; $Id: bs3-cpu-basic-2-asm.asm 98103 2023-01-17 14:15:46Z vboxsync $ ;; @file ; BS3Kit - bs3-cpu-basic-2 ; ; ; Copyright (C) 2007-2023 Oracle and/or its affiliates. ; ; This file is part of VirtualBox base platform packages, as ; available from https://www.virtualbox.org. ; ; This program is free software; you can redistribute it and/or ; modify it under the terms of the GNU General Public License ; as published by the Free Software Foundation, in version 3 of the ; License. ; ; This program is distributed in the hope that it will be useful, but ; WITHOUT ANY WARRANTY; without even the implied warranty of ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ; General Public License for more details. ; ; You should have received a copy of the GNU General Public License ; along with this program; if not, see . ; ; The contents of this file may alternatively be used under the terms ; of the Common Development and Distribution License Version 1.0 ; (CDDL), a copy of it is provided in the "COPYING.CDDL" file included ; in the VirtualBox distribution, in which case the provisions of the ; CDDL are applicable instead of those of the GPL. ; ; You may elect to license modified versions of this file under the ; terms and conditions of either the GPL or the CDDL or both. ; ; SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0 ; ;********************************************************************************************************************************* ;* Header Files * ;********************************************************************************************************************************* %include "bs3kit.mac" ;********************************************************************************************************************************* ;* Global Variables * ;********************************************************************************************************************************* BS3_BEGIN_DATA16 BS3_GLOBAL_DATA g_bs3CpuBasic2_ud2_FlatAddr, 4 dd _bs3CpuBasic2_ud2 wrt FLAT ; ; CPU mode agnostic test code snippets. ; BS3_BEGIN_TEXT16 BS3_PROC_BEGIN _bs3CpuBasic2_ud2 .again: ud2 jmp .again BS3_PROC_END _bs3CpuBasic2_ud2 BS3_PROC_BEGIN _bs3CpuBasic2_salc_ud2 salc ; #UD in 64-bit mode .again: ud2 jmp .again BS3_PROC_END _bs3CpuBasic2_salc_ud2 BS3_PROC_BEGIN _bs3CpuBasic2_swapgs .again: db 00fh, 001h, 0f8h ; swapgs - #UD when not in 64-bit mode. jmp .again BS3_PROC_END _bs3CpuBasic2_swapgs BS3_PROC_BEGIN _bs3CpuBasic2_Int80 int 80h .again: ud2 jmp .again BS3_PROC_END _bs3CpuBasic2_Int80 BS3_PROC_BEGIN _bs3CpuBasic2_Int81 int 81h .again: ud2 jmp .again BS3_PROC_END _bs3CpuBasic2_Int81 BS3_PROC_BEGIN _bs3CpuBasic2_Int82 int 82h .again: ud2 jmp .again BS3_PROC_END _bs3CpuBasic2_Int82 BS3_PROC_BEGIN _bs3CpuBasic2_Int83 int 83h .again: ud2 jmp .again BS3_PROC_END _bs3CpuBasic2_Int83 BS3_PROC_BEGIN _bs3CpuBasic2_iret iret BS3_PROC_END _bs3CpuBasic2_iret AssertCompile(_bs3CpuBasic2_iret_EndProc - _bs3CpuBasic2_iret == 1) BS3_PROC_BEGIN _bs3CpuBasic2_iret_opsize iretd BS3_PROC_END _bs3CpuBasic2_iret_opsize AssertCompile(_bs3CpuBasic2_iret_opsize_EndProc - _bs3CpuBasic2_iret_opsize == 2) BS3_PROC_BEGIN _bs3CpuBasic2_iret_rexw BS3_SET_BITS 64 iretq BS3_SET_BITS 16 BS3_PROC_END _bs3CpuBasic2_iret_rexw AssertCompile(_bs3CpuBasic2_iret_rexw_EndProc - _bs3CpuBasic2_iret_rexw == 2) ; ; CPU mode agnostic test code snippets. ; BS3_BEGIN_TEXT32 ;; ; @param [xBP + xCB*2] puDst ; @param [xBP + xCB*3] uNewValue BS3_PROC_BEGIN_CMN bs3CpuBasic2_Store_mov, BS3_PBC_NEAR push xBP mov xBP, xSP mov xCX, [xBP + xCB*2] mov xAX, [xBP + xCB*3] mov [xCX], xAX leave ret BS3_PROC_END_CMN bs3CpuBasic2_Store_mov ;; ; @param [xBP + xCB*2] puDst ; @param [xBP + xCB*3] uNewValue BS3_PROC_BEGIN_CMN bs3CpuBasic2_Store_xchg, BS3_PBC_NEAR push xBP mov xBP, xSP mov xCX, [xBP + xCB*2] mov xAX, [xBP + xCB*3] xchg [xCX], xAX leave ret BS3_PROC_END_CMN bs3CpuBasic2_Store_xchg ;; ; @param [xBP + xCB*2] puDst ; @param [xBP + xCB*3] uNewValue ; @param [xBP + xCB*4] uOldValue BS3_PROC_BEGIN_CMN bs3CpuBasic2_Store_cmpxchg, BS3_PBC_NEAR push xBP mov xBP, xSP mov xCX, [xBP + xCB*2] mov xDX, [xBP + xCB*3] mov xAX, [xBP + xCB*4] .again: cmpxchg [xCX], xDX jnz .again leave ret BS3_PROC_END_CMN bs3CpuBasic2_Store_cmpxchg ; ; Jump code segment 64KB. ; ; There is no ORG directive in OMF mode of course. :-( ; section BS3JMPTEXT16 align=16 CLASS=BS3CLASS16JMPCODE PRIVATE USE16 GROUP BS3GROUPJMPTEXT16 BS3JMPTEXT16 BS3_SET_BITS 16 ; 0000: Start with two int3 filler instructions. BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmptext16_start), function, 2 int3 int3 ; 0002: This is the target for forward wrap around jumps, should they succeed. BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_target_wrap_forward), function, 2 ud2 align 8, int3 ; 0008 BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_jb_wrap_backward__ud2), function, 2 db 0ebh, -012h ; jmp (0x0008 + 2 - 0x12 = 0xFFFFFFF8 (-8)) int3 ; 000b BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_jb_opsize_wrap_backward__ud2), function, 3 db 066h, 0ebh, -016h ; jmp (0x000b + 3 - 0x16 = 0xFFFFFFF8 (-8)) int3 align 0x80, int3 ; 0080 BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_jv16_wrap_backward__ud2), function, 3 db 0e9h ; jmp (0x0080 + 3 - 0x8b = 0xFFFFFFF8 (-8)) dw -08bh int3 ; 0084 BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_jv16_opsize_wrap_backward__ud2), function, 6 db 066h, 0e9h ; jmp (0x0084 + 6 - 0x92 = 0xFFFFFFF8 (-8)) dd -092h int3 ; 008b BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_call_jv16_wrap_backward__ud2), function, 3 db 0e8h ; call (0x008b + 3 - 0x96) dw -096h int3 ; 008f BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_call_jv16_opsize_wrap_backward__ud2), function, 6 db 066h, 0e8h ; call (0x008f + 6 - 0x9d = 0xFFFFFFF8 (-8)) dd -09dh int3 align 0x100, int3 ; Note! Doesn't work correctly for higher values. times (0xff6b - 0x100) int3 ; ff6b BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_call_jv16_wrap_forward__ud2), function, 4 db 0e8h ; call (0xff6b+3 + 0x94 = 0x10002 (65538)) dw 094h int3 ; ff6f BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_call_jv16_opsize_wrap_forward__ud2), function, 7 db 066h, 0e8h ; o32 call (0xff6f+6 + 0x8d = 0x10002 (65538)) dd 08dh int3 ; ff76 BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_jv16_wrap_forward__ud2), function, 5 db 0e9h ; jmp (0xff76+4 + 0x88 = 0x10002 (65538)) dw 089h int3 ; ff7a BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_jv16_opsize_wrap_forward__ud2), function, 7 db 066h, 0e9h ; o32 jmp (0xff7a+6 + 0x82 = 0x10002 (65538)) dd 082h int3 ; ff81 BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_jb_wrap_forward__ud2), function, 2 db 0ebh, 07fh ; jmp (0xff81+2 + 0x7f = 0x10002 (65538)) int3 ; ff84 BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_jb_opsize_wrap_forward__ud2), function, 3 db 066h, 0ebh, 07bh ; o32 jmp (0xff84+3 + 0x7b = 0x10002 (65538)) ; ff87 times (0xfff8 - 0xff87) int3 ; fff8: This is the target for backward wrap around jumps, should they succeed. BS3_GLOBAL_NAME_EX NAME(bs3CpuBasic2_jmp_target_wrap_backward), function, 2 ud2 times 6 int3 ; End of segment. BS3_BEGIN_TEXT16 ; ; Instantiate code templates. ; BS3_INSTANTIATE_COMMON_TEMPLATE "bs3-cpu-basic-2-template.mac" BS3_INSTANTIATE_TEMPLATE_WITH_WEIRD_ONES "bs3-cpu-basic-2-template.mac"