本帖最后由 冰琥珀 于 2015-9-20 16:39 编辑
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# Title : Windows操作系统学习之——MBR调试(二)
# Time :2015年04月23日
# Team :ihonker Team
# Author : 冰琥珀
# 首发 : ihonker.org
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[红盟杯]Windows操作系统学习之——MBR调试(一)
其实这个帖子已经不算MBR的调试了,MBR调试在上面给的链接的那个帖子已经完成,这里属于DBR(分区引导记录的调试)。在开始之前,我们先来认识下DBR
下面我们再来看下BPB和EBPB的相关介绍
BPB结构:
0x0b~0x0c: 每扇区字节数
0x0d: 每簇扇区数
0x0e~0x0f: 保留扇区数
0x10: fat表数
0x11~0x12: 根目录项数(只有FAT12/FAT16使用此字段,FAT32此字段为0)
0x13~0x14: 小扇区数(只有FAT12/FAT16使用此字段,FAT32此字段为0)
0x15: 媒体描述符(0xf8表示硬盘,0xf0表示高密度3.5寸软盘)
0x16~0x17: 每fat扇区数(只有FAT12/FAT16使用此字段,FAT32此字段为0)
0x18~0x19: 每磁道扇区数
0x1a~0x1b: 磁头数
0x1c~0x1f: 隐藏扇区数
0x20~0x23: 总扇区数
0x24~0x27: 每fat扇区数(只被fat32使用)
0x28~0x29: fat表镜像标志,值为0表示系统保存2份互为备份的fat表,值为1表示系统仅保存1份fat表
0x2a~0x2b: 文件系统版本(只供fat32使用)
0x2c~0x2f: 根目录簇号(只供fat32使用)
0x30~0x31: 文件系统信息扇区号(只供fat32使用)
0x32~0x33: 备份引导扇区(只供fat32使用)
0x34~0x3f: 保留
EBPB结构:
0x40: 物理驱动器号
0x41: 保留
0x42: 拓展引导标签
0x43~0x46: 分区序号
0x47~0x51: 卷标
0x52~0x59: 系统ID
接下来,我们开始调试DBR了。在上一个帖子里,我们调玩MBR之后,程序跳转到DBR去执行,而从上面DBR的介绍可知,在开始处是一个跳转指令
[AppleScript] 纯文本查看 复制代码 MEMORY:7C00 jmp short near ptr unk_7C5A
我们直接看7C5A处的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7C5A xor ax, ax
MEMORY:7C5C mov ds, ax
MEMORY:7C5E assume ds:MEMORY
MEMORY:7C5E mov es, ax
MEMORY:7C60 assume es:MEMORY
MEMORY:7C60 mov ss, ax
MEMORY:7C62 mov bp, 7C00h
MEMORY:7C65 mov sp, 7C00h
MEMORY:7C68 cmp byte ptr [bp+40h], 0FFh ; 检测磁盘物理驱动号是否正确
MEMORY:7C6D jnz short loc_7C73 ; 判断分区文件系统是fat12/fat16还是fat32
MEMORY:7C6F mov [bp+40h], dl
MEMORY:7C73
MEMORY:7C73 loc_7C73: ; CODE XREF: MEMORY:7C6D�j
MEMORY:7C73 cmp word ptr [bp+16h], 0 ; 判断分区文件系统是fat12/fat16还是fat32
MEMORY:7C78 jnz short loc_7C89 ; 如果是fat12/fat16则跳转
MEMORY:7C7A cmp dword ptr [bp+11h], 0 ; 判断分区文件系统是fat12/fat16还是fat32
MEMORY:7C80 jnz short loc_7C89 ; 如果是fat12/fat16则跳转
MEMORY:7C82 cmp word ptr [bp+2Ah], 0
MEMORY:7C87 jbe short loc_7C8C ; 如果是fat32则跳转
MEMORY:7C89
MEMORY:7C89 loc_7C89: ; CODE XREF: MEMORY:7C78�j
MEMORY:7C89 ; MEMORY:7C80�j
MEMORY:7C89 jmp loc_7D93
这里先检测分区文件系统是fat12/fat16还是fat32,如果是fat12/fat16,则输出一些信息,我们就不看了,只看fat32的情况。
[AppleScript] 纯文本查看 复制代码 MEMORY:7C8C loc_7C8C: ; CODE XREF: MEMORY:7C87�j
MEMORY:7C8C mov ax, 800h
MEMORY:7C8F mov dl, [bp+40h]
MEMORY:7C93 int 13h ; DISK - DISK - GET CURRENT DRIVE PARAMETERS (XT,AT,XT286,CONV,PS)
MEMORY:7C93 ; DL = drive number
MEMORY:7C93 ; Return: CF set on error, AH = status code, BL = drive type
MEMORY:7C93 ; DL = number of consecutive drives
MEMORY:7C93 ; DH = maximum value for head number, ES:DI -> drive parameter
MEMORY:7C95 jnb short loc_7C9C
MEMORY:7C97 mov cx, 0FFFFh
MEMORY:7C9A mov dh, cl
在这里,用int 13h,ah=08h来读取磁盘参数,我们看看这种读取方式的介绍
从上面的介绍可知,如果读取失败,则cf标志位置1,那么jnb short loc_7C9C就不会执行。反之,cf标志位为0,jnb short loc_7C9C会被执行。我们接下来看0x7c9c处的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7C9C loc_7C9C: ; CODE XREF: MEMORY:7C95�j
MEMORY:7C9C mov bl, ch ; ch存放的是柱面数的低8位(柱面数总共有10位,高2位来自于cl的高2位)
MEMORY:7C9E mov bh, cl ; cl的低6位存放的是没磁道扇区数(高2位和ch组合来表示柱面数)
MEMORY:7CA0 shr bh, 6 ; 这里把bh的值右移6位,那么bh中只剩下cl的高2位,然后和bl的8位一起表示柱面数,所以bx的值就是柱面数
MEMORY:7CA3 and cl, 3Fh ; 这里取的是cl的低6位的值
MEMORY:7CA6 movzx eax, dh ; dh存放的是磁头数
MEMORY:7CAA movzx ebx, bx
MEMORY:7CAE movzx ecx, cl
MEMORY:7CB2 inc eax ; 因为磁头数是从0开始计数,所以这里要+1
MEMORY:7CB4 inc ebx ; 柱面数也是从0开始计数,这里也要+1
MEMORY:7CB6 mul ecx ; 这里是磁头数*每磁道扇区数
MEMORY:7CB9 mul ebx ; 上面得到的结果*柱面数,得到的值其实就是这个分区的大小
MEMORY:7CBC mov dword_7DB4, eax
MEMORY:7CC0 mov eax, 0Eh
MEMORY:7CC6 add eax, [bp+1Ch] ; 计算第二个引导扇区的绝对偏移
MEMORY:7CCB mov cx, 1
MEMORY:7CCE xor bx, bx
MEMORY:7CD0 mov es, bx
MEMORY:7CD2 mov bx, 7E00h
MEMORY:7CD5 call loc_7CDB
MEMORY:7CD8 jmp loc_7E00
这里先读取磁盘参数,然后通过计算得出磁盘大小,然后计算第二引导扇区的偏移,接下来有个call,我们看这个call里面的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7CDB loc_7CDB: ; CODE XREF: MEMORY:7CD5�p
MEMORY:7CDB push es
MEMORY:7CDC cmp eax, dword_7DB4
MEMORY:7CE1 jnb short loc_7CFF
MEMORY:7CE3 pushad
MEMORY:7CE5 mov ah, 41h ; 'A'
MEMORY:7CE7 mov bx, 55AAh
MEMORY:7CEA mov dl, [bp+40h]
MEMORY:7CEE int 13h ; DISK - Check for INT 13h Extensions
MEMORY:7CEE ; BX = 55AAh, DL = drive number
MEMORY:7CEE ; Return: CF set if not supported
MEMORY:7CEE ; AH = extensions version
MEMORY:7CEE ; BX = AA55h
MEMORY:7CEE ; CX = Interface support bit map
这段代码在上一个帖子有讲过,就是检测int 13h的拓展功能是否可用,如果可用,接下来就会用int 13h的拓展功能来读取扇区。代码如下
[AppleScript] 纯文本查看 复制代码 MEMORY:7CF0 jb short loc_7D49 ; 拓展功能不可用则跳转
MEMORY:7CF2 cmp bx, 0AA55h
MEMORY:7CF6 jnz short loc_7D49
MEMORY:7CF8 test cl, 1
MEMORY:7CFB jz short loc_7D49
MEMORY:7CFD popad
MEMORY:7CFF
MEMORY:7CFF loc_7CFF: ; CODE XREF: MEMORY:7CE1�j
MEMORY:7CFF ; MEMORY:7D41�j
MEMORY:7CFF pushad
MEMORY:7D01 cmp cx, 40h ; '@'
MEMORY:7D04 jbe short loc_7D09
MEMORY:7D06 mov cx, 40h ; '@'
MEMORY:7D09
MEMORY:7D09 loc_7D09: ; CODE XREF: MEMORY:7D04�j
MEMORY:7D09 mov word ptr dword_7D45, cx
MEMORY:7D0D push 0
MEMORY:7D0F push 0
MEMORY:7D11 push eax
MEMORY:7D13 push es
MEMORY:7D14 push bx
MEMORY:7D15 push cx
MEMORY:7D16 push 10h
MEMORY:7D18 mov si, sp
MEMORY:7D1A mov dl, [bp+40h]
MEMORY:7D1E mov ah, 42h ; 'B'
MEMORY:7D20 int 13h ; DISK - IBM/MS Extension - EXTENDED READ (DL - drive, DS:SI - disk address packet)
MEMORY:7D22 jb short loc_7D8B
MEMORY:7D24 add sp, 10h
MEMORY:7D27 popad
MEMORY:7D29 push bx
MEMORY:7D2A mov ebx, dword_7D45
MEMORY:7D2F add eax, ebx
MEMORY:7D32 shl ebx, 5
MEMORY:7D36 mov dx, es
MEMORY:7D38 add dx, bx
MEMORY:7D3A mov es, dx
MEMORY:7D3C pop bx
MEMORY:7D3D sub cx, word ptr dword_7D45
MEMORY:7D41 jnz short loc_7CFF
MEMORY:7D43 pop es
MEMORY:7D44 retn
这里读取的是第二启动扇区代码,存放的位置为0x7e00,然后进行一些读取结果的检测,如果读取正确,则函数返回。返回之后,程序跳转到0x7e00处去执行第二启动扇区的代码。
在第二启动引导代码中,先获取根目录簇号,然后检测这个值是否正确,代码如下
[AppleScript] 纯文本查看 复制代码 MEMORY:7E00 ; MEMORY:7E5B�j ...
MEMORY:7E00 mov eax, [bp+2Ch] ; 获取根目录簇号
MEMORY:7E05 cmp eax, 0FFFFFF8h
MEMORY:7E0B jb short loc_7E10
如果正确则跳转到0x7E10处,下面我们来看0x7E10处的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7E10 loc_7E10: ; CODE XREF: MEMORY:7E0B�j
MEMORY:7E10 mov bx, 2000h
MEMORY:7E13 mov es, bx
MEMORY:7E15 assume es:nothing
MEMORY:7E15 call loc_7F3E
这里设置了es的值,然后就调用一个call,我们进去看看这个call 的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7F3E dec eax
MEMORY:7F40 dec eax
MEMORY:7F42 xor edx, edx
MEMORY:7F45 movzx ebx, byte ptr [bp+0Dh] ; 获取每簇扇区数
MEMORY:7F4B mul ebx
MEMORY:7F4E push eax
MEMORY:7F50 xor edx, edx
MEMORY:7F53 movzx eax, byte ptr [bp+10h] ; 获取fat表数
MEMORY:7F59 mul dword ptr [bp+24h] ; 用fat表数*每fat扇区数
MEMORY:7F5E movzx ebx, word ptr [bp+0Eh] ; 获取保留扇区数
MEMORY:7F64 add eax, ebx
MEMORY:7F67 add eax, [bp+1Ch] ; 加上隐藏扇区数
MEMORY:7F6C pop ebx
MEMORY:7F6E add eax, ebx
MEMORY:7F71 xor bx, bx
MEMORY:7F73 movzx cx, byte ptr [bp+0Dh]
MEMORY:7F78 call sub_7CDB
MEMORY:7F7B retn
在这里面进行了一些计算,其实是计算fat32文件系统中数据区的偏移,然后就调用了call sub_7CDB,这个call在前面有看到过,是一个读取扇区的call,这里其实是读取fat32文件系统的数据区数据,读取大小为一个簇,读取后存放位置为2000h:0000h。读取完之后,函数返回。接下来我们来看call loc_7F3E之后的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7E18 xor bx, bx
MEMORY:7E1A mov bl, [bp+0Dh] ; 获取每簇扇区数
MEMORY:7E1E shl bx, 4 ;这里计算有多少个短目录项(每个短目录项占32个字节)
MEMORY:7E21 mov ax, 2000h
MEMORY:7E24 mov es, ax
MEMORY:7E26 xor di, di
MEMORY:7E28 mov si, 7FA3h
MEMORY:7E2B mov cx, 0Bh
MEMORY:7E2E repe cmpsb
MEMORY:7E30 jz short loc_7E5D
MEMORY:7E32
MEMORY:7E32 loc_7E32: ; CODE XREF: MEMORY:7DBE�j
MEMORY:7E32 dec bx
MEMORY:7E33
MEMORY:7E33 loc_7E33: ; CODE XREF: MEMORY:7DCD�j
MEMORY:7E33 jnz short loc_7E38
这里其实是在数据区中查找出和0x7FA3处相等的字符串(FREELDR SYS),其实是在根目录中查找文件名为FREELDR.SYS的文件,如果找到就跳转到0x7E5D处去执行,否则跳转到0x7E38处执行。我们先看没找到的情况,即0x7E38处的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7E38 loc_7E38: ; CODE XREF: MEMORY:loc_7E33�j
MEMORY:7E38 ; MEMORY:7E4C�j
MEMORY:7E38 mov ax, es
MEMORY:7E3A add ax, 2
MEMORY:7E3D mov es, ax
MEMORY:7E3F assume es:nothing
MEMORY:7E3F
MEMORY:7E3F loc_7E3F: ; CODE XREF: MEMORY:7DCB�j
MEMORY:7E3F xor di, di
MEMORY:7E41
MEMORY:7E41 loc_7E41: ; CODE XREF: MEMORY:7DDA�j
MEMORY:7E41 mov si, 7FA3h
MEMORY:7E44
MEMORY:7E44 loc_7E44: ; CODE XREF: MEMORY:7DD3�j
MEMORY:7E44 mov cx, 0Bh
MEMORY:7E47 repe cmpsb
MEMORY:7E49 jz short loc_7E5D
MEMORY:7E4B dec bx
MEMORY:7E4C jnz short loc_7E38
通过上面的代码可以看出是在循环查找那个文件名,接下来我们看找到的情况
[AppleScript] 纯文本查看 复制代码 MEMORY:7E5D loc_7E5D: ; CODE XREF: MEMORY:7E30�j
MEMORY:7E5D ; MEMORY:7E49�j
MEMORY:7E5D mov si, 7FAEh
MEMORY:7E60
MEMORY:7E60 loc_7E60: ; CODE XREF: MEMORY:7DEC�j
MEMORY:7E60 call sub_7DA5
查找到了,si指向0x7FAE,这里有一个call,我们进去看看
[AppleScript] 纯文本查看 复制代码 MEMORY:7DA5 sub_7DA5 proc near ; CODE XREF: sub_7CDB+B3�p
MEMORY:7DA5 ; sub_7CDB+BB�p ...
MEMORY:7DA5 lodsb ;从si中读取字符,存放到al中
MEMORY:7DA6 or al, al
MEMORY:7DA8 jz short locret_7DB3
MEMORY:7DAA mov ah, 0Eh
MEMORY:7DAC mov bx, 7
MEMORY:7DAF int 10h ; - VIDEO - WRITE CHARACTER AND ADVANCE CURSOR (TTY WRITE)
MEMORY:7DAF ; AL = character, BH = display page (alpha modes)
MEMORY:7DAF ; BL = foreground color (graphics modes)
MEMORY:7DB1 jmp short sub_7DA5
MEMORY:7DB3 ; ---------------------------------------------------------------------------
MEMORY:7DB3
MEMORY:7DB3 locret_7DB3: ; CODE XREF: sub_7DA5+3�j
MEMORY:7DB3 retn
MEMORY:7DB3 sub_7DA5 endp
这个函数的功能其实就是把si指向的地址中存放的字符串显示到屏幕上。就是这个效果
接下来就是对数据区数据的解析,先来看目录项的介绍(短文件名目录项)
然后我们再来看接下来的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7E65 loc_7E65: ; CODE XREF: MEMORY:7DEF�j
MEMORY:7E65 xor dx, dx
MEMORY:7E67 mov ax, es:[di+14h] ;取出文件起始簇号的高两个字节
MEMORY:7E6B shl eax, 10h
MEMORY:7E6F mov ax, es:[di+1Ah] ;取出文件起始簇号的低两个字节
MEMORY:7E73 cmp eax, 2
MEMORY:7E77 jnb short loc_7E7C
MEMORY:7E79 jmp loc_7D93
从上面的代码可以看出,这里是取出文件起始簇号的高两个字节和低两个字节,并将他们组成文件的起始簇号,然后用文件起始簇号来和2做比较,为啥要和2做比较,是因为所有的簇都是从2开始编号的。在这里,eax的值大于2,所以执行 jnb short loc_7E7C指令,我们接下来看loc_7E7C处的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7E7C loc_7E7C: ; CODE XREF: MEMORY:7E77�j
MEMORY:7E7C cmp eax, 0FFFFFF8h
MEMORY:7E82 jb short loc_7E87
MEMORY:7E84 jmp loc_7D93
这里只判断文件所谓的簇号是否大于最大值,这里是小于,所以 执行jb short loc_7E87,我们接下来看loc_7E87处的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7E87 loc_7E87: ; CODE XREF: MEMORY:7E82�j
MEMORY:7E87 mov bx, 0F80h
MEMORY:7E8A mov es, bx
MEMORY:7E8C assume es:nothing
MEMORY:7E8C
MEMORY:7E8C loc_7E8C: ; CODE XREF: MEMORY:7EB3�j
MEMORY:7E8C cmp eax, 0FFFFFF8h
MEMORY:7E92 jnb short loc_7EB5
MEMORY:7E94 push eax
MEMORY:7E96 xor bx, bx
MEMORY:7E98 push es
MEMORY:7E99 call near ptr unk_7F3E
这里修改了下es的值,然后调用一个call,我们进去看这个call干了些啥
[AppleScript] 纯文本查看 复制代码 MEMORY:7F3E dec eax
MEMORY:7F40 dec eax ; 这里是该簇的簇号-2
MEMORY:7F42 xor edx, edx
MEMORY:7F45 movzx ebx, byte ptr [bp+0Dh] ; 获取每簇扇区数
MEMORY:7F4B mul ebx
MEMORY:7F4E push eax
MEMORY:7F50 xor edx, edx
MEMORY:7F53 movzx eax, byte ptr [bp+10h] ; 获取fat表个数
MEMORY:7F59 mul dword ptr [bp+24h] ; fat表个数*每fat扇区数
MEMORY:7F5E movzx ebx, word ptr [bp+0Eh] ; 获取保留扇区数
MEMORY:7F64 add eax, ebx
MEMORY:7F67 add eax, [bp+1Ch] ; 加上隐藏扇区数
MEMORY:7F6C pop ebx
MEMORY:7F6E add eax, ebx
MEMORY:7F71 xor bx, bx
MEMORY:7F73 movzx cx, byte ptr [bp+0Dh]
MEMORY:7F78 call sub_7CDB
MEMORY:7F7B retn
这段代码看着挺熟悉,上面的一大堆计算,其实可以总结成以下公式(这里计算的是绝对扇区号)
某簇起始扇区号 = 隐藏扇区数 + 保留扇区数 + 每个FAT表大小扇区数 × FAT表个数 + (该簇簇号 - 2) × 每簇扇区数
然后读取该簇的数据到0F80h:0000h处(call sub_7CDB)。我们接着看call near ptr unk_7F3E之后的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7E9C pop es
MEMORY:7E9D assume es:MEMORY
MEMORY:7E9D xor bx, bx
MEMORY:7E9F mov bl, [bp+0Dh]
MEMORY:7EA3 shl bx, 5
MEMORY:7EA6 mov ax, es
MEMORY:7EA8 add ax, bx ; 这里其实是把es的值设置到刚才读取的那一簇数据之后
MEMORY:7EAA mov es, ax
MEMORY:7EAC pop eax
MEMORY:7EAE push es
MEMORY:7EAF call loc_7EC2
MEMORY:7EB2 pop es
MEMORY:7EB3 jmp short loc_7E8C
上面重新设置了下es的值,其实是让它指向刚才读取的那一簇数据之后,然后又是一个call,我们看call loc_7EC2内部的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7EC2 loc_7EC2: ; CODE XREF: MEMORY:7E53�p
MEMORY:7EC2 ; MEMORY:7EAF�p
MEMORY:7EC2 shl eax, 2 ; 在fat中,每个fat表项占4个字节,且其数值与数据区的簇号相同
MEMORY:7EC6 mov ecx, eax
MEMORY:7EC9 xor edx, edx
MEMORY:7ECC movzx ebx, word ptr [bp+0Bh] ; 获取每扇区字节数
MEMORY:7ED2 push ebx
MEMORY:7ED4 div ebx
MEMORY:7ED7 movzx ebx, word ptr [bp+0Eh] ; 获取保留扇区数
MEMORY:7EDD add eax, ebx
MEMORY:7EE0 mov ebx, [bp+1Ch] ; 获取隐藏扇区数
MEMORY:7EE5 add eax, ebx
MEMORY:7EE8 pop ebx
MEMORY:7EEA dec ebx
MEMORY:7EEC and ecx, ebx
MEMORY:7EEF movzx ebx, word ptr [bp+28h] ; 获取FAT表镜像标志
MEMORY:7EF5 and bx, 0Fh ; 值为0表示系统保存2份互为备份的FAT表,值为1表示系统仅保存1份FAT表
MEMORY:7EF8 jz short loc_7F12
MEMORY:7EFA cmp bl, [bp+10h]
MEMORY:7EFE jb short loc_7F03
MEMORY:7F00 jmp loc_7D93
上面这段代码其实就是计算出含有该簇号的fat表所在的扇区偏移。因为每个簇号在fat中占4个字节,所以簇号*4就得出该簇号在fat表中的偏移,然后除以扇区大小就可以得知该簇号相对于fat表的扇区偏移,再加上保留扇区和隐藏扇区,就可以计算出该簇号所在扇区的绝对偏移值。然后检测这个文件系统中有几个fat表,如果有两个,则跳到 short loc_7F12处。接下来我们看 short loc_7F12处的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:7F03 loc_7F03: ; CODE XREF: MEMORY:7EFE�j
MEMORY:7F03 push eax
MEMORY:7F05 mov eax, [bp+24h]
MEMORY:7F0A mul ebx
MEMORY:7F0D pop edx
MEMORY:7F0F add eax, edx
MEMORY:7F12
MEMORY:7F12 loc_7F12: ; CODE XREF: MEMORY:7EF8�j
MEMORY:7F12 push ecx
MEMORY:7F14 mov bx, 9000h
MEMORY:7F17 mov es, bx
MEMORY:7F19 assume es:nothing
MEMORY:7F19 cmp eax, dword_7F3A
MEMORY:7F1E jz short loc_7F2C
MEMORY:7F20 mov dword_7F3A, eax
MEMORY:7F24 xor bx, bx
MEMORY:7F26 mov cx, 1
MEMORY:7F29 call sub_7CDB
MEMORY:7F2C
MEMORY:7F2C loc_7F2C: ; CODE XREF: MEMORY:7F1E�j
MEMORY:7F2C pop ecx
MEMORY:7F2E mov eax, es:[ecx]
MEMORY:7F33 and eax, 0FFFFFFFh
MEMORY:7F39 retn
这里则是读取该簇号所在的扇区数据,然后获取该簇号在fat中的值,如果一个文件占用几个簇,那么该簇号在fat中的值就是下一个簇的簇号,如果文件结束,则该簇号在fat表中的值为0x0fffffff。这个函数结束了之后程序又会跳回上面的loc_7E8C,判断文件是否结束,如果没有结束则继续读取数据,如果结束,则程序跳转去执行loc_7EB5的代码。
[AppleScript] 纯文本查看 复制代码 MEMORY:7EB5 loc_7EB5: ; CODE XREF: MEMORY:7E92�j
MEMORY:7EB5 mov dl, [bp+40h]
MEMORY:7EB9 mov dh, byte ptr loc_7DFD
MEMORY:7EBD jmp far ptr loc_F800
上面这段代码获取磁盘的驱动器号,然后程序跳转到loc_F800去执行,其实loc_F800就是刚才读取的FREELDR.SYS文件的数据,这里程序去执行FREELDR.SYS文件的代码。
[AppleScript] 纯文本查看 复制代码 MEMORY:F800 loc_F800: ; CODE XREF: MEMORY:7EBD�J
MEMORY:F800 ; MEMORY:F853�j
MEMORY:F800 jmp loc_FA00
在loc_F800中,只有一个跳转,我们接着去看loc_FA00处的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:FA00 loc_FA00: ; CODE XREF: MEMORY:loc_F800�j
MEMORY:FA00 cli
MEMORY:FA01 xor ax, ax
MEMORY:FA03 mov ds, ax
MEMORY:FA05 mov es, ax
MEMORY:FA07 assume es:MEMORY
MEMORY:FA07 mov fs, ax
MEMORY:FA09 mov gs, ax
MEMORY:FA0B mov ss, ax
MEMORY:FA0D mov sp, word_FAAE
MEMORY:FA11 call sub_FC16
这里设置一些段寄存器之后,调用了一个call,我们进去看这个call 的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:FC16 sub_FC16 proc near ; CODE XREF: MEMORY:FA11�p
MEMORY:FC16 pusha
MEMORY:FC17 call sub_FC07
MEMORY:FC1A mov al, 0D1h ; ' ;告诉键盘控制器我们要写命令
MEMORY:FC1C out 64h, al ; 8042 keyboard controller command register.
MEMORY:FC1C ; Write output port (next byte to port 60h):
MEMORY:FC1C ; 7: 1=keyboard data line pulled low (inhibited)
MEMORY:FC1C ; 6: 1=keyboard clock line pulled low (inhibited)
MEMORY:FC1C ; 5: enables IRQ 12 interrupt on mouse IBF
MEMORY:FC1C ; 4: enables IRQ 1 interrupt on keyboard IBF
MEMORY:FC1C ; 3: 1=mouse clock line pulled low (inhibited)
MEMORY:FC1C ; 2: 1=mouse data line pulled low (inhibited)
MEMORY:FC1C ; 1: A20 gate on/off
MEMORY:FC1C ; 0: reset the PC (THIS BIT SHOULD ALWAYS BE SET TO 1)
MEMORY:FC1E call sub_FC07
MEMORY:FC21 mov al, 0DFh ; ' ;告诉键盘控制器我们要开启A20
MEMORY:FC23 out 60h, al ; 8042 keyboard controller data register.
MEMORY:FC25 call sub_FC07
MEMORY:FC28 popa
MEMORY:FC29 retn
MEMORY:FC29 sub_FC16 endp
这段代码的功能其实就是开启A20地址线,call sub_FC07这个函数其实是等待8042的Inputbuffer为空,我们看看它的代码
[AppleScript] 纯文本查看 复制代码 MEMORY:FC07 sub_FC07 proc near ; CODE XREF: sub_FC07+C�j
MEMORY:FC07 ; sub_FC16+1�p ...
MEMORY:FC07 jmp short $+2
MEMORY:FC09 ; ---------------------------------------------------------------------------
MEMORY:FC09
MEMORY:FC09 loc_FC09: ; CODE XREF: sub_FC07�j
MEMORY:FC09 jmp short $+2
MEMORY:FC0B ; ---------------------------------------------------------------------------
MEMORY:FC0B
MEMORY:FC0B loc_FC0B: ; CODE XREF: sub_FC07:loc_FC09�j
MEMORY:FC0B in al, 64h ; 8042 keyboard controller status register
MEMORY:FC0B ; 7: PERR 1=parity error in data received from keyboard
MEMORY:FC0B ; +----------- AT Mode ----------+------------ PS/2 Mode ------------+
MEMORY:FC0B ; 6: |RxTO receive (Rx) timeout | TO general timeout (Rx or Tx)|
MEMORY:FC0B ; 5: |TxTO transmit (Tx) timeout | MOBF mouse output buffer full |
MEMORY:FC0B ; +------------------------------+-----------------------------------+
MEMORY:FC0B ; 4: INH 0=keyboard communications inhibited
MEMORY:FC0B ; 3: A2 0=60h was the port last written to, 1=64h was last
MEMORY:FC0B ; 2: SYS distinguishes reset types: 0=cold reboot, 1=warm reboot
MEMORY:FC0B ; 1: IBF 1=input buffer full (keyboard can't accept data)
MEMORY:FC0B ; 0: OBF 1=output buffer full (data from keyboard is available)
MEMORY:FC0D cmp al, 0FFh
MEMORY:FC0F jz short locret_FC15
MEMORY:FC11 test al, 2
MEMORY:FC13 jnz short sub_FC07
MEMORY:FC15
MEMORY:FC15 locret_FC15: ; CODE XREF: sub_FC07+8�j
MEMORY:FC15 retn
MEMORY:FC15 sub_FC07 endp
具体的就不在这里赘述,大家可以自己去百度下关于A20地址线的相关资料。开启了A20之后,我们接着看程序又干了些啥
[AppleScript] 纯文本查看 复制代码 MEMORY:FA14 mov dword_6F00, 0FA41h
MEMORY:FA1D mov ax, 1000h
MEMORY:FA20 mov es, ax
MEMORY:FA22 assume es:nothing
MEMORY:FA22 mov eax, es:3Ch
MEMORY:FA27 add eax, 18h
MEMORY:FA2B mov eax, es:[eax+10h]
MEMORY:FA31 add eax, 10000h
MEMORY:FA37 mov dword_FA9B, eax
MEMORY:FA3B xor ax, ax
MEMORY:FA3D mov es, ax
MEMORY:FA3F assume es:MEMORY
MEMORY:FA3F jmp short loc_FA7C
这里则是从内存中读取一个数值,然后保存在dword_FA9B里,至于这个数值干啥用,我们接着看
[mw_shl_code=applescript,true]MEMORY:FA7C loc_FA7C: ; CODE XREF: MEMORY:FA3F�j
MEMORY:FA7C cli
MEMORY:FA7D mov word_FAAE, sp
MEMORY:FA81 lgdt dword ptr byte_FAD8
MEMORY:FA86 mov eax, cr0
MEMORY:FA89 or eax, 1
MEMORY:FA8D mov cr0, eax
上面这段代码先是将byte_FAD8加载到GDT中,然后开启保护模式。保护模式是否开启是由cr0的第0位控制的,为1表示开启保护模式,为0表示不开启。
经过几天的调试,我们总算把前半部分的内容分析出来了,后面还有一些内容,找时间分析之后,再开一些帖子分享出来,不然篇幅太长了。
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发表于 2015-4-23 00:52:09
