Linux 内核解读之Boot-- -bootsect
Linux 内核解读之Boot-- -bootsect
linux bootsect的作用于结构图如下
*以下文章是对linux低版本的理解与分享,参考到来自多方面的文章和自己作为一个coder的心得.
Linux 内核的结构模式是一种操作系统的经典模式,从系统加载开始我们就会用bootsect来把image
加载进内存,其实我们在涉及相关的系统设计时,往往可以看到系统有loader,booter,bootloader之类的东西,
这是一种模式,booter里面可以做很多东西,比如image通过压缩,把文件信息缩小,在加载到memory时
解压可以减少flash的容量需要,也可以加入高级安全之类的验证信息,同时在booter阶段起来就开始做
系统与外部设备的检测也可大量缩减测试时间.
*现在我们开始走进linux的bootsect.s之前
1,需要理解AT&T 汇编
说到汇编,估计80X86的汇编算是比较难的了,相对单片机,ARM MIPS等汇编来说。
而且涉及到AT&T汇编还看起来有点不一样
2,需要理解BIOS
BIOS的原意是"Basic Input Output System“,即基本输入输出系统,其实就是一个主板的片上系统,起机的
时候从ROM里面开始跑起,跑完后再开始跑bootsect
*现在我们开始走进linux的bootsect.s
bootsect程序流程图如下:
(待续)
! ! SYS_SIZE is the number of clicks (16 bytes) to be loaded. ! 0x3000 is 0x30000 bytes = 196kB, more than enough for current ! versions of linux ! SYSSIZE = 0x3000 ! ! bootsect.s (C) 1991 Linus Torvalds ! ! bootsect.s is loaded at 0x7c00 by the bios-startup routines, and moves ! iself out of the way to address 0x90000, and jumps there. ! ! It then loads 'setup' directly after itself (0x90200), and the system ! at 0x10000, using BIOS interrupts. ! ! NOTE! currently system is at most 8*65536 bytes long. This should be no ! problem, even in the future. I want to keep it simple. This 512 kB ! kernel size should be enough, especially as this doesn't contain the ! buffer cache as in minix ! ! The loader has been made as simple as possible, and continuos ! read errors will result in a unbreakable loop. Reboot by hand. It ! loads pretty fast by getting whole sectors at a time whenever possible.
.globl begtext, begdata, begbss, endtext, enddata, endbss .text begtext: .data begdata: .bss begbss: .text
SETUPLEN = 4 ! nr of setup-sectors BOOTSEG = 0x07c0 ! original address of boot-sector INITSEG = 0x9000 ! we move boot here - out of the way SETUPSEG = 0x9020 ! setup starts here SYSSEG = 0x1000 ! system loaded at 0x10000 (65536). ENDSEG = SYSSEG + SYSSIZE ! where to stop loading
! ROOT_DEV: 0x000 - same type of floppy as boot. ! 0x301 - first partition on first drive etc ROOT_DEV = 0x306
entry start start: mov ax,#BOOTSEG
mov ds,ax
mov ax,#INITSEG
mov es,ax
mov cx,#256
sub si,si
sub di,di
rep
movw
jmpi go,INITSEG go: mov ax,cs mov ds,ax
mov es,ax ! put stack at 0x9ff00. mov ss,ax
mov sp,#0xFF00 ! arbitrary value >>512
! load the setup-sectors directly after the bootblock. ! Note that 'es' is already set up.
load_setup: mov dx,#0x0000 ! drive 0, head 0
mov cx,#0x0002 ! sector 2, track 0
mov bx,#0x0200 ! address = 512, in INITSEG
mov ax,#0x0200+SETUPLEN ! service 2, nr of sectors
int 0x13 ! read it
jnc ok_load_setup ! ok - continue
mov dx,#0x0000
mov ax,#0x0000 ! reset the diskette
int 0x13
j load_setup
ok_load_setup:
! Get disk drive parameters, specifically nr of sectors/track
mov dl,#0x00
mov ax,#0x0800 ! AH=8 is get drive parameters
int 0x13
mov ch,#0x00
seg cs
mov sectors,cx
mov ax,#INITSEG
mov es,ax
! Print some inane message
mov ah,#0x03 ! read cursor pos
xor bh,bh
int 0x10
mov cx,#24
mov bx,#0x0007 ! page 0, attribute 7 (normal)
mov bp,#msg1
mov ax,#0x1301 ! write string, move cursor
int 0x10
! ok, we've written the message, now ! we want to load the system (at 0x10000)
mov ax,#SYSSEG
mov es,ax ! segment of 0x010000
call read_it
call kill_motor
! After that we check which root-device to use. If the device is ! defined (!= 0), nothing is done and the given device is used. ! Otherwise, either /dev/PS0 (2,28) or /dev/at0 (2,8), depending ! on the number of sectors that the BIOS reports currently.
seg cs
mov ax,root_dev
cmp ax,#0
jne root_defined
seg cs
mov bx,sectors
mov ax,#0x0208 ! /dev/ps0 - 1.2Mb
cmp bx,#15
je root_defined
mov ax,#0x021c ! /dev/PS0 - 1.44Mb
cmp bx,#18
je root_defined undef_root: jmp undef_root root_defined: seg cs
mov root_dev,ax
! after that (everyting loaded), we jump to ! the setup-routine loaded directly after ! the bootblock:
jmpi 0,SETUPSEG
! This routine loads the system at address 0x10000, making sure ! no 64kB boundaries are crossed. We try to load it as fast as ! possible, loading whole tracks whenever we can. ! ! in: es - starting address segment (normally 0x1000) ! sread: .word 1+SETUPLEN ! sectors read of current track head: .word 0 ! current head track: .word 0 ! current track
read_it: mov ax,es
test ax,#0x0fff die: jne die ! es must be at 64kB boundary xor bx,bx ! bx is starting address within segment rp_read: mov ax,es
cmp ax,#ENDSEG ! have we loaded all yet?
jb ok1_read
ret ok1_read: seg cs
mov ax,sectors
sub ax,sread
mov cx,ax
shl cx,#9
add cx,bx
jnc ok2_read
je ok2_read
xor ax,ax
sub ax,bx
shr ax,#9 ok2_read: call read_track
mov cx,ax
add ax,sread
seg cs
cmp ax,sectors
jne ok3_read
mov ax,#1
sub ax,head
jne ok4_read
inc track ok4_read: mov head,ax
xor ax,ax ok3_read: mov sread,ax
shl cx,#9
add bx,cx
jnc rp_read
mov ax,es
add ax,#0x1000
mov es,ax
xor bx,bx
jmp rp_read
read_track: push ax
push bx
push cx
push dx
mov dx,track
mov cx,sread
inc cx
mov ch,dl
mov dx,head
mov dh,dl
mov dl,#0
and dx,#0x0100
mov ah,#2
int 0x13
jc bad_rt
pop dx
pop cx
pop bx
pop ax
ret bad_rt: mov ax,#0 mov dx,#0
int 0x13
pop dx
pop cx
pop bx
pop ax
jmp read_track
/*
* This procedure turns off the floppy drive motor, so
* that we enter the kernel in a known state, and
* don't have to worry about it later.
*/ kill_motor: push dx
mov dx,#0x3f2
mov al,#0
outb
pop dx
ret
sectors: .word 0
msg1: .byte 13,10
.ascii "Loading system ..."
.byte 13,10,13,10
.org 508 root_dev: .word ROOT_DEV boot_flag: .word 0xAA55
.text endtext: .data enddata: .bss endbss: