added part 4

This commit is contained in:
Jonathan Turner 2023-11-29 14:16:15 -05:00
parent 94122a957c
commit f9879ab449
44 changed files with 1810 additions and 0 deletions

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# Default ignored files
/shelf/
/workspace.xml
# Editor-based HTTP Client requests
/httpRequests/
# Datasource local storage ignored files
/dataSources/
/dataSources.local.xml

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<?xml version="1.0" encoding="UTF-8"?>
<module type="CPP_MODULE" version="4">
<component name="NewModuleRootManager">
<content url="file://$MODULE_DIR$" />
<orderEntry type="inheritedJdk" />
<orderEntry type="sourceFolder" forTests="false" />
</component>
</module>

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<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ProjectModuleManager">
<modules>
<module fileurl="file://$PROJECT_DIR$/.idea/OS_Project.iml" filepath="$PROJECT_DIR$/.idea/OS_Project.iml" />
</modules>
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<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="VcsDirectoryMappings">
<mapping directory="" vcs="Git" />
</component>
</project>

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} }
return result; return result;
} }
void print_holes(node* umem_head) {
}

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C_SOURCES = $(wildcard kernel/*.c drivers/*.c cpu/*.c libc/*.c)
HEADERS = $(wildcard kernel/*.h drivers/*.h cpu/*.h libc/*.h)
# Nice syntax for file extension replacement
OBJ = ${C_SOURCES:.c=.o cpu/interrupt.o}
# Change this if your cross-compiler is somewhere else
CC = /usr/bin/gcc
GDB = /usr/bin/gdb
# -g: Use debugging symbols in gcc
CFLAGS = -g -m32 -fno-pie -ffreestanding -nostdlib -nostdinc -fno-builtin -fno-stack-protector -nostartfiles -nodefaultlibs -Wall -Wextra -Werror
# First rule is run by default
os-image.bin: boot/bootsect.bin kernel.bin
cat $^ > os-image.bin
# '--oformat binary' deletes all symbols as a collateral, so we don't need
# to 'strip' them manually on this case
kernel.bin: boot/kernel_entry.o ${OBJ}
/usr/bin/ld -m elf_i386 -o $@ -Ttext 0x1000 $^ --oformat binary
# Used for debugging purposes
kernel.elf: boot/kernel_entry.o ${OBJ}
/usr/bin/ld -m elf_i386 -o $@ -Ttext 0x1000 $^
run: os-image.bin
qemu-system-i386 -vga std -drive file=$<,index=0,if=floppy,format=raw
curses: os-image.bin
qemu-system-i386 -curses -drive file=$<,index=0,if=floppy,format=raw
# Open the connection to qemu and load our kernel-object file with symbols
debug: os-image.bin kernel.elf
qemu-system-i386 -curses -s -drive file=os-image.bin,index=0,if=floppy,format=raw -d guest_errors,int
gdb:
${GDB} -ex "target remote localhost:1234" -ex "symbol-file kernel.elf"
# Generic rules for wildcards
# To make an object, always compile from its .c
%.o: %.c ${HEADERS}
${CC} ${CFLAGS} -c $< -o $@
%.o: %.asm
nasm $< -f elf -o $@
%.bin: %.asm
nasm $< -f bin -o $@
clean:
rm -rf *.bin *.dis *.o *.s os-image.bin *.elf
rm -rf kernel/*.o boot/*.bin drivers/*.o boot/*.o cpu/*.o libc/*.o

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[bits 32] ; using 32-bit protected mode
; this is how constants are defined
VIDEO_MEMORY equ 0xb8000
WHITE_OB_BLACK equ 0x0f ; the color byte for each character
print_string_pm:
pusha
mov edx, VIDEO_MEMORY
print_string_pm_loop:
mov al, [ebx] ; [ebx] is the address of our character
mov ah, WHITE_OB_BLACK
cmp al, 0 ; check if end of string
je print_string_pm_done
mov [edx], ax ; store character + attribute in video memory
add ebx, 1 ; next char
add edx, 2 ; next video memory position
jmp print_string_pm_loop
print_string_pm_done:
popa
ret

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; Identical to lesson 13's boot sector, but the %included files have new paths
[org 0x7c00]
KERNEL_OFFSET equ 0x1000 ; The same one we used when linking the kernel
mov [BOOT_DRIVE], dl ; Remember that the BIOS sets us the boot drive in 'dl' on boot
mov bp, 0x9000
mov sp, bp
mov bx, MSG_REAL_MODE
call print
call print_nl
call load_kernel ; read the kernel from disk
call switch_to_pm ; disable interrupts, load GDT, etc. Finally jumps to 'BEGIN_PM'
jmp $ ; Never executed
%include "boot/print.asm"
%include "boot/print_hex.asm"
%include "boot/disk.asm"
%include "boot/gdt.asm"
%include "boot/32bit_print.asm"
%include "boot/switch_pm.asm"
[bits 16]
load_kernel:
mov bx, MSG_LOAD_KERNEL
call print
call print_nl
mov bx, KERNEL_OFFSET ; Read from disk and store in 0x1000
mov dh, 48 ; Our future kernel will be larger, make this big (16 loads up to 12K kernel, make larger like 32)
mov dl, [BOOT_DRIVE]
call disk_load
ret
[bits 32]
BEGIN_PM:
mov ebx, MSG_PROT_MODE
call print_string_pm
call KERNEL_OFFSET ; Give control to the kernel
jmp $ ; Stay here when the kernel returns control to us (if ever)
BOOT_DRIVE db 0 ; It is a good idea to store it in memory because 'dl' may get overwritten
MSG_REAL_MODE db "Started in 16-bit Real Mode", 0
MSG_PROT_MODE db "Landed in 32-bit Protected Mode", 0
MSG_LOAD_KERNEL db "Loading kernel into memory", 0
; padding
times 510 - ($-$$) db 0
dw 0xaa55

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; load 'dh' sectors from drive 'dl' into ES:BX
disk_load:
pusha
; reading from disk requires setting specific values in all registers
; so we will overwrite our input parameters from 'dx'. Let's save it
; to the stack for later use.
push dx
mov ah, 0x02 ; ah <- int 0x13 function. 0x02 = 'read'
mov al, dh ; al <- number of sectors to read (0x01 .. 0x80)
mov cl, 0x02 ; cl <- sector (0x01 .. 0x11)
; 0x01 is our boot sector, 0x02 is the first 'available' sector
mov ch, 0x00 ; ch <- cylinder (0x0 .. 0x3FF, upper 2 bits in 'cl')
; dl <- drive number. Our caller sets it as a parameter and gets it from BIOS
; (0 = floppy, 1 = floppy2, 0x80 = hdd, 0x81 = hdd2)
mov dh, 0x00 ; dh <- head number (0x0 .. 0xF)
; [es:bx] <- pointer to buffer where the data will be stored
; caller sets it up for us, and it is actually the standard location for int 13h
int 0x13 ; BIOS interrupt
jc disk_error ; if error (stored in the carry bit)
pop dx
cmp al, dh ; BIOS also sets 'al' to the # of sectors read. Compare it.
jne sectors_error
popa
ret
disk_error:
mov bx, DISK_ERROR
call print
call print_nl
mov dh, ah ; ah = error code, dl = disk drive that dropped the error
call print_hex ; check out the code at http://stanislavs.org/helppc/int_13-1.html
jmp disk_loop
sectors_error:
mov bx, SECTORS_ERROR
call print
disk_loop:
jmp $
DISK_ERROR: db "Disk read error", 0
SECTORS_ERROR: db "Incorrect number of sectors read", 0

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gdt_start: ; don't remove the labels, they're needed to compute sizes and jumps
; the GDT starts with a null 8-byte
dd 0x0 ; 4 byte
dd 0x0 ; 4 byte
; GDT for code segment. base = 0x00000000, length = 0xfffff
; for flags, refer to os-dev.pdf document, page 36
gdt_code:
dw 0xffff ; segment length, bits 0-15
dw 0x0 ; segment base, bits 0-15
db 0x0 ; segment base, bits 16-23
db 10011010b ; flags (8 bits)
db 11001111b ; flags (4 bits) + segment length, bits 16-19
db 0x0 ; segment base, bits 24-31
; GDT for data segment. base and length identical to code segment
; some flags changed, again, refer to os-dev.pdf
gdt_data:
dw 0xffff
dw 0x0
db 0x0
db 10010010b
db 11001111b
db 0x0
gdt_end:
; GDT descriptor
gdt_descriptor:
dw gdt_end - gdt_start - 1 ; size (16 bit), always one less of its true size
dd gdt_start ; address (32 bit)
; define some constants for later use
CODE_SEG equ gdt_code - gdt_start
DATA_SEG equ gdt_data - gdt_start

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[bits 32]
[extern _start] ; Define calling point. Must have same name as kernel.c '_start' function
call _start ; Calls the C function. The linker will know where it is placed in memory
jmp $

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print:
pusha
; keep this in mind:
; while (string[i] != 0) { print string[i]; i++ }
; the comparison for string end (null byte)
start:
mov al, [bx] ; 'bx' is the base address for the string
cmp al, 0
je done
; the part where we print with the BIOS help
mov ah, 0x0e
int 0x10 ; 'al' already contains the char
; increment pointer and do next loop
add bx, 1
jmp start
done:
popa
ret
print_nl:
pusha
mov ah, 0x0e
mov al, 0x0a ; newline char
int 0x10
mov al, 0x0d ; carriage return
int 0x10
popa
ret

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; receiving the data in 'dx'
; For the examples we'll assume that we're called with dx=0x1234
print_hex:
pusha
mov cx, 0 ; our index variable
; Strategy: get the last char of 'dx', then convert to ASCII
; Numeric ASCII values: '0' (ASCII 0x30) to '9' (0x39), so just add 0x30 to byte N.
; For alphabetic characters A-F: 'A' (ASCII 0x41) to 'F' (0x46) we'll add 0x40
; Then, move the ASCII byte to the correct position on the resulting string
hex_loop:
cmp cx, 4 ; loop 4 times
je end
; 1. convert last char of 'dx' to ascii
mov ax, dx ; we will use 'ax' as our working register
and ax, 0x000f ; 0x1234 -> 0x0004 by masking first three to zeros
add al, 0x30 ; add 0x30 to N to convert it to ASCII "N"
cmp al, 0x39 ; if > 9, add extra 8 to represent 'A' to 'F'
jle step2
add al, 7 ; 'A' is ASCII 65 instead of 58, so 65-58=7
step2:
; 2. get the correct position of the string to place our ASCII char
; bx <- base address + string length - index of char
mov bx, HEX_OUT + 5 ; base + length
sub bx, cx ; our index variable
mov [bx], al ; copy the ASCII char on 'al' to the position pointed by 'bx'
ror dx, 4 ; 0x1234 -> 0x4123 -> 0x3412 -> 0x2341 -> 0x1234
; increment index and loop
add cx, 1
jmp hex_loop
end:
; prepare the parameter and call the function
; remember that print receives parameters in 'bx'
mov bx, HEX_OUT
call print
popa
ret
HEX_OUT:
db '0x0000',0 ; reserve memory for our new string

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@ -0,0 +1,22 @@
[bits 16]
switch_to_pm:
cli ; 1. disable interrupts
lgdt [gdt_descriptor] ; 2. load the GDT descriptor
mov eax, cr0
or eax, 0x1 ; 3. set 32-bit mode bit in cr0
mov cr0, eax
jmp CODE_SEG:init_pm ; 4. far jump by using a different segment
[bits 32]
init_pm: ; we are now using 32-bit instructions
mov ax, DATA_SEG ; 5. update the segment registers
mov ds, ax
mov ss, ax
mov es, ax
mov fs, ax
mov gs, ax
mov ebp, 0x90000 ; 6. update the stack right at the top of the free space
mov esp, ebp
call BEGIN_PM ; 7. Call a well-known label with useful code

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#include "idt.h"
void set_idt_gate(int n, u32 handler) {
idt[n].low_offset = low_16(handler);
idt[n].sel = KERNEL_CS;
idt[n].always0 = 0;
idt[n].flags = 0x8E;
idt[n].high_offset = high_16(handler);
}
void set_idt() {
idt_reg.base = (u32) &idt;
idt_reg.limit = IDT_ENTRIES * sizeof(idt_gate_t) - 1;
/* Don't make the mistake of loading &idt -- always load &idt_reg */
__asm__ __volatile__("lidtl (%0)" : : "r" (&idt_reg));
}

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#ifndef IDT_H
#define IDT_H
#include "types.h"
/* Segment selectors */
#define KERNEL_CS 0x08
/* How every interrupt gate (handler) is defined */
typedef struct {
u16 low_offset; /* Lower 16 bits of handler function address */
u16 sel; /* Kernel segment selector */
u8 always0;
/* First byte
* Bit 7: "Interrupt is present"
* Bits 6-5: Privilege level of caller (0=kernel..3=user)
* Bit 4: Set to 0 for interrupt gates
* Bits 3-0: bits 1110 = decimal 14 = "32 bit interrupt gate" */
u8 flags;
u16 high_offset; /* Higher 16 bits of handler function address */
} __attribute__((packed)) idt_gate_t ;
/* A pointer to the array of interrupt handlers.
* Assembly instruction 'lidt' will read it */
typedef struct {
u16 limit;
u32 base;
} __attribute__((packed)) idt_register_t;
#define IDT_ENTRIES 256
idt_gate_t idt[IDT_ENTRIES];
idt_register_t idt_reg;
/* Functions implemented in idt.c */
void set_idt_gate(int n, u32 handler);
void set_idt();
#endif

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; Defined in isr.c
[extern isr_handler]
[extern irq_handler]
; Common ISR code
isr_common_stub:
; 1. Save CPU state
pusha ; Pushes edi,esi,ebp,esp,ebx,edx,ecx,eax
mov ax, ds ; Lower 16-bits of eax = ds.
push eax ; save the data segment descriptor
mov ax, 0x10 ; kernel data segment descriptor
mov ds, ax
mov es, ax
mov fs, ax
mov gs, ax
; 2. Call C handler
call isr_handler
; 3. Restore state
pop eax
mov ds, ax
mov es, ax
mov fs, ax
mov gs, ax
popa
add esp, 8 ; Cleans up the pushed error code and pushed ISR number
sti
iret ; pops 5 things at once: CS, EIP, EFLAGS, SS, and ESP
; Common IRQ code. Identical to ISR code except for the 'call'
; and the 'pop ebx'
irq_common_stub:
pusha
mov ax, ds
push eax
mov ax, 0x10
mov ds, ax
mov es, ax
mov fs, ax
mov gs, ax
call irq_handler ; Different than the ISR code
pop ebx ; Different than the ISR code
mov ds, bx
mov es, bx
mov fs, bx
mov gs, bx
popa
add esp, 8
sti
iret
; We don't get information about which interrupt was caller
; when the handler is run, so we will need to have a different handler
; for every interrupt.
; Furthermore, some interrupts push an error code onto the stack but others
; don't, so we will push a dummy error code for those which don't, so that
; we have a consistent stack for all of them.
; First make the ISRs global
global isr0
global isr1
global isr2
global isr3
global isr4
global isr5
global isr6
global isr7
global isr8
global isr9
global isr10
global isr11
global isr12
global isr13
global isr14
global isr15
global isr16
global isr17
global isr18
global isr19
global isr20
global isr21
global isr22
global isr23
global isr24
global isr25
global isr26
global isr27
global isr28
global isr29
global isr30
global isr31
; IRQs
global irq0
global irq1
global irq2
global irq3
global irq4
global irq5
global irq6
global irq7
global irq8
global irq9
global irq10
global irq11
global irq12
global irq13
global irq14
global irq15
; 0: Divide By Zero Exception
isr0:
cli
push byte 0
push byte 0
jmp isr_common_stub
; 1: Debug Exception
isr1:
cli
push byte 0
push byte 1
jmp isr_common_stub
; 2: Non Maskable Interrupt Exception
isr2:
cli
push byte 0
push byte 2
jmp isr_common_stub
; 3: Int 3 Exception
isr3:
cli
push byte 0
push byte 3
jmp isr_common_stub
; 4: INTO Exception
isr4:
cli
push byte 0
push byte 4
jmp isr_common_stub
; 5: Out of Bounds Exception
isr5:
cli
push byte 0
push byte 5
jmp isr_common_stub
; 6: Invalid Opcode Exception
isr6:
cli
push byte 0
push byte 6
jmp isr_common_stub
; 7: Coprocessor Not Available Exception
isr7:
cli
push byte 0
push byte 7
jmp isr_common_stub
; 8: Double Fault Exception (With Error Code!)
isr8:
cli
push byte 8
jmp isr_common_stub
; 9: Coprocessor Segment Overrun Exception
isr9:
cli
push byte 0
push byte 9
jmp isr_common_stub
; 10: Bad TSS Exception (With Error Code!)
isr10:
cli
push byte 10
jmp isr_common_stub
; 11: Segment Not Present Exception (With Error Code!)
isr11:
cli
push byte 11
jmp isr_common_stub
; 12: Stack Fault Exception (With Error Code!)
isr12:
cli
push byte 12
jmp isr_common_stub
; 13: General Protection Fault Exception (With Error Code!)
isr13:
cli
push byte 13
jmp isr_common_stub
; 14: Page Fault Exception (With Error Code!)
isr14:
cli
push byte 14
jmp isr_common_stub
; 15: Reserved Exception
isr15:
cli
push byte 0
push byte 15
jmp isr_common_stub
; 16: Floating Point Exception
isr16:
cli
push byte 0
push byte 16
jmp isr_common_stub
; 17: Alignment Check Exception
isr17:
cli
push byte 0
push byte 17
jmp isr_common_stub
; 18: Machine Check Exception
isr18:
cli
push byte 0
push byte 18
jmp isr_common_stub
; 19: Reserved
isr19:
cli
push byte 0
push byte 19
jmp isr_common_stub
; 20: Reserved
isr20:
cli
push byte 0
push byte 20
jmp isr_common_stub
; 21: Reserved
isr21:
cli
push byte 0
push byte 21
jmp isr_common_stub
; 22: Reserved
isr22:
cli
push byte 0
push byte 22
jmp isr_common_stub
; 23: Reserved
isr23:
cli
push byte 0
push byte 23
jmp isr_common_stub
; 24: Reserved
isr24:
cli
push byte 0
push byte 24
jmp isr_common_stub
; 25: Reserved
isr25:
cli
push byte 0
push byte 25
jmp isr_common_stub
; 26: Reserved
isr26:
cli
push byte 0
push byte 26
jmp isr_common_stub
; 27: Reserved
isr27:
cli
push byte 0
push byte 27
jmp isr_common_stub
; 28: Reserved
isr28:
cli
push byte 0
push byte 28
jmp isr_common_stub
; 29: Reserved
isr29:
cli
push byte 0
push byte 29
jmp isr_common_stub
; 30: Reserved
isr30:
cli
push byte 0
push byte 30
jmp isr_common_stub
; 31: Reserved
isr31:
cli
push byte 0
push byte 31
jmp isr_common_stub
; IRQ handlers
irq0:
cli
push byte 0
push byte 32
jmp irq_common_stub
irq1:
cli
push byte 1
push byte 33
jmp irq_common_stub
irq2:
cli
push byte 2
push byte 34
jmp irq_common_stub
irq3:
cli
push byte 3
push byte 35
jmp irq_common_stub
irq4:
cli
push byte 4
push byte 36
jmp irq_common_stub
irq5:
cli
push byte 5
push byte 37
jmp irq_common_stub
irq6:
cli
push byte 6
push byte 38
jmp irq_common_stub
irq7:
cli
push byte 7
push byte 39
jmp irq_common_stub
irq8:
cli
push byte 8
push byte 40
jmp irq_common_stub
irq9:
cli
push byte 9
push byte 41
jmp irq_common_stub
irq10:
cli
push byte 10
push byte 42
jmp irq_common_stub
irq11:
cli
push byte 11
push byte 43
jmp irq_common_stub
irq12:
cli
push byte 12
push byte 44
jmp irq_common_stub
irq13:
cli
push byte 13
push byte 45
jmp irq_common_stub
irq14:
cli
push byte 14
push byte 46
jmp irq_common_stub
irq15:
cli
push byte 15
push byte 47
jmp irq_common_stub

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#include "isr.h"
#include "idt.h"
#include "../drivers/screen.h"
#include "../drivers/keyboard.h"
#include "../libc/string.h"
#include "timer.h"
#include "ports.h"
isr_t interrupt_handlers[256];
/* Can't do this with a loop because we need the address
* of the function names */
void isr_install() {
set_idt_gate(0, (u32)isr0);
set_idt_gate(1, (u32)isr1);
set_idt_gate(2, (u32)isr2);
set_idt_gate(3, (u32)isr3);
set_idt_gate(4, (u32)isr4);
set_idt_gate(5, (u32)isr5);
set_idt_gate(6, (u32)isr6);
set_idt_gate(7, (u32)isr7);
set_idt_gate(8, (u32)isr8);
set_idt_gate(9, (u32)isr9);
set_idt_gate(10, (u32)isr10);
set_idt_gate(11, (u32)isr11);
set_idt_gate(12, (u32)isr12);
set_idt_gate(13, (u32)isr13);
set_idt_gate(14, (u32)isr14);
set_idt_gate(15, (u32)isr15);
set_idt_gate(16, (u32)isr16);
set_idt_gate(17, (u32)isr17);
set_idt_gate(18, (u32)isr18);
set_idt_gate(19, (u32)isr19);
set_idt_gate(20, (u32)isr20);
set_idt_gate(21, (u32)isr21);
set_idt_gate(22, (u32)isr22);
set_idt_gate(23, (u32)isr23);
set_idt_gate(24, (u32)isr24);
set_idt_gate(25, (u32)isr25);
set_idt_gate(26, (u32)isr26);
set_idt_gate(27, (u32)isr27);
set_idt_gate(28, (u32)isr28);
set_idt_gate(29, (u32)isr29);
set_idt_gate(30, (u32)isr30);
set_idt_gate(31, (u32)isr31);
// Remap the PIC
port_byte_out(0x20, 0x11);
port_byte_out(0xA0, 0x11);
port_byte_out(0x21, 0x20);
port_byte_out(0xA1, 0x28);
port_byte_out(0x21, 0x04);
port_byte_out(0xA1, 0x02);
port_byte_out(0x21, 0x01);
port_byte_out(0xA1, 0x01);
port_byte_out(0x21, 0x0);
port_byte_out(0xA1, 0x0);
// Install the IRQs
set_idt_gate(32, (u32)irq0);
set_idt_gate(33, (u32)irq1);
set_idt_gate(34, (u32)irq2);
set_idt_gate(35, (u32)irq3);
set_idt_gate(36, (u32)irq4);
set_idt_gate(37, (u32)irq5);
set_idt_gate(38, (u32)irq6);
set_idt_gate(39, (u32)irq7);
set_idt_gate(40, (u32)irq8);
set_idt_gate(41, (u32)irq9);
set_idt_gate(42, (u32)irq10);
set_idt_gate(43, (u32)irq11);
set_idt_gate(44, (u32)irq12);
set_idt_gate(45, (u32)irq13);
set_idt_gate(46, (u32)irq14);
set_idt_gate(47, (u32)irq15);
set_idt(); // Load with ASM
}
/* To print the message which defines every exception */
char *exception_messages[] = {
"Division By Zero",
"Debug",
"Non Maskable Interrupt",
"Breakpoint",
"Into Detected Overflow",
"Out of Bounds",
"Invalid Opcode",
"No Coprocessor",
"Double Fault",
"Coprocessor Segment Overrun",
"Bad TSS",
"Segment Not Present",
"Stack Fault",
"General Protection Fault",
"Page Fault",
"Unknown Interrupt",
"Coprocessor Fault",
"Alignment Check",
"Machine Check",
"Reserved",
"Reserved",
"Reserved",
"Reserved",
"Reserved",
"Reserved",
"Reserved",
"Reserved",
"Reserved",
"Reserved",
"Reserved",
"Reserved",
"Reserved"
};
void isr_handler(registers_t r) {
kprint("received interrupt: ");
char s[3];
int_to_ascii(r.int_no, s);
kprint(s);
kprint("\n");
kprint(exception_messages[r.int_no]);
kprint("\n");
}
void register_interrupt_handler(u8 n, isr_t handler) {
interrupt_handlers[n] = handler;
}
void irq_handler(registers_t r) {
/* After every interrupt we need to send an EOI to the PICs
* or they will not send another interrupt again */
if (r.int_no >= 40) port_byte_out(0xA0, 0x20); /* slave */
port_byte_out(0x20, 0x20); /* master */
/* Handle the interrupt in a more modular way */
if (interrupt_handlers[r.int_no] != 0) {
isr_t handler = interrupt_handlers[r.int_no];
handler(r);
}
}
void irq_install() {
/* Enable interruptions */
asm volatile("sti");
/* IRQ0: timer */
init_timer(50);
/* IRQ1: keyboard */
init_keyboard();
}

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#ifndef ISR_H
#define ISR_H
#include "types.h"
/* ISRs reserved for CPU exceptions */
extern void isr0();
extern void isr1();
extern void isr2();
extern void isr3();
extern void isr4();
extern void isr5();
extern void isr6();
extern void isr7();
extern void isr8();
extern void isr9();
extern void isr10();
extern void isr11();
extern void isr12();
extern void isr13();
extern void isr14();
extern void isr15();
extern void isr16();
extern void isr17();
extern void isr18();
extern void isr19();
extern void isr20();
extern void isr21();
extern void isr22();
extern void isr23();
extern void isr24();
extern void isr25();
extern void isr26();
extern void isr27();
extern void isr28();
extern void isr29();
extern void isr30();
extern void isr31();
/* IRQ definitions */
extern void irq0();
extern void irq1();
extern void irq2();
extern void irq3();
extern void irq4();
extern void irq5();
extern void irq6();
extern void irq7();
extern void irq8();
extern void irq9();
extern void irq10();
extern void irq11();
extern void irq12();
extern void irq13();
extern void irq14();
extern void irq15();
#define IRQ0 32
#define IRQ1 33
#define IRQ2 34
#define IRQ3 35
#define IRQ4 36
#define IRQ5 37
#define IRQ6 38
#define IRQ7 39
#define IRQ8 40
#define IRQ9 41
#define IRQ10 42
#define IRQ11 43
#define IRQ12 44
#define IRQ13 45
#define IRQ14 46
#define IRQ15 47
/* Struct which aggregates many registers */
typedef struct {
u32 ds; /* Data segment selector */
u32 edi, esi, ebp, esp, ebx, edx, ecx, eax; /* Pushed by pusha. */
u32 int_no, err_code; /* Interrupt number and error code (if applicable) */
u32 eip, cs, eflags, useresp, ss; /* Pushed by the processor automatically */
} registers_t;
void isr_install();
void isr_handler(registers_t r);
void irq_install();
typedef void (*isr_t)(registers_t);
void register_interrupt_handler(u8 n, isr_t handler);
#endif

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#include "ports.h"
/**
* Read a byte from the specified port
*/
u8 port_byte_in (u16 port) {
u8 result;
/* Inline assembler syntax
* !! Notice how the source and destination registers are switched from NASM !!
*
* '"=a" (result)'; set '=' the C variable '(result)' to the value of register e'a'x
* '"d" (port)': map the C variable '(port)' into e'd'x register
*
* Inputs and outputs are separated by colons
*/
__asm__("in %%dx, %%al" : "=a" (result) : "d" (port));
return result;
}
void port_byte_out (u16 port, u8 data) {
/* Notice how here both registers are mapped to C variables and
* nothing is returned, thus, no equals '=' in the asm syntax
* However we see a comma since there are two variables in the input area
* and none in the 'return' area
*/
__asm__ __volatile__("out %%al, %%dx" : : "a" (data), "d" (port));
}
u16 port_word_in (u16 port) {
u16 result;
__asm__("in %%dx, %%ax" : "=a" (result) : "d" (port));
return result;
}
void port_word_out (u16 port, u16 data) {
__asm__ __volatile__("out %%ax, %%dx" : : "a" (data), "d" (port));
}

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#ifndef PORTS_H
#define PORTS_H
#include "../cpu/types.h"
unsigned char port_byte_in (u16 port);
void port_byte_out (u16 port, u8 data);
unsigned short port_word_in (u16 port);
void port_word_out (u16 port, u16 data);
#endif

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#include "timer.h"
#include "isr.h"
#include "ports.h"
#include "../libc/function.h"
u32 tick = 0;
static void timer_callback(registers_t regs) {
tick++;
UNUSED(regs);
}
void init_timer(u32 freq) {
/* Install the function we just wrote */
register_interrupt_handler(IRQ0, timer_callback);
/* Get the PIT value: hardware clock at 1193180 Hz */
u32 divisor = 1193180 / freq;
u8 low = (u8)(divisor & 0xFF);
u8 high = (u8)( (divisor >> 8) & 0xFF);
/* Send the command */
port_byte_out(0x43, 0x36); /* Command port */
port_byte_out(0x40, low);
port_byte_out(0x40, high);
}

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#ifndef TIMER_H
#define TIMER_H
#include "types.h"
void init_timer(u32 freq);
#endif

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#ifndef TYPES_H
#define TYPES_H
/* Instead of using 'chars' to allocate non-character bytes,
* we will use these new type with no semantic meaning */
typedef unsigned int u32;
typedef int s32;
typedef unsigned short u16;
typedef short s16;
typedef unsigned char u8;
typedef char s8;
#define NULL ((void *) 0)
#define low_16(address) (u16)((address) & 0xFFFF)
#define high_16(address) (u16)(((address) >> 16) & 0xFFFF)
#endif

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#include "keyboard.h"
#include "../cpu/ports.h"
#include "../cpu/isr.h"
#include "screen.h"
#include "../libc/string.h"
#include "../libc/function.h"
#include "../kernel/kernel.h"
#define BACKSPACE 0x0E
#define ENTER 0x1C
static char key_buffer[256];
#define SC_MAX 57
const char *sc_name[] = { "ERROR", "Esc", "1", "2", "3", "4", "5", "6",
"7", "8", "9", "0", "-", "=", "Backspace", "Tab", "Q", "W", "E",
"R", "T", "Y", "U", "I", "O", "P", "[", "]", "Enter", "Lctrl",
"A", "S", "D", "F", "G", "H", "J", "K", "L", ";", "'", "`",
"LShift", "\\", "Z", "X", "C", "V", "B", "N", "M", ",", ".",
"/", "RShift", "Keypad *", "LAlt", "Spacebar"};
const char sc_ascii[] = { '?', '?', '1', '2', '3', '4', '5', '6',
'7', '8', '9', '0', '-', '=', '?', '?', 'Q', 'W', 'E', 'R', 'T', 'Y',
'U', 'I', 'O', 'P', '[', ']', '?', '?', 'A', 'S', 'D', 'F', 'G',
'H', 'J', 'K', 'L', ';', '\'', '`', '?', '\\', 'Z', 'X', 'C', 'V',
'B', 'N', 'M', ',', '.', '/', '?', '?', '?', ' '};
static void keyboard_callback(registers_t regs) {
/* The PIC leaves us the scancode in port 0x60 */
u8 scancode = port_byte_in(0x60);
if (scancode > SC_MAX) return;
if (scancode == BACKSPACE) {
backspace(key_buffer);
kprint_backspace();
} else if (scancode == ENTER) {
kprint("\n");
user_input(key_buffer); /* kernel-controlled function */
key_buffer[0] = '\0';
} else {
char letter = sc_ascii[(int)scancode];
/* Remember that kprint only accepts char[] */
char str[2] = {letter, '\0'};
append(key_buffer, letter);
kprint(str);
}
UNUSED(regs);
}
void init_keyboard() {
register_interrupt_handler(IRQ1, keyboard_callback);
}

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#ifndef KEYBOARD_H
#define KEYBOARD_H
#include "../cpu/types.h"
void init_keyboard();
#endif

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#include "screen.h"
#include "../cpu/ports.h"
#include "../libc/mem.h"
/* Declaration of private functions */
int get_cursor_offset();
void set_cursor_offset(int offset);
int print_char(char c, int col, int row, char attr);
int get_offset(int col, int row);
int get_offset_row(int offset);
int get_offset_col(int offset);
/**********************************************************
* Public Kernel API functions *
**********************************************************/
/**
* Print a message on the specified location
* If col, row, are negative, we will use the current offset
*/
void kprint_at(char *message, int col, int row) {
/* Set cursor if col/row are negative */
int offset;
if (col >= 0 && row >= 0)
offset = get_offset(col, row);
else {
offset = get_cursor_offset();
row = get_offset_row(offset);
col = get_offset_col(offset);
}
/* Loop through message and print it */
int i = 0;
while (message[i] != 0) {
offset = print_char(message[i++], col, row, WHITE_ON_BLACK);
/* Compute row/col for next iteration */
row = get_offset_row(offset);
col = get_offset_col(offset);
}
}
void kprint(char *message) {
kprint_at(message, -1, -1);
}
void kprint_backspace() {
int offset = get_cursor_offset()-2;
int row = get_offset_row(offset);
int col = get_offset_col(offset);
print_char(0x08, col, row, WHITE_ON_BLACK);
}
/**********************************************************
* Private kernel functions *
**********************************************************/
/**
* Innermost print function for our kernel, directly accesses the video memory
*
* If 'col' and 'row' are negative, we will print at current cursor location
* If 'attr' is zero it will use 'white on black' as default
* Returns the offset of the next character
* Sets the video cursor to the returned offset
*/
int print_char(char c, int col, int row, char attr) {
u8 *vidmem = (u8*) VIDEO_ADDRESS;
if (!attr) attr = WHITE_ON_BLACK;
/* Error control: print a red 'E' if the coords aren't right */
if (col >= MAX_COLS || row >= MAX_ROWS) {
vidmem[2*(MAX_COLS)*(MAX_ROWS)-2] = 'E';
vidmem[2*(MAX_COLS)*(MAX_ROWS)-1] = RED_ON_WHITE;
return get_offset(col, row);
}
int offset;
if (col >= 0 && row >= 0) offset = get_offset(col, row);
else offset = get_cursor_offset();
if (c == '\n') {
row = get_offset_row(offset);
offset = get_offset(0, row+1);
} else if (c == 0x08) { /* Backspace */
vidmem[offset] = ' ';
vidmem[offset+1] = attr;
} else {
vidmem[offset] = c;
vidmem[offset+1] = attr;
offset += 2;
}
/* Check if the offset is over screen size and scroll */
if (offset >= MAX_ROWS * MAX_COLS * 2) {
int i;
for (i = 1; i < MAX_ROWS; i++)
memory_copy((u8*)(get_offset(0, i) + VIDEO_ADDRESS),
(u8*)(get_offset(0, i-1) + VIDEO_ADDRESS),
MAX_COLS * 2);
/* Blank last line */
char *last_line = (char*) (get_offset(0, MAX_ROWS-1) + (u8*) VIDEO_ADDRESS);
for (i = 0; i < MAX_COLS * 2; i++) last_line[i] = 0;
offset -= 2 * MAX_COLS;
}
set_cursor_offset(offset);
return offset;
}
int get_cursor_offset() {
/* Use the VGA ports to get the current cursor position
* 1. Ask for high byte of the cursor offset (data 14)
* 2. Ask for low byte (data 15)
*/
port_byte_out(REG_SCREEN_CTRL, 14);
int offset = port_byte_in(REG_SCREEN_DATA) << 8; /* High byte: << 8 */
port_byte_out(REG_SCREEN_CTRL, 15);
offset += port_byte_in(REG_SCREEN_DATA);
return offset * 2; /* Position * size of character cell */
}
void set_cursor_offset(int offset) {
/* Similar to get_cursor_offset, but instead of reading we write data */
offset /= 2;
port_byte_out(REG_SCREEN_CTRL, 14);
port_byte_out(REG_SCREEN_DATA, (u8)(offset >> 8));
port_byte_out(REG_SCREEN_CTRL, 15);
port_byte_out(REG_SCREEN_DATA, (u8)(offset & 0xff));
}
void clear_screen() {
int screen_size = MAX_COLS * MAX_ROWS;
int i;
u8 *screen = (u8*) VIDEO_ADDRESS;
for (i = 0; i < screen_size; i++) {
screen[i*2] = ' ';
screen[i*2+1] = WHITE_ON_BLACK;
}
set_cursor_offset(get_offset(0, 0));
}
int get_offset(int col, int row) { return 2 * (row * MAX_COLS + col); }
int get_offset_row(int offset) { return offset / (2 * MAX_COLS); }
int get_offset_col(int offset) { return (offset - (get_offset_row(offset)*2*MAX_COLS))/2; }

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#ifndef SCREEN_H
#define SCREEN_H
#include "../cpu/types.h"
#define VIDEO_ADDRESS 0xb8000
#define MAX_ROWS 25
#define MAX_COLS 80
#define WHITE_ON_BLACK 0x0f
#define RED_ON_WHITE 0xf4
/* Screen i/o ports */
#define REG_SCREEN_CTRL 0x3d4
#define REG_SCREEN_DATA 0x3d5
/* Public kernel API */
void clear_screen();
void kprint_at(char *message, int col, int row);
void kprint(char *message);
void kprint_backspace();
#endif

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#!/bin/bash
### interrupt.asm has no .c counterpart so it needs to be built first
nasm ./cpu/interrupt.asm -f elf -o interrupt.o
### Alternatively to see assembly output -S
### Generate .s the assembly language output prior to generating .o machine files -S
### gcc -g -m32 -fno-pie -ffreestanding -nostdlib -nostdinc -fno-builtin -fno-stack-protector -nostartfiles -nodefaultlibs -Wall -Wextra -Werror ./libc/mem.c ./libc/string.c ./drivers/keyboard.c ./drivers/screen.c ./cpu/isr.c ./cpu/ports.c ./cpu/idt.c ./cpu/timer.c ./libc/globals.c -S hello.c
### Generate .o machine files but do not link -c
gcc -g -m32 -fno-pie -ffreestanding -nostdlib -nostdinc -fno-builtin -fno-stack-protector -nostartfiles -nodefaultlibs -Wall -Wextra -Werror ./libc/mem.c ./libc/string.c ./drivers/keyboard.c ./drivers/screen.c ./cpu/isr.c ./cpu/ports.c ./cpu/idt.c ./cpu/timer.c ./libc/globals.c -c --entry start_ hello.c
### Do the final link to create executable "final" and set entry to 0x10000
ld -m elf_i386 -o hey_there -Ttext 0x10000 *.o --oformat binary --entry start_

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#include "./cpu/types.h"
#include "./libc/globals.h"
#include "./cpu/isr.h"
#include "./cpu/idt.h"
#include "./cpu/ports.h"
#include "./cpu/timer.h"
#include "./drivers/keyboard.h"
#include "./drivers/screen.h"
#include "./libc/mem.h"
#include "./libc/string.h"
#include "./libc/function.h"
void start_( void)
{
int pid = 0;
char c[16];
kprint("Process ");
hex_to_ascii( (u32 ) pid, c);
kprint( c);
kprint("has been entered. Hey there.\n");
return;
}
void user_input(char *input) {
if (strcmp(input, "END") == 0) {
kprint("Stopping the CPU. Bye!\n");
asm volatile("hlt");
} else if (strcmp(input, "ADD") == 0) {
u32 *n0; n0 = (u32 *) 16; n0++;
node *n1; n1 = NULL;
kmalloc( 20, 0, (u32 *) &n1);
n1->id = global_id++;
n1->base = global_id*100;
n1->size = global_id*10;
n1->next = NULL;
n1->previous = NULL;
kprint("ADDED: ");
char c[16];
hex_to_ascii( (u32 ) n1, c);
kprint( c);
kprint( " id: ");
hex_to_ascii( n1->id, c);
kprint( c);
} else if (strcmp(input, "ZOO") == 0) {
kprint("ZOO.\n");
}
kprint("You said: ");
kprint(input);
kprint("\n> ");
}

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#include "kernel.h"
void _start() {
free_mem_addr = 0x20000;
global_id = 0;
memory_limit = 0x40000;
isr_install();
irq_install();
kprint("Type something, it will go through the kernel\n"
"Type END to halt the CPU\n> ");
}
void user_input(char *input) {
if (strcmp(input, "END") == 0) {
kprint("Stopping the CPU. Bye!\n");
asm volatile("hlt");
} else if (strcmp(input, "ADD") == 0) {
u32 *n0; n0 = (u32 *) 16; n0++;
node *n1; n1 = NULL;
kmalloc( 20, 0, (u32 *) &n1);
n1->id = global_id++;
n1->base = global_id*100;
n1->size = global_id*10;
n1->next = NULL;
n1->previous = NULL;
kprint("ADDED: ");
char c[16];
hex_to_ascii( (u32 ) n1, c);
kprint( c);
kprint( " id: ");
hex_to_ascii( n1->id, c);
kprint( c);
} else if (strcmp(input, "ZOO") == 0) {
kprint("ZOO.\n");
}
kprint("You said: ");
kprint(input);
kprint("\n> ");
}

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#ifndef KERNEL_H
#define KERNEL_H
void user_input(char *input);
#include "../cpu/isr.h"
#include "../drivers/screen.h"
#include "../libc/string.h"
#include "../libc/mem.h"
#include "../libc/globals.h"
#endif

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#ifndef FUNCTION_H
#define FUNCTION_H
/* Sometimes we want to keep parameters to a function for later use
* and this is a solution to avoid the 'unused parameter' compiler warning */
#define UNUSED(x) (void)(x)
#endif

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#include "../cpu/types.h"
#include "globals.h"
u32 free_mem_addr;
u32 global_id;
u32 memory_limit;

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#ifndef GLOBAL_H
#define GLOBAL_H
#include "../cpu/types.h"
extern u32 free_mem_addr;
extern u32 global_id;
extern u32 memory_limit;
#endif // GLOBAL_H

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#include "mem.h"
void memory_copy(u8 *source, u8 *dest, int nbytes) {
int i;
for (i = 0; i < nbytes; i++) {
*(dest + i) = *(source + i);
}
}
void memory_set(u8 *dest, u8 val, u32 len) {
u8 *temp = (u8 *)dest;
for ( ; len != 0; len--) *temp++ = val;
}
// See mem.h for free_mem_addr global declaration
/* Implementation is just a pointer to some free memory which
* keeps growing */
u32 kmalloc(u32 size, int align, u32 *phys_addr) {
/* Pages are aligned to 4K, or 0x1000 */
if (align == 1 && (free_mem_addr & 0xFFFFF000)) {
free_mem_addr &= 0xFFFFF000;
free_mem_addr += 0x1000;
}
char c[16];
hex_to_ascii( (u32) *phys_addr, c);
kprint("Inside kmalloc phys_addr = ");
kprint(c);
kprint("\n");
/* Save also the physical address */
*phys_addr = free_mem_addr;
hex_to_ascii( (u32) *phys_addr, c);
kprint("Inside kmalloc phys_addr = ");
kprint(c);
kprint("\n");
u32 ret = free_mem_addr;
free_mem_addr += size; /* Remember to increment the pointer */
return ret;
}

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#ifndef MEM_H
#define MEM_H
#include "../cpu/types.h"
#include "../libc/string.h"
#include "../drivers/screen.h"
#include "globals.h"
typedef struct _node {
u32 id;
u32 base;
u32 size;
struct _node *next;
struct _node *previous;
} node;
void memory_copy(u8 *source, u8 *dest, int nbytes);
void memory_set(u8 *dest, u8 val, u32 len);
u32 kmalloc(u32 size, int align, u32 *phys_addr);
#endif

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#include "string.h"
/**
* K&R implementation
*/
void int_to_ascii(int n, char str[]) {
int i, sign;
if ((sign = n) < 0) n = -n;
i = 0;
do {
str[i++] = n % 10 + '0';
} while ((n /= 10) > 0);
if (sign < 0) str[i++] = '-';
str[i] = '\0';
reverse(str);
}
void hex_to_ascii(int n, char str[]) {
str[0] = 0;
append(str, '0');
append(str, 'x');
char zeros = 0;
s32 tmp;
int i;
for (i = 28; i > 0; i -= 4) {
tmp = (n >> i) & 0xF;
if (tmp == 0 && zeros == 0) continue;
zeros = 1;
if (tmp > 0x0A) append(str, tmp - 0x0a + 'a');
else append(str, tmp + '0');
}
tmp = n & 0xF;
if (tmp >= 0x0A) append(str, tmp - 0x0a + 'a');
else append(str, tmp + '0');
return;
}
/* K&R */
void reverse(char s[]) {
int c, i, j;
for (i = 0, j = strlen(s)-1; i < j; i++, j--) {
c = s[i];
s[i] = s[j];
s[j] = c;
}
}
/* K&R */
int strlen(char s[]) {
int i = 0;
while (s[i] != '\0') ++i;
return i;
}
void append(char s[], char n) {
int len = strlen(s);
s[len] = n;
s[len+1] = '\0';
}
void backspace(char s[]) {
int len = strlen(s);
s[len-1] = '\0';
}
/* K&R
* Returns <0 if s1<s2, 0 if s1==s2, >0 if s1>s2 */
int strcmp(char s1[], char s2[]) {
int i;
for (i = 0; s1[i] == s2[i]; i++) {
if (s1[i] == '\0') return 0;
}
return s1[i] - s2[i];
}

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#ifndef STRINGS_H
#define STRINGS_H
#include "../cpu/types.h"
void int_to_ascii(int n, char str[]);
void hex_to_ascii(int n, char str[]);
void reverse(char s[]);
int strlen(char s[]);
void backspace(char s[]);
void append(char s[], char n);
int strcmp(char s1[], char s2[]);
#endif

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#!/bin/bash
### interrupt.asm has no .c counterpart so it needs to be built first
nasm ./cpu/interrupt.asm -f elf -o interrupt.o
### Alternatively to see assembly output -S
### Generate .s the assembly language output prior to generating .o machine files -S
gcc -g -m32 -fno-pie -ffreestanding -nostdlib -nostdinc -fno-builtin -fno-stack-protector -nostartfiles -nodefaultlibs -Wall -Wextra -Werror ./libc/mem.c ./libc/string.c ./drivers/keyboard.c ./drivers/screen.c ./cpu/isr.c ./cpu/ports.c ./cpu/idt.c ./cpu/timer.c ./libc/globals.c -S hello.c
### Generate .o machine files but do not link -c
### gcc -g -m32 -fno-pie -ffreestanding -nostdlib -nostdinc -fno-builtin -fno-stack-protector -nostartfiles -nodefaultlibs -Wall -Wextra -Werror ./libc/mem.c ./libc/string.c ./drivers/keyboard.c ./drivers/screen.c ./cpu/isr.c ./cpu/ports.c ./cpu/idt.c ./cpu/timer.c ./libc/globals.c -c --entry start_ hello.c
### Do the final link to create executable "final" and set entry to 0x10000
### ld -m elf_i386 -o hey_there -Ttext 0x10000 *.o --oformat binary --entry start_

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