reactos/ntoskrnl/ke/amd64/usercall_asm.S
Timo Kreuzer 34576c7015 [NTOS:KE/x64] Implement KiUserCallbackExit
This is used in KiUserModeCallout instead of KiServiceExit2. The latter is broken, leaks non-volatile registers and will need to be modified to handle an exception frame, which we don't need/have here. It will also use sysret instead of iret and is generally simpler/faster.
Eventually it would be desirable to skip the entire trap frame setup and do everything in KiCallUserMode. This requires some cleanup and special handling for user APC delivery.
2024-04-07 09:13:58 +02:00

151 lines
3 KiB
ArmAsm

/*
* PROJECT: ReactOS Kernel
* LICENSE: GPL-2.0+ (https://spdx.org/licenses/GPL-2.0+)
* PURPOSE: ReactOS AMD64 user mode callback helper
* COPYRIGHT: Timo Kreuzer (timo.kreuzer@reactos.org)
*/
#include <ksamd64.inc>
#include <trapamd64.inc>
EXTERN KiInitiateUserApc:PROC
EXTERN KeUserCallbackDispatcher:QWORD
/*
* NTSTATUS
* KiUserModeCallout (
* _Inout_ PKCALLOUT_FRAME CalloutFrame);
*/
EXTERN KiUserModeCallout:PROC
.code64
/*
* NTSTATUS
* KiCallUserMode (
* _In_ PVOID *OutputBuffer@<rcx>,
* _In_ PULONG OutputLength@<rdx>);
*/
PUBLIC KiCallUserMode
.PROC KiCallUserMode
/* Generate a KEXCEPTION_FRAME on the stack */
/* This is identical to a KCALLOUT_FRAME */
GENERATE_EXCEPTION_FRAME
/* Save OutputBuffer and OutputLength */
mov [rsp + ExOutputBuffer], rcx
mov [rsp + ExOutputLength], rdx
/* Call the C function */
mov rcx, rsp
call KiUserModeCallout
/* Restore the registers from the KEXCEPTION_FRAME */
RESTORE_EXCEPTION_STATE
/* Return */
ret
.ENDP
/*!
* \brief Exits to user mode, restores only rsp and rip, zeroes the rest.
*
* \todo Merge this with KiCallUserMode + KiUserModeCallout and skip the trap frame.
*
* DECLSPEC_NORETURN
* VOID
* KiUserCallbackExit(
* _In_ PKTRAP_FRAME TrapFrame@<rcx>);
*/
PUBLIC KiUserCallbackExit
KiUserCallbackExit:
/* Point rsp to the trap frame */
mov rsp, rcx
/* Zero non-volatile registers for KiUserCallbackDispatcher.
This must be done before dispatching a pending user APC. */
xor rbx, rbx
xor rdi, rdi
xor rsi, rsi
xor rbp, rbp
xor r12, r12
xor r13, r13
xor r14, r14
xor r15, r15
pxor xmm6, xmm6
pxor xmm7, xmm7
pxor xmm8, xmm8
pxor xmm9, xmm9
pxor xmm10, xmm10
pxor xmm11, xmm11
pxor xmm12, xmm12
pxor xmm13, xmm13
pxor xmm14, xmm14
pxor xmm15, xmm15
/* Check for pending user APC */
mov rdx, gs:[PcCurrentThread]
HANDLE_USER_APCS rdx, rsp
/* Zero volatile registers */
xor rax, rax
xor rdx, rdx
xor r8, r8
xor r9, r9
xor r10, r10
pxor xmm0, xmm0
pxor xmm1, xmm1
pxor xmm2, xmm2
pxor xmm3, xmm3
pxor xmm4, xmm4
pxor xmm5, xmm5
/* Disable interrupts for return */
cli
/* Prepare user mode return address (rcx) and eflags (r11) for sysret */
mov rcx, qword ptr KeUserCallbackDispatcher[rip]
mov r11, EFLAGS_IF_MASK
/* Load user mode stack (It was copied to the trap frame) */
mov rsp, [rsp + KTRAP_FRAME_Rsp]
/* Swap gs back to user */
swapgs
/* return to user mode */
sysretq
/*
* DECLSPEC_NORETURN
* VOID
* KiCallbackReturn (
* _In_ PVOID Stack,
* _In_ NTSTATUS Status);
*/
PUBLIC KiCallbackReturn
.PROC KiCallbackReturn
.ENDPROLOG
/* Restore the stack */
mov rsp, rcx
/* Set return status */
mov eax, edx
/* Restore the registers from the KEXCEPTION_FRAME */
RESTORE_EXCEPTION_STATE
/* Return */
ret
.ENDP
END