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#![feature(int_roundings)]
mod structs;
use crate::structs::{Superblock,BlockGroupDescriptor,Inode,DirectoryEntry};
use zerocopy::{ByteSlice};
use uuid::Uuid;
#[repr(C)]
#[derive(Debug)]
pub struct Ext2 {
pub superblock: &'static Superblock,
pub block_groups: &'static [BlockGroupDescriptor],
pub blocks: Vec<&'static [u8]>,
pub block_size: usize,
pub uuid: Uuid,
}
const EXT2_MAGIC: u16 = 0xef53;
const EXT2_SUPERBLOCK_OFFSET: usize = 2048;
impl Ext2 {
pub fn new<B: ByteSlice + std::fmt::Debug>(bytes: B) -> Ext2 {
// https://wiki.osdev.org/Ext2#Superblock
// parse into Ext2 struct without copying much
let x = bytes.split_at(EXT2_SUPERBLOCK_OFFSET);
// let y = x.0.split_at(1024).1;
// let (prefix, superblock, suffix) = unsafe { bytes.align_to::<Superblock>() };
// println!("{:?}", x.len());
let superblock = unsafe { &*(x.0.split_at(1024).1.as_ptr() as *const Superblock) };
assert_eq!(superblock.magic, EXT2_MAGIC);
// println!("{:?} {:?}", prefix, suffix);
let block_group_count = superblock
.blocks_count
.div_ceil(superblock.blocks_per_group) as usize
- 3;
// assert!(block_igroup_count <= MAX_BLOCK_GROUPS);
// let y = x.1,
// let (prefix, block_groups, suffix) = unsafe { bytes.align_to::<BlockGroupDescriptor>() };
// println!("{:?} {:?}", prefix, suffix);
let block_size: usize = 1024 << superblock.log_block_size;
let y = x.1.split_at(block_size);
let block_groups = unsafe {
std::slice::from_raw_parts(
y.0.as_ptr() as *const BlockGroupDescriptor,
block_group_count,
)
};
// i determined the root table to be at inode 5, but i need a better way of finding that
// let root_inode_group: usize = (5 - 1) / superblock.inodes_per_group as usize;
// let root_inode_index: usize = (5 - 1) % superblock.inodes_per_group as usize;
// let root_inode_block = (root_inode_index * superblock.inode_size as usize) as usize / block_size;
// println!("{:?}", root_inode_group);
// println!("{:?}", root_inode_index);
// println!("{:?}", root_inode_block);
let blocks = unsafe {
std::slice::from_raw_parts(
y.1.as_ptr() as *const u8,
superblock.blocks_count as usize * block_size,
)
}
.chunks(block_size)
.collect::<Vec<_>>();
// let blocks = unsafe { std::slice::from_raw_parts(
// y.1.as_ptr() as *const [u8;1024],
// superblock.blocks_count as usize) };
// let inodes_per_block = block_size / superblock.inode_size as usize;
// let inode_table_block_count: usize = superblock.inodes_per_group as usize / inodes_per_block;
// let inode_table = unsafe { std::slice::from_raw_parts(
// blocks[(block_groups[root_inode_group].inode_table_block-1) as usize].as_ptr() as *const Inode,
// inode_table_block_count) };
// boot block + group descriptors block + inode table blocks
// let data_blocks = unsafe { std::slice::from_raw_parts(
// blocks[1 + 1 + inode_table_block_count].as_ptr() as *const Inode,
// inode_table_block_count) };
// let root_inode = &inode_table[root_inode_index];
// let test_inode = &inode_table[6];
// println!("{:?}", unsafe { std::ffi::CStr::from_ptr(blocks[test_inode.direct_pointer[0] as usize-3].as_ptr() as *const i8) });
// for inode in &inode_table[0..10] {
// println!("{:?}", inode);
// }
// for data_block in root_inode.direct_pointer {
// if data_block == 0 { break }
// println!("{:?}", blocks[data_block as usize-3]);
// }
// for ptr in root_inode.direct_pointer {
// println!("{:?}", blocks[ptr as usize - 1]);
// }
// let block_goups = <[BlockGroupDescriptor]>::read_from_prefix(x.1).unwrap();
// println!("{:?}", y.1.split_at(block_size * (block_groups[root_inode_group].inode_table_block-1) as usize).1.split_at(block_size).0);
let uuid = Uuid::from_bytes(superblock.fs_id);
Ext2 {
superblock,
block_groups,
blocks,
block_size,
uuid,
}
}
// pub fn read_dir_inode(&self, inode: usize) -> std::io::Result<Vec<(usize, &str)>> {
// for ptr in root.direct_pointer {
// println!("{:?}",ext2.blocks[ptr as usize - 4] );
// }
// let directory = ext2.blocks[root.direct_pointer[0] as usize - 3].as_ptr() as *const DirectoryEntry;
// Ok(vec!["/"])
// }
// pub fn read_dir_inode(&self, inode: usize) {
// let dir = self.get_inode(inode);
// }
pub fn get_inode(&self, inode: usize) -> &Inode {
let group: usize = (inode - 1) / self.superblock.inodes_per_group as usize;
let index: usize = (inode - 1) % self.superblock.inodes_per_group as usize;
let inode_table = unsafe {
std::slice::from_raw_parts(
self.blocks[(self.block_groups[group].inode_table_block - 1) as usize].as_ptr()
as *const Inode,
index + 1,
)
};
// dbg!(inode_table);
&inode_table[index]
}
pub fn read_dir<'a>(&'a self, inode: &'a Inode) -> Directory<'_> {
Directory { inode, disk: self, offset: 0 }
}
}
#[derive(Debug)]
pub struct Directory<'a> {
inode: &'a Inode,
disk: &'a Ext2,
offset: usize,
}
impl<'a> Iterator for Directory<'a> {
type Item = &'a DirectoryEntry;
fn next(&mut self) -> Option<Self::Item> {
if self.offset > 0 && self.offset % self.disk.block_size == 0 {
return None;
}
if self.inode.direct_pointer[self.offset / self.disk.block_size] == 0 {
return None;
}
let dir = unsafe {
&*(self.disk.blocks
[self.inode.direct_pointer[self.offset / self.disk.block_size] as usize - 4]
.as_ptr()
.add(self.offset % self.disk.block_size) as *const DirectoryEntry)
};
self.offset += dir.entry_size as usize;
Some(dir)
}
}
fn main() {
let disk = include_bytes!("../ext2.img");
let ext2 = Ext2::new(&disk[..]);
println!("{:?}", ext2.uuid);
// root inode always starts at 2
let root = ext2.get_inode(5);
dbg!(root);
let dir: Vec<_> = ext2.read_dir(root).collect();
// dbg!(dir);
dbg!(dir.clone());
let file = ext2.get_inode(7);
dbg!(file);
println!("{:?}", unsafe {
std::ffi::CStr::from_ptr(
ext2.blocks[file.direct_pointer[0] as usize - 3].as_ptr() as *const i8
)
});
// dbg!(dir.next());
// dbg!(dir.next());
// let file = ext2.get_inode(dir.next().unwrap().inode as usize - 8);
// dbg!(file);
// for ptr in root.direct_pointer {
// println!("{:?}",ext2.blocks[ptr as usize - 4] );
// }
// std::vec::Vec::from_raw_parts(ext2.blocks[root.direct_pointer[0] as usize - 4].as_ptr() as *const DirectoryEntry, 5, 5)
// let directory = ext2.blocks[root.direct_pointer[0] as usize - 4].as_ptr() as *const DirectoryEntry;
// dbg!( unsafe { &*directory } );
// println!("{:?}",ext2.blocks[root.direct_pointer[0] as usize - 3] );
// println!("{:?}", unsafe { std::ffi::CStr::from_ptr(ext2.blocks[root.direct_pointer[0] as usize - 3].as_ptr()+ as *const i8) });
}
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