os_kernel_lab/code/lab3/boot/bootasm.S

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ArmAsm
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#include <asm.h>
# Start the CPU: switch to 32-bit protected mode, jump into C.
# The BIOS loads this code from the first sector of the hard disk into
# memory at physical address 0x7c00 and starts executing in real mode
# with %cs=0 %ip=7c00.
.set PROT_MODE_CSEG, 0x8 # kernel code segment selector
.set PROT_MODE_DSEG, 0x10 # kernel data segment selector
.set CR0_PE_ON, 0x1 # protected mode enable flag
.set SMAP, 0x534d4150
# start address should be 0:7c00, in real mode, the beginning address of the running bootloader
.globl start
start:
.code16 # Assemble for 16-bit mode
cli # Disable interrupts
cld # String operations increment
# Set up the important data segment registers (DS, ES, SS).
xorw %ax, %ax # Segment number zero
movw %ax, %ds # -> Data Segment
movw %ax, %es # -> Extra Segment
movw %ax, %ss # -> Stack Segment
# Enable A20:
# For backwards compatibility with the earliest PCs, physical
# address line 20 is tied low, so that addresses higher than
# 1MB wrap around to zero by default. This code undoes this.
seta20.1:
inb $0x64, %al # Wait for not busy(8042 input buffer empty).
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testb $0x2, %al
jnz seta20.1
movb $0xd1, %al # 0xd1 -> port 0x64
outb %al, $0x64 # 0xd1 means: write data to 8042's P2 port
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seta20.2:
inb $0x64, %al # Wait for not busy(8042 input buffer empty).
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testb $0x2, %al
jnz seta20.2
movb $0xdf, %al # 0xdf -> port 0x60
outb %al, $0x60 # 0xdf = 11011111, means set P2's A20 bit(the 1 bit) to 1
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probe_memory:
movl $0, 0x8000
xorl %ebx, %ebx
movw $0x8004, %di
start_probe:
movl $0xE820, %eax
movl $20, %ecx
movl $SMAP, %edx
int $0x15
jnc cont
movw $12345, 0x8000
jmp finish_probe
cont:
addw $20, %di
incl 0x8000
cmpl $0, %ebx
jnz start_probe
finish_probe:
# Switch from real to protected mode, using a bootstrap GDT
# and segment translation that makes virtual addresses
# identical to physical addresses, so that the
# effective memory map does not change during the switch.
lgdt gdtdesc
movl %cr0, %eax
orl $CR0_PE_ON, %eax
movl %eax, %cr0
# Jump to next instruction, but in 32-bit code segment.
# Switches processor into 32-bit mode.
ljmp $PROT_MODE_CSEG, $protcseg
.code32 # Assemble for 32-bit mode
protcseg:
# Set up the protected-mode data segment registers
movw $PROT_MODE_DSEG, %ax # Our data segment selector
movw %ax, %ds # -> DS: Data Segment
movw %ax, %es # -> ES: Extra Segment
movw %ax, %fs # -> FS
movw %ax, %gs # -> GS
movw %ax, %ss # -> SS: Stack Segment
# Set up the stack pointer and call into C. The stack region is from 0--start(0x7c00)
movl $0x0, %ebp
movl $start, %esp
call bootmain
# If bootmain returns (it shouldn't), loop.
spin:
jmp spin
.data
# Bootstrap GDT
.p2align 2 # force 4 byte alignment
gdt:
SEG_NULLASM # null seg
SEG_ASM(STA_X|STA_R, 0x0, 0xffffffff) # code seg for bootloader and kernel
SEG_ASM(STA_W, 0x0, 0xffffffff) # data seg for bootloader and kernel
gdtdesc:
.word 0x17 # sizeof(gdt) - 1
.long gdt # address gdt