1. 实验任务1
task1.asm
assume cs:code, ds:data
data segment
x db 1, 9, 3
len1 equ $ - x
y dw 1, 9, 3
len2 equ $ - y
data ends
code segment
start:
mov ax, data
mov ds, ax
mov si, offset x
mov cx, len1
mov ah, 2
s1:mov dl, [si]
or dl, 30h
int 21h
mov dl, ' '
int 21h
inc si
loop s1
mov ah, 2
mov dl, 0ah
int 21h
mov si, offset y
mov cx, len2/2
mov ah, 2
s2:mov dx, [si]
or dl, 30h
int 21h
mov dl, ' '
int 21h
add si, 2
loop s2
mov ah, 4ch
int 21h
code ends
end start
① line27, 汇编指令 loop s1 跳转时,是根据位移量跳转的。通过debug反汇编,查看其机 器码,分析其跳转的位移量是多少?(位移量数值以十进制数值回答)从CPU的角度,说明 是如何计算得到跳转后标号s1其后指令的偏移地址的。
loop s1指令执行后从001B跳转到标号s1其后指令地址为000D,位移量为-14
CPU根据s1的大小和loop s1指令的位置进行计算得到
② line44,汇编指令 loop s2 跳转时,是根据位移量跳转的。通过debug反汇编,查看其机 器码,分析其跳转的位移量是多少?(位移量数值以十进制数值回答)从CPU的角度,说明 是如何计算得到跳转后标号s2其后指令的偏移地址的。
loop s2指令执行后从0039跳转到标号s1其后指令地址为0029,位移量为-16
CPU根据s2的大小和loop s2指令的位置进行计算得到
③ 附上上述分析时,在debug中进行调试观察的反汇编截图
2. 实验任务2
task2.asm
assume cs:code, ds:data
data segment
dw 200h, 0h, 230h, 0h
data ends
stack segment
db 16 dup(0)
stack ends
code segment
start:
mov ax, data
mov ds, ax
mov word ptr ds:[0], offset s1
mov word ptr ds:[2], offset s2
mov ds:[4], cs
mov ax, stack
mov ss, ax
mov sp, 16
call word ptr ds:[0]
s1: pop ax
call dword ptr ds:[2]
s2: pop bx
pop cx
mov ah, 4ch
int 21h
code ends
end start
① 根据call指令的跳转原理,先从理论上分析,程序执行到退出(line31)之前,寄存器(ax) = ? 寄存器 (bx) = ? 寄存器(cx) = ?
ax=s1的偏移地址
bx=s2的偏移地址
cx=s3的偏移地址
根据反汇编结果应该为
ax=0021 bx=0026 cx=076c
② 对源程序进行汇编、链接,得到可执行程序task2.exe。使用debug调试,观察、验证调试结果与理论 分析结果是否一致。
3. 实验任务3
assume cs:code, ds:data
data segment
x db 99, 72, 85, 63, 89, 97, 55
len equ $- x
data ends
code segment
start:
mov ax, data
mov ds, ax
mov si, offset x
mov cx, len
s:mov ax,0
mov al,[si]
call printNumber
call printSpace
inc si
loop s
mov ah, 4ch
int 21h
printNumber:
mov dl,10
div dl
mov bx,ax
mov ah, 2
mov dl, bl
or dl, 30h
int 21h
mov ah, 2
mov dl, bh
or dl, 30h
int 21h
ret
printSpace:
mov dl, ' '
int 21h
ret
code ends
end start
4. 实验任务4
assume cs:code, ds:data
data segment
str db 'try'
len equ $- str
data ends
code segment
start:
mov ax, data
mov ds, ax
mov si, offset str
mov cx, len
mov bh,0
mov bl, 2
call printStr
mov si, offset str
mov cx, len
mov bh,24
mov bl, 5
call printStr
mov ah, 4ch
int 21h
printStr:
mov ax,0b800h
mov es,ax
mov al,bh
mov dl,160
mul dl
mov di,ax
s:mov al,ds:[si]
mov ah,bl
mov es:[di],ax
add di,2
inc si
loop s
ret
code ends
end start
5. 实验任务5
assume cs:code, ds:data
data segment
stu_no db '201983290093'
len = $ - stu_no
data ends
code segment
start:
mov ax, data
mov ds, ax
mov si, offset stu_no
mov al,24
mov bl,80
mul bl
mov cx,ax ;设置cx
mov ax,0b800h
mov es,ax
mov di,0
mov ah,16
mov al," "
blue:mov es:[di],ax
add di,2
loop blue
mov cx,34
mov ah,23
mov al,"-"
x:mov es:[di],ax
add di,2
loop x
mov cx,len
mov ah,23
s:mov al,ds:[si]
mov es:[di],ax
add di,2
inc si
loop s
mov cx,34
mov ah,23
mov al,"-"
x1:mov es:[di],ax
add di,2
loop x1
mov ah, 4ch
int 21h
code ends
end start