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source: vbox/trunk/src/VBox/ValidationKit/bootsectors/bs3-cpu-state64-1-asm.asm@ 94714

Last change on this file since 94714 was 93115, checked in by vboxsync, 3 years ago

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1; $Id: bs3-cpu-state64-1-asm.asm 93115 2022-01-01 11:31:46Z vboxsync $
2;; @file
3; BS3Kit - bs3-cpu-state64-1
4;
5
6;
7; Copyright (C) 2007-2022 Oracle Corporation
8;
9; This file is part of VirtualBox Open Source Edition (OSE), as
10; available from http://www.virtualbox.org. This file is free software;
11; you can redistribute it and/or modify it under the terms of the GNU
12; General Public License (GPL) as published by the Free Software
13; Foundation, in version 2 as it comes in the "COPYING" file of the
14; VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15; hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16;
17; The contents of this file may alternatively be used under the terms
18; of the Common Development and Distribution License Version 1.0
19; (CDDL) only, as it comes in the "COPYING.CDDL" file of the
20; VirtualBox OSE distribution, in which case the provisions of the
21; CDDL are applicable instead of those of the GPL.
22;
23; You may elect to license modified versions of this file under the
24; terms and conditions of either the GPL or the CDDL or both.
25;
26
27
28;*********************************************************************************************************************************
29;* Header Files *
30;*********************************************************************************************************************************
31%include "bs3kit.mac"
32
33
34;*********************************************************************************************************************************
35;* Global Variables *
36;*********************************************************************************************************************************
37BS3_BEGIN_DATA16
38BS3_GLOBAL_DATA g_bs3CpuState64CtxCaller, BS3REGCTX_size
39 resb BS3REGCTX_size
40BS3_GLOBAL_DATA g_bs3CpuState64CtxToLoad, BS3REGCTX_size
41 resb BS3REGCTX_size
42BS3_GLOBAL_DATA g_bs3CpuState64CtxSaved, BS3REGCTX_size
43 resb BS3REGCTX_size
44
45BS3_GLOBAL_DATA g_bs3CpuState64RCX, 8
46 dq 1
47
48
49;*********************************************************************************************************************************
50;* External Symbols *
51;*********************************************************************************************************************************
52BS3_BEGIN_TEXT64
53EXTERN Bs3RegCtxRestore_c64
54EXTERN Bs3RegCtxSave_c64
55
56
57BS3_BEGIN_TEXT64
58 BS3_SET_BITS 64
59
60;;
61;; Test worker that switches between 64-bit and 16-bit real mode,
62;; only trashing RAX, BX, DS, RSP (preseved) and RIP.
63;;
64;; Caller puts the state to load in g_bs3CpuState64CtxToLoad, this function alters
65;; the BX and RIP values before loading it. It then switches to 16-bit real mode,
66;; executes the worker given as input, re-enters long mode and saves the state to
67;; g_bs3CpuState64CtxSaved.
68;;
69;; @param rcx Address of worker (16-bit) to invoke while in real-mode.
70;;
71BS3_PROC_BEGIN NAME(bs3CpuState64Worker)
72 push rbp
73 mov rbp, rsp
74 sub rsp, 40h
75 mov [rbp + 16], rcx
76
77 ;
78 ; Save the current register state so we can return with the exact state we entered.
79 ;
80 lea rcx, [BS3_WRT_RIP(BS3_DATA_NM(g_bs3CpuState64CtxCaller)) wrt FLAT]
81 mov [rsp], rcx
82 call NAME(Bs3RegCtxSave_c64)
83
84 ;
85 ; Load the context. We modify the state to be loaded so that it fits
86 ; into the code flow here..
87 ;
88 lea rcx, [BS3_WRT_RIP(BS3_DATA_NM(g_bs3CpuState64CtxToLoad)) wrt FLAT]
89 mov [rcx + BS3REGCTX.rsp], rsp
90 ;lea rdx, [BS3_WRT_RIP(.ctx_loaded) wrt FLAT] - absolute address cannot be relative. wtf?
91 mov edx, .ctx_loaded wrt FLAT
92 mov [rcx + BS3REGCTX.rip], rdx
93 mov edx, [rbp + 16] ; Worker address. Putting it in the BX register relative to 16-bit CS.
94 sub edx, BS3_ADDR_BS3TEXT16
95 mov [rcx + BS3REGCTX.rbx], dx
96 mov edx, 0 ; fFlags
97 mov [rsp], rcx
98 mov [rsp + 8], rdx
99 call NAME(Bs3RegCtxRestore_c64)
100.ctx_loaded:
101
102 ;
103 ; Disable long mode.
104 ;
105
106 ; Construct a far return for switching to 16-bit code.
107 push BS3_SEL_R0_CS16
108 push .sixteen_bit_segment wrt CGROUP16
109 xRETF
110BS3_BEGIN_TEXT16
111 BS3_SET_BITS 16
112BS3_GLOBAL_LOCAL_LABEL .sixteen_bit_segment
113 ; Make the DS usable from real mode.
114 mov ax, BS3_SEL_R0_DS16
115 mov ds, ax
116
117 ; Exit to real mode.
118 mov eax, cr0
119 and eax, X86_CR0_NO_PE_NO_PG
120 mov cr0, eax
121 jmp CGROUP16:.reload_cs16
122BS3_GLOBAL_LOCAL_LABEL .reload_cs16
123
124 ;
125 ; Jump to the 16-bit worker function that will make state modifications.
126 ;
127 jmp bx
128BS3_GLOBAL_LOCAL_LABEL .resume16
129
130 ;
131 ; Re-enter long mode.
132 ;
133 mov eax, cr0
134 or eax, X86_CR0_PE | X86_CR0_PG
135 mov cr0, eax
136 jmp CGROUP16:.reload_cs_long_mode
137BS3_GLOBAL_LOCAL_LABEL .reload_cs_long_mode
138 ; Construct a far return for switching to 64-bit code.
139 push dword BS3_SEL_R0_CS64
140 push dword .sixtyfour_bit_segment wrt FLAT
141 o32 retf
142BS3_BEGIN_TEXT64
143BS3_GLOBAL_LOCAL_LABEL .sixtyfour_bit_segment
144 BS3_SET_BITS 64
145
146 ;
147 ; We're back in long mode, save the context.
148 ;
149 mov [BS3_WRT_RIP(BS3_DATA_NM(g_bs3CpuState64RCX)) wrt FLAT], rcx
150 lea rcx, [BS3_WRT_RIP(BS3_DATA_NM(g_bs3CpuState64CtxSaved)) wrt FLAT]
151 mov [rsp], rcx
152 call NAME(Bs3RegCtxSave_c64)
153 lea rcx, [BS3_WRT_RIP(BS3_DATA_NM(g_bs3CpuState64CtxSaved)) wrt FLAT]
154 mov rax, [BS3_WRT_RIP(BS3_DATA_NM(g_bs3CpuState64RCX)) wrt FLAT]
155 mov [rcx + BS3REGCTX.rcx], rax
156
157 ;
158 ; Load the caller's context.
159 ;
160 lea rcx, [BS3_WRT_RIP(BS3_DATA_NM(g_bs3CpuState64CtxCaller)) wrt FLAT]
161 ;lea rdx, [BS3_WRT_RIP(.return_sequence) wrt FLAT] - absolute address cannot be relative. wtf?
162 mov edx, .return_sequence wrt FLAT
163 mov [rcx + BS3REGCTX.rip], rdx
164 mov edx, 0
165 mov [rsp], rcx
166 mov [rsp + 8], rdx
167 call NAME(Bs3RegCtxRestore_c64)
168.return_sequence:
169
170 add rsp, 40h
171 pop rbp
172 ret
173BS3_PROC_END NAME(bs3CpuState64Worker)
174
175
176BS3_BEGIN_TEXT16
177;
178; Real-mod modification workers for bs3CpuState64Worker.
179;
180
181BS3_PROC_BEGIN NAME(bs3CpuState64Worker_Nop)
182 nop
183 jmp NAME(bs3CpuState64Worker.resume16)
184BS3_PROC_END NAME(bs3CpuState64Worker_Nop)
185
186
187BS3_PROC_BEGIN NAME(bs3CpuState64Worker_ModAll32BitGrps)
188 mov eax, 0xc0ffee0d ; C code hardcodes these values too.
189 mov ecx, 0xc0ffee1d
190 mov edx, 0xc0ffee2d
191 mov ebx, 0xc0ffee3d
192 ; leave esp alone for now.
193 mov ebp, 0xc0ffee5d
194 mov esi, 0xc0ffee6d
195 mov edi, 0xc0ffee7d
196 jmp NAME(bs3CpuState64Worker.resume16)
197BS3_PROC_END NAME(bs3CpuState64Worker_ModAll32BitGrps)
198
199
200BS3_PROC_BEGIN NAME(bs3CpuState64Worker_ModAll16BitGrps)
201 mov ax, 0xfad0 ; C code hardcodes these values too.
202 mov cx, 0xfad1
203 mov dx, 0xfad2
204 mov bx, 0xfad3
205 ; leave esp alone for now.
206 mov bp, 0xfad5
207 mov si, 0xfad6
208 mov di, 0xfad7
209 jmp NAME(bs3CpuState64Worker.resume16)
210BS3_PROC_END NAME(bs3CpuState64Worker_ModAll16BitGrps)
211
212
213BS3_PROC_BEGIN NAME(bs3CpuState64Worker_ModAll8BitGrps)
214 mov al, 0x10 ; C code hardcodes these values too.
215 mov ah, 0x11
216 mov cl, 0x20
217 mov ch, 0x21
218 mov dl, 0x30
219 mov dh, 0x31
220 mov bl, 0x40
221 mov bh, 0x41
222 jmp NAME(bs3CpuState64Worker.resume16)
223BS3_PROC_END NAME(bs3CpuState64Worker_ModAll8BitGrps)
224
225BS3_PROC_BEGIN NAME(bs3CpuState64Worker_ModCr2)
226 mov eax, 0xf00dface ; C code hardcodes this value too.
227 mov cr2, eax
228 jmp NAME(bs3CpuState64Worker.resume16)
229BS3_PROC_END NAME(bs3CpuState64Worker_ModCr2)
230
231;; @todo drX registers.
232
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