path: root/src/kernel/fs/ext2.c

#include <fs/ata.h>
#include <fs/ext2.h>
#include <lib/lib.h>
#include <lib/stdlib.h>
#include <memory/alloc.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include <system.h>

static struct ext2_superblock superblock;
static struct bgd *bgdt;
static u32 block_size;
static u32 num_groups;
static void read_block(u32 block_num, void *buf);
static void load_superblock();
static void load_bgdt();
static void read_inode(struct ext2_inode *inode, u32 inode_num);

void ext2_init_fs()
{
	load_superblock();
	load_bgdt();

	struct ext2_inode root_inode;
	read_inode(&root_inode, ROOT_INODE);
	debug("Creation time: %d", root_inode.creation_time);
	debug("UID: %d", root_inode.uid);
	debug("Type & perms: 0x%x", root_inode.mode);
	debug("Size: %d", root_inode.size);

	debug("Files:");
	struct ext2_file file;
	ext2_open_inode(ROOT_INODE, &file);
	struct ext2_dirent dirent;

	while (ext2_next_dirent(&file, &dirent))
		debug("Inode %d, name '%s'", dirent.inode_num, dirent.name);
}

static void read_block(u32 block_num, void *buf)
{
	u32 lba = block_num * block_size / SECTOR_SIZE;
	u32 sectors = block_size / SECTOR_SIZE;

	read_abs_sectors(lba, sectors, buf);
}

static void load_superblock()
{
	u16 buf[SUPERBLOCK_LENGTH / 2];

	read_abs_sectors(SUPERBLOCK_LBA, SUPERBLOCK_SECTORS, buf);
	memcpy(&superblock, buf, sizeof(struct ext2_superblock));

	block_size = 1024 << superblock.log2_block_size;
	num_groups = superblock.total_blocks / superblock.blocks_per_group;

	assert(superblock.signature == EXT2_SIGNATURE);
	debug("Total inodes: 0x%x", superblock.total_inodes);
	debug("Total blocks: 0x%x", superblock.total_blocks);
	debug("Drive size: %dMiB", (block_size * superblock.total_blocks) >> 20);
	debug("Block size: %d", block_size);
	debug("Num blocks: %d", superblock.total_blocks);
	debug("Blocks/group: %d", superblock.blocks_per_group);
	debug("Inodes/group: %d", superblock.inodes_per_group);
	debug("Num groups: %d", num_groups);
	debug("Creator OS: %s", superblock.creator_os_id == 0 ? "Linux" : "Other");
}

static void load_bgdt()
{
	u32 bgdt_sectors = (sizeof(struct bgd) * num_groups) / SECTOR_SIZE + 1;
	u32 bgdt_block = (SUPERBLOCK_OFFSET + SUPERBLOCK_LENGTH) / block_size + 1;
	u32 bgdt_lba = bgdt_block * block_size / SECTOR_SIZE;

	u16 buf[bgdt_sectors * SECTOR_SIZE / 2];
	read_abs_sectors(bgdt_lba, bgdt_sectors, buf);

	u32 bgdt_size = sizeof(struct bgd) * num_groups;
	bgdt = kmalloc(bgdt_size);
	memcpy(bgdt, buf, bgdt_size);
}

static void read_inode(struct ext2_inode *inode, u32 inode_num)
{
	inode_num--;
	u32 block_group = inode_num / superblock.inodes_per_group;

	struct bgd *bgd = &bgdt[block_group];
	u32 i_table_block = bgd->inode_table_addr;

	u32 index = inode_num % superblock.inodes_per_group;
	u32 block_offset = (index * INODE_SIZE) / block_size;
	u32 offset_in_block = (index * INODE_SIZE) % block_size;
	u32 block = i_table_block + block_offset;

	u32 num_sectors = sizeof(struct ext2_inode) / SECTOR_SIZE + 1;
	u16 buf[num_sectors * SECTOR_SIZE / 2];
	read_abs_sectors(block * block_size / SECTOR_SIZE, num_sectors, buf);
	memcpy(inode, &buf[offset_in_block / 2], sizeof(struct ext2_inode));
}

void ext2_open_inode(u32 inode_num, struct ext2_file *file)
{
	read_inode(&file->inode, inode_num);
	file->pos = 0;
	file->block_index = 0;
	file->buf = kmalloc(block_size);
	file->curr_block_pos = 0;

	read_block(file->inode.dbp[0], file->buf);
}

u32 ext2_read(struct ext2_file *file, u8 *buf, u32 count)
{
	if (file->pos + count > file->inode.size)
		count = file->inode.size - file->pos;

	u32 bytes_left = count;

	while (bytes_left > 0) {
		u32 to_copy = bytes_left;

		bool new_block = file->curr_block_pos + to_copy >= block_size;
		if (new_block)
			to_copy = block_size - file->curr_block_pos;

		memcpy(buf + (count - bytes_left), file->buf + file->curr_block_pos, to_copy);
		file->curr_block_pos += to_copy;
		file->pos += to_copy;
		bytes_left -= to_copy;

		if (new_block) {
			file->curr_block_pos = 0;
			file->block_index++;
			if (file->block_index >= 12) {
				// TODO: Add triple block pointer support
				u32 *tmp = kmalloc(block_size);
				read_block(file->inode.ibp, tmp);
				read_block(tmp[file->block_index - 12], file->buf);
			} else {
				read_block(file->inode.dbp[file->block_index], file->buf);
			}
		}
	}

	return count;
}

#define READ_SIZE (sizeof(struct ext2_dirent) - sizeof(u8 *))

bool ext2_next_dirent(struct ext2_file *file, struct ext2_dirent *dir)
{
	u8 buf[READ_SIZE];
	if (ext2_read(file, buf, READ_SIZE) != READ_SIZE)
		return false;

	memcpy(dir, buf, READ_SIZE);

	u32 size = dir->name_len + 1;
	u8 *name = kmalloc(size);
	if (ext2_read(file, name, size - 1) != size - 1)
		return false;

	dir->name = name;
	dir->name[size - 1] = '\0';

	u32 bytes_left = dir->total_len - (READ_SIZE + size - 1);
	if (bytes_left > 0) {
		u8 dummy[bytes_left];
		ext2_read(file, dummy, bytes_left);
	}

	return true;
}

u32 ext2_find_in_dir(u32 dir_inode, const char *name)
{
	u32 inode;
	struct ext2_file dir;
	struct ext2_dirent dirent;

	ext2_open_inode(dir_inode, &dir);
	while (ext2_next_dirent(&dir, &dirent)) {
		if (strcmp((char *)dirent.name, name) == 0) {
			inode = dirent.inode_num;
			goto cleanup;
		}
	}

	inode = 0;

cleanup:
	kfree(dir.buf);
	return inode;
}

u32 ext2_look_up_path(char *path)
{
	if (path[0] != '/')
		return 0;

	path++;
	u32 curr_dir_inode = ROOT_INODE;

	while (1) {
		u32 j;
		for (j = 0; path[j] != '/' && path[j] != '\0'; j++)
			;

		if (path[j] == '\0')
			break;

		path[j] = '\0';
		curr_dir_inode = ext2_find_in_dir(curr_dir_inode, path);
		path[j] = '/';

		if (curr_dir_inode == 0)
			return 0;

		path += j + 1;
	}

	u32 inode = ext2_find_in_dir(curr_dir_inode, path);
	if (inode == 0)
		return 0;

	return inode;
}