword ptr TrXmm0[rbp], xmm0 ; save volatile xmm registers
movdqa qword ptr TrXmm1[rbp], xmm1 ;
movdqa qword ptr TrXmm2[rbp], xmm2 ;
movdqa qword ptr TrXmm3[rbp], xmm3 ;
movdqa qword ptr TrXmm4[rbp], xmm4 ;
movdqa qword ptr TrXmm5[rbp], xmm5 ;
endif
endm
;
; Define interrupt frame generation macro.
;
; This macro generates an interrupt frame.
;
; Arguments:
;
; Vector - If non-blank, then the vector number is on the stack.
;
; Return value:
;
; If Vector is non-blank, then the value of the vector is returned in eax.
;
GENERATE_INTERRUPT_FRAME macro Vector
;
; At this point the hardware frame has been pushed onto an aligned stack. The
; vector number or a dummy vector number and rbp have also been pushed on the
; stack.
;
push_reg rsi ; save nonvolatile register
alloc_stack (KTRAP_FRAME_LENGTH - (8 * 8)) ; allocate fixed frame
mov rsi, rbp ; set address of interrupt object
set_frame rbp, 128 ; set frame pointer
END_PROLOGUE
SAVE_TRAP_STATE ; save trap state
ifnb <Vector>
mov eax, TrErrorCode[rbp] ; return vector number
endif
inc dword ptr gs:[PcInterruptCount] ; increment interrupt count
endm
;
; Define enter interrupt macro.
;
; This macro raises IRQL, sets the interrupt flag, records the previous
; IRQL in the trap frame, and invokes the HAL to perform an EOI.
;
; Arguments:
;
; NoEOI - If blank, then generate end of interrupt.
;
; Implicit arguments:
;
; rcx - Supplies the interrupt IRQL.
;
; rbp - Supplies the address of the trap frame.
;
; Interrupt flag is clear.
;
; Return Value:
;
; None.
;
ENTER_INTERRUPT macro NoEOI
;
; 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.
;
RaiseIrql ; raise IRQL to interrupt level
mov TrPreviousIrql[rbp], al ; save previous IRQL
ifb <NoEOI>
call __imp_HalEndSystemInterrupt ; perform EOI
endif
sti ; enable interrupts
endm
;
; Define exit interrupt macro.
;
; This macro exits an interrupt.
;
; Arguments:
;
; NoEOI - If blank, then generate end of interrupt.
;
; Implicit arguments:
;
; rbp - Supplies the address of the trap frame.
;
; Return Value:
;
; None.
;
EXIT_INTERRUPT macro NoEOI
ifb <NoEOI>
call __imp_HalEndSystemInterrupt ; perform EOI
endif
movzx ecx, byte ptr TrPreviousIrql[rbp] ; get previous IRQL
cli ; disable interrupts
SetIrql ; set IRQL to previous level
mov rsi, TrRsi[rbp] ; restore extra register
RESTORE_TRAP_STATE <Volatile>, <NoDisable> ; restore trap state
endm
;
; Define trap frame generation macro.
;
; This macro generates a trap frame.
;
; Arguments:
;
; ErrorCode - If non-blank, then an error code is on the stack.
;
; Return value:
;
; If ErrorCode is non-blank, then the value of the error code is returned
; in eax.
;
GENERATE_TRAP_FRAME macro ErrorCode
local exit
ifb <ErrorCode>
push_frame ; mark machine frame without error code
alloc_stack 8 ; allocate dummy error code
else
push_frame code ; mark machine frame with error code
endif
push_reg rbp ; save nonvolatile register
alloc_stack (KTRAP_FRAME_LENGTH - (7 * 8)) ; allocate fixed frame
set_frame rbp, 128 ; set frame pointer
END_PROLOGUE
SAVE_TRAP_STATE ; save trap state
ifnb <ErrorCode>
mov eax, TrErrorCode[rbp] ; return error code
ifidn <ErrorCode>, <Virtual>
mov rcx, cr2 ; return virtual address
endif
endif
;
; Enable interrupts if and only if they were enabled before the trap occurred.
; If the exception is not handled by the kernel debugger and interrupts were
; previously disabled, then a bug check will occur.
;
test dword ptr TrEFlags[rbp], EFLAGS_IF_MASK ; check interrupt enabled
jz short exit ; if z, interrupts not enabled
sti ; enable interrupts
exit: ; reference label
endm