Merge into main the new state of the operating system/kernel #1

Open
Nigel wants to merge 120 commits from dev into main
10 changed files with 429 additions and 237 deletions
Showing only changes of commit 490529099b - Show all commits

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@ -5,7 +5,7 @@ CC = ${HOME}/opt/cross/bin/i686-elf-gcc
CPP = ${HOME}/opt/cross/bin/i686-elf-g++
CFLAGS = -ffreestanding -Og -ggdb -Wall -Wextra
OFILES =$(BUILD_DIR)/boot.o $(BUILD_DIR)/kterm.o $(BUILD_DIR)/kernel.o $(BUILD_DIR)/memory.o $(BUILD_DIR)/paging.o $(BUILD_DIR)/pit.o $(BUILD_DIR)/time.o $(BUILD_DIR)/keyboard.o $(BUILD_DIR)/io.o $(BUILD_DIR)/processor.o $(BUILD_DIR)/gdtc.o $(BUILD_DIR)/idt.o $(BUILD_DIR)/pic.o $(BUILD_DIR)/sv-terminal.o $(BUILD_DIR)/string.o $(BUILD_DIR)/prekernel.o $(BUILD_DIR)/cpu.o $(BUILD_DIR)/KHeap.o $(BUILD_DIR)/pci.o $(BUILD_DIR)/pcidevice.o $(BUILD_DIR)/atapiDevice.o $(BUILD_DIR)/ataDevice.o $(BUILD_DIR)/rsdp.o $(BUILD_DIR)/acpi.o
OFILES =$(BUILD_DIR)/boot.o $(BUILD_DIR)/kterm.o $(BUILD_DIR)/kernel.o $(BUILD_DIR)/memory.o $(BUILD_DIR)/paging.o $(BUILD_DIR)/VFS.o $(BUILD_DIR)/pit.o $(BUILD_DIR)/time.o $(BUILD_DIR)/keyboard.o $(BUILD_DIR)/io.o $(BUILD_DIR)/processor.o $(BUILD_DIR)/gdtc.o $(BUILD_DIR)/idt.o $(BUILD_DIR)/pic.o $(BUILD_DIR)/sv-terminal.o $(BUILD_DIR)/string.o $(BUILD_DIR)/prekernel.o $(BUILD_DIR)/cpu.o $(BUILD_DIR)/KHeap.o $(BUILD_DIR)/pci.o $(BUILD_DIR)/pcidevice.o $(BUILD_DIR)/atapiDevice.o $(BUILD_DIR)/ataDevice.o $(BUILD_DIR)/rsdp.o $(BUILD_DIR)/acpi.o
SRC_DIR = source
BUILD_DIR = build
@ -42,7 +42,13 @@ test:
test_iso:
$(EMULATOR) -boot d -cdrom $(BUILD_DIR)/barinkOS.iso -serial stdio -vga std -display gtk -m 2G -cpu core2duo -d int -no-reboot -no-shutdown
test_disk:
test_disk: all
sudo losetup /dev/loop9 build/disk.img
sudo mount /dev/loop9 /mnt
sudo cp build/myos.bin /mnt/boot/myos.bin
sudo umount /mnt
sudo losetup -d /dev/loop9
$(EMULATOR) -boot d -drive format=raw,file=build/disk.img -serial stdio -vga std -display gtk -m 2G -cpu core2duo
@ -103,6 +109,8 @@ $(BUILD_DIR)/acpi.o:
$(BUILD_DIR)/pit.o:
$(CPP) -c $(SRC_DIR)/kernel/drivers/pit/pit.cpp -o $(BUILD_DIR)/pit.o $(CFLAGS) -fno-exceptions -fno-rtti
$(BUILD_DIR)/VFS.o:
$(CPP) -c $(SRC_DIR)/kernel/vfs/VFS.cpp -o $(BUILD_DIR)/VFS.o $(CFLAGS) -fno-exceptions -fno-rtti
$(BUILD_DIR)/keyboard.o:
$(CPP) -c $(SRC_DIR)/kernel/drivers/ps-2/keyboard.cpp -o $(BUILD_DIR)/keyboard.o $(CFLAGS) -fno-exceptions -fno-rtti

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@ -9,6 +9,7 @@ void ACPI::initialize(){
// Find the Root System Description Pointer
ACPI::rsd_ptr = FindRSD();
printRSD(rsd_ptr);
// Get the Root System Description Table
ACPI::rsd_table = getRSDT(rsd_ptr);
ACPI::rsd_table = getRSDT((RSDPTR*)((uint32_t)rsd_ptr + 0xC00000000));
}

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@ -18,17 +18,16 @@ void printRSD(RSDPTR* rsd){
}
RSDPTR* FindRSD(){
char* memory_byte = (char*) 0x000f2e14;
char* memory_byte = (char*) 0xC00f2e14;
const void* string = "RSD PTR ";
for( ; (uint32_t) memory_byte < 0x0100000; memory_byte+=10){
for( ; (uint32_t) memory_byte < 0xC0100000; memory_byte+=10){
if( memcmp(memory_byte , string , 8 ) == 0 ) {
printf("RSD PTR found at 0x%x !\n", memory_byte);
break;
}
}
printRSD((RSDPTR*) memory_byte);
return (RSDPTR*) memory_byte;
}

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@ -1,8 +0,0 @@
#pragma once
#include "../../vfs/File.h"
class FAT16 : File {
public:
};

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@ -14,11 +14,11 @@ extern "C"{
#include "drivers/pci/pci.h"
#include "drivers/pit/pit.h"
#include "drivers/acpi/acpi.h"
#include "drivers/ide/ide.h"
#include "i386/processor.h"
#include "terminal/kterm.h"
#include "interrupts/idt.h"
#include "serial.h"
#include "vfs/VFS.h"
extern "C" void LoadGlobalDescriptorTable();
extern "C" void jump_usermode();
@ -54,17 +54,13 @@ extern "C" void kernel ()
// Enable interrupts
asm volatile("STI");
initHeap();
pit_initialise();
// ACPI::initialize();
// ACPI::initialize(); // FIXME: improper reading of bios memory
PCI::Scan();
//TestIDEController();
processor::initialize();
FileSystem::initialize();
printf("Enable Protected mode and jump to kernel main\n");

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@ -70,160 +70,14 @@ extern "C" void startSuperVisorTerminal()
kterm_init();
printf("|=== BarinkOS ===|\n");
}
if(strncmp("FAT", command, characterCount) == 0)
if(strncmp("LIST", command, characterCount) == 0)
{
int devNumber = 0 ;
for ( auto device : ide_devices){
if (!device.Reserved)
continue;
printf("Device %d\n" , devNumber);
printf (" Device on Channel: (0x%x) %s\n" ,device.Channel, device.Channel == 0 ? "Primary" : "Secondary");
printf (" Device drive:(0x%x) %s\n" , device.Drive, device.Drive? "Slave" : "Master");
printf (" Device Type:(0x%x) %s\n" , device.Type, device.Type ? "ATAPI" : "ATA");
devNumber ++;
}
enum BUS_PORT {
Primary= 0x1f0,
Secondary = 0x170
};
// FIXME: If no drive is connected we continue trying to read from
// a not connected drive!
ATA_DEVICE::Identify((uint16_t) BUS_PORT::Primary, DEVICE_DRIVE::MASTER);
const int C = 0;
const int H = 0;
const int HPC = 16;
const int SPT = 63;
int S = 1;
uint32_t LBA = (C*HPC+H) * SPT + (S-1);
printf("LBA: %d\n" , LBA);
uint16_t buffer [256];
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, LBA, buffer);
MBR* mbr = (MBR*) buffer;
printf("BootSector: 0x%x\n", mbr->ValidBootsector );
for( int i = 0 ; i < 4 ; i ++){
PartitionTableEntry PT = mbr->TableEntries[i];
printf("Partition %d [ %d sectors, PartitionType: %x, 0x%x, \nLBA Start: 0x%x ]\n" ,
i, PT.Number_sectors_inPartition, PT.PartitionType, mbr->uniqueID, PT.LBA_partition_start );
}
// Find the BiosParameter block
uint16_t biosparameterblock[256];
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, mbr->TableEntries[0].LBA_partition_start, biosparameterblock);
auto* bpb = (BiosParameterBlock*) biosparameterblock;
printf("\nBPB: Bytes per Sector %d\n", bpb->BytesPerSector );
printf("OEM ID: %s\n", bpb->OEM_id);
printf("Bytes per sector: %d\n", bpb->BytesPerSector);
printf("Sectors per cluster: %d\n", bpb->SectorsPerCluster);
printf("Reserved sectors: %d\n", bpb->ReservedSectors);
printf("Number of FAT: %d\n", bpb->NumberOfFileAllocationTables);
printf("Number of Dir entries: %d\n", bpb->NumberOfDirectoryEntries);
printf("Total Sectors in volume: %d\n", bpb->TotalSectorsInLogicalVolume);
printf("Sectors per FAT: %d\n", bpb->NumberOfSectorsPerFAT);
/**
* @brief File Allocation Table
*/
uint32_t FATAddress = mbr->TableEntries[0].LBA_partition_start + bpb->ReservedSectors ;
uint16_t FAT[256];
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, FATAddress, FAT );
// Show data in terminal
for(unsigned short i : FAT) {
printf("%x ", i);
}
kterm_put('\n');
uint32_t RootDirectoryRegion = FATAddress + ( bpb->NumberOfFileAllocationTables * bpb->NumberOfSectorsPerFAT );
uint32_t DataRegion = RootDirectoryRegion + ((bpb->NumberOfDirectoryEntries * 32) / bpb->BytesPerSector );
uint16_t data2 [256];
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, RootDirectoryRegion, data2 );
auto* RootDirectory = (DirectoryEntry*) data2;
// List files in root
for(int i= 0; i < bpb->NumberOfDirectoryEntries ; i++ )
{
auto* entry = (DirectoryEntry*)((uint32_t) RootDirectory + (i * sizeof(DirectoryEntry)));
if( entry->filename[0] == (uint8_t) 0x00 )
break; // There are no more entries in this directory or the entry is free
if( (entry->attribute & 0x01) == 0x01 || (entry->attribute & 0x20) == 0x20)
continue; // Skip listing if hidden or Achieve flag is set
// Print the filename;
for(char n : entry->filename){
if(n == 0x20)
break;
kterm_put(n);
}
kterm_put('\n');
for(unsigned char n : entry->Extension){
kterm_put(n);
}
kterm_put('\n');
printf("Attribute: %x \n" , entry->attribute);
printf("FileSize: %d Bytes\n", entry->FilesizeInBytes);
if( entry->FilesizeInBytes != 0x0 || (entry->attribute & 0x8) == 0x0){
printf("Show contents");
printf( "Start cluster of the file: 0x%x\n" , entry->StartingCluster);
printf("IS it only 1 cluster? %s\n" , FAT[i] == 0xFFFF? "Yes": "No" );
uint32_t sector = DataRegion + ((entry->StartingCluster - 0x02 ) * bpb->SectorsPerCluster);
uint16_t dataBlob [256];
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, sector, dataBlob );
for(unsigned short n : dataBlob)
{
kterm_put(n & 0x00ff);
kterm_put(n >> 8);
}kterm_put('\n');
}
printf("======================\n");
}
continue;
printf("=============== DIRECTORY LISTING =================\n");
}
if(strncmp("DEVICES", command, characterCount) == 0){
printf("================ CONNECTED DEVICES ===============\n");
}

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@ -1,9 +0,0 @@
#pragma once
class File {
public:
virtual const File* Open () const ; // TODO: figure out a proper return value
virtual const char* Read() const;
virtual void Write();
};

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@ -1,50 +1,354 @@
#include "VFS.h"
#include "../filesystem/FAT/BiosParameterBlock.h"
#include "../drivers/ide/ide.h"
#include "../drivers/ata/ataDevice.h"
#include "../partitiontable/mbr/MasterBootRecord.h"
#include "../memory/KernelHeap.h"
#include "../../lib/include/string.h"
#include "../filesystem/FAT/DirectoryEntry.h"
MOUNT_INFO mountInfo;
PFILESYSTEM _filesystems[DEVICE_MAX];
FILE volOpenFile(const char* fname)
{
if(fname){
unsigned char device = 'a';
char* filename = (char*) fname;
if(fname[1]== ':'){
device = fname[0];
filename += 2; // strip the volume component from the path
}
if(_filesystems[device - 'a']){
FILE file = _filesystems[device-'a']->Open(filename);
file.device = device;
return file;
}
}
FILE file;
file.flags = FS_INVALID;
return file;
}
extern void volReadFile(PFILE file, unsigned char* Buffer, unsigned int length)
{
}
extern void volCloseFile(PFILE file)
{
if( file->device < DEVICE_MAX){
// _filesystems[file->device]->Close(file);
}
}
extern void volRegisterFilesystem(PFILESYSTEM fsys , unsigned int deviceID){
if(deviceID < DEVICE_MAX)
if(fsys)
_filesystems[deviceID] = fsys;
}
extern void volUnregisterFilesystem(PFILESYSTEM){
}
extern void volUnregisterFileSystemByID(unsigned int deviceID){
}
enum BUS_PORT {
Primary = 0x1f0,
Secondary = 0x170
};
bool driveAvailable(){
int devNumber = 0;
for ( auto device : ide_devices){
if(!device.Reserved)
continue;
devNumber++;
}
// FIXME: If no drive is connected we continue trying to read from
// a not connected drive!
ATA_DEVICE::Identify((uint16_t) BUS_PORT::Primary, DEVICE_DRIVE::MASTER);
return true;
}
MBR* getPartitions(){
const int C = 0;
const int H = 0;
const int HPC = 16;
const int SPT = 63;
int S =1;
uint32_t LBA = (C*HPC+H) * SPT + (S-1);
MBR* mbr =(MBR*) malloc(sizeof (MBR));
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, LBA, (uint16_t*)mbr);
printf("BootSector: 0x%x\n", mbr->ValidBootsector );
for( int i = 0 ; i < 4 ; i ++){
PartitionTableEntry PT = mbr->TableEntries[i];
printf("Partition %d [ %d sectors, PartitionType: %x, 0x%x, \nLBA Start: 0x%x ]\n" ,
i, PT.Number_sectors_inPartition, PT.PartitionType, mbr->uniqueID, PT.LBA_partition_start );
}
return mbr;
}
BiosParameterBlock* getBPB(MBR* mbr){
BiosParameterBlock* bpb = (BiosParameterBlock*) malloc(sizeof(BiosParameterBlock));
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, mbr->TableEntries[0].LBA_partition_start, (uint16_t*) bpb);
printf("OEM ID: %s\n", bpb->OEM_id);
printf("Bytes per sector: %d\n", bpb->BytesPerSector);
printf("Sectors per cluster: %d\n", bpb->SectorsPerCluster);
printf("Reserved sectors: %d\n", bpb->ReservedSectors);
printf("Number of FAT: %d\n", bpb->NumberOfFileAllocationTables);
printf("Number of Dir entries: %d\n", bpb->NumberOfDirectoryEntries);
printf("Total Sectors in volume: %d\n", bpb->TotalSectorsInLogicalVolume);
printf("Sectors per FAT: %d\n", bpb->NumberOfSectorsPerFAT);
return bpb;
}
uint16_t* ReadFAT (BiosParameterBlock& bpb , MBR& mbr) {
uint32_t FATAddress = mbr.TableEntries[0].LBA_partition_start + bpb.ReservedSectors ;
uint16_t* FAT = (uint16_t*)malloc(sizeof (uint16_t) * 256);
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, FATAddress, FAT );
// Show data in terminal
/*
for(unsigned short i : FAT) {
printf("%x ", i);
}
kterm_put('\n');*/
return FAT;
}
void listFilesInRoot(MBR& mbr, BiosParameterBlock& bpb ){
auto FATAddress = mbr.TableEntries[0].LBA_partition_start + bpb.ReservedSectors;
uint32_t RootDirectoryRegion = FATAddress + ( bpb.NumberOfFileAllocationTables * bpb.NumberOfSectorsPerFAT );
uint32_t DataRegion = RootDirectoryRegion + ((bpb.NumberOfDirectoryEntries * 32) / bpb.BytesPerSector );
uint16_t* FAT = ReadFAT(bpb, mbr);
uint16_t data2 [256];
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, RootDirectoryRegion, data2 );
auto* RootDirectory = (DirectoryEntry*) data2;
// List files in root
for(int i= 0; i < bpb.NumberOfDirectoryEntries ; i++ ) {
auto *entry = (DirectoryEntry * )((uint32_t) RootDirectory + (i * sizeof(DirectoryEntry)));
if (entry->filename[0] == (uint8_t) 0x00)
break; // There are no more entries in this directory or the entry is free
if ((entry->attribute & 0x01) == 0x01 || (entry->attribute & 0x20) == 0x20)
continue; // Skip listing if hidden or Achieve flag is set
// Print the filename;
for (char n: entry->filename) {
if (n == 0x20)
break;
kterm_put(n);
}
kterm_put('\n');
for (unsigned char n: entry->Extension) {
kterm_put(n);
}
kterm_put('\n');
printf("Attribute: %x \n", entry->attribute);
printf("FileSize: %d Bytes\n", entry->FilesizeInBytes);
if (entry->FilesizeInBytes != 0x0 || (entry->attribute & 0x8) == 0x0) {
printf("Show contents");
printf("Start cluster of the file: 0x%x\n", entry->StartingCluster);
printf("IS it only 1 cluster? %s\n", FAT[i] == 0xFFFF ? "Yes" : "No");
uint32_t sector = DataRegion + ((entry->StartingCluster - 0x02) * bpb.SectorsPerCluster);
uint16_t dataBlob[256];
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, sector, dataBlob);
for (unsigned short n: dataBlob) {
kterm_put(n & 0x00ff);
kterm_put(n >> 8);
}
kterm_put('\n');
}
printf("======================\n");
}
}
/*
* TODO: Implement this!!
*
FILE fsysFatDirectory (const char* DirectoryName){
FILE file;
unsigned char* buf;
PDIRECTORY directory;
char DosFileName[11];
ToDosFileName(DirectoryName, DosFileName, 11);
DosFileName[11] =0;
for (int sector=0; sector <14 ; sector++){
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, mountInfo.rootOffset + sector, (uint16_t*)buf);
directory = (PDIRECTORY) buf;
for (int i =0; i < 16; i++){
char name[11];
memcpy(name, directory->Filename, 11);
name[11]=0;
if(strncmp(DosFileName, name, 11) == 0){
strcpy(file.name, DirectoryName);
file.id = 0;
file.currentCluster = directory->FirstCluster;
file.eof = 0;
file.filelength = directory->FileSize;
if(directory->Attrib == 0x10){
file.flags = FS_DIRECTORY;
} else {
file.flags = FS_FILE;
}
return file;
}
directory++;
}
}
// Can't find file
file.flags = FS_INVALID;
return file;
}
*/
void fsysFATRead(PFILE file, unsigned char* buffer, unsigned int length){
if(file){
unsigned int physSector = 32 + (file->currentCluster - 1);
const unsigned int SECTOR_SIZE = 512;
// read sector
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, physSector, (uint16_t*) buffer );
unsigned int FAT_Offset = file->currentCluster + (file->currentCluster /2);
unsigned int FAT_Sector = 1 + (FAT_Offset / SECTOR_SIZE);
unsigned int entryOffset =FAT_Offset % SECTOR_SIZE;
uint8_t FAT[SECTOR_SIZE*2];
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, FAT_Sector,(uint16_t*) FAT); // Read 1st FAT sector
ATA_DEVICE::Read(BUS_PORT::Primary, DEVICE_DRIVE::MASTER, FAT_Sector +1, (uint16_t*)FAT+SECTOR_SIZE);
// read entry for next cluster
uint16_t nextCluster = *(uint16_t*) &FAT[entryOffset];
// test if entry is odd or even
if(file->currentCluster & 0x0001){
nextCluster>>= 4; // grab the high 12 bits
}else{
nextCluster &= 0x0FFF; // grab the low 12 bits
}
// test for end of file
if(nextCluster >= 0xff8){
file->eof -1;
return;
}
// test for file corruption
if(nextCluster == 0){
file->eof =1;
return;
}
// set next cluster
file->currentCluster = nextCluster;
void VirtualFileSystem::Initialize(FS* root)
{
root = root;
}
}
/*
FILE fsysFatOpenSubDir(FILE kFile, const char* filename){
FILE file;
void VirtualFileSystem::Open(const char* path)
{
/*
What does this mean?
1. Parse the path string
2. Traverse the graph (Finding the correct Node)
3. Create some kind of open file pointer thingy
*/
char DosFileName[11];
ToDosFileName(filename, DosFileName, 11);
DosFileName[11] = 0;
while(!kFile.eof){
//read directory
unsigned char buf[512];
fsysFATRead(&file, buf, 512);
PDIRECTORY pkDir = (PDIRECTORY) buf;
for (unsigned int i = 0; i < 16; i++){
// get current filename
char name[11];
memcpy(name, pkDir->Filename, 11);
name[11] = 0;
if(strncmp(name, DosFileName, 11) == 0){
strcpy(file.name, filename);
file.id = 0;
file.currentCluster = pkDir->FirstCluster;
file.filelength = pkDir->FileSize;
file.eof = 0;
// set file type;
if(pkDir->Attrib == 0x10){
file.flags = FS_DIRECTORY;
} else{
file.flags = FS_FILE;
}
return file;
}
// go to next entry
pkDir++;
}
}
// unable to find file
file.flags = FS_INVALID;
return file;
}
*/
void VirtualFileSystem::Read()
void FileSystem::initialize()
{
// NOTE: we need some way to know what file we wish to read from
}
MBR* mbr = getPartitions();
BiosParameterBlock* bootsector = getBPB(mbr);
listFilesInRoot(*mbr, *bootsector);
/*
mountInfo.numSectors = bootsector->NumberOfSectorsPerFAT;
mountInfo.fatOffset = 1;
mountInfo.fatSize = bootsector->NumberOfSectorsPerFAT;
mountInfo.fatEntrySize = 8;
mountInfo.numRootEntries = bootsector->NumberOfDirectoryEntries;
mountInfo.rootOffset = (bootsector->NumberOfFileAllocationTables * bootsector->NumberOfSectorsPerFAT) + 1;
mountInfo.rootSize = (bootsector->NumberOfDirectoryEntries * 32) / bootsector->BytesPerSector;*/
void VirtualFileSystem::Write()
{
// NOTE: we need some way to know what file we wish to write to
}
void VirtualFileSystem::Mount(const char* path, FS* FileSystem)
{
/*
What does this mean?
1. Parse the path string
2. Add a node to our internal graph
*/
}
void VirtualFileSystem::UnMount(FS* FileSystem)
{
/*
What does this mean?
1. Parse the path string
2. Remve a node to our internal graph
*/
}

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@ -1,29 +1,76 @@
#pragma once
#include <stdint.h>
#define FS_FILE 0
#define FS_DIRECTORY 1
#define FS_INVALID 2
#define DEVICE_MAX 26
class VirtualFileSystem{
public:
void Initialize( FS* root);
void Open (const char* path);
void Read();
void Write();
typedef struct _FILE {
char name [32];
uint32_t flags;
uint32_t filelength;
uint32_t id;
uint32_t eof;
uint32_t position;
uint32_t currentCluster;
uint32_t device;
}FILE, *PFILE;
void Mount(const char* path,FS* FileSystem);
void UnMount(FS* FileSystem);
typedef struct _FILE_SYSTEM{
char name[8];
FILE (*Directory) (const char* Directoryname);
void (*Mount) ();
void (*Read) (PFILE file, unsigned char* buffer, unsigned int length);
void (Close) (PFILE);
FILE (*Open) (const char* filename);
}FILESYSTEM, *PFILESYSTEM;
private:
FS* root;
typedef struct _MOUNT_INFO{
uint32_t numSectors;
uint32_t fatOffset;
uint32_t numRootEntries;
uint32_t rootOffset;
uint32_t rootSize;
uint32_t fatSize;
uint32_t fatEntrySize;
}MOUNT_INFO, *PMOUNT_INFO;
typedef struct _DIRECTORY{
uint8_t Filename[8];
uint8_t Ext[3];
uint8_t Attrib;
uint8_t Reserved;
uint8_t TimeCreatedMs;
uint16_t TimeCreated;
uint16_t DateCreated;
uint16_t DateLastAccessed;
uint16_t FirstClusterHiBytes;
uint16_t LastModTime;
uint16_t LastModDate;
uint16_t FirstCluster;
uint32_t FileSize;
}DIRECTORY, *PDIRECTORY;
// Date Format
// [0..4] Day
// [5..8] Month
// [9..15] Year
// Time Format
// [0..4] Seconds
// [5..10] Minute
// [11..15] Hour
extern PFILESYSTEM _filesystems[DEVICE_MAX];
FILE volOpenFile(const char* fname);
void volCloseFile(PFILE file);
void volRegisterFilesystem(PFILESYSTEM, unsigned int deviceID);
void volUnregisterFilesystem(PFILESYSTEM);
void volUnregisterFileSystemByID(unsigned int deviceID);
};
struct FS
{
const char* name ;
int DeviceID;
int ManufacturerID;
FS* next;
char**(Read)();
void*(Write)();
void*(Open)();
};
class FileSystem{
public:
static void initialize();
};