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ext2-rs
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Add Thread-safe version of the ext2 implementation 

The `Synced<T>` struct is a wrapper over the `Ext2` struct. It
guarantees thread safety through an `Arc` and a spinlock
(`spin::Mutex`).

The `fs::sync` mod provides Thread-safe versions of structs found in `fs`.
sync
Szymon Walter 2018-03-22 11:07:33 +01:00
parent f4ccd00dd9
commit 808a805a48
5 changed files with 652 additions and 13 deletions
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1
Cargo.toml
View File

@ -6,6 +6,7 @@ authors = ["Szymon Walter <walter.szymon.98@gmail.com>"]
[dependencies]
bitflags = "1.0"
rlibc = { version = "1.0", optional = true }
spin = "0.4"
[features]
default = ["no_std"]

28
src/fs.rs → src/fs/mod.rs
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@ -1,5 +1,4 @@
use core::mem;
use core::slice;
use core::fmt::{self, Debug};
use core::nonzero::NonZero;
@ -12,7 +11,9 @@ use sys::superblock::Superblock;
use sys::block_group::BlockGroupDescriptor;
use sys::inode::Inode as RawInode;
struct Struct<T, S: SectorSize> {
pub mod sync;
pub(crate) struct Struct<T, S: SectorSize> {
pub inner: T,
pub offset: Address<S>,
}
@ -26,9 +27,10 @@ impl<T, S: SectorSize> From<(T, Address<S>)> for Struct<T, S> {
/// Safe wrapper for raw sys structs
pub struct Ext2<S: SectorSize, V: Volume<u8, S>> {
volume: V,
superblock: Struct<Superblock, S>,
block_groups: Struct<Vec<BlockGroupDescriptor>, S>,
// TODO: should this have some different vis?
pub(crate) volume: V,
pub(crate) superblock: Struct<Superblock, S>,
pub(crate) block_groups: Struct<Vec<BlockGroupDescriptor>, S>,
}
impl<S: SectorSize, V: Volume<u8, S>> Ext2<S, V> {
@ -162,9 +164,9 @@ impl<S: SectorSize, V: Volume<u8, S>> Ext2<S, V> {
(self.superblock().rev_major, self.superblock().rev_minor)
}
pub fn inode_size<'vol>(&'vol self) -> usize {
pub fn inode_size(&self) -> usize {
if self.version().0 == 0 {
mem::size_of::<Inode<'vol, S, V>>()
mem::size_of::<RawInode>()
} else {
// note: inodes bigger than 128 are not supported
self.superblock().inode_size as usize
@ -494,7 +496,7 @@ pub struct Directory<
impl<'vol, 'inode, S: SectorSize, V: 'vol + Volume<u8, S>> Iterator
for Directory<'vol, 'inode, S, V>
{
type Item = Result<DirectoryEntry<'vol>, Error>;
type Item = Result<DirectoryEntry, Error>;
fn next(&mut self) -> Option<Self::Item> {
if self.buffer.is_none() || self.offset >= self.block_size {
@ -520,8 +522,7 @@ impl<'vol, 'inode, S: SectorSize, V: 'vol + Volume<u8, S>> Iterator
let len = buffer[6];
let ty = buffer[7];
let ptr = unsafe { buffer.as_ptr().add(8) };
let name = unsafe { slice::from_raw_parts(ptr, len as usize) };
let name = buffer[8..8 + len as usize].to_vec();
self.offset += size as usize;
@ -533,8 +534,9 @@ impl<'vol, 'inode, S: SectorSize, V: 'vol + Volume<u8, S>> Iterator
}
}
pub struct DirectoryEntry<'a> {
pub name: &'a [u8],
#[derive(Clone)]
pub struct DirectoryEntry {
pub name: Vec<u8>,
pub inode: usize,
pub ty: u8,
}
@ -695,7 +697,7 @@ mod tests {
for entry in dir {
assert!(entry.is_ok());
let entry = entry.unwrap();
let entry_name = str::from_utf8(entry.name).unwrap_or("?");
let entry_name = str::from_utf8(&entry.name).unwrap_or("?");
println!("{}/{} => {}", name, entry_name, entry.inode,);
if entry_name != "." && entry_name != ".." {
walk(

634
src/fs/sync.rs Normal file
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@ -0,0 +1,634 @@
use core::fmt::{self, Debug};
use core::nonzero::NonZero;
use alloc::Vec;
use alloc::arc::Arc;
use spin::{Mutex, MutexGuard};
use error::Error;
use sector::{Address, SectorSize};
use volume::Volume;
use sys::inode::Inode as RawInode;
use super::Ext2;
pub struct Synced<T> {
inner: Arc<Mutex<T>>,
}
impl<T> Synced<T> {
pub fn with_inner(inner: T) -> Synced<T> {
Synced {
inner: Arc::new(Mutex::new(inner)),
}
}
pub fn inner<'a>(&'a self) -> MutexGuard<'a, T> {
self.inner.lock()
}
}
impl<T> Clone for Synced<T> {
fn clone(&self) -> Self {
Synced {
inner: self.inner.clone(),
}
}
}
impl<S: SectorSize, V: Volume<u8, S>> Synced<Ext2<S, V>> {
pub fn new(volume: V) -> Result<Synced<Ext2<S, V>>, Error> {
Ext2::new(volume).map(|inner| Synced::with_inner(inner))
}
#[allow(dead_code)]
fn update_global(&mut self) -> Result<(), Error> {
self.inner().update_global()
}
pub fn read_inode(
&self,
buf: &mut [u8],
inode: &Inode<S, V>,
) -> Result<usize, Error> {
let total_size = inode.size();
let block_size = self.block_size();
let mut offset = 0;
for block in inode.blocks() {
match block {
Ok((data, _)) => {
let data_size = block_size
.min(total_size - offset)
.min(buf.len() - offset);
let end = offset + data_size;
buf[offset..end].copy_from_slice(&data[..data_size]);
offset += data_size;
}
Err(err) => return Err(err.into()),
}
}
Ok(offset)
}
pub fn write_inode(
&self,
_inode: &(Inode<S, V>, Address<S>),
_buf: &[u8],
) -> Result<usize, Error> {
unimplemented!()
}
pub fn root_inode(&self) -> (Inode<S, V>, Address<S>) {
self.inode_nth(2).unwrap()
}
pub fn inode_nth(&self, index: usize) -> Option<(Inode<S, V>, Address<S>)> {
self.inodes_nth(index).next()
}
pub fn inodes(&self) -> Inodes<S, V> {
self.inodes_nth(1)
}
pub fn inodes_nth(&self, index: usize) -> Inodes<S, V> {
assert!(index > 0, "inodes are 1-indexed");
let inner = self.inner();
Inodes {
fs: self.clone(),
log_block_size: inner.log_block_size(),
inode_size: inner.inode_size(),
inodes_per_group: inner.inodes_count(),
inodes_count: inner.total_inodes_count(),
index,
}
}
pub fn version(&self) -> (u32, u16) {
self.inner().version()
}
pub fn inode_size(&self) -> usize {
self.inner().inode_size()
}
pub fn inodes_count(&self) -> usize {
self.inner().inodes_count()
}
pub fn total_inodes_count(&self) -> usize {
self.inner().total_inodes_count()
}
pub fn block_group_count(&self) -> Result<usize, Error> {
self.inner().block_group_count()
}
pub fn total_block_count(&self) -> usize {
self.inner().total_block_count()
}
pub fn free_block_count(&self) -> usize {
self.inner().free_block_count()
}
pub fn block_size(&self) -> usize {
self.inner().block_size()
}
pub fn log_block_size(&self) -> u32 {
self.inner().log_block_size()
}
pub fn sector_size(&self) -> usize {
S::SIZE
}
pub fn log_sector_size(&self) -> u32 {
S::LOG_SIZE
}
}
impl<S: SectorSize, V: Volume<u8, S>> Debug for Synced<Ext2<S, V>> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "Synced<Ext2<{}>>", S::SIZE)
}
}
#[derive(Debug, Clone)]
pub struct Inodes<S: SectorSize, V: Volume<u8, S>> {
fs: Synced<Ext2<S, V>>,
log_block_size: u32,
inode_size: usize,
inodes_per_group: usize,
inodes_count: usize,
index: usize,
}
impl<S: SectorSize, V: Volume<u8, S>> Iterator for Inodes<S, V> {
type Item = (Inode<S, V>, Address<S>);
fn next(&mut self) -> Option<Self::Item> {
if self.index < self.inodes_count {
let block_group = (self.index - 1) / self.inodes_per_group;
let index = (self.index - 1) % self.inodes_per_group;
self.index += 1;
let fs = self.fs.inner();
let inodes_block =
fs.block_groups.inner[block_group].inode_table_block;
let offset = Address::with_block_size(
inodes_block,
(index * self.inode_size) as i32,
self.log_block_size,
);
let raw = unsafe {
RawInode::find_inode(&fs.volume, offset, self.inode_size).ok()
};
raw.map(|(raw, offset)| (Inode::new(self.fs.clone(), raw), offset))
} else {
None
}
}
}
#[derive(Debug)]
pub struct Inode<S: SectorSize, V: Volume<u8, S>> {
fs: Synced<Ext2<S, V>>,
inner: RawInode,
}
impl<S: SectorSize, V: Volume<u8, S>> Clone for Inode<S, V> {
fn clone(&self) -> Self {
Inode {
fs: self.fs.clone(),
inner: self.inner,
}
}
}
impl<S: SectorSize, V: Volume<u8, S>> Inode<S, V> {
pub fn new(fs: Synced<Ext2<S, V>>, inner: RawInode) -> Inode<S, V> {
Inode { fs, inner }
}
pub fn blocks(&self) -> InodeBlocks<S, V> {
InodeBlocks {
inode: self.clone(),
index: 0,
}
}
pub fn directory(&self) -> Option<Directory<S, V>> {
use sys::inode::TypePerm;
if unsafe { self.inner.type_perm.contains(TypePerm::DIRECTORY) } {
Some(Directory {
blocks: self.blocks(),
offset: 0,
buffer: None,
block_size: self.fs.block_size(),
})
} else {
None
}
}
pub fn block(&self, index: usize) -> Option<NonZero<u32>> {
self.try_block(index).ok().and_then(|block| block)
}
pub fn try_block(
&self,
mut index: usize,
) -> Result<Option<NonZero<u32>>, Error> {
// number of blocks in direct table: 12
// number of blocks in indirect table: block_size/4
// why?
// - a block is n bytes long
// - a block address occupies 32 bits, or 4 bytes
// - thus, n/4
// number of blocks in doubly table: (block_size/4)^2
// why?
// - every entry in the doubly table points to another block
// - that's n/4 blocks, where n is the block size
// - every block contains n/4 block pointers
// - that's n/4 blocks with n/4 pointers each = (n/4)^2
// number of blocks in triply table: (block_size/4)^3
fn block_index<S: SectorSize, V: Volume<u8, S>>(
volume: &V,
block: u32,
index: usize,
log_block_size: u32,
) -> Result<Option<NonZero<u32>>, Error> {
let offset = (index * 4) as i32;
let end = offset + 4;
let addr = Address::with_block_size(block, offset, log_block_size);
let end = Address::with_block_size(block, end, log_block_size);
let block = volume.slice(addr..end);
match block {
Ok(block) => unsafe {
Ok(NonZero::new(block.dynamic_cast::<u32>().0))
},
Err(err) => Err(err.into()),
}
}
let bs4 = self.fs.block_size() / 4;
let log_block_size = self.fs.log_block_size();
if index < 12 {
return Ok(NonZero::new(self.inner.direct_pointer[index]));
}
index -= 12;
if index < bs4 {
let block = self.inner.indirect_pointer;
return block_index(
&self.fs.inner().volume,
block,
index,
log_block_size,
);
}
index -= bs4;
if index < bs4 * bs4 {
let indirect_index = index >> (log_block_size + 2);
let block = match block_index(
&self.fs.inner().volume,
self.inner.doubly_indirect,
indirect_index,
log_block_size,
) {
Ok(Some(block)) => block.get(),
Ok(None) => return Ok(None),
Err(err) => return Err(err),
};
return block_index(
&self.fs.inner().volume,
block,
index & (bs4 - 1),
log_block_size,
);
}
index -= bs4 * bs4;
if index < bs4 * bs4 * bs4 {
let doubly_index = index >> (2 * log_block_size + 4);
let indirect = match block_index(
&self.fs.inner().volume,
self.inner.triply_indirect,
doubly_index,
log_block_size,
) {
Ok(Some(block)) => block.get(),
Ok(None) => return Ok(None),
Err(err) => return Err(err),
};
let indirect_index = (index >> (log_block_size + 2)) & (bs4 - 1);
let block = match block_index(
&self.fs.inner().volume,
indirect as u32,
indirect_index,
log_block_size,
) {
Ok(Some(block)) => block.get(),
Ok(None) => return Ok(None),
Err(err) => return Err(err),
};
return block_index(
&self.fs.inner().volume,
block,
index & (bs4 - 1),
log_block_size,
);
}
Ok(None)
}
pub fn in_use(&self) -> bool {
self.inner.hard_links > 0
}
pub fn uid(&self) -> u16 {
self.inner.uid
}
pub fn sectors(&self) -> usize {
self.inner.sectors_count as usize
}
pub fn size32(&self) -> u32 {
self.inner.size_low
}
pub fn size64(&self) -> u64 {
self.inner.size_low as u64 | (self.inner.size_high as u64) << 32
}
#[cfg(target_pointer_width = "64")]
#[inline]
pub fn size(&self) -> usize {
self.size64() as usize
}
#[cfg(target_pointer_width = "32")]
#[inline]
pub fn size(&self) -> usize {
self.size32() as usize
}
}
#[derive(Debug, Clone)]
pub struct InodeBlocks<S: SectorSize, V: Volume<u8, S>> {
inode: Inode<S, V>,
index: usize,
}
impl<S: SectorSize, V: Volume<u8, S>> Iterator for InodeBlocks<S, V> {
type Item = Result<(Vec<u8>, Address<S>), Error>;
fn next(&mut self) -> Option<Self::Item> {
let block = self.inode.try_block(self.index);
let block = match block {
Ok(Some(ok)) => ok,
Ok(None) => return None,
Err(err) => return Some(Err(err)),
};
self.index += 1;
let block = block.get();
let log_block_size = self.inode.fs.log_block_size();
let offset = Address::with_block_size(block, 0, log_block_size);
let end = Address::with_block_size(block + 1, 0, log_block_size);
let fs = self.inode.fs.inner();
let slice = fs.volume
.slice(offset..end)
.map(|slice| (slice.to_vec(), offset))
.map_err(|err| err.into());
Some(slice)
}
}
#[derive(Debug, Clone)]
pub struct Directory<S: SectorSize, V: Volume<u8, S>> {
blocks: InodeBlocks<S, V>,
offset: usize,
buffer: Option<Vec<u8>>,
block_size: usize,
}
impl<S: SectorSize, V: Volume<u8, S>> Iterator for Directory<S, V> {
type Item = Result<DirectoryEntry, Error>;
fn next(&mut self) -> Option<Self::Item> {
if self.buffer.is_none() || self.offset >= self.block_size {
self.buffer = match self.blocks.next() {
None => return None,
Some(Ok((block, _))) => Some(block),
Some(Err(err)) => return Some(Err(err)),
};
self.offset = 0;
}
let buffer = &self.buffer.as_ref().unwrap()[self.offset..];
let inode = buffer[0] as u32 | (buffer[1] as u32) << 8
| (buffer[2] as u32) << 16
| (buffer[3] as u32) << 24;
if inode == 0 {
return None;
}
let size = buffer[4] as u16 | (buffer[5] as u16) << 8;
let len = buffer[6];
let ty = buffer[7];
let name = buffer[8..8 + len as usize].to_vec();
self.offset += size as usize;
Some(Ok(DirectoryEntry {
name: name,
inode: inode as usize,
ty: ty,
}))
}
}
#[derive(Clone)]
pub struct DirectoryEntry {
pub name: Vec<u8>,
pub inode: usize,
pub ty: u8,
}
#[cfg(test)]
mod tests {
use std::fs::File;
use std::cell::RefCell;
use sector::{SectorSize, Size512};
use volume::Volume;
use super::{Ext2, Inode, Synced};
#[test]
fn file() {
let file = RefCell::new(File::open("ext2.img").unwrap());
let fs = Synced::<Ext2<Size512, _>>::new(file);
assert!(
fs.is_ok(),
"Err({:?})",
fs.err().unwrap_or_else(|| unreachable!()),
);
let fs = fs.unwrap();
let vers = fs.version();
println!("version: {}.{}", vers.0, vers.1);
assert_eq!(128, fs.inode_size());
}
#[test]
fn inodes() {
let file = RefCell::new(File::open("ext2.img").unwrap());
let fs = Synced::<Ext2<Size512, _>>::new(file);
assert!(
fs.is_ok(),
"Err({:?})",
fs.err().unwrap_or_else(|| unreachable!()),
);
let fs = fs.unwrap();
let inodes = fs.inodes().filter(|inode| inode.0.in_use());
for inode in inodes {
println!("{:?}", inode);
}
}
#[test]
fn inode_blocks() {
use std::str;
let file = RefCell::new(File::open("ext2.img").unwrap());
let fs = Synced::<Ext2<Size512, _>>::new(file).unwrap();
let inodes = fs.inodes().filter(|inode| {
inode.0.in_use() && inode.0.uid() == 1000 && inode.0.size() < 1024
});
for inode in inodes {
println!("{:?}", inode.0);
let size = inode.0.size();
for block in inode.0.blocks() {
let (data, _) = block.unwrap();
assert_eq!(data.len(), fs.block_size());
println!("{:?}", &data[..size]);
let _ = str::from_utf8(&data[..size])
.map(|string| println!("{}", string));
}
}
}
#[test]
fn read_inode() {
let file = RefCell::new(File::open("ext2.img").unwrap());
let fs = Synced::<Ext2<Size512, _>>::new(file).unwrap();
let inodes = fs.inodes().filter(|inode| {
inode.0.in_use() && inode.0.uid() == 1000 && inode.0.size() < 1024
});
for (inode, _) in inodes {
let mut buf = Vec::with_capacity(inode.size());
unsafe {
buf.set_len(inode.size());
}
let size = fs.read_inode(&mut buf[..], &inode);
assert!(size.is_ok());
let size = size.unwrap();
assert_eq!(size, inode.size());
unsafe {
buf.set_len(size);
}
}
}
#[test]
fn read_big() {
let file = RefCell::new(File::open("ext2.img").unwrap());
let fs = Synced::<Ext2<Size512, _>>::new(file).unwrap();
let inodes = fs.inodes().filter(|inode| {
inode.0.in_use() && inode.0.uid() == 1000
&& inode.0.size() == 537600
});
for (inode, _) in inodes {
let mut buf = Vec::with_capacity(inode.size());
unsafe {
buf.set_len(inode.size());
}
let size = fs.read_inode(&mut buf[..], &inode);
assert!(size.is_ok());
let size = size.unwrap();
assert_eq!(size, inode.size());
unsafe {
buf.set_len(size);
}
for (i, &x) in buf.iter().enumerate() {
if i & 1 == 0 {
assert_eq!(x, b'u', "{}", i);
} else {
assert_eq!(x, b'\n', "{}", i);
}
}
}
}
#[test]
fn walkdir() {
use std::str;
fn walk<'vol, S: SectorSize, V: Volume<u8, S>>(
fs: &'vol Synced<Ext2<S, V>>,
inode: Inode<S, V>,
name: String,
) {
inode.directory().map(|dir| {
for entry in dir {
assert!(entry.is_ok());
let entry = entry.unwrap();
let entry_name = str::from_utf8(&entry.name).unwrap_or("?");
println!("{}/{} => {}", name, entry_name, entry.inode,);
if entry_name != "." && entry_name != ".." {
walk(
fs,
fs.inode_nth(entry.inode).unwrap().0,
format!("{}/{}", name, entry_name),
);
}
}
});
}
let file = RefCell::new(File::open("ext2.img").unwrap());
let fs = Synced::<Ext2<Size512, _>>::new(file).unwrap();
let (root, _) = fs.root_inode();
walk(&fs, root, String::new());
}
}

1
src/lib.rs
View File

@ -12,6 +12,7 @@
extern crate alloc;
#[macro_use]
extern crate bitflags;
extern crate spin;
#[cfg(any(test, not(feature = "no_std")))]
extern crate core;

1
src/volume/mod.rs
View File

@ -31,6 +31,7 @@ pub trait Volume<T: Clone, S: SectorSize> {
) -> Result<VolumeSlice<'a, T, S>, Self::Error>;
}
#[derive(Debug, Clone, PartialEq, Hash)]
pub struct VolumeSlice<'a, T: 'a + Clone, S: SectorSize> {
inner: Cow<'a, [T]>,
index: Address<S>,