530 lines
14 KiB
ArmAsm
530 lines
14 KiB
ArmAsm
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# Copyright (C) 2015 The University of Notre Dame
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# This software is distributed under the GNU General Public License.
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# See the file LICENSE for details.
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#include "memorylayout.h"
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# _start is the initial entry point for the kernel
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# Note that we start here merely because it comes
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# first in the link order. The name _start is there
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# merely to keep the linker happy.
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.code16
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.text
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.global _start
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_start:
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# First, jump to the real code start,
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# skipping over the immediate data that follows
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jmp realstart
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# At a fixed offset, place an integer that contains
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# the length of the kernel in bytes. This is used
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# by the bootblock code to figure out how many sectors to load.
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.org KERNEL_SIZE_OFFSET
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.global kernel_size
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kernel_size:
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.long _end-_start
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realstart:
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# While we are briefly still in 16-bit real mode,
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# it is safe to call the BIOS to set things up.
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# Reset the disk system in order to quiet motors
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# and turn off any pending interrupts.
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mov $0,%ah
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int $0x13
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# Turn off the screen cursor, because the
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# console will have its own.
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mov $1,%ah
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mov $0,%cl
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mov $0x20,%ch
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int $0x10
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# Get the amount of memory above 1MB and save it for later.
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# There are two ways to do this:
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# BIOS call 0xe801 measures memory as follows:
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# %ax returns memory above 1MB in 1KB increments, maximum of 16MB.
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# %bx returns memory above 64MB in 64KB increments, maximum of 4GB.
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# However, this call is relatively new, so if it
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# fails, we fall back on memtest2 below.
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memtest1:
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clc
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mov $0, %bx
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mov $0xe801,%ax
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int $0x15
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jc memtest2
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shr $10, %ax
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shr $4, %bx
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add %ax, %bx
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mov %bx, total_memory-_start
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jmp memdone
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# BIOS call 0x0088 measures memory as follows:
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# %ax returns memory above 1MB in 1KB increments, maxiumum of 64MB.
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memtest2:
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clc
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mov $0, %ax
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mov $0x88, %ah
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int $0x15
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shr $10, %ax
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inc %ax
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mov %ax, total_memory-_start
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memdone:
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# Now, set the video mode using VBE interrupts.
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# Keep trying until we find one that works.
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# These are documented on page 30 of the VESA-BIOS manual:
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# interrupt 0x10
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# ax = 0x4f02 "Set VBE Mode"
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# bx = mode
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# D0-8 = Mode Number
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# D9-10 = Reserved (must be 0)
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# D11 = 0 Use current default refresh rate.
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# D12-13 = 0 Reserved
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# D14 = 0 Use windowed frame buffer model.
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# = 1 Use linear frame buffer model.
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# D15 = 0 Clear display memory.
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# ES:DI = Pointer to CRCTCInfoBlock structure.
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jmp video640
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video1280:
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mov $0x4f02, %ax
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mov $0x411b, %bx
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int $0x10
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cmp $0x004f, %ax
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je videodone
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video1024:
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mov $0x4f02, %ax
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mov $0x4118, %bx
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int $0x10
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cmp $0x004f, %ax
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je videodone
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video800:
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mov $0x4f02, %ax
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mov $0x4115, %bx
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int $0x10
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cmp $0x004f, %ax
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je videodone
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video640:
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mov $0x4f02, %ax
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mov $0x4112, %bx
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int $0x10
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cmp $0x004f, %ax
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je videodone
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video640_lowcolor:
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mov $0x4f02, %ax
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mov $0x4111, %bx
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int $0x10
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cmp $0x004f, %ax
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je videodone
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videofailed:
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mov $videomsg, %esi
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call bios_putstring
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jmp halt
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videodone:
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# After all that, query the video mode and
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# figure out the dimensions and the frame
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# buffer address. The set mode is still in bx.
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mov %ds, %ax # Set up the extra segment
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mov %ax, %es # with the data segment
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mov $(video_info-_start),%di
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mov $0x4f01, %ax
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mov %bx, %cx
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int $0x10
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# In order to use video resolutions higher than 640x480,
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# we must enable the A20 address line. The following
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# code works on motherboards with "FAST A20", which should
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# be everything since the IBM PS/2
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inb $0x92, %al
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orb $2, %al
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outb %al, $0x92
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# Finally, we are ready to enter protected mode.
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# To do this, we disable interrupts so that
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# handlers will not see an inconsistent state.
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# We then load the new interrupt and descriptor
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# tables, which are given below. Then, we
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# enable the protection bit, and load the
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# segment selectors into the appropriate registers.
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# Finally, we make a long jump to main,
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# atomically loading the new code segment and
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# starting the kernel.
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cli # clear interrupts
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lidt (idt_init-_start) # load the interrupt table
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lgdt (gdt_init-_start) # load the descriptor table
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mov %cr0, %eax # get the status word
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or $0x01, %eax # turn on the P bit
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mov %eax, %cr0 # store the status word
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# (we are now in protected mode)
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mov $2*8, %ax # selector two is flat 4GB data data
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mov %ax, %ds # set data, extra, and stack segments to selector two
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mov %ax, %es
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mov %ax, %ss
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mov $5*8, %ax # set TSS to selector five
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ltr %ax
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mov $0, %ax # unused segments are nulled out
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mov %ax, %fs
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mov %ax, %gs
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mov $INTERRUPT_STACK_TOP, %sp # set up initial C stack
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mov $INTERRUPT_STACK_TOP, %bp # set up initial C stack
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ljmpl $(1*8), $(kernel_main) # jump to the C main!
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# bios_putstring displays an ASCII string pointed to by %si,
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# useful for basic startup messages or fatal errors.
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bios_putstring:
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mov (%si), %al
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cmp $0, %al
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jz bios_putstring_done
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call bios_putchar
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inc %si
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jmp bios_putstring
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bios_putstring_done:
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ret
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# bios_putchar invokes the bios to display
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# one character on the screen.
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bios_putchar:
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push %ax
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push %bx
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mov $14,%ah
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mov $1,%bl
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int $0x10
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pop %bx
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pop %ax
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ret
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# The video_info structure is filled in by a BIOS
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# call above, and is used to record the basic video
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# layout for the graphics subsystem. See page 30
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# of the VBE specification for an explanation of this structure.
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.align 4
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video_info:
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.word 0
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.byte 0,0
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.word 0,0,0,0
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.long 0
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.global video_xbytes
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video_xbytes:
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.word 0
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.global video_xres
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video_xres:
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.word 0
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.global video_yres
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video_yres:
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.word 0
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.byte 0,0,0,0,0,0,0,0,0
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.byte 0,0,0,0,0,0,0,0,0
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.global video_buffer
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video_buffer:
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.long 0
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.long 0
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.word 0
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.word 0
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.byte 0,0,0,0,0,0,0,0,0,0
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.long 0
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.rept 190
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.byte 0
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.endr
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.align 4
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videomsg:
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.asciz "fatal error: couldn't find suitable video mode!\r\n"
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###########################
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# 32 BIT CODE BEGINS HERE #
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###########################
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# All code below this point is 32-bit code and data
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# that is invoked by higher levels of the kernel from C code.
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.code32
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# Rebooting the machine is easy.
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# Set up an invalid interrupt table, and the force an interrupt.
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# The machine will triple-fault and reboot itself.
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.global reboot
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reboot:
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cli
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lidt idt_invalid
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int $1
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.global halt
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halt:
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cli
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hlt
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jmp halt
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# This is the global descriptor table to be used by the kernel.
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# Because we don't really want to use segmentation, we define
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# very simple descriptors for global code and data and the TSS
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.align 16
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.global gdt
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gdt:
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.word 0,0,0,0 # seg 0 - null
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.word 0xffff, 0x0000, 0x9a00, 0x00cf # seg 1 - kernel flat 4GB code
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.word 0xffff, 0x0000, 0x9200, 0x00cf # seg 2 - kernel flat 4GB data
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.word 0xffff, 0x0000, 0xfa00, 0x00cf # seg 3 - user flat 4GB code
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.word 0xffff, 0x0000, 0xf200, 0x00cf # seg 4 - user flat 4GB data
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.word 0x0068, (tss-_start),0x8901, 0x00cf # seg 5 - TSS
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# This is the initializer for the global descriptor table.
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# It simply tells us the size and location of the table.
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gdt_init:
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.word gdt_init-gdt
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.long gdt
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# The TSS is a big task management structure used by the 386.
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# We do not use the TSS, but simply rely on pushing variables
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# around in stacks. However, we need to use the TSS in order
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# to initialize the stack pointer and segment for priv level 0
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.align 16
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.global tss
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tss:
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.long 0
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.global interrupt_stack_pointer
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interrupt_stack_pointer:
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.long INTERRUPT_STACK_TOP # initial interrupt stack ptr at 64 KB
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.long 2*8 # use segment 2 for the interrupt stack
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.long 0
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.global total_memory
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total_memory:
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.word 32
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# First, the internal interrupts.
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# Note that some already push their own detail
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# code onto the stack. For the others, we push
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# a zero, just to get a common layout.
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intr00: pushl $0 ; pushl $0 ; jmp intr_handler
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intr01: pushl $0 ; pushl $1 ; jmp intr_handler
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intr02: pushl $0 ; pushl $2 ; jmp intr_handler
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intr03: pushl $0 ; pushl $3 ; jmp intr_handler
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intr04: pushl $0 ; pushl $4 ; jmp intr_handler
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intr05: pushl $0 ; pushl $5 ; jmp intr_handler
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intr06: pushl $0 ; pushl $6 ; jmp intr_handler
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intr07: pushl $0 ; pushl $7 ; jmp intr_handler
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intr08: pushl $8 ; jmp intr_handler
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intr09: pushl $0 ; pushl $9 ; jmp intr_handler
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intr10: pushl $10 ; jmp intr_handler
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intr11: pushl $11 ; jmp intr_handler
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intr12: pushl $12 ; jmp intr_handler
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intr13: pushl $13 ; jmp intr_handler
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intr14: pushl $14 ; jmp intr_handler
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intr15: pushl $0 ; pushl $15 ; jmp intr_handler
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intr16: pushl $0 ; pushl $16 ; jmp intr_handler
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intr17: pushl $17 ; jmp intr_handler
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intr18: pushl $0 ; pushl $18 ; jmp intr_handler
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intr19: pushl $0 ; pushl $19 ; jmp intr_handler
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# These interrupts are reserved, but could
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# conceivably occur on the next processor model
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intr20: pushl $0 ; pushl $20 ; jmp intr_handler
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intr21: pushl $0 ; pushl $21 ; jmp intr_handler
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intr22: pushl $0 ; pushl $22 ; jmp intr_handler
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intr23: pushl $0 ; pushl $23 ; jmp intr_handler
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intr24: pushl $0 ; pushl $24 ; jmp intr_handler
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intr25: pushl $0 ; pushl $25 ; jmp intr_handler
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intr26: pushl $0 ; pushl $26 ; jmp intr_handler
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intr27: pushl $0 ; pushl $27 ; jmp intr_handler
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intr28: pushl $0 ; pushl $28 ; jmp intr_handler
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intr29: pushl $0 ; pushl $29 ; jmp intr_handler
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intr30: pushl $0 ; pushl $30 ; jmp intr_handler
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intr31: pushl $0 ; pushl $31 ; jmp intr_handler
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# Now, the external hardware interrupts.
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intr32: pushl $0 ; pushl $32 ; jmp intr_handler
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intr33: pushl $0 ; pushl $33 ; jmp intr_handler
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intr34: pushl $0 ; pushl $34 ; jmp intr_handler
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intr35: pushl $0 ; pushl $35 ; jmp intr_handler
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intr36: pushl $0 ; pushl $36 ; jmp intr_handler
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intr37: pushl $0 ; pushl $37 ; jmp intr_handler
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intr38: pushl $0 ; pushl $38 ; jmp intr_handler
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intr39: pushl $0 ; pushl $39 ; jmp intr_handler
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intr40: pushl $0 ; pushl $40 ; jmp intr_handler
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intr41: pushl $0 ; pushl $41 ; jmp intr_handler
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intr42: pushl $0 ; pushl $42 ; jmp intr_handler
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intr43: pushl $0 ; pushl $43 ; jmp intr_handler
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intr44: pushl $0 ; pushl $44 ; jmp intr_handler
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intr45: pushl $0 ; pushl $45 ; jmp intr_handler
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intr46: pushl $0 ; pushl $46 ; jmp intr_handler
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intr47: pushl $0 ; pushl $47 ; jmp intr_handler
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intr48: pushl $0 ; pushl $48 ; jmp intr_syscall
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intr_handler:
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pushl %ds # push segment registers
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pushl %es
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pushl %fs
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pushl %gs
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pushl %ebp # push general regs
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pushl %edi
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pushl %esi
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pushl %edx
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pushl %ecx
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pushl %ebx
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pushl %eax
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pushl 48(%esp) # push interrupt code from above
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pushl 48(%esp) # push interrupt number from above
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movl $2*8, %eax # switch to kernel data seg and extra seg
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movl %eax, %ds
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movl %eax, %es
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call interrupt_handler
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addl $4, %esp # remove interrupt number
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addl $4, %esp # remove interrupt code
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jmp intr_return
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intr_syscall:
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pushl %ds # push segment registers
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pushl %es
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pushl %fs
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pushl %gs
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pushl %ebp # push general regs
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pushl %edi
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pushl %esi
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pushl %edx
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pushl %ecx
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pushl %ebx
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pushl %eax # note these *are* the syscall args
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movl $2*8, %eax # switch to kernel data seg and extra seg
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movl %eax, %ds
|
||
|
movl %eax, %es
|
||
|
call syscall_handler
|
||
|
addl $4, %esp # remove the old eax
|
||
|
jmp syscall_return
|
||
|
|
||
|
.global intr_return
|
||
|
intr_return:
|
||
|
popl %eax
|
||
|
syscall_return:
|
||
|
popl %ebx
|
||
|
popl %ecx
|
||
|
popl %edx
|
||
|
popl %esi
|
||
|
popl %edi
|
||
|
popl %ebp
|
||
|
popl %gs
|
||
|
popl %fs
|
||
|
popl %es
|
||
|
popl %ds
|
||
|
addl $4, %esp # remove interrupt num
|
||
|
addl $4, %esp # remove detail code
|
||
|
iret # iret gets the intr context
|
||
|
|
||
|
.align 2
|
||
|
idt:
|
||
|
.word intr00-_start,1*8,0x8e00,0x0001
|
||
|
.word intr01-_start,1*8,0x8e00,0x0001
|
||
|
.word intr02-_start,1*8,0x8e00,0x0001
|
||
|
.word intr03-_start,1*8,0x8e00,0x0001
|
||
|
.word intr04-_start,1*8,0x8e00,0x0001
|
||
|
.word intr05-_start,1*8,0x8e00,0x0001
|
||
|
.word intr06-_start,1*8,0x8e00,0x0001
|
||
|
.word intr07-_start,1*8,0x8e00,0x0001
|
||
|
.word intr08-_start,1*8,0x8e00,0x0001
|
||
|
.word intr09-_start,1*8,0x8e00,0x0001
|
||
|
.word intr10-_start,1*8,0x8e00,0x0001
|
||
|
.word intr11-_start,1*8,0x8e00,0x0001
|
||
|
.word intr12-_start,1*8,0x8e00,0x0001
|
||
|
.word intr13-_start,1*8,0x8e00,0x0001
|
||
|
.word intr14-_start,1*8,0x8e00,0x0001
|
||
|
.word intr15-_start,1*8,0x8e00,0x0001
|
||
|
.word intr16-_start,1*8,0x8e00,0x0001
|
||
|
.word intr17-_start,1*8,0x8e00,0x0001
|
||
|
.word intr18-_start,1*8,0x8e00,0x0001
|
||
|
.word intr19-_start,1*8,0x8e00,0x0001
|
||
|
.word intr20-_start,1*8,0x8e00,0x0001
|
||
|
.word intr21-_start,1*8,0x8e00,0x0001
|
||
|
.word intr22-_start,1*8,0x8e00,0x0001
|
||
|
.word intr23-_start,1*8,0x8e00,0x0001
|
||
|
.word intr24-_start,1*8,0x8e00,0x0001
|
||
|
.word intr25-_start,1*8,0x8e00,0x0001
|
||
|
.word intr26-_start,1*8,0x8e00,0x0001
|
||
|
.word intr27-_start,1*8,0x8e00,0x0001
|
||
|
.word intr28-_start,1*8,0x8e00,0x0001
|
||
|
.word intr29-_start,1*8,0x8e00,0x0001
|
||
|
.word intr30-_start,1*8,0x8e00,0x0001
|
||
|
.word intr31-_start,1*8,0x8e00,0x0001
|
||
|
.word intr32-_start,1*8,0x8e00,0x0001
|
||
|
.word intr33-_start,1*8,0x8e00,0x0001
|
||
|
.word intr34-_start,1*8,0x8e00,0x0001
|
||
|
.word intr35-_start,1*8,0x8e00,0x0001
|
||
|
.word intr36-_start,1*8,0x8e00,0x0001
|
||
|
.word intr37-_start,1*8,0x8e00,0x0001
|
||
|
.word intr38-_start,1*8,0x8e00,0x0001
|
||
|
.word intr39-_start,1*8,0x8e00,0x0001
|
||
|
.word intr40-_start,1*8,0x8e00,0x0001
|
||
|
.word intr41-_start,1*8,0x8e00,0x0001
|
||
|
.word intr42-_start,1*8,0x8e00,0x0001
|
||
|
.word intr43-_start,1*8,0x8e00,0x0001
|
||
|
.word intr44-_start,1*8,0x8e00,0x0001
|
||
|
.word intr45-_start,1*8,0x8e00,0x0001
|
||
|
.word intr46-_start,1*8,0x8e00,0x0001
|
||
|
.word intr47-_start,1*8,0x8e00,0x0001
|
||
|
.word intr48-_start,1*8,0xee00,0x0001
|
||
|
|
||
|
# This is the initializer for the global interrupt table.
|
||
|
# It simply gives the size and location of the interrupt table
|
||
|
|
||
|
idt_init:
|
||
|
.word idt_init-idt
|
||
|
.long idt
|
||
|
|
||
|
# This is the initializer for an invalid interrupt table.
|
||
|
# Its only purpose is to assist with the reboot routine.
|
||
|
|
||
|
idt_invalid:
|
||
|
.word 0
|
||
|
.long 0
|