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|
; $Id: bs3-cpu-basic-2-template.mac $
;; @file
; BS3Kit - bs3-cpu-basic-2 assembly template.
;
;
; 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 <https://www.gnu.org/licenses>.
;
; 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-template-header.mac" ; setup environment
;*********************************************************************************************************************************
;* Defined Constants And Macros *
;*********************************************************************************************************************************
%ifnmacro BS3_CPUBAS2_UD_OFF
%macro BS3_CPUBAS2_UD_OFF 1
BS3_GLOBAL_NAME_EX BS3_CMN_NM(%1) %+ _offUD, , 1
db BS3_CMN_NM(%1).again - BS3_CMN_NM(%1)
%endmacro
%endif
%undef BS3_CPUBAS2_REF_LABEL_VIA_CS
%if TMPL_BITS == 16
%define BS3_CPUBAS2_REF_LABEL_VIA_CS(a_Label) cs:a_Label
%elif TMPL_BITS == 32
%define BS3_CPUBAS2_REF_LABEL_VIA_CS(a_Label) cs:a_Label wrt FLAT
%elif TMPL_BITS == 64
%define BS3_CPUBAS2_REF_LABEL_VIA_CS(a_Label) a_Label wrt FLAT
%else
%error TMPL_BITS
%endif
;;
; Macro for generating far jmp instruction w/o nasm adding REX.W prefixes.
;
; @param 1 The label of the memory pointer.
; @param 2 Prefix: 0: none, 1: 066h, 2: REX.W, 3: 066h REX.W
%ifnmacro BS3_CPUBAS2_JMP_FAR_MEM_LABEL
%macro BS3_CPUBAS2_JMP_FAR_MEM_LABEL 2
%if (%2) == 1 || (%2) == 3
db 066h ; o16/o32
%endif
%if TMPL_BITS != 64
jmp far [BS3_CPUBAS2_REF_LABEL_VIA_CS(%1)]
%elif TMPL_BITS == 64
; 48FF2C25[040C0000] <3> jmp far [BS3_CPUBAS2_REF_LABLE_VIA_CS(.fpfn)]
%if (%2) == 2 || (%2) == 3
db 048h ; REX.W
%endif
db 0ffh, 02ch, 025h
dd %1 wrt FLAT
%else
%error TMPL_BITS
%endif
%endmacro
%endif
;;
; Macro for generating far call instruction w/o nasm adding REX.W prefixes.
;
; @param 1 The label of the memory pointer.
; @param 2 Prefix: 0: none, 1: 066h, 2: REX.W, 3: 066h REX.W
%ifnmacro BS3_CPUBAS2_CALL_FAR_MEM_LABEL
%macro BS3_CPUBAS2_CALL_FAR_MEM_LABEL 2
%if (%2) == 1 || (%2) == 3
db 066h ; o16/o32
%endif
%if TMPL_BITS != 64
call far [BS3_CPUBAS2_REF_LABEL_VIA_CS(%1)]
%elif TMPL_BITS == 64
%if (%2) == 2 || (%2) == 3
db 048h ; REX.W
%endif
db 0ffh, 01ch, 025h ; call far [mem]
dd %1 wrt FLAT
%else
%error TMPL_BITS
%endif
%endmacro
%endif
;*********************************************************************************************************************************
;* External Symbols *
;*********************************************************************************************************************************
TMPL_BEGIN_TEXT
;
; Test code snippets containing code which differs between 16-bit, 32-bit
; and 64-bit CPUs modes.
;
%ifdef BS3_INSTANTIATING_CMN
;
; SIDT
;
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sidt_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sidt_bx_ud2, BS3_PBC_NEAR
sidt [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sidt_bx_ud2) == 3)
BS3_PROC_END_CMN bs3CpuBasic2_sidt_bx_ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sidt_opsize_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sidt_opsize_bx_ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
sidt [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sidt_opsize_bx_ud2) == 4)
BS3_PROC_END_CMN bs3CpuBasic2_sidt_opsize_bx_ud2
%if TMPL_BITS == 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sidt_rexw_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sidt_rexw_bx_ud2, BS3_PBC_NEAR
db X86_OP_REX_W
sidt [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sidt_rexw_bx_ud2) == 4)
BS3_PROC_END_CMN bs3CpuBasic2_sidt_rexw_bx_ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sidt_opsize_rexw_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sidt_opsize_rexw_bx_ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
db X86_OP_REX_W
sidt [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sidt_opsize_rexw_bx_ud2) == 5)
BS3_PROC_END_CMN bs3CpuBasic2_sidt_opsize_rexw_bx_ud2
%endif
%if TMPL_BITS != 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sidt_ss_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sidt_ss_bx_ud2, BS3_PBC_NEAR
sidt [ss:xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sidt_ss_bx_ud2) == 4)
BS3_PROC_END_CMN bs3CpuBasic2_sidt_ss_bx_ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sidt_opsize_ss_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sidt_opsize_ss_bx_ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
sidt [ss:xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sidt_opsize_ss_bx_ud2) == 5)
BS3_PROC_END_CMN bs3CpuBasic2_sidt_opsize_ss_bx_ud2
%endif
;
; SGDT
;
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sgdt_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sgdt_bx_ud2, BS3_PBC_NEAR
sgdt [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sgdt_bx_ud2) == 3)
BS3_PROC_END_CMN bs3CpuBasic2_sgdt_bx_ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sgdt_opsize_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sgdt_opsize_bx_ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
sgdt [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sgdt_opsize_bx_ud2) == 4)
BS3_PROC_END_CMN bs3CpuBasic2_sgdt_opsize_bx_ud2
%if TMPL_BITS == 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sgdt_rexw_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sgdt_rexw_bx_ud2, BS3_PBC_NEAR
db X86_OP_REX_W
sgdt [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sgdt_rexw_bx_ud2) == 4)
BS3_PROC_END_CMN bs3CpuBasic2_sgdt_rexw_bx_ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sgdt_opsize_rexw_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sgdt_opsize_rexw_bx_ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
db X86_OP_REX_W
sgdt [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sgdt_opsize_rexw_bx_ud2) == 5)
BS3_PROC_END_CMN bs3CpuBasic2_sgdt_opsize_rexw_bx_ud2
%endif
%if TMPL_BITS != 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sgdt_ss_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sgdt_ss_bx_ud2, BS3_PBC_NEAR
sgdt [ss:xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sgdt_ss_bx_ud2) == 4)
BS3_PROC_END_CMN bs3CpuBasic2_sgdt_ss_bx_ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_sgdt_opsize_ss_bx_ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_sgdt_opsize_ss_bx_ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
sgdt [ss:xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_sgdt_opsize_ss_bx_ud2) == 5)
BS3_PROC_END_CMN bs3CpuBasic2_sgdt_opsize_ss_bx_ud2
%endif
;
; LIDT
;
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lidt_bx__sidt_es_di__lidt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lidt_bx__sidt_es_di__lidt_es_si__ud2, BS3_PBC_NEAR
lidt [xBX]
sidt [BS3_NOT_64BIT(es:) xDI]
lidt [BS3_NOT_64BIT(es:) xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lidt_bx__sidt_es_di__lidt_es_si__ud2) == BS3_IF_64BIT_OTHERWISE(9,11))
BS3_PROC_END_CMN bs3CpuBasic2_lidt_bx__sidt_es_di__lidt_es_si__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lidt_opsize_bx__sidt_es_di__lidt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lidt_opsize_bx__sidt_es_di__lidt_es_si__ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
lidt [xBX]
sidt [BS3_NOT_64BIT(es:) xDI]
lidt [BS3_NOT_64BIT(es:) xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lidt_opsize_bx__sidt_es_di__lidt_es_si__ud2) == BS3_IF_64BIT_OTHERWISE(10,12))
BS3_PROC_END_CMN bs3CpuBasic2_lidt_opsize_bx__sidt_es_di__lidt_es_si__ud2
%if TMPL_BITS == 16
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lidt_opsize_bx__sidt32_es_di__lidt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lidt_opsize_bx__sidt32_es_di__lidt_es_si__ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
lidt [xBX]
jmp dword BS3_SEL_R0_CS32:.in_32bit wrt FLAT
BS3_SET_BITS 32
.in_32bit:
sidt [es:edi]
lidt [es:esi]
jmp dword BS3_SEL_R0_CS16:.again wrt CGROUP16
BS3_SET_BITS 16
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lidt_opsize_bx__sidt32_es_di__lidt_es_si__ud2) == 27)
BS3_PROC_END_CMN bs3CpuBasic2_lidt_opsize_bx__sidt32_es_di__lidt_es_si__ud2
%endif
%if TMPL_BITS == 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lidt_rexw_bx__sidt_es_di__lidt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lidt_rexw_bx__sidt_es_di__lidt_es_si__ud2, BS3_PBC_NEAR
db X86_OP_REX_W
lidt [xBX]
sidt [xDI]
lidt [xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lidt_rexw_bx__sidt_es_di__lidt_es_si__ud2) == 10)
BS3_PROC_END_CMN bs3CpuBasic2_lidt_rexw_bx__sidt_es_di__lidt_es_si__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lidt_opsize_rexw_bx__sidt_es_di__lidt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lidt_opsize_rexw_bx__sidt_es_di__lidt_es_si__ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
db X86_OP_REX_W
lidt [xBX]
sidt [xDI]
lidt [xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lidt_opsize_rexw_bx__sidt_es_di__lidt_es_si__ud2) == 11)
BS3_PROC_END_CMN bs3CpuBasic2_lidt_opsize_rexw_bx__sidt_es_di__lidt_es_si__ud2
%endif
%if TMPL_BITS != 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lidt_ss_bx__sidt_es_di__lidt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lidt_ss_bx__sidt_es_di__lidt_es_si__ud2, BS3_PBC_NEAR
lidt [ss:xBX]
sidt [BS3_NOT_64BIT(es:) xDI]
lidt [BS3_NOT_64BIT(es:) xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lidt_ss_bx__sidt_es_di__lidt_es_si__ud2) == 12)
BS3_PROC_END_CMN bs3CpuBasic2_lidt_ss_bx__sidt_es_di__lidt_es_si__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lidt_opsize_ss_bx__sidt_es_di__lidt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lidt_opsize_ss_bx__sidt_es_di__lidt_es_si__ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
lidt [ss:xBX]
sidt [BS3_NOT_64BIT(es:) xDI]
lidt [BS3_NOT_64BIT(es:) xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lidt_opsize_ss_bx__sidt_es_di__lidt_es_si__ud2) == 13)
BS3_PROC_END_CMN bs3CpuBasic2_lidt_opsize_ss_bx__sidt_es_di__lidt_es_si__ud2
%endif
;
; LGDT
;
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lgdt_bx__sgdt_es_di__lgdt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lgdt_bx__sgdt_es_di__lgdt_es_si__ud2, BS3_PBC_NEAR
lgdt [xBX]
sgdt [BS3_NOT_64BIT(es:) xDI]
lgdt [BS3_NOT_64BIT(es:) xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lgdt_bx__sgdt_es_di__lgdt_es_si__ud2) == BS3_IF_64BIT_OTHERWISE(9,11))
BS3_PROC_END_CMN bs3CpuBasic2_lgdt_bx__sgdt_es_di__lgdt_es_si__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lgdt_opsize_bx__sgdt_es_di__lgdt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lgdt_opsize_bx__sgdt_es_di__lgdt_es_si__ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
lgdt [xBX]
sgdt [BS3_NOT_64BIT(es:) xDI]
lgdt [BS3_NOT_64BIT(es:) xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lgdt_opsize_bx__sgdt_es_di__lgdt_es_si__ud2) == BS3_IF_64BIT_OTHERWISE(10,12))
BS3_PROC_END_CMN bs3CpuBasic2_lgdt_opsize_bx__sgdt_es_di__lgdt_es_si__ud2
%if TMPL_BITS == 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lgdt_rexw_bx__sgdt_es_di__lgdt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lgdt_rexw_bx__sgdt_es_di__lgdt_es_si__ud2, BS3_PBC_NEAR
db X86_OP_REX_W
lgdt [xBX]
sgdt [xDI]
lgdt [xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lgdt_rexw_bx__sgdt_es_di__lgdt_es_si__ud2) == 10)
BS3_PROC_END_CMN bs3CpuBasic2_lgdt_rexw_bx__sgdt_es_di__lgdt_es_si__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lgdt_opsize_rexw_bx__sgdt_es_di__lgdt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lgdt_opsize_rexw_bx__sgdt_es_di__lgdt_es_si__ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
db X86_OP_REX_W
lgdt [xBX]
sgdt [xDI]
lgdt [xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lgdt_opsize_rexw_bx__sgdt_es_di__lgdt_es_si__ud2) == 11)
BS3_PROC_END_CMN bs3CpuBasic2_lgdt_opsize_rexw_bx__sgdt_es_di__lgdt_es_si__ud2
%endif
%if TMPL_BITS != 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lgdt_ss_bx__sgdt_es_di__lgdt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lgdt_ss_bx__sgdt_es_di__lgdt_es_si__ud2, BS3_PBC_NEAR
lgdt [ss:xBX]
sgdt [BS3_NOT_64BIT(es:) xDI]
lgdt [BS3_NOT_64BIT(es:) xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lgdt_ss_bx__sgdt_es_di__lgdt_es_si__ud2) == 12)
BS3_PROC_END_CMN bs3CpuBasic2_lgdt_ss_bx__sgdt_es_di__lgdt_es_si__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_lgdt_opsize_ss_bx__sgdt_es_di__lgdt_es_si__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_lgdt_opsize_ss_bx__sgdt_es_di__lgdt_es_si__ud2, BS3_PBC_NEAR
db X86_OP_PRF_SIZE_OP
lgdt [ss:xBX]
sgdt [BS3_NOT_64BIT(es:) xDI]
lgdt [BS3_NOT_64BIT(es:) xSI]
.again:
ud2
jmp .again
AssertCompile(.again - BS3_CMN_NM(bs3CpuBasic2_lgdt_opsize_ss_bx__sgdt_es_di__lgdt_es_si__ud2) == 13)
BS3_PROC_END_CMN bs3CpuBasic2_lgdt_opsize_ss_bx__sgdt_es_di__lgdt_es_si__ud2
%endif ; TMPL_BITS != 64
;
; #PF & #AC
;
; For testing read access.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_mov_ax_ds_bx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_mov_ax_ds_bx__ud2, BS3_PBC_NEAR
mov xAX, [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 2 + (TMPL_BITS == 64))
BS3_PROC_END_CMN bs3CpuBasic2_mov_ax_ds_bx__ud2
; For testing write access.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_mov_ds_bx_ax__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_mov_ds_bx_ax__ud2, BS3_PBC_NEAR
mov [xBX], xAX
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 2 + (TMPL_BITS == 64))
BS3_PROC_END_CMN bs3CpuBasic2_mov_ds_bx_ax__ud2
; For testing read+write access.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_xchg_ds_bx_ax__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_xchg_ds_bx_ax__ud2, BS3_PBC_NEAR
xchg [xBX], xAX
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 2 + (TMPL_BITS == 64))
BS3_PROC_END_CMN bs3CpuBasic2_xchg_ds_bx_ax__ud2
; Another read+write access test.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_cmpxchg_ds_bx_cx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_cmpxchg_ds_bx_cx__ud2, BS3_PBC_NEAR
cmpxchg [xBX], xCX
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 3 + (TMPL_BITS == 64))
BS3_PROC_END_CMN bs3CpuBasic2_cmpxchg_ds_bx_cx__ud2
; For testing read access from an aborted instruction: DIV by zero
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_div_ds_bx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_div_ds_bx__ud2, BS3_PBC_NEAR
div xPRE [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 2 + (TMPL_BITS == 64))
BS3_PROC_END_CMN bs3CpuBasic2_div_ds_bx__ud2
; For testing FLD m80 alignment (#AC).
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_fninit_fld_ds_bx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_fninit_fld_ds_bx__ud2, BS3_PBC_NEAR
fninit ; make sure to not trigger a stack overflow.
.actual_test_instruction:
fld tword [xBX]
.again: ud2
jmp .again
AssertCompile(.actual_test_instruction - BS3_LAST_LABEL == 2)
BS3_PROC_END_CMN bs3CpuBasic2_fninit_fld_ds_bx__ud2
; For testing FBLD m80 alignment (#AC).
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_fninit_fbld_ds_bx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_fninit_fbld_ds_bx__ud2, BS3_PBC_NEAR
fninit ; make sure to not trigger a stack overflow.
.actual_test_instruction:
fbld tword [xBX]
.again: ud2
jmp .again
AssertCompile(.actual_test_instruction - BS3_LAST_LABEL == 2)
BS3_PROC_END_CMN bs3CpuBasic2_fninit_fbld_ds_bx__ud2
; For testing FST m80 alignment (#AC).
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_fninit_fldz_fstp_ds_bx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_fninit_fldz_fstp_ds_bx__ud2, BS3_PBC_NEAR
fninit ; make sure to not trigger a stack overflow.
fldz ; make sure we've got something to store
.actual_test_instruction:
fstp tword [xBX]
.again: ud2
jmp .again
AssertCompile(.actual_test_instruction - BS3_LAST_LABEL == 4)
BS3_PROC_END_CMN bs3CpuBasic2_fninit_fldz_fstp_ds_bx__ud2
; For testing FXSAVE alignment (#AC/#GP).
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_fxsave_ds_bx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_fxsave_ds_bx__ud2, BS3_PBC_NEAR
fxsave [xBX]
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_fxsave_ds_bx__ud2
; Two memory operands: push [mem]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_push_ds_bx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_push_ds_bx__ud2, BS3_PBC_NEAR
push xPRE [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 2)
BS3_PROC_END_CMN bs3CpuBasic2_push_ds_bx__ud2
; Two memory operands: pop [mem]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_push_ax__pop_ds_bx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_push_ax__pop_ds_bx__ud2, BS3_PBC_NEAR
push xAX
pop xPRE [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 3)
BS3_PROC_END_CMN bs3CpuBasic2_push_ax__pop_ds_bx__ud2
; Two memory operands: call [mem]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_ds_bx__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_ds_bx__ud2, BS3_PBC_NEAR
call xPRE [xBX]
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 2)
BS3_PROC_END_CMN bs3CpuBasic2_call_ds_bx__ud2
; For testing #GP vs #PF write
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_insb__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_insb__ud2, BS3_PBC_NEAR
insb
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 1)
BS3_PROC_END_CMN bs3CpuBasic2_insb__ud2
;*********************************************************************************************************************************
;* Non-far JMP & CALL Tests (simple ones). *
;*********************************************************************************************************************************
; jmp rel8 (forwards)
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_jb__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_jb__ud2, BS3_PBC_NEAR
jmp short .again
.post_jmp:
times 7 int3
.again: ud2
int3
jmp .again
AssertCompile(.post_jmp - BS3_LAST_LABEL == 2)
BS3_PROC_END_CMN bs3CpuBasic2_jmp_jb__ud2
; jmp rel8 (backwards)
BS3_GLOBAL_NAME_EX RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_jmp_jb_back__ud2),.again), function, 2
ud2
times 7 int3
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_jb_back__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_jb_back__ud2, BS3_PBC_NEAR
jmp short .again
.post_jmp:
int3
AssertCompile(.post_jmp - BS3_LAST_LABEL == 2)
BS3_PROC_END_CMN bs3CpuBasic2_jmp_jb_back__ud2
; jmp rel16 (forwards)
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_jv__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_jv__ud2, BS3_PBC_NEAR
jmp near .again
.post_jmp:
times 9 int3
.again: ud2
int3
jmp .again
%if TMPL_BITS == 16
AssertCompile(.post_jmp - BS3_LAST_LABEL == 3)
%else
AssertCompile(.post_jmp - BS3_LAST_LABEL == 5)
%endif
BS3_PROC_END_CMN bs3CpuBasic2_jmp_jv__ud2
; jmp rel16 (backwards)
BS3_GLOBAL_NAME_EX RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_jmp_jv_back__ud2),.again), function, 2
ud2
times 6 int3
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_jv_back__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_jv_back__ud2, BS3_PBC_NEAR
jmp near .again
.post_jmp:
int3
%if TMPL_BITS == 16
AssertCompile(.post_jmp - BS3_LAST_LABEL == 3)
%else
AssertCompile(.post_jmp - BS3_LAST_LABEL == 5)
%endif
BS3_PROC_END_CMN bs3CpuBasic2_jmp_jv_back__ud2
; jmp [indirect]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_ind_mem__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_ind_mem__ud2, BS3_PBC_NEAR
%if TMPL_BITS == 16
jmp [word cs:.npAgain]
%elif TMPL_BITS == 32
jmp [dword cs:.npAgain]
%else
jmp [.npAgain]
%endif
.post_jmp:
times 9 int3
.npAgain:
%if TMPL_BITS == 16
dw BS3_TEXT16_WRT(.again)
%else
dd .again wrt FLAT
%if TMPL_BITS == 64
dd 0
%endif
%endif
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmp_ind_mem__ud2
; jmp [xAX]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_ind_xAX__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_ind_xAX__ud2, BS3_PBC_NEAR
jmp xAX
.post_jmp:
times 17 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmp_ind_xAX__ud2
; jmp [xDI]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_ind_xDI__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_ind_xDI__ud2, BS3_PBC_NEAR
jmp xDI
.post_jmp:
times 17 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmp_ind_xDI__ud2
%if TMPL_BITS == 64
; jmp [xAX]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_ind_r9__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_ind_r9__ud2, BS3_PBC_NEAR
jmp r9
.post_jmp:
times 17 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmp_ind_r9__ud2
%endif
; call rel16/32 (forwards)
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_jv__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_jv__ud2, BS3_PBC_NEAR
call near .again
.post_call:
times 9 int3
.again: ud2
int3
jmp .again
%if TMPL_BITS == 16
AssertCompile(.post_call - BS3_LAST_LABEL == 3)
%else
AssertCompile(.post_call - BS3_LAST_LABEL == 5)
%endif
BS3_PROC_END_CMN bs3CpuBasic2_call_jv__ud2
; call rel16/32 (backwards)
BS3_GLOBAL_NAME_EX RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_call_jv_back__ud2),.again), function, 2
ud2
times 6 int3
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_jv_back__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_jv_back__ud2, BS3_PBC_NEAR
call near .again
.post_call:
int3
%if TMPL_BITS == 16
AssertCompile(.post_call - BS3_LAST_LABEL == 3)
%else
AssertCompile(.post_call - BS3_LAST_LABEL == 5)
%endif
BS3_PROC_END_CMN bs3CpuBasic2_call_jv_back__ud2
; call [indirect]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_ind_mem__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_ind_mem__ud2, BS3_PBC_NEAR
%if TMPL_BITS == 16
call [word cs:.npAgain]
%elif TMPL_BITS == 32
call [dword cs:.npAgain]
%else
call [.npAgain]
%endif
.post_call:
times 9 int3
.npAgain:
%if TMPL_BITS == 16
dw BS3_TEXT16_WRT(.again)
%else
dd .again wrt FLAT
%if TMPL_BITS == 64
dd 0
%endif
%endif
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_call_ind_mem__ud2
; call [xAX]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_ind_xAX__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_ind_xAX__ud2, BS3_PBC_NEAR
call xAX
.post_call:
times 17 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_call_ind_xAX__ud2
; call [xDI]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_ind_xDI__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_ind_xDI__ud2, BS3_PBC_NEAR
call xDI
.post_call:
times 17 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_call_ind_xDI__ud2
%if TMPL_BITS == 64
; call [xAX]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_ind_r9__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_ind_r9__ud2, BS3_PBC_NEAR
call r9
.post_call:
times 17 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_call_ind_r9__ud2
%endif
;
; When applying opsize, we need to put this in the 16-bit text segment to
; better control where we end up in 32-bit and 64-bit mode.
;
; Try keep the code out of the IVT and BIOS data area. We ASSUME that the
; BS3TEXT16 segment portion in this object file will be at the start of the
; image, so we won't waste much space padding up to offset 0x600.
;
BS3_BEGIN_TEXT16 TMPL_BITS
%if TMPL_BITS == 32
%assign here ($ - $$)
%if here < 0x600
times (0x600 - here) int3
%endif
%endif
BS3_GLOBAL_NAME_EX BS3_CMN_NM(bs3CpuBasic2_jmp_opsize_begin), , 1
; jmp rel8 (forwards) with opsize override.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_jb_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_jb_opsize__ud2, BS3_PBC_NEAR
db 66h
jmp short .again
.post_jmp:
times 8 int3
.again: ud2
int3
jmp .again
AssertCompile(.post_jmp - BS3_LAST_LABEL == 3)
BS3_PROC_END_CMN bs3CpuBasic2_jmp_jb_opsize__ud2
; jmp rel8 (backwards) with opsize override.
BS3_GLOBAL_NAME_EX RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_jmp_jb_opsize_back__ud2),.again), function, 2
ud2
times 19 int3
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_jb_opsize_back__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_jb_opsize_back__ud2, BS3_PBC_NEAR
db 66h
jmp short .again
.post_jmp:
int3
AssertCompile(.post_jmp - BS3_LAST_LABEL == 3)
BS3_PROC_END_CMN bs3CpuBasic2_jmp_jb_opsize_back__ud2
; jmp rel16 (forwards) with opsize override.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_jv_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_jv_opsize__ud2, BS3_PBC_NEAR
db 66h, 0e9h ; o32 jmp near .again
%if TMPL_BITS != 32
dd 11
%else
dw 11
%endif
.post_jmp:
times 11 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmp_jv_opsize__ud2
; jmp rel16 (backwards) with opsize override.
BS3_GLOBAL_NAME_EX RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_jmp_jv_opsize_back__ud2),.again), function, 2
ud2
times 19 int3
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_jv_opsize_back__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_jv_opsize_back__ud2, BS3_PBC_NEAR
%if TMPL_BITS != 32
db 66h, 0e9h ; o32 jmp near .again
dd RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_jmp_jv_opsize_back__ud2),.again) - .post_jmp
%else
db 66h, 0e9h ; o16 jmp near .again
dw RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_jmp_jv_opsize_back__ud2),.again) - .post_jmp
%endif
.post_jmp:
int3
BS3_PROC_END_CMN bs3CpuBasic2_jmp_jv_opsize_back__ud2
; jmp [indirect]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_ind_mem_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_ind_mem_opsize__ud2, BS3_PBC_NEAR
db 66h
%if TMPL_BITS == 16
jmp [word cs:.npAgain]
%elif TMPL_BITS == 32
jmp [dword cs:.npAgain wrt FLAT]
%else
jmp [.npAgain wrt FLAT]
%endif
.post_jmp:
times 9 int3
.npAgain:
%if TMPL_BITS == 16
dw BS3_TEXT16_WRT(.again)
dw 0
%else
dw .again wrt CGROUP16
dw 0faceh, 0f00dh, 07777h ; non-canonical address
%endif
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmp_ind_mem_opsize__ud2
%if TMPL_BITS == 64
; jmp [indirect] - 64-bit intel version
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_ind_mem_opsize__ud2__intel
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_ind_mem_opsize__ud2__intel, BS3_PBC_NEAR
db 66h
jmp [.npAgain wrt FLAT]
.post_jmp:
times 8 int3
.npAgain:
dd .again wrt FLAT
dd 0
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmp_ind_mem_opsize__ud2__intel
%endif
; jmp [xAX]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmp_ind_xAX_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmp_ind_xAX_opsize__ud2, BS3_PBC_NEAR
db 66h
jmp xAX
.post_jmp:
times 8 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmp_ind_xAX_opsize__ud2
; call rel16/32 (forwards) with opsize override.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_jv_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_jv_opsize__ud2, BS3_PBC_NEAR
db 66h, 0e8h ; o32 jmp near .again
%if TMPL_BITS != 32
dd 12
%else
dw 12
%endif
.post_call:
times 12 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_call_jv_opsize__ud2
; call rel16/32 (backwards) with opsize override.
BS3_GLOBAL_NAME_EX RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_call_jv_opsize_back__ud2),.again), function, 2
ud2
times 19 int3
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_jv_opsize_back__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_jv_opsize_back__ud2, BS3_PBC_NEAR
%if TMPL_BITS != 32
db 66h, 0e8h ; o32 call near .again
dd RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_call_jv_opsize_back__ud2),.again) - .post_call
%else
db 66h, 0e8h ; o16 call near .again
dw RT_CONCAT(BS3_CMN_NM(bs3CpuBasic2_call_jv_opsize_back__ud2),.again) - .post_call
%endif
.post_call:
int3
BS3_PROC_END_CMN bs3CpuBasic2_call_jv_opsize_back__ud2
; call [indirect]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_ind_mem_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_ind_mem_opsize__ud2, BS3_PBC_NEAR
db 66h
%if TMPL_BITS == 16
call [word cs:.npAgain]
%elif TMPL_BITS == 32
call [dword cs:.npAgain wrt FLAT]
%else
call [.npAgain wrt FLAT]
%endif
.post_call:
times 9 int3
.npAgain:
%if TMPL_BITS == 16
dw BS3_TEXT16_WRT(.again)
dw 0
%else
dw .again wrt CGROUP16
dw 0faceh, 0f00dh, 07777h ; non-canonical address
%endif
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_call_ind_mem_opsize__ud2
%if TMPL_BITS == 64
; call [indirect] - 64-bit intel version
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_ind_mem_opsize__ud2__intel
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_ind_mem_opsize__ud2__intel, BS3_PBC_NEAR
db 66h
call [.npAgain wrt FLAT]
.post_call:
times 8 int3
.npAgain:
dd .again wrt FLAT
dd 0
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_call_ind_mem_opsize__ud2__intel
%endif
; call [xAX]
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_call_ind_xAX_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_call_ind_xAX_opsize__ud2, BS3_PBC_NEAR
db 66h
call xAX
.post_call:
times 8 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_call_ind_xAX_opsize__ud2
;
; Mark the end of the opsize jmp section.
;
BS3_GLOBAL_NAME_EX BS3_CMN_NM(bs3CpuBasic2_jmp_opsize_end), , 1
int3
TMPL_BEGIN_TEXT
;*********************************************************************************************************************************
;* FAR JMP ABS *
;*********************************************************************************************************************************
;
; Mark the start of the opsize far jmp/call section.
;
; Here we also need to keep the 16-bit code out of the IVT and BIOS data area,
; not just the 32-bit and 64-bit code like for the above opsize cases.
;
BS3_BEGIN_TEXT16 TMPL_BITS
%assign here $-$$
%if here < 0x600
times (0x600 - here) int3
%endif
BS3_GLOBAL_NAME_EX BS3_CMN_NM(bs3CpuBasic2_far_jmp_call_opsize_begin), , 1
int3
TMPL_BEGIN_TEXT
%if TMPL_BITS == 16
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_ptr_rm__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_ptr_rm__ud2, BS3_PBC_NEAR
db 0eah
dw .again wrt CGROUP16
dw BS3_SEL_TEXT16
.post_jmp:
times 2 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_ptr_rm__ud2
%endif
%if TMPL_BITS != 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_ptr_same_r0__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_ptr_same_r0__ud2, BS3_PBC_NEAR
db 0eah
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R0_CS16
%else
dd .again wrt FLAT
dw BS3_SEL_R0_CS32
%endif
.post_jmp:
times 7 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_ptr_same_r0__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_ptr_same_r1__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_ptr_same_r1__ud2, BS3_PBC_NEAR
db 0eah ; inter privilege jmp -> #GP(dst-cs)
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R1_CS16 | 1
%else
dd .again wrt FLAT
dw BS3_SEL_R1_CS32 | 1
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_ptr_same_r1__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_ptr_same_r2__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_ptr_same_r2__ud2, BS3_PBC_NEAR
db 0eah ; inter privilege jmp -> #GP(dst-cs)
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R2_CS16 | 2
%else
dd .again wrt FLAT
dw BS3_SEL_R2_CS32 | 2
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_ptr_same_r2__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_ptr_same_r3__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_ptr_same_r3__ud2, BS3_PBC_NEAR
db 0eah ; inter privilege jmp -> #GP(dst-cs)
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R3_CS16 | 3
%else
dd .again wrt FLAT
dw BS3_SEL_R3_CS32 | 3
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_ptr_same_r3__ud2
BS3_BEGIN_TEXT16 TMPL_BITS
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_ptr_opsize_flipbit_r0__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_ptr_opsize_flipbit_r0__ud2, BS3_PBC_NEAR
db 066h, 0eah
%if TMPL_BITS == 32
dw .again wrt CGROUP16
dw BS3_SEL_R0_CS16
%else
dd .again wrt FLAT
dw BS3_SEL_R0_CS32
%endif
times 4 int3
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_ptr_opsize_flipbit_r0__ud2
TMPL_BEGIN_TEXT
; Do a jmp to BS3_SEL_R0_CS64. Except for when we're in long mode, this will
; result in a 16-bit CS with zero base and 4G limit.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_ptr_r0_cs64__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_ptr_r0_cs64__ud2, BS3_PBC_NEAR
%if TMPL_BITS == 16
db 066h
%endif
db 0eah
dd .jmp_target wrt FLAT
dw BS3_SEL_R0_CS64
times 8 int3
.jmp_target:
salc ; #UD in 64-bit mode
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_ptr_r0_cs64__ud2
BS3_BEGIN_TEXT16 TMPL_BITS
; Variation of the previous with a CS16 copy that has the L bit set, emulating
; pre-AMD64 software using the L bit for other stuff. (Don't run in long mode
; w/o copying the 3 bytes to the 0xxxxh memory range.)
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_ptr_r0_cs16l__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_ptr_r0_cs16l__ud2, BS3_PBC_NEAR
%if TMPL_BITS != 16
db 066h
%endif
db 0eah
dw .jmp_target wrt CGROUP16
dw BS3_SEL_SPARE_00 ; ASSUMES this is set up as CGROUP16 but with L=1.
times 3 int3
.jmp_target:
salc ; #UD in 64-bit mode
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_ptr_r0_cs16l__ud2
TMPL_BEGIN_TEXT
%endif ; TMPL_BITS != 64
;*********************************************************************************************************************************
;* FAR CALL ABS *
;*********************************************************************************************************************************
%if TMPL_BITS == 16
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_ptr_rm__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_ptr_rm__ud2, BS3_PBC_NEAR
db 09ah
dw .again wrt CGROUP16
dw BS3_SEL_TEXT16
.post_call:
times 2 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_ptr_rm__ud2
%endif
%if TMPL_BITS != 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_ptr_same_r0__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_ptr_same_r0__ud2, BS3_PBC_NEAR
db 09ah
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R0_CS16
%else
dd .again wrt FLAT
dw BS3_SEL_R0_CS32
%endif
.post_call:
times 7 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_ptr_same_r0__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_ptr_same_r1__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_ptr_same_r1__ud2, BS3_PBC_NEAR
db 09ah
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R1_CS16 | 1
%else
dd .again wrt FLAT
dw BS3_SEL_R1_CS32 | 1
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_ptr_same_r1__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_ptr_same_r2__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_ptr_same_r2__ud2, BS3_PBC_NEAR
db 09ah
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R2_CS16 | 2
%else
dd .again wrt FLAT
dw BS3_SEL_R2_CS32 | 2
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_ptr_same_r2__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_ptr_same_r3__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_ptr_same_r3__ud2, BS3_PBC_NEAR
db 09ah
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R3_CS16 | 3
%else
dd .again wrt FLAT
dw BS3_SEL_R3_CS32 | 3
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_ptr_same_r3__ud2
BS3_BEGIN_TEXT16 TMPL_BITS
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_ptr_opsize_flipbit_r0__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_ptr_opsize_flipbit_r0__ud2, BS3_PBC_NEAR
db 066h, 09ah
%if TMPL_BITS == 32
dw .again wrt CGROUP16
dw BS3_SEL_R0_CS16
%else
dd .again wrt FLAT
dw BS3_SEL_R0_CS32
%endif
times 4 int3
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_ptr_opsize_flipbit_r0__ud2
TMPL_BEGIN_TEXT
; Do a call to BS3_SEL_R0_CS64. Except for when we're in long mode, this will
; result in a 16-bit CS with zero base and 4G limit.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_ptr_r0_cs64__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_ptr_r0_cs64__ud2, BS3_PBC_NEAR
%if TMPL_BITS == 16
db 066h
%endif
db 09ah
dd .call_target wrt FLAT
dw BS3_SEL_R0_CS64
times 8 int3
.call_target:
salc ; #UD in 64-bit mode
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_ptr_r0_cs64__ud2
BS3_BEGIN_TEXT16 TMPL_BITS
; Variation of the previous with a CS16 copy that has the L bit set, emulating
; pre-AMD64 software using the L bit for other stuff. (Don't run in long mode
; w/o copying the 3 bytes to the 0xxxxh memory range.)
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_ptr_r0_cs16l__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_ptr_r0_cs16l__ud2, BS3_PBC_NEAR
%if TMPL_BITS != 16
db 066h
%endif
db 09ah
dw .call_target wrt CGROUP16
dw BS3_SEL_SPARE_00 ; ASSUMES this is set up as CGROUP16 but with L=1.
times 3 int3
.call_target:
salc ; #UD in 64-bit mode
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_ptr_r0_cs16l__ud2
TMPL_BEGIN_TEXT
%endif ; TMPL_BITS != 64
;*********************************************************************************************************************************
;* INDIRECT FAR JMP *
;*********************************************************************************************************************************
%if TMPL_BITS == 16
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_mem_rm__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_mem_rm__ud2, BS3_PBC_NEAR
jmp far [BS3_CPUBAS2_REF_LABEL_VIA_CS(.fpfn)]
int3
.fpfn:
dw .again wrt CGROUP16
dw BS3_SEL_TEXT16
.post_jmp:
times 2 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_mem_rm__ud2
%endif
;;
; Since AMD and Intel treat REX.W differently, we need two versions of the
; test functions here and use a macro to accomplish that.
;
; @param 1 Symbol suffix
; @param 2 0 for AMD, 1 for Intel.
;
%ifnmacro jmpf_macro
%macro jmpf_macro 2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_mem_same_r0__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_mem_same_r0__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_JMP_FAR_MEM_LABEL .fpfn, 2
.fpfn:
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R0_CS16
%elif TMPL_BITS == 32
dd .again wrt FLAT
dw BS3_SEL_R0_CS32
%else
dd .again wrt FLAT
%if %2 != 0
dd 0fffff000h
%endif
dw BS3_SEL_R0_CS64
%endif
.post_jmp:
times 7 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_mem_same_r0__ud2 %+ %1
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_mem_same_r1__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_mem_same_r1__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_JMP_FAR_MEM_LABEL .fpfn, 2
.fpfn:
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R1_CS16 | 1
%elif TMPL_BITS == 32
dd .again wrt FLAT
dw BS3_SEL_R1_CS32 | 1
%else
dd .again wrt FLAT
%if %2 != 0
dd 0fffff000h
%endif
dw BS3_SEL_R1_CS64 | 1
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_mem_same_r1__ud2 %+ %1
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_mem_same_r2__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_mem_same_r2__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_JMP_FAR_MEM_LABEL .fpfn, 0
.fpfn:
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R2_CS16 | 2
%elif TMPL_BITS == 32
dd .again wrt FLAT
dw BS3_SEL_R2_CS32 | 2
%else
dd .again wrt FLAT
dw BS3_SEL_R2_CS64 | 2
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_mem_same_r2__ud2 %+ %1
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_mem_same_r3__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_mem_same_r3__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_JMP_FAR_MEM_LABEL .fpfn, 2
.fpfn:
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R3_CS16 | 3
%elif TMPL_BITS == 32
dd .again wrt FLAT
dw BS3_SEL_R3_CS32 | 3
%else
dd .again wrt FLAT
%if %2 != 0
dd 0fffff000h
%endif
dw BS3_SEL_R3_CS64 | 3
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_mem_same_r3__ud2 %+ %1
BS3_BEGIN_TEXT16 TMPL_BITS
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_mem_r0_cs16__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_mem_r0_cs16__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_JMP_FAR_MEM_LABEL .fpfn, (TMPL_BITS != 16) ; TMPL_BITS != 16 ? 1 : 0
.fpfn:
dw .again wrt CGROUP16
dw BS3_SEL_R0_CS16
times 4 int3
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_mem_r0_cs16__ud2 %+ %1
TMPL_BEGIN_TEXT
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_mem_r0_cs32__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_mem_r0_cs32__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_JMP_FAR_MEM_LABEL .fpfn, (TMPL_BITS == 16) ; TMPL_BITS == 16 ? 1 : 0
.fpfn:
dd .again wrt FLAT
dw BS3_SEL_R0_CS32
times 4 int3
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_mem_r0_cs32__ud2 %+ %1
; Do a jmp to BS3_SEL_R0_CS64. Except for when we're in long mode, this will
; result in a 16-bit CS with zero base and 4G limit.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_mem_r0_cs64__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_mem_r0_cs64__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_JMP_FAR_MEM_LABEL .fpfn, (2 - (TMPL_BITS == 16)) ; TMPL_BITS == 16 ? 1 : 2
.fpfn:
dd .jmp_target wrt FLAT
%if TMPL_BITS == 64 && %2 != 0
dd 0fffff000h
%endif
dw BS3_SEL_R0_CS64
times 8 int3
.jmp_target:
%if TMPL_BITS != 64
salc ; #UD in 64-bit mode
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_mem_r0_cs64__ud2 %+ %1
BS3_BEGIN_TEXT16 TMPL_BITS
; Variation of the previous with a CS16 copy that has the L bit set, emulating
; pre-AMD64 software using the L bit for other stuff. (Don't run _c16/32 in
; long mode w/o copying the 3 bytes to the 0xxxxh memory range.)
; The _c64 version will test that the base is ignored.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_jmpf_mem_r0_cs16l__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_jmpf_mem_r0_cs16l__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_JMP_FAR_MEM_LABEL .fpfn, (TMPL_BITS == 32) ; TMPL_BITS == 32 ? 1 : 0
.fpfn:
%if TMPL_BITS != 64
dw .jmp_target wrt CGROUP16
%else
dd .jmp_target wrt FLAT
%endif
dw BS3_SEL_SPARE_00 ; ASSUMES this is set up as CGROUP16 but with L=1.
times 3 int3
.jmp_target:
%if TMPL_BITS != 64
salc ; #UD in 64-bit mode
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_jmpf_mem_r0_cs16l__ud2 %+ %1
TMPL_BEGIN_TEXT
%endmacro
%endif
; Instantiate the above code
jmpf_macro , 0
%if TMPL_BITS == 64
jmpf_macro _intel, 1
%endif
;*********************************************************************************************************************************
;* INDIRECT FAR CALL *
;*********************************************************************************************************************************
%if TMPL_BITS == 16
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_mem_rm__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_mem_rm__ud2, BS3_PBC_NEAR
call far [BS3_CPUBAS2_REF_LABEL_VIA_CS(.fpfn)]
int3
.fpfn:
dw .again wrt CGROUP16
dw BS3_SEL_TEXT16
.post_jmp:
times 2 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_mem_rm__ud2
%endif
;;
; Since AMD and Intel treat REX.W differently, we need two versions of the
; test functions here and use a macro to accomplish that.
;
; @param 1 Symbol suffix
; @param 2 0 for AMD, 1 for Intel.
;
%ifnmacro callf_macro
%macro callf_macro 2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_mem_same_r0__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_mem_same_r0__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_CALL_FAR_MEM_LABEL .fpfn, 2
.fpfn:
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R0_CS16
%elif TMPL_BITS == 32
dd .again wrt FLAT
dw BS3_SEL_R0_CS32
%else
dd .again wrt FLAT
%if %2 != 0
dd 0fffff000h
%endif
dw BS3_SEL_R0_CS64
%endif
.post_call:
times 7 int3
.again: ud2
int3
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_mem_same_r0__ud2 %+ %1
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_mem_same_r1__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_mem_same_r1__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_CALL_FAR_MEM_LABEL .fpfn, 2
.fpfn:
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R1_CS16 | 1
%elif TMPL_BITS == 32
dd .again wrt FLAT
dw BS3_SEL_R1_CS32 | 1
%else
dd .again wrt FLAT
%if %2 != 0
dd 0fffff000h
%endif
dw BS3_SEL_R1_CS64 | 1
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_mem_same_r1__ud2 %+ %1
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_mem_same_r2__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_mem_same_r2__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_CALL_FAR_MEM_LABEL .fpfn, 0
.fpfn:
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R2_CS16 | 2
%elif TMPL_BITS == 32
dd .again wrt FLAT
dw BS3_SEL_R2_CS32 | 2
%else
dd .again wrt FLAT
dw BS3_SEL_R2_CS64 | 2
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_mem_same_r2__ud2 %+ %1
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_mem_same_r3__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_mem_same_r3__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_CALL_FAR_MEM_LABEL .fpfn, 2
.fpfn:
%if TMPL_BITS == 16
dw .again wrt CGROUP16
dw BS3_SEL_R3_CS16 | 3
%elif TMPL_BITS == 32
dd .again wrt FLAT
dw BS3_SEL_R3_CS32 | 3
%else
dd .again wrt FLAT
%if %2 != 0
dd 0fffff000h
%endif
dw BS3_SEL_R3_CS64 | 3
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_mem_same_r3__ud2 %+ %1
BS3_BEGIN_TEXT16 TMPL_BITS
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_mem_r0_cs16__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_mem_r0_cs16__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_CALL_FAR_MEM_LABEL .fpfn, (TMPL_BITS != 16) ; (TMPL_BITS == 16 ? 0 : 1)
.fpfn:
dw .again wrt CGROUP16
dw BS3_SEL_R0_CS16
times 4 int3
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_mem_r0_cs16__ud2 %+ %1
TMPL_BEGIN_TEXT
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_mem_r0_cs32__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_mem_r0_cs32__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_CALL_FAR_MEM_LABEL .fpfn, (TMPL_BITS == 16) ; (TMPL_BITS == 16 ? 1 : 0)
.fpfn:
dd .again wrt FLAT
dw BS3_SEL_R0_CS32
times 4 int3
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_mem_r0_cs32__ud2 %+ %1
; Do a call to BS3_SEL_R0_CS64. Except for when we're in long mode, this will
; result in a 16-bit CS with zero base and 4G limit.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_mem_r0_cs64__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_mem_r0_cs64__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_CALL_FAR_MEM_LABEL .fpfn, (2 - (TMPL_BITS == 16)) ; (TMPL_BITS == 16 ? 1 : 2)
.fpfn:
dd .call_target wrt FLAT
%if TMPL_BITS == 64 && %2 != 0
dd 0fffff000h
%endif
dw BS3_SEL_R0_CS64
times 8 int3
.call_target:
%if TMPL_BITS != 64
salc ; #UD in 64-bit mode
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_mem_r0_cs64__ud2 %+ %1
BS3_BEGIN_TEXT16 TMPL_BITS
; Variation of the previous with a CS16 copy that has the L bit set, emulating
; pre-AMD64 software using the L bit for other stuff. (Don't run _c16/32 in
; long mode w/o copying the 3 bytes to the 0xxxxh memory range.)
; The _c64 version will test that the base is ignored.
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_callf_mem_r0_cs16l__ud2 %+ %1
BS3_PROC_BEGIN_CMN bs3CpuBasic2_callf_mem_r0_cs16l__ud2 %+ %1, BS3_PBC_NEAR
BS3_CPUBAS2_CALL_FAR_MEM_LABEL .fpfn, (TMPL_BITS == 32) ; (TMPL_BITS == 32 ? 1 : 0)
.fpfn:
%if TMPL_BITS != 64
dw .call_target wrt CGROUP16
%else
dd .call_target wrt FLAT
%endif
dw BS3_SEL_SPARE_00 ; ASSUMES this is set up as CGROUP16 but with L=1.
times 3 int3
.call_target:
%if TMPL_BITS != 64
salc ; #UD in 64-bit mode
%endif
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_callf_mem_r0_cs16l__ud2 %+ %1
TMPL_BEGIN_TEXT
%endmacro ; callf_macro
%endif
; Instantiate the above code
callf_macro , 0
%if TMPL_BITS == 64
callf_macro _intel, 1
%endif
;
; Mark the end of the opsize far jmp/call section.
;
BS3_BEGIN_TEXT16 TMPL_BITS
BS3_GLOBAL_NAME_EX BS3_CMN_NM(bs3CpuBasic2_far_jmp_call_opsize_end), , 1
int3
TMPL_BEGIN_TEXT
;*********************************************************************************************************************************
;* Near RET *
;*********************************************************************************************************************************
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn__ud2, BS3_PBC_NEAR
ret
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_retn__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_i24__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_i24__ud2, BS3_PBC_NEAR
ret 24
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 3)
BS3_PROC_END_CMN bs3CpuBasic2_retn_i24__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_i0__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_i0__ud2, BS3_PBC_NEAR
ret 0
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 3)
BS3_PROC_END_CMN bs3CpuBasic2_retn_i0__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_i760__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_i760__ud2, BS3_PBC_NEAR
ret 760
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 3)
BS3_PROC_END_CMN bs3CpuBasic2_retn_i760__ud2
%if TMPL_BITS == 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_rexw__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_rexw__ud2, BS3_PBC_NEAR
db 048h ; REX.W
ret
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_retn_rexw__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_i24_rexw__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_i24_rexw__ud2, BS3_PBC_NEAR
db 048h ; REX.W
ret 24
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 4)
BS3_PROC_END_CMN bs3CpuBasic2_retn_i24_rexw__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_opsize_rexw__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_opsize_rexw__ud2, BS3_PBC_NEAR
db 66h, 048h
ret
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_retn_opsize_rexw__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_i24_opsize_rexw__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_i24_opsize_rexw__ud2, BS3_PBC_NEAR
db 66h, 048h
ret 24
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 5)
BS3_PROC_END_CMN bs3CpuBasic2_retn_i24_opsize_rexw__ud2
%endif
; Mark the start of opsize tests as we end up below 64K in 32-bit and 64-bit when used.
BS3_BEGIN_TEXT16 TMPL_BITS
BS3_GLOBAL_NAME_EX BS3_CMN_NM(bs3CpuBasic2_retn_opsize_begin), , 1
int3
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_opsize__ud2, BS3_PBC_NEAR
db 66h
ret
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_retn_opsize__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_i24_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_i24_opsize__ud2, BS3_PBC_NEAR
db 66h
ret 24
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 4)
BS3_PROC_END_CMN bs3CpuBasic2_retn_i24_opsize__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_i0_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_i0_opsize__ud2, BS3_PBC_NEAR
db 66h
ret 0
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 4)
BS3_PROC_END_CMN bs3CpuBasic2_retn_i0_opsize__ud2
%if TMPL_BITS == 64
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_rexw_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_rexw_opsize__ud2, BS3_PBC_NEAR
db 048h, 66h
ret
.again: ud2
jmp .again
BS3_PROC_END_CMN bs3CpuBasic2_retn_rexw_opsize__ud2
BS3_CPUBAS2_UD_OFF bs3CpuBasic2_retn_i24_rexw_opsize__ud2
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retn_i24_rexw_opsize__ud2, BS3_PBC_NEAR
db 048h, 66h
ret 24
.again: ud2
jmp .again
AssertCompile(.again - BS3_LAST_LABEL == 5)
BS3_PROC_END_CMN bs3CpuBasic2_retn_i24_rexw_opsize__ud2
%endif
; End of opsize tests.
BS3_GLOBAL_NAME_EX BS3_CMN_NM(bs3CpuBasic2_retn_opsize_end), , 1
int3
TMPL_BEGIN_TEXT
;*********************************************************************************************************************************
;* FAR RET *
;*********************************************************************************************************************************
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf, BS3_PBC_NEAR
db 0cbh ; retf
BS3_PROC_END_CMN bs3CpuBasic2_retf
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_opsize, BS3_PBC_NEAR
db 066h, 0cbh ; o32/o16 retf
BS3_PROC_END_CMN bs3CpuBasic2_retf_opsize
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_i32, BS3_PBC_NEAR
db 0cah, 20h, 0 ; retf 32
BS3_PROC_END_CMN bs3CpuBasic2_retf_i32
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_i32_opsize, BS3_PBC_NEAR
db 066h, 0cah, 20h, 0 ; o32/o16 retf 32
BS3_PROC_END_CMN bs3CpuBasic2_retf_i32_opsize
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_i888, BS3_PBC_NEAR
db 0cah, 78h, 03h ; retf 888 (0x378)
BS3_PROC_END_CMN bs3CpuBasic2_retf_i888
%if TMPL_BITS == 64
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_rexw, BS3_PBC_NEAR
db 048h, 0cbh ; o64 retf
BS3_PROC_END_CMN bs3CpuBasic2_retf_rexw
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_opsize_rexw, BS3_PBC_NEAR
db 066h, 048h, 0cbh ; o16 o64 retf
BS3_PROC_END_CMN bs3CpuBasic2_retf_opsize_rexw
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_rexw_opsize, BS3_PBC_NEAR
db 048h, 066h, 0cbh ; o64 o16 retf
BS3_PROC_END_CMN bs3CpuBasic2_retf_rexw_opsize
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_i24_rexw, BS3_PBC_NEAR
db 048h, 0cah, 24, 0 ; o64 retf 24
BS3_PROC_END_CMN bs3CpuBasic2_retf_i24_rexw
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_i24_opsize_rexw, BS3_PBC_NEAR
db 066h, 048h, 0cah, 24, 0 ; o16 o64 retf 24
BS3_PROC_END_CMN bs3CpuBasic2_retf_i24_opsize_rexw
BS3_PROC_BEGIN_CMN bs3CpuBasic2_retf_i24_rexw_opsize, BS3_PBC_NEAR
db 048h, 066h, 0cah, 24, 0 ; o64 o16 retf 24
BS3_PROC_END_CMN bs3CpuBasic2_retf_i24_rexw_opsize
%endif
%endif ; BS3_INSTANTIATING_CMN
%include "bs3kit-template-footer.mac" ; reset environment
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