参考
https://blog.51cto.com/13475106/category6.html及狄泰软件相关课程
代码如下:
%include "inc.asm"
PageDirBase0 equ 0x200000
PageTblBase0 equ 0x201000
PageDirBase1 equ 0x700000
PageTblBase1 equ 0x701000
ObjectAddrX equ 0x401000
TargetAddrY equ 0xD01000
TargetAddrZ equ 0xE01000
org 0x9000
jmp ENTRY_SEGMENT
[section .gdt]
; GDT definition
; 段基址, 段界限, 段属性
GDT_ENTRY : Descriptor 0, 0, 0
CODE32_DESC : Descriptor 0, Code32SegLen - 1, DA_C + DA_32
VIDEO_DESC : Descriptor 0xB8000, 0x07FFF, DA_DRWA + DA_32
DATA32_DESC : Descriptor 0, Data32SegLen - 1, DA_DRW + DA_32
STACK32_DESC : Descriptor 0, TopOfStack32, DA_DRW + DA_32
PAGE_DIR_DESC0 : Descriptor PageDirBase0, 4095, DA_DRW + DA_32
PAGE_TBL_DESC0 : Descriptor PageTblBase0, 1023, DA_DRW + DA_LIMIT_4K + DA_32
PAGE_DIR_DESC1 : Descriptor PageDirBase1, 4095, DA_DRW + DA_32
PAGE_TBL_DESC1 : Descriptor PageTblBase1, 1023, DA_DRW + DA_LIMIT_4K + DA_32
FLAT_MODE_RW_DESC : Descriptor 0, 0xFFFFF, DA_DRW + DA_LIMIT_4K + DA_32
; GDT end
GdtLen equ $ - GDT_ENTRY
GdtPtr:
dw GdtLen - 1
dd 0
; GDT Selector
Code32Selector equ (0x0001 << 3) + SA_TIG + SA_RPL0
VideoSelector equ (0x0002 << 3) + SA_TIG + SA_RPL0
Data32Selector equ (0x0003 << 3) + SA_TIG + SA_RPL0
Stack32Selector equ (0x0004 << 3) + SA_TIG + SA_RPL0
PageDirSelector0 equ (0x0005 << 3) + SA_TIG + SA_RPL0
PageTblSelector0 equ (0x0006 << 3) + SA_TIG + SA_RPL0
PageDirSelector1 equ (0x0007 << 3) + SA_TIG + SA_RPL0
PageTblSelector1 equ (0x0008 << 3) + SA_TIG + SA_RPL0
FlatModeRWSelector equ (0x0009 << 3) + SA_TIG + SA_RPL0
; end of [section .gdt]
TopOfStack16 equ 0x7c00
[section .dat]
[bits 32]
DATA32_SEGMENT:
DTOS db "D.T.OS!", 0
DTOS_LEN equ $ - DTOS
DTOS_OFFSET equ DTOS - $$
HELLO_WORLD db "Hello World!", 0
HELLO_WORLD_LEN equ $ - HELLO_WORLD
HELLO_WORLD_OFFSET equ HELLO_WORLD - $$
Data32SegLen equ $ - DATA32_SEGMENT
[section .s16]
[bits 16]
ENTRY_SEGMENT:
mov ax, cs
mov ds, ax
mov es, ax
mov ss, ax
mov sp, TopOfStack16
; initialize GDT for 32 bits code segment
mov esi, CODE32_SEGMENT
mov edi, CODE32_DESC
call InitDescItem
mov esi, DATA32_SEGMENT
mov edi, DATA32_DESC
call InitDescItem
mov esi, STACK32_SEGMENT
mov edi, STACK32_DESC
call InitDescItem
; initialize GDT pointer struct
mov eax, 0
mov ax, ds
shl eax, 4
add eax, GDT_ENTRY
mov dword [GdtPtr + 2], eax
; 1. load GDT
lgdt [GdtPtr]
; 2. close interrupt
cli
; 3. open A20
in al, 0x92
or al, 00000010b
out 0x92, al
; 4. enter protect mode
mov eax, cr0
or eax, 0x01
mov cr0, eax
; 5. jump to 32 bits code
jmp dword Code32Selector : 0
; esi --> code segment label
; edi --> descriptor label
InitDescItem:
push eax
mov eax, 0
mov ax, cs
shl eax, 4
add eax, esi
mov word [edi + 2], ax
shr eax, 16
mov byte [edi + 4], al
mov byte [edi + 7], ah
pop eax
ret
[section .s32]
[bits 32]
CODE32_SEGMENT:
mov ax, VideoSelector
mov gs, ax
mov ax, Stack32Selector
mov ss, ax
mov eax, TopOfStack32
mov esp, eax
mov ax, Data32Selector
mov ds, ax
mov ax, FlatModeRWSelector
mov es, ax
mov esi, DTOS_OFFSET
mov edi, TargetAddrY
mov ecx, DTOS_LEN
call MemCpy32
mov esi, HELLO_WORLD_OFFSET
mov edi, TargetAddrZ
mov ecx, HELLO_WORLD_LEN
call MemCpy32
mov eax, PageDirSelector0
mov ebx, PageTblSelector0
mov ecx, PageTblBase0
call InitPageTable
mov eax, PageDirSelector1
mov ebx, PageTblSelector1
mov ecx, PageTblBase1
call InitPageTable
mov eax, ObjectAddrX ; 0x401000
mov ebx, TargetAddrY ; 0xD01000
mov ecx, PageDirBase0
call MapAddress
mov eax, ObjectAddrX ; 0x401000
mov ebx, TargetAddrZ ; 0xE01000
mov ecx, PageDirBase1
call MapAddress
mov eax, PageDirBase0
call SwitchPageTable
mov ax, FlatModeRWSelector
mov ds, ax
mov ebp, ObjectAddrX
mov bx, 0x0C
mov dh, 12
mov dl, 33
call PrintString
mov eax, PageDirBase1
call SwitchPageTable
mov ax, FlatModeRWSelector
mov ds, ax
mov ebp, ObjectAddrX
mov bx, 0x0C
mov dh, 13
mov dl, 31
call PrintString
jmp $
; es --> flat mode
; eax --> virtual address
; ebx --> target address
; ecx --> page directory base
MapAddress:
push edi
push esi
push eax ; [esp + 8]
push ebx ; [esp + 4]
push ecx ; [esp]
; 1. 取虚地址高 10 位, 计算子页表在页目录中的位置
mov eax, [esp + 8]
shr eax, 22
and eax, 1111111111b
shl eax, 2
; 2. 取虚地址中间 10 位, 计算物理地址在子页表中的位置
mov ebx, [esp + 8]
shr ebx, 12
and ebx, 1111111111b
shl ebx, 2
; 3. 取子页表起始地址
mov esi, [esp]
add esi, eax
mov edi, [es:esi]
and edi, 0xFFFFF000
; 4. 将目标地址写入子页表的对应位置
add edi, ebx
mov ecx, [esp + 4]
and ecx, 0xFFFFF000
or ecx, PG_P | PG_USU | PG_RWW
mov [es:edi], ecx
pop ecx
pop ebx
pop eax
pop esi
pop edi
ret
; es --> flat mode selector
; ds:si --> source
; es:di --> destination
; cx --> length
MemCpy32:
push esi
push edi
push ecx
push ax
cmp esi, edi
ja btoe
add esi, ecx
add edi, ecx
dec esi
dec edi
jmp etob
btoe:
cmp ecx, 0
jz done
mov al, [ds:esi]
mov byte [es:edi], al
inc esi
inc edi
dec ecx
jmp btoe
etob:
cmp ecx, 0
jz done
mov al, [ds:esi]
mov byte [es:edi], al
dec esi
dec edi
dec ecx
jmp etob
done:
pop ax
pop ecx
pop edi
pop esi
ret
; eax --> page dir base selector
; ebx --> page table base selector
; ecx --> page table base
InitPageTable:
push es
push eax ; [esp + 12]
push ebx ; [esp + 8]
push ecx ; [esp + 4]
push edi ; [esp]
mov es, ax
mov ecx, 1024 ; 1K sub page tables
mov edi, 0
mov eax, [esp + 4]
or eax, PG_P | PG_USU | PG_RWW
cld
stdir:
stosd
add eax, 4096
loop stdir
mov ax, [esp + 8]
mov es, ax
mov ecx, 1024 * 1024 ; 1M pages
mov edi, 0
mov eax, PG_P | PG_USU | PG_RWW
cld
sttbl:
stosd
add eax, 4096
loop sttbl
pop edi
pop ecx
pop ebx
pop eax
pop es
ret
; eax --> page directory base
SwitchPageTable:
push eax
mov eax, cr0
and eax, 0x7FFFFFFF
mov cr0, eax
mov eax, [esp]
mov cr3, eax
mov eax, cr0
or eax, 0x80000000
mov cr0, eax
pop eax
ret
; ds:ebp --> string address
; bx --> attribute
; dx --> dh : row, dl : col
PrintString:
push ebp
push eax
push edi
push cx
push dx
print:
mov cl, [ds:ebp]
cmp cl, 0
je end
mov eax, 80
mul dh
add al, dl
shl eax, 1
mov edi, eax
mov ah, bl
mov al, cl
mov [gs:edi], ax
inc ebp
inc dl
jmp print
end:
pop dx
pop cx
pop edi
pop eax
pop ebp
ret
Code32SegLen equ $ - CODE32_SEGMENT
[section .gs]
[bits 32]
STACK32_SEGMENT:
times 1024 * 4 db 0
Stack32SegLen equ $ - STACK32_SEGMENT
TopOfStack32 equ Stack32SegLen - 1
运行结果如下:
代码如下:
%include "inc.asm"
PageDirBase0 equ 0x200000
PageTblBase0 equ 0x201000
PageDirBase1 equ 0x700000
PageTblBase1 equ 0x701000
ObjectAddrX equ 0x401000
TargetAddrY equ 0xD01000
TargetAddrZ equ 0xE01000
org 0x9000
jmp ENTRY_SEGMENT
[section .gdt]
; GDT definition
; 段基址, 段界限, 段属性
GDT_ENTRY : Descriptor 0, 0, 0
CODE32_DESC : Descriptor 0, Code32SegLen - 1, DA_C + DA_32
VIDEO_DESC : Descriptor 0xB8000, 0x07FFF, DA_DRWA + DA_32
DATA32_DESC : Descriptor 0, Data32SegLen - 1, DA_DRW + DA_32
STACK32_DESC : Descriptor 0, TopOfStack32, DA_DRW + DA_32
PAGE_DIR_DESC0 : Descriptor PageDirBase0, 4095, DA_DRW + DA_32
PAGE_TBL_DESC0 : Descriptor PageTblBase0, 1023, DA_DRW + DA_LIMIT_4K + DA_32
PAGE_DIR_DESC1 : Descriptor PageDirBase1, 4095, DA_DRW + DA_32
PAGE_TBL_DESC1 : Descriptor PageTblBase1, 1023, DA_DRW + DA_LIMIT_4K + DA_32
FUNC32_DESC : Descriptor 0, Func32SegLen - 1, DA_DR + DA_32
FLAT_MODE_RW_DESC : Descriptor 0, 0xFFFFF, DA_DRW + DA_LIMIT_4K + DA_32
FLAT_MODE_C_DESC : Descriptor 0, 0xFFFFF, DA_C + DA_LIMIT_4K + DA_32
; GDT end
GdtLen equ $ - GDT_ENTRY
GdtPtr:
dw GdtLen - 1
dd 0
; GDT Selector
Code32Selector equ (0x0001 << 3) + SA_TIG + SA_RPL0
VideoSelector equ (0x0002 << 3) + SA_TIG + SA_RPL0
Data32Selector equ (0x0003 << 3) + SA_TIG + SA_RPL0
Stack32Selector equ (0x0004 << 3) + SA_TIG + SA_RPL0
PageDirSelector0 equ (0x0005 << 3) + SA_TIG + SA_RPL0
PageTblSelector0 equ (0x0006 << 3) + SA_TIG + SA_RPL0
PageDirSelector1 equ (0x0007 << 3) + SA_TIG + SA_RPL0
PageTblSelector1 equ (0x0008 << 3) + SA_TIG + SA_RPL0
Func32Selector equ (0x0009 << 3) + SA_TIG + SA_RPL0
FlatModeRWSelector equ (0x000A << 3) + SA_TIG + SA_RPL0
FlatModeCSelector equ (0x000B << 3) + SA_TIG + SA_RPL0
; end of [section .gdt]
TopOfStack16 equ 0x7c00
[section .dat]
[bits 32]
DATA32_SEGMENT:
DTOS db "D.T.OS!", 0
DTOS_LEN equ $ - DTOS
DTOS_OFFSET equ DTOS - $$
HELLO_WORLD db "Hello World!", 0
HELLO_WORLD_LEN equ $ - HELLO_WORLD
HELLO_WORLD_OFFSET equ HELLO_WORLD - $$
Data32SegLen equ $ - DATA32_SEGMENT
[section .func]
[bits 32]
FUNC32_SEGMENT:
; cx --> n
; return:
; eax --> n * n
Sqr:
mov eax, 0
mov ax, cx
mul cx
retf
SqrLen equ $ - Sqr
SqrFunc equ Sqr - $$
; cx --> n
; return:
; eax --> 1 + 2 + 3 + ... + n
Acc:
push cx
mov eax, 0
accloop:
add ax, cx
loop accloop
pop cx
retf
AccLen equ $ - Acc
AccFunc equ Acc - $$
Func32SegLen equ $ - FUNC32_SEGMENT
[section .s16]
[bits 16]
ENTRY_SEGMENT:
mov ax, cs
mov ds, ax
mov es, ax
mov ss, ax
mov sp, TopOfStack16
; initialize GDT for 32 bits code segment
mov esi, CODE32_SEGMENT
mov edi, CODE32_DESC
call InitDescItem
mov esi, DATA32_SEGMENT
mov edi, DATA32_DESC
call InitDescItem
mov esi, STACK32_SEGMENT
mov edi, STACK32_DESC
call InitDescItem
mov esi, FUNC32_SEGMENT
mov edi, FUNC32_DESC
call InitDescItem
; initialize GDT pointer struct
mov eax, 0
mov ax, ds
shl eax, 4
add eax, GDT_ENTRY
mov dword [GdtPtr + 2], eax
; 1. load GDT
lgdt [GdtPtr]
; 2. close interrupt
cli
; 3. open A20
in al, 0x92
or al, 00000010b
out 0x92, al
; 4. enter protect mode
mov eax, cr0
or eax, 0x01
mov cr0, eax
; 5. jump to 32 bits code
jmp dword Code32Selector : 0
; esi --> code segment label
; edi --> descriptor label
InitDescItem:
push eax
mov eax, 0
mov ax, cs
shl eax, 4
add eax, esi
mov word [edi + 2], ax
shr eax, 16
mov byte [edi + 4], al
mov byte [edi + 7], ah
pop eax
ret
[section .s32]
[bits 32]
CODE32_SEGMENT:
mov ax, VideoSelector
mov gs, ax
mov ax, Stack32Selector
mov ss, ax
mov eax, TopOfStack32
mov esp, eax
mov ax, Func32Selector
mov ds, ax
mov ax, FlatModeRWSelector
mov es, ax
mov esi, SqrFunc
mov edi, TargetAddrY
mov ecx, SqrLen
call MemCpy32
mov esi, AccFunc
mov edi, TargetAddrZ
mov ecx, AccLen
call MemCpy32
mov eax, PageDirSelector0
mov ebx, PageTblSelector0
mov ecx, PageTblBase0
call InitPageTable
mov eax, PageDirSelector1
mov ebx, PageTblSelector1
mov ecx, PageTblBase1
call InitPageTable
mov eax, ObjectAddrX ; 0x401000
mov ebx, TargetAddrY ; 0xD01000
mov ecx, PageDirBase0
call MapAddress
mov eax, ObjectAddrX ; 0x401000
mov ebx, TargetAddrZ ; 0xE01000
mov ecx, PageDirBase1
call MapAddress
mov eax, PageDirBase0
call SwitchPageTable
mov ecx, 100
call FlatModeCSelector : ObjectAddrX
mov eax, PageDirBase1
call SwitchPageTable
mov ecx, 100
call FlatModeCSelector : ObjectAddrX
jmp $
; es --> flat mode
; eax --> virtual address
; ebx --> target address
; ecx --> page directory base
MapAddress:
push edi
push esi
push eax ; [esp + 8]
push ebx ; [esp + 4]
push ecx ; [esp]
; 1. 取虚地址高 10 位, 计算子页表在页目录中的位置
mov eax, [esp + 8]
shr eax, 22
and eax, 1111111111b
shl eax, 2
; 2. 取虚地址中间 10 位, 计算物理地址在子页表中的位置
mov ebx, [esp + 8]
shr ebx, 12
and ebx, 1111111111b
shl ebx, 2
; 3. 取子页表起始地址
mov esi, [esp]
add esi, eax
mov edi, [es:esi]
and edi, 0xFFFFF000
; 4. 将目标地址写入子页表的对应位置
add edi, ebx
mov ecx, [esp + 4]
and ecx, 0xFFFFF000
or ecx, PG_P | PG_USU | PG_RWW
mov [es:edi], ecx
pop ecx
pop ebx
pop eax
pop esi
pop edi
ret
; es --> flat mode selector
; ds:si --> source
; es:di --> destination
; cx --> length
MemCpy32:
push esi
push edi
push ecx
push ax
cmp esi, edi
ja btoe
add esi, ecx
add edi, ecx
dec esi
dec edi
jmp etob
btoe:
cmp ecx, 0
jz done
mov al, [ds:esi]
mov byte [es:edi], al
inc esi
inc edi
dec ecx
jmp btoe
etob:
cmp ecx, 0
jz done
mov al, [ds:esi]
mov byte [es:edi], al
dec esi
dec edi
dec ecx
jmp etob
done:
pop ax
pop ecx
pop edi
pop esi
ret
; eax --> page dir base selector
; ebx --> page table base selector
; ecx --> page table base
InitPageTable:
push es
push eax ; [esp + 12]
push ebx ; [esp + 8]
push ecx ; [esp + 4]
push edi ; [esp]
mov es, ax
mov ecx, 1024 ; 1K sub page tables
mov edi, 0
mov eax, [esp + 4]
or eax, PG_P | PG_USU | PG_RWW
cld
stdir:
stosd
add eax, 4096
loop stdir
mov ax, [esp + 8]
mov es, ax
mov ecx, 1024 * 1024 ; 1M pages
mov edi, 0
mov eax, PG_P | PG_USU | PG_RWW
cld
sttbl:
stosd
add eax, 4096
loop sttbl
pop edi
pop ecx
pop ebx
pop eax
pop es
ret
; eax --> page directory base
SwitchPageTable:
push eax
mov eax, cr0
and eax, 0x7FFFFFFF
mov cr0, eax
mov eax, [esp]
mov cr3, eax
mov eax, cr0
or eax, 0x80000000
mov cr0, eax
pop eax
ret
; ds:ebp --> string address
; bx --> attribute
; dx --> dh : row, dl : col
PrintString:
push ebp
push eax
push edi
push cx
push dx
print:
mov cl, [ds:ebp]
cmp cl, 0
je end
mov eax, 80
mul dh
add al, dl
shl eax, 1
mov edi, eax
mov ah, bl
mov al, cl
mov [gs:edi], ax
inc ebp
inc dl
jmp print
end:
pop dx
pop cx
pop edi
pop eax
pop ebp
ret
Code32SegLen equ $ - CODE32_SEGMENT
[section .gs]
[bits 32]
STACK32_SEGMENT:
times 1024 * 4 db 0
Stack32SegLen equ $ - STACK32_SEGMENT
TopOfStack32 equ Stack32SegLen - 1
运行结果如下:
从结果上看到运行结束没有异常,若要看到具体调用过程及结果,需要使用断点调试。
对于页表及相关内容,总结如下:
