a cow based x86_64 operating system, using limine and stivale2
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#include <stivale2.h>
#include <stddef.h>
#include <stdint.h>
#include "memory/gdt.h"
#include "video/video.h"
#include "klib/sprintf.h"
#include "klib/string.h"
#include "video/terminal.h"
#include "acpi/acpi.h"
#include "common.h"
#include "regs.h"
#include "int/idt.h"
// 8K stack
static uint8_t stack[8192] __align(16);
static struct stivale2_header_tag_terminal terminal_hdr_tag = {
// All tags need to begin with an identifier and a pointer to the next tag.
.tag = {
// Identification constant defined in stivale2.h and the specification.
.identifier = STIVALE2_HEADER_TAG_TERMINAL_ID,
// If next is 0, it marks the end of the linked list of header tags.
.next = 0
},
// The terminal header tag possesses a flags field, leave it as 0 for now
// as it is unused.
.flags = 0
};
// We are now going to define a framebuffer header tag, which is mandatory when
// using the stivale2 terminal.
// This tag tells the bootloader that we want a graphical framebuffer instead
// of a CGA-compatible text mode. Omitting this tag will make the bootloader
// default to text mode, if available.
static struct stivale2_header_tag_framebuffer framebuffer_hdr_tag = {
// Same as above.
.tag = {
.identifier = STIVALE2_HEADER_TAG_FRAMEBUFFER_ID,
// Instead of 0, we now point to the previous header tag. The order in
// which header tags are linked does not matter.
.next = (uint64_t)&terminal_hdr_tag
},
// We set all the framebuffer specifics to 0 as we want the bootloader
// to pick the best it can.
.framebuffer_width = 0,
.framebuffer_height = 0,
.framebuffer_bpp = 0
};
// The stivale2 specification says we need to define a "header structure".
// This structure needs to reside in the .stivale2hdr ELF section in order
// for the bootloader to find it. We use this __attribute__ directive to
// tell the compiler to put the following structure in said section.
__attribute__((section(".stivale2hdr"), used))
static struct stivale2_header stivale_hdr = {
// The entry_point member is used to specify an alternative entry
// point that the bootloader should jump to instead of the executable's
// ELF entry point. We do not care about that so we leave it zeroed.
.entry_point = 0,
// Let's tell the bootloader where our stack is.
// We need to add the sizeof(stack) since in x86(_64) the stack grows
// downwards.
.stack = (uintptr_t)stack + sizeof(stack),
// Bit 1, if set, causes the bootloader to return to us pointers in the
// higher half, which we likely want.
.flags = (1 << 1),
// This header structure is the root of the linked list of header tags and
// points to the first one in the linked list.
.tags = (uintptr_t)&framebuffer_hdr_tag
};
// We will now write a helper function which will allow us to scan for tags
// that we want FROM the bootloader (structure tags).
void *stivale2_get_tag(struct stivale2_struct *stivale2_struct, uint64_t id) {
struct stivale2_tag *current_tag = (void *)stivale2_struct->tags;
for (;;) {
// If the tag pointer is NULL (end of linked list), we did not find
// the tag. Return NULL to signal this.
if (current_tag == NULL) {
return NULL;
}
// Check whether the identifier matches. If it does, return a pointer
// to the matching tag.
if (current_tag->identifier == id) {
return current_tag;
}
// Get a pointer to the next tag in the linked list and repeat.
current_tag = (void *)current_tag->next;
}
}
#define PRINT_VAL(v) kprintf(#v "=%ld\n", v);
#define PRINT_HEX(v) kprintf(#v "=%lx\n", v);
// const char but represents a big string
extern const char _binary_bootmessage_txt;
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// print all chars
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-function"
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static void debug_terminal() {
char buff[256];
for(int i = 0; i < 256; i++)
buff[i] = i+1;
kputs(buff);
}
#pragma GCC diagnostic pop
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// Registers %rbp, %rbx and %r12 through %r15 “belong” to the calling functio
// The following will be our kernel's entry point.
void _start(struct stivale2_struct *stivale2_struct) {
// Let's get the terminal structure tag from the bootloader.
struct stivale2_struct_tag_terminal *term_str_tag;
term_str_tag = stivale2_get_tag(stivale2_struct, STIVALE2_STRUCT_TAG_TERMINAL_ID);
// Check if the tag was actually found.
if (term_str_tag == NULL) {
// It wasn't found, just hang...
for (;;) {
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asm volatile("hlt");
}
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__builtin_unreachable();
}
// Let's get the address of the terminal write function.
void *term_write_ptr = (void *)term_str_tag->term_write;
set_terminal_handler(term_write_ptr);
struct stivale2_struct_tag_framebuffer fbtag;
struct stivale2_struct_tag_framebuffer* _fbtag = stivale2_get_tag(stivale2_struct,0x506461d2950408fa);
memcpy(&fbtag, _fbtag, sizeof(fbtag));
struct stivale2_struct_tag_rsdp* rsdp_tag_ptr = stivale2_get_tag(stivale2_struct, STIVALE2_STRUCT_TAG_RSDP_ID);
assert(rsdp_tag_ptr != NULL);
uint64_t rsdp_location = rsdp_tag_ptr->rsdp;
Image sc = {.w = fbtag.framebuffer_width,
.h = fbtag.framebuffer_height,
.pitch= fbtag.framebuffer_pitch,
.bpp = fbtag.framebuffer_bpp,
.pix = (void*)fbtag.framebuffer_addr};
init_gdt_table();
initVideo(&sc);
setup_terminal();
setup_isr();
read_acpi_tables((void*)rsdp_location);
asm volatile("sti");
kputs(&_binary_bootmessage_txt);
for(;;) {
asm volatile ("hlt");
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}
__builtin_unreachable();
//*ptr = 0xfffa24821;
asm volatile ("sti");
asm volatile ("hlt");
for(size_t i = 0; i < fbtag.framebuffer_height; i++) {
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uint8_t* base = (uint8_t*)fbtag.framebuffer_addr + fbtag.framebuffer_pitch*i;
for(size_t j = 0; j < fbtag.framebuffer_width; j++) {
uint32_t* px = (uint32_t*)&base[4*j];
*px = 0xffffff00;
}
}
//*(uint64_t*)(term_write_ptr) = 0xfeac;
//print_fun(buf, 2);
// kprintf("Bincows beta");
// We're done, just hang...
for (;;) {
asm ("hlt");
}
}