pmhuj4vri/src/sfs.rs

use spin::Mutex;
use bit_set::BitSet;
use alloc::{boxed::Box, Vec, BTreeMap, rc::{Rc, Weak}};
use core::cell::{RefCell, RefMut};
use dirty::Dirty;
use super::structs::*;
use super::vfs;
use core::mem::{uninitialized, size_of};
use core::slice;

/// Interface for SFS to read & write
///     TODO: use std::io::{Read, Write}
pub trait Device {
    fn read_at(&mut self, offset: usize, buf: &mut [u8]) -> Option<usize>;
    fn write_at(&mut self, offset: usize, buf: &[u8]) -> Option<usize>;

    // Helper functions

    fn read_block(&mut self, id: BlockId, offset: usize, buf: &mut [u8]) -> Result<(),()> {
        debug_assert!(offset + buf.len() <= BLKSIZE);
        match self.read_at(id * BLKSIZE + offset, buf) {
            Some(len) if len == buf.len() => Ok(()),
            _ => Err(()),
        }
    }
    fn write_block(&mut self, id: BlockId, offset: usize, buf: &[u8]) -> Result<(),()> {
        debug_assert!(offset + buf.len() <= BLKSIZE);
        match self.write_at(id * BLKSIZE + offset, buf) {
            Some(len) if len == buf.len() => Ok(()),
            _ => Err(()),
        }
    }
}

/// inode for sfs
pub struct INode {
    /// on-disk inode
    disk_inode: Dirty<DiskINode>,
    /// inode number
    id: INodeId,
    /// Reference to SFS, used by almost all operations
    fs: Rc<RefCell<SimpleFileSystem>>,
}

impl INode {
    /// Map file block id to disk block id
    fn disk_block_id(&self, file_block_id: BlockId) -> Option<BlockId> {
        match file_block_id {
            id if id >= self.disk_inode.blocks as BlockId =>
                None,
            id if id < NDIRECT =>
                Some(self.disk_inode.direct[id] as BlockId),
            id if id < NDIRECT + BLK_NENTRY => {
                let mut disk_block_id: BlockId = 0;
                self.fs.borrow_mut().device.read_block(
                    self.disk_inode.indirect as usize,
                    ENTRY_SIZE * (id - NDIRECT),
                    disk_block_id.as_buf_mut()
                ).unwrap();
                Some(disk_block_id as BlockId)
            },
            id => unimplemented!("double indirect blocks is not supported"),
        }
    }
}

impl vfs::INode for INode {
    fn open(&mut self, flags: u32) -> Result<(), ()> {
        // Do nothing
        Ok(())
    }
    fn close(&mut self) -> Result<(), ()> {
        self.sync()
    }
    fn read_at(&mut self, offset: usize, buf: &mut [u8]) -> Option<usize> {
        let mut fs = self.fs.borrow_mut();

        let iter = BlockIter {
            begin: offset,
            end: offset + buf.len(),
        };

        // Read for each block
        let mut buf_offset = 0usize;
        for BlockRange{block, begin, end} in iter {
            if let Some(disk_block_id) = self.disk_block_id(block) {
                let len = end - begin;
                fs.device.read_block(disk_block_id, begin, &mut buf[buf_offset .. buf_offset + len]);
                buf_offset += len;
            } else {
                // Failed this time
                break;
            }
        }
        Some(buf_offset)
    }
    fn write_at(&mut self, offset: usize, buf: &[u8]) -> Option<usize> {
        let mut fs = self.fs.borrow_mut();

        let iter = BlockIter {
            begin: offset,
            end: offset + buf.len(),
        };

        // Read for each block
        let mut buf_offset = 0usize;
        for BlockRange{block, begin, end} in iter {
            if let Some(disk_block_id) = self.disk_block_id(block) {
                let len = end - begin;
                fs.device.write_block(disk_block_id, begin, &buf[buf_offset .. buf_offset + len]);
                buf_offset += len;
            } else {
                // Failed this time
                break;
            }
        }
        Some(buf_offset)
    }
    fn sync(&mut self) -> Result<(), ()> {
        if self.disk_inode.dirty() {
            let mut fs = self.fs.borrow_mut();
            fs.device.write_block(self.id, 0, self.disk_inode.as_buf())?;
            self.disk_inode.sync();
        }
        Ok(())
    }
}

/// Given a range and iterate sub-range for each block
struct BlockIter {
    begin: usize,
    end: usize,
}

struct BlockRange {
    block: BlockId,
    begin: usize,
    end: usize,
}

impl Iterator for BlockIter {
    type Item = BlockRange;

    fn next(&mut self) -> Option<<Self as Iterator>::Item> {
        if self.begin >= self.end {
            return None;
        }
        let block = self.begin / BLKSIZE;
        let begin = self.begin % BLKSIZE;
        let end = if block == self.end / BLKSIZE {self.end % BLKSIZE} else {BLKSIZE};
        self.begin += end - begin;
        Some(BlockRange {block, begin, end})
    }
}


/// filesystem for sfs
pub struct SimpleFileSystem {
    /// on-disk superblock
    super_block: Dirty<SuperBlock>,
    /// blocks in use are mared 0
    free_map: BitSet,
    /// inode list
    inodes: BTreeMap<INodeId, Rc<INode>>,
    /// device
    device: Box<Device>,
}

impl SimpleFileSystem {
    /// Create a new SFS with device
    pub fn new(mut device: Box<Device>) -> Option<Self> {
        let mut super_block: SuperBlock = unsafe{ uninitialized() };
        if device.read_at(BLKN_SUPER * BLKSIZE, super_block.as_buf_mut()).is_none() {
            return None;
        }
        if super_block.check() == false {
            return None;
        }

        Some(SimpleFileSystem {
            super_block: Dirty::new(super_block),
            free_map: BitSet::new(),
            inodes: BTreeMap::<INodeId, Rc<INode>>::new(),
            device,
        })
    }
    /// Allocate a block, return block id
    fn alloc_block(&mut self) -> Option<usize> {
        let id = self.free_map.alloc();
        if id.is_some() {
            self.super_block.unused_blocks -= 1;    // will panic if underflow
        }
        id
    }
    /// Free a block
    fn free_block(&mut self, block_id: usize) {
        assert!(!self.free_map.contains(block_id));
        self.free_map.insert(block_id);
        self.super_block.unused_blocks += 1;
    }
    /// Get inode by id
    fn get_inode(&self, id: INodeId) -> Option<Rc<INode>> {
        self.inodes.get(&id).map(|rc| rc.clone())
    }
    /// Write back super block if dirty
    fn sync(&mut self) {
        let SimpleFileSystem {
            ref mut super_block,
            ref mut device,
            ..
        } = self;

        if super_block.dirty() {
            device.write_at(0, super_block.as_buf());
            super_block.sync();
        }
    }
}

impl vfs::FileSystem for SimpleFileSystem {
    type INode = INode;

    fn sync(&mut self) -> Result<(), ()> {
        unimplemented!()
    }

    fn root_inode(&mut self) -> Rc<INode> {
        unimplemented!()
    }

    fn unmount(&mut self) -> Result<(), ()> {
        unimplemented!()
    }

    fn cleanup(&mut self) {
        unimplemented!()
    }
}

trait BitsetAlloc {
    fn alloc(&mut self) -> Option<usize>;
}

impl BitsetAlloc for BitSet {
    fn alloc(&mut self) -> Option<usize> {
        // TODO: more efficient
        let id = (0 .. self.len()).find(|&i| self.contains(i));
        if let Some(id) = id {
            self.remove(id);
        }
        id
    }
}

#[cfg(test)]
mod test {
    use super::*;
}
Create SFS and check magic. 7 years ago			`use spin::Mutex;`
			`use bit_set::BitSet;`
Impl some INode functions. 7 years ago			`use alloc::{boxed::Box, Vec, BTreeMap, rc::{Rc, Weak}};`
			`use core::cell::{RefCell, RefMut};`
Add Dirty wrapper. Add some functions without test. 7 years ago			`use dirty::Dirty;`
Create SFS and check magic. 7 years ago			`use super::structs::*;`
Impl some INode functions. 7 years ago			`use super::vfs;`
Create SFS and check magic. 7 years ago			`use core::mem::{uninitialized, size_of};`
			`use core::slice;`

			`/// Interface for SFS to read & write`
			`/// TODO: use std::io::{Read, Write}`
			`pub trait Device {`
Impl some INode functions. 7 years ago			`fn read_at(&mut self, offset: usize, buf: &mut [u8]) -> Option<usize>;`
			`fn write_at(&mut self, offset: usize, buf: &[u8]) -> Option<usize>;`

			`// Helper functions`

			`fn read_block(&mut self, id: BlockId, offset: usize, buf: &mut [u8]) -> Result<(),()> {`
			`debug_assert!(offset + buf.len() <= BLKSIZE);`
			`match self.read_at(id * BLKSIZE + offset, buf) {`
			`Some(len) if len == buf.len() => Ok(()),`
			`_ => Err(()),`
			`}`
			`}`
			`fn write_block(&mut self, id: BlockId, offset: usize, buf: &[u8]) -> Result<(),()> {`
			`debug_assert!(offset + buf.len() <= BLKSIZE);`
			`match self.write_at(id * BLKSIZE + offset, buf) {`
			`Some(len) if len == buf.len() => Ok(()),`
			`_ => Err(()),`
			`}`
			`}`
Create SFS and check magic. 7 years ago			`}`

			`/// inode for sfs`
Add Dirty wrapper. Add some functions without test. 7 years ago			`pub struct INode {`
Create SFS and check magic. 7 years ago			`/// on-disk inode`
Add Dirty wrapper. Add some functions without test. 7 years ago			`disk_inode: Dirty<DiskINode>,`
Create SFS and check magic. 7 years ago			`/// inode number`
Add Dirty wrapper. Add some functions without test. 7 years ago			`id: INodeId,`
Impl some INode functions. 7 years ago			`/// Reference to SFS, used by almost all operations`
			`fs: Rc<RefCell<SimpleFileSystem>>,`
			`}`

			`impl INode {`
			`/// Map file block id to disk block id`
			`fn disk_block_id(&self, file_block_id: BlockId) -> Option<BlockId> {`
			`match file_block_id {`
			`id if id >= self.disk_inode.blocks as BlockId =>`
			`None,`
			`id if id < NDIRECT =>`
			`Some(self.disk_inode.direct[id] as BlockId),`
			`id if id < NDIRECT + BLK_NENTRY => {`
			`let mut disk_block_id: BlockId = 0;`
			`self.fs.borrow_mut().device.read_block(`
			`self.disk_inode.indirect as usize,`
			`ENTRY_SIZE * (id - NDIRECT),`
			`disk_block_id.as_buf_mut()`
			`).unwrap();`
			`Some(disk_block_id as BlockId)`
			`},`
			`id => unimplemented!("double indirect blocks is not supported"),`
			`}`
			`}`
			`}`

			`impl vfs::INode for INode {`
			`fn open(&mut self, flags: u32) -> Result<(), ()> {`
			`// Do nothing`
			`Ok(())`
			`}`
			`fn close(&mut self) -> Result<(), ()> {`
			`self.sync()`
			`}`
			`fn read_at(&mut self, offset: usize, buf: &mut [u8]) -> Option<usize> {`
			`let mut fs = self.fs.borrow_mut();`

			`let iter = BlockIter {`
			`begin: offset,`
			`end: offset + buf.len(),`
			`};`

			`// Read for each block`
			`let mut buf_offset = 0usize;`
			`for BlockRange{block, begin, end} in iter {`
			`if let Some(disk_block_id) = self.disk_block_id(block) {`
			`let len = end - begin;`
			`fs.device.read_block(disk_block_id, begin, &mut buf[buf_offset .. buf_offset + len]);`
			`buf_offset += len;`
			`} else {`
			`// Failed this time`
			`break;`
			`}`
			`}`
			`Some(buf_offset)`
			`}`
			`fn write_at(&mut self, offset: usize, buf: &[u8]) -> Option<usize> {`
			`let mut fs = self.fs.borrow_mut();`

			`let iter = BlockIter {`
			`begin: offset,`
			`end: offset + buf.len(),`
			`};`

			`// Read for each block`
			`let mut buf_offset = 0usize;`
			`for BlockRange{block, begin, end} in iter {`
			`if let Some(disk_block_id) = self.disk_block_id(block) {`
			`let len = end - begin;`
			`fs.device.write_block(disk_block_id, begin, &buf[buf_offset .. buf_offset + len]);`
			`buf_offset += len;`
			`} else {`
			`// Failed this time`
			`break;`
			`}`
			`}`
			`Some(buf_offset)`
			`}`
			`fn sync(&mut self) -> Result<(), ()> {`
			`if self.disk_inode.dirty() {`
			`let mut fs = self.fs.borrow_mut();`
			`fs.device.write_block(self.id, 0, self.disk_inode.as_buf())?;`
			`self.disk_inode.sync();`
			`}`
			`Ok(())`
			`}`
			`}`

			`/// Given a range and iterate sub-range for each block`
			`struct BlockIter {`
			`begin: usize,`
			`end: usize,`
			`}`

			`struct BlockRange {`
			`block: BlockId,`
			`begin: usize,`
			`end: usize,`
			`}`

			`impl Iterator for BlockIter {`
			`type Item = BlockRange;`

			`fn next(&mut self) -> Option<<Self as Iterator>::Item> {`
			`if self.begin >= self.end {`
			`return None;`
			`}`
			`let block = self.begin / BLKSIZE;`
			`let begin = self.begin % BLKSIZE;`
			`let end = if block == self.end / BLKSIZE {self.end % BLKSIZE} else {BLKSIZE};`
			`self.begin += end - begin;`
			`Some(BlockRange {block, begin, end})`
			`}`
Create SFS and check magic. 7 years ago			`}`

Add Dirty wrapper. Add some functions without test. 7 years ago
Create SFS and check magic. 7 years ago			`/// filesystem for sfs`
			`pub struct SimpleFileSystem {`
			`/// on-disk superblock`
Add Dirty wrapper. Add some functions without test. 7 years ago			`super_block: Dirty<SuperBlock>,`
Create SFS and check magic. 7 years ago			`/// blocks in use are mared 0`
			`free_map: BitSet,`
			`/// inode list`
Add Dirty wrapper. Add some functions without test. 7 years ago			`inodes: BTreeMap<INodeId, Rc<INode>>,`
Create SFS and check magic. 7 years ago			`/// device`
Add Dirty wrapper. Add some functions without test. 7 years ago			`device: Box<Device>,`
Create SFS and check magic. 7 years ago			`}`

			`impl SimpleFileSystem {`
			`/// Create a new SFS with device`
			`pub fn new(mut device: Box<Device>) -> Option<Self> {`
			`let mut super_block: SuperBlock = unsafe{ uninitialized() };`
Impl some INode functions. 7 years ago			`if device.read_at(BLKN_SUPER * BLKSIZE, super_block.as_buf_mut()).is_none() {`
Create SFS and check magic. 7 years ago			`return None;`
			`}`
			`if super_block.check() == false {`
			`return None;`
			`}`

			`Some(SimpleFileSystem {`
Add Dirty wrapper. Add some functions without test. 7 years ago			`super_block: Dirty::new(super_block),`
Create SFS and check magic. 7 years ago			`free_map: BitSet::new(),`
Add Dirty wrapper. Add some functions without test. 7 years ago			`inodes: BTreeMap::<INodeId, Rc<INode>>::new(),`
			`device,`
Create SFS and check magic. 7 years ago			`})`
			`}`
Add Dirty wrapper. Add some functions without test. 7 years ago			`/// Allocate a block, return block id`
			`fn alloc_block(&mut self) -> Option<usize> {`
			`let id = self.free_map.alloc();`
			`if id.is_some() {`
			`self.super_block.unused_blocks -= 1; // will panic if underflow`
			`}`
			`id`
			`}`
			`/// Free a block`
			`fn free_block(&mut self, block_id: usize) {`
			`assert!(!self.free_map.contains(block_id));`
			`self.free_map.insert(block_id);`
			`self.super_block.unused_blocks += 1;`
			`}`
			`/// Get inode by id`
			`fn get_inode(&self, id: INodeId) -> Option<Rc<INode>> {`
			`self.inodes.get(&id).map(\|rc\| rc.clone())`
			`}`
			`/// Write back super block if dirty`
			`fn sync(&mut self) {`
			`let SimpleFileSystem {`
			`ref mut super_block,`
			`ref mut device,`
			`..`
			`} = self;`

			`if super_block.dirty() {`
			`device.write_at(0, super_block.as_buf());`
			`super_block.sync();`
			`}`
			`}`
			`}`

Impl some INode functions. 7 years ago			`impl vfs::FileSystem for SimpleFileSystem {`
			`type INode = INode;`

			`fn sync(&mut self) -> Result<(), ()> {`
			`unimplemented!()`
			`}`

			`fn root_inode(&mut self) -> Rc<INode> {`
			`unimplemented!()`
			`}`

			`fn unmount(&mut self) -> Result<(), ()> {`
			`unimplemented!()`
			`}`

			`fn cleanup(&mut self) {`
			`unimplemented!()`
			`}`
			`}`

Add Dirty wrapper. Add some functions without test. 7 years ago			`trait BitsetAlloc {`
			`fn alloc(&mut self) -> Option<usize>;`
			`}`

			`impl BitsetAlloc for BitSet {`
			`fn alloc(&mut self) -> Option<usize> {`
			`// TODO: more efficient`
			`let id = (0 .. self.len()).find(\|&i\| self.contains(i));`
			`if let Some(id) = id {`
			`self.remove(id);`
			`}`
			`id`
			`}`
			`}`

			`#[cfg(test)]`
			`mod test {`
			`use super::*;`
Create SFS and check magic. 7 years ago			`}`