void setup_idt(struct idt_t * idt, struct idtr_t * idtr)
{
#define SIZE (256)
for (size_t n = 0 ; n != SIZE ; ++n)
{
fill_idt(idt+n, *(&interrupts + n), 0);
// ...
}
idtr->maxi = sizeof(*idt) * SIZE - 1;
idtr->addr = (uint64_t)idt;
// asm_load_idtr(idtr);
kprintf("loaded idtr {%d,%qx} at %qx | sizeof:%d(16)\n", idtr->maxi, idt, idtr, sizeof(*idt));
}
/* Check if MAGIC is valid and print the Multiboot information structure
pointed by ADDR. */
void
entry (unsigned long magic, unsigned long addr)
{
multiboot_info_t *mbi;
/* Clear the screen. */
clear();
/* Am I booted by a Multiboot-compliant boot loader? */
if (magic != MULTIBOOT_BOOTLOADER_MAGIC)
{
printf ("Invalid magic number: 0x%#x\n", (unsigned) magic);
return;
}
/* Set MBI to the address of the Multiboot information structure. */
mbi = (multiboot_info_t *) addr;
/* Print out the flags. */
printf ("flags = 0x%#x\n", (unsigned) mbi->flags);
/* Are mem_* valid? */
if (CHECK_FLAG (mbi->flags, 0))
printf ("mem_lower = %uKB, mem_upper = %uKB\n",
(unsigned) mbi->mem_lower, (unsigned) mbi->mem_upper);
/* Is boot_device valid? */
if (CHECK_FLAG (mbi->flags, 1))
printf ("boot_device = 0x%#x\n", (unsigned) mbi->boot_device);
/* Is the command line passed? */
if (CHECK_FLAG (mbi->flags, 2))
printf ("cmdline = %s\n", (char *) mbi->cmdline);
if (CHECK_FLAG (mbi->flags, 3)) {
int mod_count = 0;
int i;
module_t* mod = (module_t*)mbi->mods_addr;
while(mod_count < mbi->mods_count) {
printf("Module %d loaded at address: 0x%#x\n", mod_count, (unsigned int)mod->mod_start);
printf("Module %d ends at address: 0x%#x\n", mod_count, (unsigned int)mod->mod_end);
printf("First few bytes of module:\n");
for(i = 0; i<16; i++) {
printf("0x%x ", *((char*)(mod->mod_start+i)));
}
printf("\n");
mod_count++;
mod++;
}
}
/* Bits 4 and 5 are mutually exclusive! */
if (CHECK_FLAG (mbi->flags, 4) && CHECK_FLAG (mbi->flags, 5))
{
printf ("Both bits 4 and 5 are set.\n");
return;
}
/* Is the section header table of ELF valid? */
if (CHECK_FLAG (mbi->flags, 5))
{
elf_section_header_table_t *elf_sec = &(mbi->elf_sec);
printf ("elf_sec: num = %u, size = 0x%#x,"
" addr = 0x%#x, shndx = 0x%#x\n",
(unsigned) elf_sec->num, (unsigned) elf_sec->size,
(unsigned) elf_sec->addr, (unsigned) elf_sec->shndx);
}
/* Are mmap_* valid? */
if (CHECK_FLAG (mbi->flags, 6))
{
memory_map_t *mmap;
printf ("mmap_addr = 0x%#x, mmap_length = 0x%x\n",
(unsigned) mbi->mmap_addr, (unsigned) mbi->mmap_length);
for (mmap = (memory_map_t *) mbi->mmap_addr;
(unsigned long) mmap < mbi->mmap_addr + mbi->mmap_length;
mmap = (memory_map_t *) ((unsigned long) mmap
+ mmap->size + sizeof (mmap->size)))
printf (" size = 0x%x, base_addr = 0x%#x%#x\n"
" type = 0x%x, length = 0x%#x%#x\n",
(unsigned) mmap->size,
(unsigned) mmap->base_addr_high,
(unsigned) mmap->base_addr_low,
(unsigned) mmap->type,
(unsigned) mmap->length_high,
(unsigned) mmap->length_low);
}
/* Construct an LDT entry in the GDT */
{
seg_desc_t the_ldt_desc;
the_ldt_desc.granularity = 0;
the_ldt_desc.opsize = 1;
the_ldt_desc.reserved = 0;
the_ldt_desc.avail = 0;
the_ldt_desc.present = 1;
the_ldt_desc.dpl = 0x0;
the_ldt_desc.sys = 0;
the_ldt_desc.type = 0x2;
SET_LDT_PARAMS(the_ldt_desc, &ldt, ldt_size);
ldt_desc_ptr = the_ldt_desc;
lldt(KERNEL_LDT);
}
/* Construct a TSS entry in the GDT */
{
seg_desc_t the_tss_desc;
the_tss_desc.granularity = 0;
the_tss_desc.opsize = 0;
the_tss_desc.reserved = 0;
the_tss_desc.avail = 0;
the_tss_desc.seg_lim_19_16 = TSS_SIZE & 0x000F0000;
the_tss_desc.present = 1;
the_tss_desc.dpl = 0x0;
the_tss_desc.sys = 0;
the_tss_desc.type = 0x9;
the_tss_desc.seg_lim_15_00 = TSS_SIZE & 0x0000FFFF;
SET_TSS_PARAMS(the_tss_desc, &tss, tss_size);
tss_desc_ptr = the_tss_desc;
tss.ldt_segment_selector = KERNEL_LDT;
tss.ss0 = KERNEL_DS;
tss.esp0 = 0x800000;
ltr(KERNEL_TSS);
}
fill_idt();
lidt(idt_desc_ptr); // Load IDT Pointer
//Init the PIC
i8259_init();
pit_init();
init_keyboard();
rtc_init();
terminal_open((uint8_t*)1);
init_paging();
/* initializing file systems */
module_t * boot_fs = (module_t*)mbi->mods_addr;
init_fs(boot_fs->mod_start);
/* Done initializing fs */
/* Initialize devices, memory, filesystem, enable device interrupts on the
* PIC, any other initialization stuff... */
/* Enable interrupts */
// printf("Enabling Interrupts\n");
sti();
// uint32_t bmap_val = 10;
// char bitmap_temp[6];
// itoa(bmap_val , bitmap_temp, 2);
// // printf("BMAP VALUE - %d\n", bmap_val);
// printf("%s\n", bitmap_temp);
// char bitmap[6];
// uint32_t l = strlen((uint8_t*)bitmap_temp);
// uint32_t temp_idx;
// for (temp_idx=0; temp_idx<5; temp_idx++){
// if (temp_idx<(5-l))
// bitmap[temp_idx] = '0';
// else
// bitmap[temp_idx] = bitmap_temp[temp_idx+l-5];
// }
// bitmap[5] = '\0';
// printf("%s\n", bitmap);
// Initialization for the process
init_terminals();
execute_func((uint8_t *)"shell");
// Spin (nicely, so we don't chew up cycles)
asm volatile(".1: hlt; jmp .1;");
}
