BarinkOS/kernel/kernel.cpp

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/*
Copyright © Nigel Barink 2023
*/
#include "memory/memory.h"
#include "memory/KernelHeap.h"
#include "memory/gdt/gdtc.h"
#include "memory/TaskStateSegment.h"
#include "supervisorterminal/superVisorTerminal.h"
#include "drivers/vga/VBE.h"
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#include "pci/pci.h"
#include "drivers/pit/pit.h"
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#include "acpi/acpi.h"
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#include "i386/processor.h"
#include "terminal/kterm.h"
#include "interrupts/idt.h"
#include "serial.h"
#include "storage/vfs/vfs.h"
#include "storage/filesystems/FAT/FAT.h"
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extern "C" void LoadGlobalDescriptorTable();
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extern "C" void jump_usermode();
extern BootInfoBlock* BIB;
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extern "C" void kernel ()
{
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init_serial();
kterm_init();
setup_tss();
initGDT();
initidt();
LoadGlobalDescriptorTable();
flush_tss();
printf("Memory setup complete!\n");
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// Enable interrupts
asm volatile("STI");
initHeap();
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pit_initialise();
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ACPI::initialize();
PCI::Scan();
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processor::initialize();
processor::enable_protectedMode();
printf("Boot device: 0x%x\n", BIB->bootDeviceID);
unsigned int part3 = BIB->bootDeviceID & 0xFF;
unsigned int part2 = (BIB->bootDeviceID & 0xFF00) >> 8;
unsigned int part1 = (BIB->bootDeviceID & 0xFF0000) >> 16;
unsigned int drive = (BIB->bootDeviceID & 0xFF000000) >> 24;
if (drive == 0x80 )
printf("booted from disk!\n");
if(drive == 0x00)
printf("booted from floppy disk\n");
printf("Part1: %d, Part2: %d, Part3: %d\n", part1, part2 , part3);
ATAPIO::Identify(ATAPIO_PORT::Primary, DEVICE_DRIVE::MASTER);
auto* bpb = FAT::getBPB(false);
auto* mbr = GetPartitions(false);
auto fsType = FAT::determineFATType(bpb);
switch (fsType) {
case FAT_TYPE::FAT12:
printf("FAT12 Disk!\n");
break;
case FAT_TYPE::FAT16:
printf("FAT16 Disk!\n");
break;
case FAT_TYPE::FAT32:
printf("FAT32 Disk!\n");
break;
}
// list files in root
int total_sectors = bpb->TotSec32;
int fat_size = bpb->FATSz16;
int root_dir_sectors = FAT::RootDirSize(bpb);
int first_data_sector = bpb->RsvdSecCnt + (bpb->NumFATs * fat_size) + root_dir_sectors ;
int first_fat_sector = bpb->RsvdSecCnt;
int data_sectors = bpb->TotSec32 - (bpb->RsvdSecCnt + (bpb->NumFATs * fat_size) + root_dir_sectors);
int total_clusters = data_sectors / bpb->SecPerClus;
int first_root_dir_sector = first_data_sector - root_dir_sectors;
//int first_sector_of_cluster = ((cluster - 2) * bpb->SecPerClus) + first_data_sector;
uint16_t data[256];
ATAPIO::Read(ATAPIO_PORT::Primary, DEVICE_DRIVE::MASTER, first_root_dir_sector, data);
auto* RootDirectory = (DIR*)data;
for(int i = 0; i < sizeof(data) / sizeof (DIR); i++)
{
DIR* entry = (DIR*)((uint32_t)RootDirectory + (i * sizeof(DIR)));
if(entry->Name[0] == FAT::FREE_DIR || entry->Name[0] == FAT::FREE_DIR_2 || entry->Name[0] == 0xE5){
continue;
}
if(entry->ATTR & FAT::ATTRIBUTES::ATTR_HIDDEN){
continue;
}
if(entry->ATTR & FAT::ATTRIBUTES::ATTR_SYSTEM)
continue;
if(entry->ATTR & FAT::ATTRIBUTES::ATTR_VOLUME_ID){
continue;
}
if (!(entry->ATTR & FAT::ATTRIBUTES::ATTR_LONG_NAME)){
for(char n : entry->Name){
if(n == 0x20)
continue;
kterm_put(n);
}
}else{
printf("Long file name detected!\n");
}
printf(" [Size: %d bytes, Attributes: %x\n", entry->ATTR, entry->FileSize);
}
// VirtualFileSystem::initialize();
// VirtualFileSystem::open("/hello.txt", 0);
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#ifdef USERMODE_RELEASE
// Lets jump into user mode
jump_usermode();
#else
startSuperVisorTerminal();
#endif
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}