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Substituted to the original ch7 code.

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This commit is contained in:
Yifan Wu 2022-01-18 02:48:50 -08:00
parent 4fdd55e2e8
commit 57f7debbc6
50 changed files with 2786 additions and 128 deletions
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3
easy-fs-fuse/.gitignore vendored Normal file
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.idea/
target/
Cargo.lock

12
easy-fs-fuse/Cargo.toml Normal file
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[package]
name = "easy-fs-fuse"
version = "0.1.0"
authors = ["Yifan Wu <shinbokuow@163.com>"]
edition = "2018"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
clap = "2.33.3"
easy-fs = { path = "../easy-fs" }
rand = "0.8.0"

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use easy_fs::{
BlockDevice,
EasyFileSystem,
};
use std::fs::{File, OpenOptions, read_dir};
use std::io::{Read, Write, Seek, SeekFrom};
use std::sync::Mutex;
use std::sync::Arc;
use clap::{Arg, App};
const BLOCK_SZ: usize = 512;
struct BlockFile(Mutex<File>);
impl BlockDevice for BlockFile {
fn read_block(&self, block_id: usize, buf: &mut [u8]) {
let mut file = self.0.lock().unwrap();
file.seek(SeekFrom::Start((block_id * BLOCK_SZ) as u64))
.expect("Error when seeking!");
assert_eq!(file.read(buf).unwrap(), BLOCK_SZ, "Not a complete block!");
}
fn write_block(&self, block_id: usize, buf: &[u8]) {
let mut file = self.0.lock().unwrap();
file.seek(SeekFrom::Start((block_id * BLOCK_SZ) as u64))
.expect("Error when seeking!");
assert_eq!(file.write(buf).unwrap(), BLOCK_SZ, "Not a complete block!");
}
}
fn main() {
easy_fs_pack().expect("Error when packing easy-fs!");
}
fn easy_fs_pack() -> std::io::Result<()> {
let matches = App::new("EasyFileSystem packer")
.arg(Arg::with_name("source")
.short("s")
.long("source")
.takes_value(true)
.help("Executable source dir(with backslash)")
)
.arg(Arg::with_name("target")
.short("t")
.long("target")
.takes_value(true)
.help("Executable target dir(with backslash)")
)
.get_matches();
let src_path = matches.value_of("source").unwrap();
let target_path = matches.value_of("target").unwrap();
println!("src_path = {}\ntarget_path = {}", src_path, target_path);
let block_file = Arc::new(BlockFile(Mutex::new({
let f = OpenOptions::new()
.read(true)
.write(true)
.create(true)
.open(format!("{}{}", target_path, "fs.img"))?;
f.set_len(16 * 2048 * 512).unwrap();
f
})));
// 16MiB, at most 4095 files
let efs = EasyFileSystem::create(
block_file.clone(),
16 * 2048,
1,
);
let root_inode = Arc::new(EasyFileSystem::root_inode(&efs));
let apps: Vec<_> = read_dir(src_path)
.unwrap()
.into_iter()
.map(|dir_entry| {
let mut name_with_ext = dir_entry.unwrap().file_name().into_string().unwrap();
name_with_ext.drain(name_with_ext.find('.').unwrap()..name_with_ext.len());
name_with_ext
})
.collect();
for app in apps {
// load app data from host file system
let mut host_file = File::open(format!("{}{}", target_path, app)).unwrap();
let mut all_data: Vec<u8> = Vec::new();
host_file.read_to_end(&mut all_data).unwrap();
// create a file in easy-fs
let inode = root_inode.create(app.as_str()).unwrap();
// write data to easy-fs
inode.write_at(0, all_data.as_slice());
}
// list apps
for app in root_inode.ls() {
println!("{}", app);
}
Ok(())
}
#[test]
fn efs_test() -> std::io::Result<()> {
let block_file = Arc::new(BlockFile(Mutex::new({
let f = OpenOptions::new()
.read(true)
.write(true)
.create(true)
.open("target/fs.img")?;
f.set_len(8192 * 512).unwrap();
f
})));
EasyFileSystem::create(
block_file.clone(),
4096,
1,
);
let efs = EasyFileSystem::open(block_file.clone());
let root_inode = EasyFileSystem::root_inode(&efs);
root_inode.create("filea");
root_inode.create("fileb");
for name in root_inode.ls() {
println!("{}", name);
}
let filea = root_inode.find("filea").unwrap();
let greet_str = "Hello, world!";
filea.write_at(0, greet_str.as_bytes());
//let mut buffer = [0u8; 512];
let mut buffer = [0u8; 233];
let len = filea.read_at(0, &mut buffer);
assert_eq!(
greet_str,
core::str::from_utf8(&buffer[..len]).unwrap(),
);
let mut random_str_test = |len: usize| {
filea.clear();
assert_eq!(
filea.read_at(0, &mut buffer),
0,
);
let mut str = String::new();
use rand;
// random digit
for _ in 0..len {
str.push(char::from('0' as u8 + rand::random::<u8>() % 10));
}
filea.write_at(0, str.as_bytes());
let mut read_buffer = [0u8; 127];
let mut offset = 0usize;
let mut read_str = String::new();
loop {
let len = filea.read_at(offset, &mut read_buffer);
if len == 0 {
break;
}
offset += len;
read_str.push_str(
core::str::from_utf8(&read_buffer[..len]).unwrap()
);
}
assert_eq!(str, read_str);
};
random_str_test(4 * BLOCK_SZ);
random_str_test(8 * BLOCK_SZ + BLOCK_SZ / 2);
random_str_test(100 * BLOCK_SZ);
random_str_test(70 * BLOCK_SZ + BLOCK_SZ / 7);
random_str_test((12 + 128) * BLOCK_SZ);
random_str_test(400 * BLOCK_SZ);
random_str_test(1000 * BLOCK_SZ);
random_str_test(2000 * BLOCK_SZ);
Ok(())
}

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.idea/
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Cargo.lock

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[package]
name = "easy-fs"
version = "0.1.0"
authors = ["Yifan Wu <shinbokuow@163.com>"]
edition = "2018"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
spin = "0.7.0"
lazy_static = { version = "1.4.0", features = ["spin_no_std"] }

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use alloc::sync::Arc;
use super::{
BlockDevice,
BLOCK_SZ,
get_block_cache,
};
type BitmapBlock = [u64; 64];
const BLOCK_BITS: usize = BLOCK_SZ * 8;
pub struct Bitmap {
start_block_id: usize,
blocks: usize,
}
/// Return (block_pos, bits64_pos, inner_pos)
fn decomposition(mut bit: usize) -> (usize, usize, usize) {
let block_pos = bit / BLOCK_BITS;
bit = bit % BLOCK_BITS;
(block_pos, bit / 64, bit % 64)
}
impl Bitmap {
pub fn new(start_block_id: usize, blocks: usize) -> Self {
Self {
start_block_id,
blocks,
}
}
pub fn alloc(&self, block_device: &Arc<dyn BlockDevice>) -> Option<usize> {
for block_id in 0..self.blocks {
let pos = get_block_cache(
block_id + self.start_block_id as usize,
Arc::clone(block_device),
).lock().modify(0, |bitmap_block: &mut BitmapBlock| {
if let Some((bits64_pos, inner_pos)) = bitmap_block
.iter()
.enumerate()
.find(|(_, bits64)| **bits64 != u64::MAX)
.map(|(bits64_pos, bits64)| {
(bits64_pos, bits64.trailing_ones() as usize)
}) {
// modify cache
bitmap_block[bits64_pos] |= 1u64 << inner_pos;
Some(block_id * BLOCK_BITS + bits64_pos * 64 + inner_pos as usize)
} else {
None
}
});
if pos.is_some() {
return pos;
}
}
None
}
pub fn dealloc(&self, block_device: &Arc<dyn BlockDevice>, bit: usize) {
let (block_pos, bits64_pos, inner_pos) = decomposition(bit);
get_block_cache(
block_pos + self.start_block_id,
Arc::clone(block_device)
).lock().modify(0, |bitmap_block: &mut BitmapBlock| {
assert!(bitmap_block[bits64_pos] & (1u64 << inner_pos) > 0);
bitmap_block[bits64_pos] -= 1u64 << inner_pos;
});
}
pub fn maximum(&self) -> usize {
self.blocks * BLOCK_BITS
}
}

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use super::{
BLOCK_SZ,
BlockDevice,
};
use alloc::collections::VecDeque;
use alloc::sync::Arc;
use lazy_static::*;
use spin::Mutex;
pub struct BlockCache {
cache: [u8; BLOCK_SZ],
block_id: usize,
block_device: Arc<dyn BlockDevice>,
modified: bool,
}
impl BlockCache {
/// Load a new BlockCache from disk.
pub fn new(
block_id: usize,
block_device: Arc<dyn BlockDevice>
) -> Self {
let mut cache = [0u8; BLOCK_SZ];
block_device.read_block(block_id, &mut cache);
Self {
cache,
block_id,
block_device,
modified: false,
}
}
fn addr_of_offset(&self, offset: usize) -> usize {
&self.cache[offset] as *const _ as usize
}
pub fn get_ref<T>(&self, offset: usize) -> &T where T: Sized {
let type_size = core::mem::size_of::<T>();
assert!(offset + type_size <= BLOCK_SZ);
let addr = self.addr_of_offset(offset);
unsafe { &*(addr as *const T) }
}
pub fn get_mut<T>(&mut self, offset: usize) -> &mut T where T: Sized {
let type_size = core::mem::size_of::<T>();
assert!(offset + type_size <= BLOCK_SZ);
self.modified = true;
let addr = self.addr_of_offset(offset);
unsafe { &mut *(addr as *mut T) }
}
pub fn read<T, V>(&self, offset: usize, f: impl FnOnce(&T) -> V) -> V {
f(self.get_ref(offset))
}
pub fn modify<T, V>(&mut self, offset:usize, f: impl FnOnce(&mut T) -> V) -> V {
f(self.get_mut(offset))
}
pub fn sync(&mut self) {
if self.modified {
self.modified = false;
self.block_device.write_block(self.block_id, &self.cache);
}
}
}
impl Drop for BlockCache {
fn drop(&mut self) {
self.sync()
}
}
const BLOCK_CACHE_SIZE: usize = 16;
pub struct BlockCacheManager {
queue: VecDeque<(usize, Arc<Mutex<BlockCache>>)>,
}
impl BlockCacheManager {
pub fn new() -> Self {
Self { queue: VecDeque::new() }
}
pub fn get_block_cache(
&mut self,
block_id: usize,
block_device: Arc<dyn BlockDevice>,
) -> Arc<Mutex<BlockCache>> {
if let Some(pair) = self.queue
.iter()
.find(|pair| pair.0 == block_id) {
Arc::clone(&pair.1)
} else {
// substitute
if self.queue.len() == BLOCK_CACHE_SIZE {
// from front to tail
if let Some((idx, _)) = self.queue
.iter()
.enumerate()
.find(|(_, pair)| Arc::strong_count(&pair.1) == 1) {
self.queue.drain(idx..=idx);
} else {
panic!("Run out of BlockCache!");
}
}
// load block into mem and push back
let block_cache = Arc::new(Mutex::new(
BlockCache::new(block_id, Arc::clone(&block_device))
));
self.queue.push_back((block_id, Arc::clone(&block_cache)));
block_cache
}
}
}
lazy_static! {
pub static ref BLOCK_CACHE_MANAGER: Mutex<BlockCacheManager> = Mutex::new(
BlockCacheManager::new()
);
}
pub fn get_block_cache(
block_id: usize,
block_device: Arc<dyn BlockDevice>
) -> Arc<Mutex<BlockCache>> {
BLOCK_CACHE_MANAGER.lock().get_block_cache(block_id, block_device)
}
pub fn block_cache_sync_all() {
let manager = BLOCK_CACHE_MANAGER.lock();
for (_, cache) in manager.queue.iter() {
cache.lock().sync();
}
}

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use core::any::Any;
pub trait BlockDevice : Send + Sync + Any {
fn read_block(&self, block_id: usize, buf: &mut [u8]);
fn write_block(&self, block_id: usize, buf: &[u8]);
}

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use alloc::sync::Arc;
use spin::Mutex;
use super::{
BlockDevice,
Bitmap,
SuperBlock,
DiskInode,
DiskInodeType,
Inode,
get_block_cache,
block_cache_sync_all,
};
use crate::BLOCK_SZ;
pub struct EasyFileSystem {
pub block_device: Arc<dyn BlockDevice>,
pub inode_bitmap: Bitmap,
pub data_bitmap: Bitmap,
inode_area_start_block: u32,
data_area_start_block: u32,
}
type DataBlock = [u8; BLOCK_SZ];
impl EasyFileSystem {
pub fn create(
block_device: Arc<dyn BlockDevice>,
total_blocks: u32,
inode_bitmap_blocks: u32,
) -> Arc<Mutex<Self>> {
// calculate block size of areas & create bitmaps
let inode_bitmap = Bitmap::new(1, inode_bitmap_blocks as usize);
let inode_num = inode_bitmap.maximum();
let inode_area_blocks =
((inode_num * core::mem::size_of::<DiskInode>() + BLOCK_SZ - 1) / BLOCK_SZ) as u32;
let inode_total_blocks = inode_bitmap_blocks + inode_area_blocks;
let data_total_blocks = total_blocks - 1 - inode_total_blocks;
let data_bitmap_blocks = (data_total_blocks + 4096) / 4097;
let data_area_blocks = data_total_blocks - data_bitmap_blocks;
let data_bitmap = Bitmap::new(
(1 + inode_bitmap_blocks + inode_area_blocks) as usize,
data_bitmap_blocks as usize,
);
let mut efs = Self {
block_device: Arc::clone(&block_device),
inode_bitmap,
data_bitmap,
inode_area_start_block: 1 + inode_bitmap_blocks,
data_area_start_block: 1 + inode_total_blocks + data_bitmap_blocks,
};
// clear all blocks
for i in 0..total_blocks {
get_block_cache(
i as usize,
Arc::clone(&block_device)
)
.lock()
.modify(0, |data_block: &mut DataBlock| {
for byte in data_block.iter_mut() { *byte = 0; }
});
}
// initialize SuperBlock
get_block_cache(0, Arc::clone(&block_device))
.lock()
.modify(0, |super_block: &mut SuperBlock| {
super_block.initialize(
total_blocks,
inode_bitmap_blocks,
inode_area_blocks,
data_bitmap_blocks,
data_area_blocks,
);
});
// write back immediately
// create a inode for root node "/"
assert_eq!(efs.alloc_inode(), 0);
let (root_inode_block_id, root_inode_offset) = efs.get_disk_inode_pos(0);
get_block_cache(
root_inode_block_id as usize,
Arc::clone(&block_device)
)
.lock()
.modify(root_inode_offset, |disk_inode: &mut DiskInode| {
disk_inode.initialize(DiskInodeType::Directory);
});
block_cache_sync_all();
Arc::new(Mutex::new(efs))
}
pub fn open(block_device: Arc<dyn BlockDevice>) -> Arc<Mutex<Self>> {
// read SuperBlock
get_block_cache(0, Arc::clone(&block_device))
.lock()
.read(0, |super_block: &SuperBlock| {
assert!(super_block.is_valid(), "Error loading EFS!");
let inode_total_blocks =
super_block.inode_bitmap_blocks + super_block.inode_area_blocks;
let efs = Self {
block_device,
inode_bitmap: Bitmap::new(
1,
super_block.inode_bitmap_blocks as usize
),
data_bitmap: Bitmap::new(
(1 + inode_total_blocks) as usize,
super_block.data_bitmap_blocks as usize,
),
inode_area_start_block: 1 + super_block.inode_bitmap_blocks,
data_area_start_block: 1 + inode_total_blocks + super_block.data_bitmap_blocks,
};
Arc::new(Mutex::new(efs))
})
}
pub fn root_inode(efs: &Arc<Mutex<Self>>) -> Inode {
let block_device = Arc::clone(&efs.lock().block_device);
// acquire efs lock temporarily
let (block_id, block_offset) = efs.lock().get_disk_inode_pos(0);
// release efs lock
Inode::new(
block_id,
block_offset,
Arc::clone(efs),
block_device,
)
}
pub fn get_disk_inode_pos(&self, inode_id: u32) -> (u32, usize) {
let inode_size = core::mem::size_of::<DiskInode>();
let inodes_per_block = (BLOCK_SZ / inode_size) as u32;
let block_id = self.inode_area_start_block + inode_id / inodes_per_block;
(block_id, (inode_id % inodes_per_block) as usize * inode_size)
}
pub fn get_data_block_id(&self, data_block_id: u32) -> u32 {
self.data_area_start_block + data_block_id
}
pub fn alloc_inode(&mut self) -> u32 {
self.inode_bitmap.alloc(&self.block_device).unwrap() as u32
}
/// Return a block ID not ID in the data area.
pub fn alloc_data(&mut self) -> u32 {
self.data_bitmap.alloc(&self.block_device).unwrap() as u32 + self.data_area_start_block
}
pub fn dealloc_data(&mut self, block_id: u32) {
get_block_cache(
block_id as usize,
Arc::clone(&self.block_device)
)
.lock()
.modify(0, |data_block: &mut DataBlock| {
data_block.iter_mut().for_each(|p| { *p = 0; })
});
self.data_bitmap.dealloc(
&self.block_device,
(block_id - self.data_area_start_block) as usize
)
}
}

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use core::fmt::{Debug, Formatter, Result};
use super::{
BLOCK_SZ,
BlockDevice,
get_block_cache,
};
use alloc::sync::Arc;
use alloc::vec::Vec;
const EFS_MAGIC: u32 = 0x3b800001;
const INODE_DIRECT_COUNT: usize = 28;
const NAME_LENGTH_LIMIT: usize = 27;
const INODE_INDIRECT1_COUNT: usize = BLOCK_SZ / 4;
const INODE_INDIRECT2_COUNT: usize = INODE_INDIRECT1_COUNT * INODE_INDIRECT1_COUNT;
const DIRECT_BOUND: usize = INODE_DIRECT_COUNT;
const INDIRECT1_BOUND: usize = DIRECT_BOUND + INODE_INDIRECT1_COUNT;
#[allow(unused)]
const INDIRECT2_BOUND: usize = INDIRECT1_BOUND + INODE_INDIRECT2_COUNT;
#[repr(C)]
pub struct SuperBlock {
magic: u32,
pub total_blocks: u32,
pub inode_bitmap_blocks: u32,
pub inode_area_blocks: u32,
pub data_bitmap_blocks: u32,
pub data_area_blocks: u32,
}
impl Debug for SuperBlock {
fn fmt(&self, f: &mut Formatter<'_>) -> Result {
f.debug_struct("SuperBlock")
.field("total_blocks", &self.total_blocks)
.field("inode_bitmap_blocks", &self.inode_bitmap_blocks)
.field("inode_area_blocks", &self.inode_area_blocks)
.field("data_bitmap_blocks", &self.data_bitmap_blocks)
.field("data_area_blocks", &self.data_area_blocks)
.finish()
}
}
impl SuperBlock {
pub fn initialize(
&mut self,
total_blocks: u32,
inode_bitmap_blocks: u32,
inode_area_blocks: u32,
data_bitmap_blocks: u32,
data_area_blocks: u32,
) {
*self = Self {
magic: EFS_MAGIC,
total_blocks,
inode_bitmap_blocks,
inode_area_blocks,
data_bitmap_blocks,
data_area_blocks,
}
}
pub fn is_valid(&self) -> bool {
self.magic == EFS_MAGIC
}
}
#[derive(PartialEq)]
pub enum DiskInodeType {
File,
Directory,
}
type IndirectBlock = [u32; BLOCK_SZ / 4];
type DataBlock = [u8; BLOCK_SZ];
#[repr(C)]
pub struct DiskInode {
pub size: u32,
pub direct: [u32; INODE_DIRECT_COUNT],
pub indirect1: u32,
pub indirect2: u32,
type_: DiskInodeType,
}
impl DiskInode {
/// indirect1 and indirect2 block are allocated only when they are needed.
pub fn initialize(&mut self, type_: DiskInodeType) {
self.size = 0;
self.direct.iter_mut().for_each(|v| *v = 0);
self.indirect1 = 0;
self.indirect2 = 0;
self.type_ = type_;
}
pub fn is_dir(&self) -> bool {
self.type_ == DiskInodeType::Directory
}
#[allow(unused)]
pub fn is_file(&self) -> bool {
self.type_ == DiskInodeType::File
}
/// Return block number correspond to size.
pub fn data_blocks(&self) -> u32 {
Self::_data_blocks(self.size)
}
fn _data_blocks(size: u32) -> u32 {
(size + BLOCK_SZ as u32 - 1) / BLOCK_SZ as u32
}
/// Return number of blocks needed include indirect1/2.
pub fn total_blocks(size: u32) -> u32 {
let data_blocks = Self::_data_blocks(size) as usize;
let mut total = data_blocks as usize;
// indirect1
if data_blocks > INODE_DIRECT_COUNT {
total += 1;
}
// indirect2
if data_blocks > INDIRECT1_BOUND {
total += 1;
// sub indirect1
total += (data_blocks - INDIRECT1_BOUND + INODE_INDIRECT1_COUNT - 1) / INODE_INDIRECT1_COUNT;
}
total as u32
}
pub fn blocks_num_needed(&self, new_size: u32) -> u32 {
assert!(new_size >= self.size);
Self::total_blocks(new_size) - Self::total_blocks(self.size)
}
pub fn get_block_id(&self, inner_id: u32, block_device: &Arc<dyn BlockDevice>) -> u32 {
let inner_id = inner_id as usize;
if inner_id < INODE_DIRECT_COUNT {
self.direct[inner_id]
} else if inner_id < INDIRECT1_BOUND {
get_block_cache(self.indirect1 as usize, Arc::clone(block_device))
.lock()
.read(0, |indirect_block: &IndirectBlock| {
indirect_block[inner_id - INODE_DIRECT_COUNT]
})
} else {
let last = inner_id - INDIRECT1_BOUND;
let indirect1 = get_block_cache(
self.indirect2 as usize,
Arc::clone(block_device)
)
.lock()
.read(0, |indirect2: &IndirectBlock| {
indirect2[last / INODE_INDIRECT1_COUNT]
});
get_block_cache(
indirect1 as usize,
Arc::clone(block_device)
)
.lock()
.read(0, |indirect1: &IndirectBlock| {
indirect1[last % INODE_INDIRECT1_COUNT]
})
}
}
pub fn increase_size(
&mut self,
new_size: u32,
new_blocks: Vec<u32>,
block_device: &Arc<dyn BlockDevice>,
) {
let mut current_blocks = self.data_blocks();
self.size = new_size;
let mut total_blocks = self.data_blocks();
let mut new_blocks = new_blocks.into_iter();
// fill direct
while current_blocks < total_blocks.min(INODE_DIRECT_COUNT as u32) {
self.direct[current_blocks as usize] = new_blocks.next().unwrap();
current_blocks += 1;
}
// alloc indirect1
if total_blocks > INODE_DIRECT_COUNT as u32{
if current_blocks == INODE_DIRECT_COUNT as u32 {
self.indirect1 = new_blocks.next().unwrap();
}
current_blocks -= INODE_DIRECT_COUNT as u32;
total_blocks -= INODE_DIRECT_COUNT as u32;
} else {
return;
}
// fill indirect1
get_block_cache(
self.indirect1 as usize,
Arc::clone(block_device)
)
.lock()
.modify(0, |indirect1: &mut IndirectBlock| {
while current_blocks < total_blocks.min(INODE_INDIRECT1_COUNT as u32) {
indirect1[current_blocks as usize] = new_blocks.next().unwrap();
current_blocks += 1;
}
});
// alloc indirect2
if total_blocks > INODE_INDIRECT1_COUNT as u32 {
if current_blocks == INODE_INDIRECT1_COUNT as u32 {
self.indirect2 = new_blocks.next().unwrap();
}
current_blocks -= INODE_INDIRECT1_COUNT as u32;
total_blocks -= INODE_INDIRECT1_COUNT as u32;
} else {
return;
}
// fill indirect2 from (a0, b0) -> (a1, b1)
let mut a0 = current_blocks as usize / INODE_INDIRECT1_COUNT;
let mut b0 = current_blocks as usize % INODE_INDIRECT1_COUNT;
let a1 = total_blocks as usize / INODE_INDIRECT1_COUNT;
let b1 = total_blocks as usize % INODE_INDIRECT1_COUNT;
// alloc low-level indirect1
get_block_cache(
self.indirect2 as usize,
Arc::clone(block_device)
)
.lock()
.modify(0, |indirect2: &mut IndirectBlock| {
while (a0 < a1) || (a0 == a1 && b0 < b1) {
if b0 == 0 {
indirect2[a0] = new_blocks.next().unwrap();
}
// fill current
get_block_cache(
indirect2[a0] as usize,
Arc::clone(block_device)
)
.lock()
.modify(0, |indirect1: &mut IndirectBlock| {
indirect1[b0] = new_blocks.next().unwrap();
});
// move to next
b0 += 1;
if b0 == INODE_INDIRECT1_COUNT {
b0 = 0;
a0 += 1;
}
}
});
}
/// Clear size to zero and return blocks that should be deallocated.
///
/// We will clear the block contents to zero later.
pub fn clear_size(&mut self, block_device: &Arc<dyn BlockDevice>) -> Vec<u32> {
let mut v: Vec<u32> = Vec::new();
let mut data_blocks = self.data_blocks() as usize;
self.size = 0;
let mut current_blocks = 0usize;
// direct
while current_blocks < data_blocks.min(INODE_DIRECT_COUNT) {
v.push(self.direct[current_blocks]);
self.direct[current_blocks] = 0;
current_blocks += 1;
}
// indirect1 block
if data_blocks > INODE_DIRECT_COUNT {
v.push(self.indirect1);
data_blocks -= INODE_DIRECT_COUNT;
current_blocks = 0;
} else {
return v;
}
// indirect1
get_block_cache(
self.indirect1 as usize,
Arc::clone(block_device),
)
.lock()
.modify(0, |indirect1: &mut IndirectBlock| {
while current_blocks < data_blocks.min(INODE_INDIRECT1_COUNT) {
v.push(indirect1[current_blocks]);
//indirect1[current_blocks] = 0;
current_blocks += 1;
}
});
self.indirect1 = 0;
// indirect2 block
if data_blocks > INODE_INDIRECT1_COUNT {
v.push(self.indirect2);
data_blocks -= INODE_INDIRECT1_COUNT;
} else {
return v;
}
// indirect2
assert!(data_blocks <= INODE_INDIRECT2_COUNT);
let a1 = data_blocks / INODE_INDIRECT1_COUNT;
let b1 = data_blocks % INODE_INDIRECT1_COUNT;
get_block_cache(
self.indirect2 as usize,
Arc::clone(block_device),
)
.lock()
.modify(0, |indirect2: &mut IndirectBlock| {
// full indirect1 blocks
for i in 0..a1 {
v.push(indirect2[i]);
get_block_cache(
indirect2[i] as usize,
Arc::clone(block_device),
)
.lock()
.modify(0, |indirect1: &mut IndirectBlock| {
for j in 0..INODE_INDIRECT1_COUNT {
v.push(indirect1[j]);
//indirect1[j] = 0;
}
});
//indirect2[i] = 0;
}
// last indirect1 block
if b1 > 0 {
v.push(indirect2[a1]);
get_block_cache(
indirect2[a1] as usize,
Arc::clone(block_device),
)
.lock()
.modify(0, |indirect1: &mut IndirectBlock| {
for j in 0..b1 {
v.push(indirect1[j]);
//indirect1[j] = 0;
}
});
//indirect2[a1] = 0;
}
});
self.indirect2 = 0;
v
}
pub fn read_at(
&self,
offset: usize,
buf: &mut [u8],
block_device: &Arc<dyn BlockDevice>,
) -> usize {
let mut start = offset;
let end = (offset + buf.len()).min(self.size as usize);
if start >= end {
return 0;
}
let mut start_block = start / BLOCK_SZ;
let mut read_size = 0usize;
loop {
// calculate end of current block
let mut end_current_block = (start / BLOCK_SZ + 1) * BLOCK_SZ;
end_current_block = end_current_block.min(end);
// read and update read size
let block_read_size = end_current_block - start;
let dst = &mut buf[read_size..read_size + block_read_size];
get_block_cache(
self.get_block_id(start_block as u32, block_device) as usize,
Arc::clone(block_device),
)
.lock()
.read(0, |data_block: &DataBlock| {
let src = &data_block[start % BLOCK_SZ..start % BLOCK_SZ + block_read_size];
dst.copy_from_slice(src);
});
read_size += block_read_size;
// move to next block
if end_current_block == end { break; }
start_block += 1;
start = end_current_block;
}
read_size
}
/// File size must be adjusted before.
pub fn write_at(
&mut self,
offset: usize,
buf: &[u8],
block_device: &Arc<dyn BlockDevice>,
) -> usize {
let mut start = offset;
let end = (offset + buf.len()).min(self.size as usize);
assert!(start <= end);
let mut start_block = start / BLOCK_SZ;
let mut write_size = 0usize;
loop {
// calculate end of current block
let mut end_current_block = (start / BLOCK_SZ + 1) * BLOCK_SZ;
end_current_block = end_current_block.min(end);
// write and update write size
let block_write_size = end_current_block - start;
get_block_cache(
self.get_block_id(start_block as u32, block_device) as usize,
Arc::clone(block_device)
)
.lock()
.modify(0, |data_block: &mut DataBlock| {
let src = &buf[write_size..write_size + block_write_size];
let dst = &mut data_block[start % BLOCK_SZ..start % BLOCK_SZ + block_write_size];
dst.copy_from_slice(src);
});
write_size += block_write_size;
// move to next block
if end_current_block == end { break; }
start_block += 1;
start = end_current_block;
}
write_size
}
}
#[repr(C)]
pub struct DirEntry {
name: [u8; NAME_LENGTH_LIMIT + 1],
inode_number: u32,
}
pub const DIRENT_SZ: usize = 32;
impl DirEntry {
pub fn empty() -> Self {
Self {
name: [0u8; NAME_LENGTH_LIMIT + 1],
inode_number: 0,
}
}
pub fn new(name: &str, inode_number: u32) -> Self {
let mut bytes = [0u8; NAME_LENGTH_LIMIT + 1];
bytes[..name.len()].copy_from_slice(name.as_bytes());
Self {
name: bytes,
inode_number,
}
}
pub fn as_bytes(&self) -> &[u8] {
unsafe {
core::slice::from_raw_parts(
self as *const _ as usize as *const u8,
DIRENT_SZ,
)
}
}
pub fn as_bytes_mut(&mut self) -> &mut [u8] {
unsafe {
core::slice::from_raw_parts_mut(
self as *mut _ as usize as *mut u8,
DIRENT_SZ,
)
}
}
pub fn name(&self) -> &str {
let len = (0usize..).find(|i| self.name[*i] == 0).unwrap();
core::str::from_utf8(&self.name[..len]).unwrap()
}
pub fn inode_number(&self) -> u32 {
self.inode_number
}
}

18
easy-fs/src/lib.rs Normal file
View File

@ -0,0 +1,18 @@
#![no_std]
extern crate alloc;
mod block_dev;
mod layout;
mod efs;
mod bitmap;
mod vfs;
mod block_cache;
pub const BLOCK_SZ: usize = 512;
pub use block_dev::BlockDevice;
pub use efs::EasyFileSystem;
pub use vfs::Inode;
use layout::*;
use bitmap::Bitmap;
use block_cache::{get_block_cache, block_cache_sync_all};

210
easy-fs/src/vfs.rs Normal file
View File

@ -0,0 +1,210 @@
use super::{
BlockDevice,
DiskInode,
DiskInodeType,
DirEntry,
EasyFileSystem,
DIRENT_SZ,
get_block_cache,
block_cache_sync_all,
};
use alloc::sync::Arc;
use alloc::string::String;
use alloc::vec::Vec;
use spin::{Mutex, MutexGuard};
pub struct Inode {
block_id: usize,
block_offset: usize,
fs: Arc<Mutex<EasyFileSystem>>,
block_device: Arc<dyn BlockDevice>,
}
impl Inode {
/// We should not acquire efs lock here.
pub fn new(
block_id: u32,
block_offset: usize,
fs: Arc<Mutex<EasyFileSystem>>,
block_device: Arc<dyn BlockDevice>,
) -> Self {
Self {
block_id: block_id as usize,
block_offset,
fs,
block_device,
}
}
fn read_disk_inode<V>(&self, f: impl FnOnce(&DiskInode) -> V) -> V {
get_block_cache(
self.block_id,
Arc::clone(&self.block_device)
).lock().read(self.block_offset, f)
}
fn modify_disk_inode<V>(&self, f: impl FnOnce(&mut DiskInode) -> V) -> V {
get_block_cache(
self.block_id,
Arc::clone(&self.block_device)
).lock().modify(self.block_offset, f)
}
fn find_inode_id(
&self,
name: &str,
disk_inode: &DiskInode,
) -> Option<u32> {
// assert it is a directory
assert!(disk_inode.is_dir());
let file_count = (disk_inode.size as usize) / DIRENT_SZ;
let mut dirent = DirEntry::empty();
for i in 0..file_count {
assert_eq!(
disk_inode.read_at(
DIRENT_SZ * i,
dirent.as_bytes_mut(),
&self.block_device,
),
DIRENT_SZ,
);
if dirent.name() == name {
return Some(dirent.inode_number() as u32);
}
}
None
}
pub fn find(&self, name: &str) -> Option<Arc<Inode>> {
let fs = self.fs.lock();
self.read_disk_inode(|disk_inode| {
self.find_inode_id(name, disk_inode)
.map(|inode_id| {
let (block_id, block_offset) = fs.get_disk_inode_pos(inode_id);
Arc::new(Self::new(
block_id,
block_offset,
self.fs.clone(),
self.block_device.clone(),
))
})
})
}
fn increase_size(
&self,
new_size: u32,
disk_inode: &mut DiskInode,
fs: &mut MutexGuard<EasyFileSystem>,
) {
if new_size < disk_inode.size {
return;
}
let blocks_needed = disk_inode.blocks_num_needed(new_size);
let mut v: Vec<u32> = Vec::new();
for _ in 0..blocks_needed {
v.push(fs.alloc_data());
}
disk_inode.increase_size(new_size, v, &self.block_device);
}
pub fn create(&self, name: &str) -> Option<Arc<Inode>> {
let mut fs = self.fs.lock();
if self.modify_disk_inode(|root_inode| {
// assert it is a directory
assert!(root_inode.is_dir());
// has the file been created?
self.find_inode_id(name, root_inode)
}).is_some() {
return None;
}
// create a new file
// alloc a inode with an indirect block
let new_inode_id = fs.alloc_inode();
// initialize inode
let (new_inode_block_id, new_inode_block_offset)
= fs.get_disk_inode_pos(new_inode_id);
get_block_cache(
new_inode_block_id as usize,
Arc::clone(&self.block_device)
).lock().modify(new_inode_block_offset, |new_inode: &mut DiskInode| {
new_inode.initialize(DiskInodeType::File);
});
self.modify_disk_inode(|root_inode| {
// append file in the dirent
let file_count = (root_inode.size as usize) / DIRENT_SZ;
let new_size = (file_count + 1) * DIRENT_SZ;
// increase size
self.increase_size(new_size as u32, root_inode, &mut fs);
// write dirent
let dirent = DirEntry::new(name, new_inode_id);
root_inode.write_at(
file_count * DIRENT_SZ,
dirent.as_bytes(),
&self.block_device,
);
});
let (block_id, block_offset) = fs.get_disk_inode_pos(new_inode_id);
block_cache_sync_all();
// return inode
Some(Arc::new(Self::new(
block_id,
block_offset,
self.fs.clone(),
self.block_device.clone(),
)))
// release efs lock automatically by compiler
}
pub fn ls(&self) -> Vec<String> {
let _fs = self.fs.lock();
self.read_disk_inode(|disk_inode| {
let file_count = (disk_inode.size as usize) / DIRENT_SZ;
let mut v: Vec<String> = Vec::new();
for i in 0..file_count {
let mut dirent = DirEntry::empty();
assert_eq!(
disk_inode.read_at(
i * DIRENT_SZ,
dirent.as_bytes_mut(),
&self.block_device,
),
DIRENT_SZ,
);
v.push(String::from(dirent.name()));
}
v
})
}
pub fn read_at(&self, offset: usize, buf: &mut [u8]) -> usize {
let _fs = self.fs.lock();
self.read_disk_inode(|disk_inode| {
disk_inode.read_at(offset, buf, &self.block_device)
})
}
pub fn write_at(&self, offset: usize, buf: &[u8]) -> usize {
let mut fs = self.fs.lock();
let size = self.modify_disk_inode(|disk_inode| {
self.increase_size((offset + buf.len()) as u32, disk_inode, &mut fs);
disk_inode.write_at(offset, buf, &self.block_device)
});
block_cache_sync_all();
size
}
pub fn clear(&self) {
let mut fs = self.fs.lock();
self.modify_disk_inode(|disk_inode| {
let size = disk_inode.size;
let data_blocks_dealloc = disk_inode.clear_size(&self.block_device);
assert!(data_blocks_dealloc.len() == DiskInode::total_blocks(size) as usize);
for data_block in data_blocks_dealloc.into_iter() {
fs.dealloc_data(data_block);
}
});
block_cache_sync_all();
}
}

5
os/Cargo.toml
View File

@ -12,6 +12,11 @@ lazy_static = { version = "1.4.0", features = ["spin_no_std"] }
buddy_system_allocator = "0.6"
bitflags = "1.2.1"
xmas-elf = "0.7.0"
virtio-drivers = { git = "https://github.com/rcore-os/virtio-drivers" }
k210-pac = { git = "https://github.com/wyfcyx/k210-pac" }
k210-hal = { git = "https://github.com/wyfcyx/k210-hal" }
k210-soc = { git = "https://github.com/wyfcyx/k210-soc" }
easy-fs = { path = "../easy-fs" }
[features]
board_qemu = []

28
os/Makefile
View File

@ -4,6 +4,9 @@ MODE := release
KERNEL_ELF := target/$(TARGET)/$(MODE)/os
KERNEL_BIN := $(KERNEL_ELF).bin
DISASM_TMP := target/$(TARGET)/$(MODE)/asm
FS_IMG := ../user/target/$(TARGET)/$(MODE)/fs.img
SDCARD := /dev/sdb
APPS := ../user/src/bin/*
# BOARD
BOARD ?= qemu
@ -20,7 +23,7 @@ endif
# Run K210
K210-SERIALPORT = /dev/ttyUSB0
K210-BURNER = ../tools/kflash.py
K210-BURNER = ../tools/kflash.py
# Binutils
OBJDUMP := rust-objdump --arch-name=riscv64
@ -29,7 +32,7 @@ OBJCOPY := rust-objcopy --binary-architecture=riscv64
# Disassembly
DISASM ?= -x
build: env switch-check $(KERNEL_BIN)
build: env switch-check $(KERNEL_BIN) fs-img
switch-check:
ifeq ($(BOARD), qemu)
@ -44,11 +47,22 @@ env:
rustup component add rust-src
rustup component add llvm-tools-preview
sdcard: fs-img
@echo "Are you sure write to $(SDCARD) ? [y/N] " && read ans && [ $${ans:-N} = y ]
@sudo dd if=/dev/zero of=$(SDCARD) bs=1048576 count=32
@sudo dd if=$(FS_IMG) of=$(SDCARD)
$(KERNEL_BIN): kernel
@$(OBJCOPY) $(KERNEL_ELF) --strip-all -O binary $@
kernel:
fs-img: $(APPS)
@cd ../user && make build
@rm -f $(FS_IMG)
@cd ../easy-fs-fuse && cargo run --release -- -s ../user/src/bin/ -t ../user/target/riscv64gc-unknown-none-elf/release/
$(APPS):
kernel:
@echo Platform: $(BOARD)
@cp src/linker-$(BOARD).ld src/linker.ld
@cargo build --release --features "board_$(BOARD)"
@ -67,15 +81,15 @@ disasm-vim: kernel
run: run-inner
run-inner: build
ifeq ($(BOARD),qemu)
@qemu-system-riscv64 \
-machine virt \
-nographic \
-bios $(BOOTLOADER) \
-device loader,file=$(KERNEL_BIN),addr=$(KERNEL_ENTRY_PA)
-device loader,file=$(KERNEL_BIN),addr=$(KERNEL_ENTRY_PA) \
-drive file=$(FS_IMG),if=none,format=raw,id=x0 \
-device virtio-blk-device,drive=x0,bus=virtio-mmio-bus.0
else
(which $(K210-BURNER)) || (cd .. && git clone https://github.com/sipeed/kflash.py.git && mv kflash.py tools)
@cp $(BOOTLOADER) $(BOOTLOADER).copy
@ -92,4 +106,4 @@ debug: build
tmux split-window -h "riscv64-unknown-elf-gdb -ex 'file $(KERNEL_ELF)' -ex 'set arch riscv:rv64' -ex 'target remote localhost:1234'" && \
tmux -2 attach-session -d
.PHONY: build env kernel clean disasm disasm-vim run-inner switch-check
.PHONY: build env kernel clean disasm disasm-vim run-inner switch-check fs-img

52
os/build.rs
View File

@ -1,56 +1,6 @@
use std::io::{Result, Write};
use std::fs::{File, read_dir};
static TARGET_PATH: &str = "../user/target/riscv64gc-unknown-none-elf/release/";
fn main() {
println!("cargo:rerun-if-changed=../user/src/");
println!("cargo:rerun-if-changed={}", TARGET_PATH);
insert_app_data().unwrap();
}
static TARGET_PATH: &str = "../user/target/riscv64gc-unknown-none-elf/release/";
fn insert_app_data() -> Result<()> {
let mut f = File::create("src/link_app.S").unwrap();
let mut apps: Vec<_> = read_dir("../user/src/bin")
.unwrap()
.into_iter()
.map(|dir_entry| {
let mut name_with_ext = dir_entry.unwrap().file_name().into_string().unwrap();
name_with_ext.drain(name_with_ext.find('.').unwrap()..name_with_ext.len());
name_with_ext
})
.collect();
apps.sort();
writeln!(f, r#"
.align 3
.section .data
.global _num_app
_num_app:
.quad {}"#, apps.len())?;
for i in 0..apps.len() {
writeln!(f, r#" .quad app_{}_start"#, i)?;
}
writeln!(f, r#" .quad app_{}_end"#, apps.len() - 1)?;
writeln!(f, r#"
.global _app_names
_app_names:"#)?;
for app in apps.iter() {
writeln!(f, r#" .string "{}""#, app)?;
}
for (idx, app) in apps.iter().enumerate() {
println!("app_{}: {}", idx, app);
writeln!(f, r#"
.section .data
.global app_{0}_start
.global app_{0}_end
.align 3
app_{0}_start:
.incbin "{2}{1}"
app_{0}_end:"#, idx, app, TARGET_PATH)?;
}
Ok(())
}

33
os/src/config.rs
View File

@ -1,13 +1,9 @@
#[allow(unused)]
pub const USER_STACK_SIZE: usize = 4096 * 2;
pub const KERNEL_STACK_SIZE: usize = 4096 * 2;
pub const KERNEL_HEAP_SIZE: usize = 0x20_0000;
#[cfg(feature = "board_k210")]
pub const MEMORY_END: usize = 0x80600000;
#[cfg(feature = "board_qemu")]
pub const MEMORY_END: usize = 0x80800000;
pub const PAGE_SIZE: usize = 0x1000;
pub const PAGE_SIZE_BITS: usize = 0xc;
@ -19,3 +15,28 @@ pub const CLOCK_FREQ: usize = 403000000 / 62;
#[cfg(feature = "board_qemu")]
pub const CLOCK_FREQ: usize = 12500000;
#[cfg(feature = "board_qemu")]
pub const MMIO: &[(usize, usize)] = &[
(0x10001000, 0x1000),
];
#[cfg(feature = "board_k210")]
pub const MMIO: &[(usize, usize)] = &[
// we don't need clint in S priv when running
// we only need claim/complete for target0 after initializing
(0x0C00_0000, 0x3000), /* PLIC */
(0x0C20_0000, 0x1000), /* PLIC */
(0x3800_0000, 0x1000), /* UARTHS */
(0x3800_1000, 0x1000), /* GPIOHS */
(0x5020_0000, 0x1000), /* GPIO */
(0x5024_0000, 0x1000), /* SPI_SLAVE */
(0x502B_0000, 0x1000), /* FPIOA */
(0x502D_0000, 0x1000), /* TIMER0 */
(0x502E_0000, 0x1000), /* TIMER1 */
(0x502F_0000, 0x1000), /* TIMER2 */
(0x5044_0000, 0x1000), /* SYSCTL */
(0x5200_0000, 0x1000), /* SPI0 */
(0x5300_0000, 0x1000), /* SPI1 */
(0x5400_0000, 0x1000), /* SPI2 */
];

30
os/src/drivers/block/mod.rs Normal file
View File

@ -0,0 +1,30 @@
mod virtio_blk;
mod sdcard;
use lazy_static::*;
use alloc::sync::Arc;
use easy_fs::BlockDevice;
#[cfg(feature = "board_qemu")]
type BlockDeviceImpl = virtio_blk::VirtIOBlock;
#[cfg(feature = "board_k210")]
type BlockDeviceImpl = sdcard::SDCardWrapper;
lazy_static! {
pub static ref BLOCK_DEVICE: Arc<dyn BlockDevice> = Arc::new(BlockDeviceImpl::new());
}
#[allow(unused)]
pub fn block_device_test() {
let block_device = BLOCK_DEVICE.clone();
let mut write_buffer = [0u8; 512];
let mut read_buffer = [0u8; 512];
for i in 0..512 {
for byte in write_buffer.iter_mut() { *byte = i as u8; }
block_device.write_block(i as usize, &write_buffer);
block_device.read_block(i as usize, &mut read_buffer);
assert_eq!(write_buffer, read_buffer);
}
println!("block device test passed!");
}

755
os/src/drivers/block/sdcard.rs Normal file
View File

@ -0,0 +1,755 @@
#![allow(non_snake_case)]
#![allow(non_camel_case_types)]
#![allow(unused)]
use k210_pac::{Peripherals, SPI0};
use k210_hal::prelude::*;
use k210_soc::{
//dmac::{dma_channel, DMAC, DMACExt},
gpio,
gpiohs,
spi::{aitm, frame_format, tmod, work_mode, SPI, SPIExt, SPIImpl},
fpioa::{self, io},
sysctl,
sleep::usleep,
};
use crate::sync::UPSafeCell;
use lazy_static::*;
use super::BlockDevice;
use core::convert::TryInto;
pub struct SDCard<SPI> {
spi: SPI,
spi_cs: u32,
cs_gpionum: u8,
//dmac: &'a DMAC,
//channel: dma_channel,
}
/*
* Start Data tokens:
* Tokens (necessary because at nop/idle (and CS active) only 0xff is
* on the data/command line)
*/
/** Data token start byte, Start Single Block Read */
pub const SD_START_DATA_SINGLE_BLOCK_READ: u8 = 0xFE;
/** Data token start byte, Start Multiple Block Read */
pub const SD_START_DATA_MULTIPLE_BLOCK_READ: u8 = 0xFE;
/** Data token start byte, Start Single Block Write */
pub const SD_START_DATA_SINGLE_BLOCK_WRITE: u8 = 0xFE;
/** Data token start byte, Start Multiple Block Write */
pub const SD_START_DATA_MULTIPLE_BLOCK_WRITE: u8 = 0xFC;
pub const SEC_LEN: usize = 512;
/** SD commands */
#[repr(u8)]
#[derive(Debug, PartialEq, Eq, Copy, Clone)]
#[allow(unused)]
pub enum CMD {
/** Software reset */
CMD0 = 0,
/** Check voltage range (SDC V2) */
CMD8 = 8,
/** Read CSD register */
CMD9 = 9,
/** Read CID register */
CMD10 = 10,
/** Stop to read data */
CMD12 = 12,
/** Change R/W block size */
CMD16 = 16,
/** Read block */
CMD17 = 17,
/** Read multiple blocks */
CMD18 = 18,
/** Number of blocks to erase (SDC) */
ACMD23 = 23,
/** Write a block */
CMD24 = 24,
/** Write multiple blocks */
CMD25 = 25,
/** Initiate initialization process (SDC) */
ACMD41 = 41,
/** Leading command for ACMD* */
CMD55 = 55,
/** Read OCR */
CMD58 = 58,
/** Enable/disable CRC check */
CMD59 = 59,
}
#[allow(unused)]
#[derive(Debug, Copy, Clone)]
pub enum InitError {
CMDFailed(CMD, u8),
CardCapacityStatusNotSet([u8; 4]),
CannotGetCardInfo,
}
/**
* Card Specific Data: CSD Register
*/
#[derive(Debug, Copy, Clone)]
pub struct SDCardCSD {
pub CSDStruct: u8, /* CSD structure */
pub SysSpecVersion: u8, /* System specification version */
pub Reserved1: u8, /* Reserved */
pub TAAC: u8, /* Data read access-time 1 */
pub NSAC: u8, /* Data read access-time 2 in CLK cycles */
pub MaxBusClkFrec: u8, /* Max. bus clock frequency */
pub CardComdClasses: u16, /* Card command classes */
pub RdBlockLen: u8, /* Max. read data block length */
pub PartBlockRead: u8, /* Partial blocks for read allowed */
pub WrBlockMisalign: u8, /* Write block misalignment */
pub RdBlockMisalign: u8, /* Read block misalignment */
pub DSRImpl: u8, /* DSR implemented */
pub Reserved2: u8, /* Reserved */
pub DeviceSize: u32, /* Device Size */
//MaxRdCurrentVDDMin: u8, /* Max. read current @ VDD min */
//MaxRdCurrentVDDMax: u8, /* Max. read current @ VDD max */
//MaxWrCurrentVDDMin: u8, /* Max. write current @ VDD min */
//MaxWrCurrentVDDMax: u8, /* Max. write current @ VDD max */
//DeviceSizeMul: u8, /* Device size multiplier */
pub EraseGrSize: u8, /* Erase group size */
pub EraseGrMul: u8, /* Erase group size multiplier */
pub WrProtectGrSize: u8, /* Write protect group size */
pub WrProtectGrEnable: u8, /* Write protect group enable */
pub ManDeflECC: u8, /* Manufacturer default ECC */
pub WrSpeedFact: u8, /* Write speed factor */
pub MaxWrBlockLen: u8, /* Max. write data block length */
pub WriteBlockPaPartial: u8, /* Partial blocks for write allowed */
pub Reserved3: u8, /* Reserded */
pub ContentProtectAppli: u8, /* Content protection application */
pub FileFormatGroup: u8, /* File format group */
pub CopyFlag: u8, /* Copy flag (OTP) */
pub PermWrProtect: u8, /* Permanent write protection */
pub TempWrProtect: u8, /* Temporary write protection */
pub FileFormat: u8, /* File Format */
pub ECC: u8, /* ECC code */
pub CSD_CRC: u8, /* CSD CRC */
pub Reserved4: u8, /* always 1*/
}
/**
* Card Identification Data: CID Register
*/
#[derive(Debug, Copy, Clone)]
pub struct SDCardCID {
pub ManufacturerID: u8, /* ManufacturerID */
pub OEM_AppliID: u16, /* OEM/Application ID */
pub ProdName1: u32, /* Product Name part1 */
pub ProdName2: u8, /* Product Name part2*/
pub ProdRev: u8, /* Product Revision */
pub ProdSN: u32, /* Product Serial Number */
pub Reserved1: u8, /* Reserved1 */
pub ManufactDate: u16, /* Manufacturing Date */
pub CID_CRC: u8, /* CID CRC */
pub Reserved2: u8, /* always 1 */
}
/**
* Card information
*/
#[derive(Debug, Copy, Clone)]
pub struct SDCardInfo {
pub SD_csd: SDCardCSD,
pub SD_cid: SDCardCID,
pub CardCapacity: u64, /* Card Capacity */
pub CardBlockSize: u64, /* Card Block Size */
}
impl</*'a,*/ X: SPI> SDCard</*'a,*/ X> {
pub fn new(spi: X, spi_cs: u32, cs_gpionum: u8/*, dmac: &'a DMAC, channel: dma_channel*/) -> Self {
Self {
spi,
spi_cs,
cs_gpionum,
/*
dmac,
channel,
*/
}
}
fn CS_HIGH(&self) {
gpiohs::set_pin(self.cs_gpionum, true);
}
fn CS_LOW(&self) {
gpiohs::set_pin(self.cs_gpionum, false);
}
fn HIGH_SPEED_ENABLE(&self) {
self.spi.set_clk_rate(10000000);
}
fn lowlevel_init(&self) {
gpiohs::set_direction(self.cs_gpionum, gpio::direction::OUTPUT);
self.spi.set_clk_rate(200000);
}
fn write_data(&self, data: &[u8]) {
self.spi.configure(
work_mode::MODE0,
frame_format::STANDARD,
8, /* data bits */
0, /* endian */
0, /*instruction length*/
0, /*address length*/
0, /*wait cycles*/
aitm::STANDARD,
tmod::TRANS,
);
self.spi.send_data(self.spi_cs, data);
}
/*
fn write_data_dma(&self, data: &[u32]) {
self.spi.configure(
work_mode::MODE0,
frame_format::STANDARD,
8, /* data bits */
0, /* endian */
0, /*instruction length*/
0, /*address length*/
0, /*wait cycles*/
aitm::STANDARD,
tmod::TRANS,
);
self.spi
.send_data_dma(self.dmac, self.channel, self.spi_cs, data);
}
*/
fn read_data(&self, data: &mut [u8]) {
self.spi.configure(
work_mode::MODE0,
frame_format::STANDARD,
8, /* data bits */
0, /* endian */
0, /*instruction length*/
0, /*address length*/
0, /*wait cycles*/
aitm::STANDARD,
tmod::RECV,
);
self.spi.recv_data(self.spi_cs, data);
}
/*
fn read_data_dma(&self, data: &mut [u32]) {
self.spi.configure(
work_mode::MODE0,
frame_format::STANDARD,
8, /* data bits */
0, /* endian */
0, /*instruction length*/
0, /*address length*/
0, /*wait cycles*/
aitm::STANDARD,
tmod::RECV,
);
self.spi
.recv_data_dma(self.dmac, self.channel, self.spi_cs, data);
}
*/
/*
* Send 5 bytes command to the SD card.
* @param cmd: The user expected command to send to SD card.
* @param arg: The command argument.
* @param crc: The CRC.
* @retval None
*/
fn send_cmd(&self, cmd: CMD, arg: u32, crc: u8) {
/* SD chip select low */
self.CS_LOW();
/* Send the Cmd bytes */
self.write_data(&[
/* Construct byte 1 */
((cmd as u8) | 0x40),
/* Construct byte 2 */
(arg >> 24) as u8,
/* Construct byte 3 */
((arg >> 16) & 0xff) as u8,
/* Construct byte 4 */
((arg >> 8) & 0xff) as u8,
/* Construct byte 5 */
(arg & 0xff) as u8,
/* Construct CRC: byte 6 */
crc,
]);
}
/* Send end-command sequence to SD card */
fn end_cmd(&self) {
/* SD chip select high */
self.CS_HIGH();
/* Send the cmd byte */
self.write_data(&[0xff]);
}
/*
* Returns the SD response.
* @param None
* @retval The SD Response:
* - 0xFF: Sequence failed
* - 0: Sequence succeed
*/
fn get_response(&self) -> u8 {
let result = &mut [0u8];
let mut timeout = 0x0FFF;
/* Check if response is got or a timeout is happen */
while timeout != 0 {
self.read_data(result);
/* Right response got */
if result[0] != 0xFF {
return result[0];
}
timeout -= 1;
}
/* After time out */
return 0xFF;
}
/*
* Get SD card data response.
* @param None
* @retval The SD status: Read data response xxx0<status>1
* - status 010: Data accecpted
* - status 101: Data rejected due to a crc error
* - status 110: Data rejected due to a Write error.
* - status 111: Data rejected due to other error.
*/
fn get_dataresponse(&self) -> u8 {
let response = &mut [0u8];
/* Read resonse */
self.read_data(response);
/* Mask unused bits */
response[0] &= 0x1F;
if response[0] != 0x05 {
return 0xFF;
}
/* Wait null data */
self.read_data(response);
while response[0] == 0 {
self.read_data(response);
}
/* Return response */
return 0;
}
/*
* Read the CSD card register
* Reading the contents of the CSD register in SPI mode is a simple
* read-block transaction.
* @param SD_csd: pointer on an SCD register structure
* @retval The SD Response:
* - `Err()`: Sequence failed
* - `Ok(info)`: Sequence succeed
*/
fn get_csdregister(&self) -> Result<SDCardCSD, ()> {
let mut csd_tab = [0u8; 18];
/* Send CMD9 (CSD register) */
self.send_cmd(CMD::CMD9, 0, 0);
/* Wait for response in the R1 format (0x00 is no errors) */
if self.get_response() != 0x00 {
self.end_cmd();
return Err(());
}
if self.get_response() != SD_START_DATA_SINGLE_BLOCK_READ {
self.end_cmd();
return Err(());
}
/* Store CSD register value on csd_tab */
/* Get CRC bytes (not really needed by us, but required by SD) */
self.read_data(&mut csd_tab);
self.end_cmd();
/* see also: https://cdn-shop.adafruit.com/datasheets/TS16GUSDHC6.pdf */
return Ok(SDCardCSD {
/* Byte 0 */
CSDStruct: (csd_tab[0] & 0xC0) >> 6,
SysSpecVersion: (csd_tab[0] & 0x3C) >> 2,
Reserved1: csd_tab[0] & 0x03,
/* Byte 1 */
TAAC: csd_tab[1],
/* Byte 2 */
NSAC: csd_tab[2],
/* Byte 3 */
MaxBusClkFrec: csd_tab[3],
/* Byte 4, 5 */
CardComdClasses: (u16::from(csd_tab[4]) << 4) | ((u16::from(csd_tab[5]) & 0xF0) >> 4),
/* Byte 5 */
RdBlockLen: csd_tab[5] & 0x0F,
/* Byte 6 */
PartBlockRead: (csd_tab[6] & 0x80) >> 7,
WrBlockMisalign: (csd_tab[6] & 0x40) >> 6,
RdBlockMisalign: (csd_tab[6] & 0x20) >> 5,
DSRImpl: (csd_tab[6] & 0x10) >> 4,
Reserved2: 0,
// DeviceSize: (csd_tab[6] & 0x03) << 10,
/* Byte 7, 8, 9 */
DeviceSize: ((u32::from(csd_tab[7]) & 0x3F) << 16)
| (u32::from(csd_tab[8]) << 8)
| u32::from(csd_tab[9]),
/* Byte 10 */
EraseGrSize: (csd_tab[10] & 0x40) >> 6,
/* Byte 10, 11 */
EraseGrMul: ((csd_tab[10] & 0x3F) << 1) | ((csd_tab[11] & 0x80) >> 7),
/* Byte 11 */
WrProtectGrSize: (csd_tab[11] & 0x7F),
/* Byte 12 */
WrProtectGrEnable: (csd_tab[12] & 0x80) >> 7,
ManDeflECC: (csd_tab[12] & 0x60) >> 5,
WrSpeedFact: (csd_tab[12] & 0x1C) >> 2,
/* Byte 12,13 */
MaxWrBlockLen: ((csd_tab[12] & 0x03) << 2) | ((csd_tab[13] & 0xC0) >> 6),
/* Byte 13 */
WriteBlockPaPartial: (csd_tab[13] & 0x20) >> 5,
Reserved3: 0,
ContentProtectAppli: (csd_tab[13] & 0x01),
/* Byte 14 */
FileFormatGroup: (csd_tab[14] & 0x80) >> 7,
CopyFlag: (csd_tab[14] & 0x40) >> 6,
PermWrProtect: (csd_tab[14] & 0x20) >> 5,
TempWrProtect: (csd_tab[14] & 0x10) >> 4,
FileFormat: (csd_tab[14] & 0x0C) >> 2,
ECC: (csd_tab[14] & 0x03),
/* Byte 15 */
CSD_CRC: (csd_tab[15] & 0xFE) >> 1,
Reserved4: 1,
/* Return the reponse */
});
}
/*
* Read the CID card register.
* Reading the contents of the CID register in SPI mode is a simple
* read-block transaction.
* @param SD_cid: pointer on an CID register structure
* @retval The SD Response:
* - `Err()`: Sequence failed
* - `Ok(info)`: Sequence succeed
*/
fn get_cidregister(&self) -> Result<SDCardCID, ()> {
let mut cid_tab = [0u8; 18];
/* Send CMD10 (CID register) */
self.send_cmd(CMD::CMD10, 0, 0);
/* Wait for response in the R1 format (0x00 is no errors) */
if self.get_response() != 0x00 {
self.end_cmd();
return Err(());
}
if self.get_response() != SD_START_DATA_SINGLE_BLOCK_READ {
self.end_cmd();
return Err(());
}
/* Store CID register value on cid_tab */
/* Get CRC bytes (not really needed by us, but required by SD) */
self.read_data(&mut cid_tab);
self.end_cmd();
return Ok(SDCardCID {
/* Byte 0 */
ManufacturerID: cid_tab[0],
/* Byte 1, 2 */
OEM_AppliID: (u16::from(cid_tab[1]) << 8) | u16::from(cid_tab[2]),
/* Byte 3, 4, 5, 6 */
ProdName1: (u32::from(cid_tab[3]) << 24)
| (u32::from(cid_tab[4]) << 16)
| (u32::from(cid_tab[5]) << 8)
| u32::from(cid_tab[6]),
/* Byte 7 */
ProdName2: cid_tab[7],
/* Byte 8 */
ProdRev: cid_tab[8],
/* Byte 9, 10, 11, 12 */
ProdSN: (u32::from(cid_tab[9]) << 24)
| (u32::from(cid_tab[10]) << 16)
| (u32::from(cid_tab[11]) << 8)
| u32::from(cid_tab[12]),
/* Byte 13, 14 */
Reserved1: (cid_tab[13] & 0xF0) >> 4,
ManufactDate: ((u16::from(cid_tab[13]) & 0x0F) << 8) | u16::from(cid_tab[14]),
/* Byte 15 */
CID_CRC: (cid_tab[15] & 0xFE) >> 1,
Reserved2: 1,
});
}
/*
* Returns information about specific card.
* @param cardinfo: pointer to a SD_CardInfo structure that contains all SD
* card information.
* @retval The SD Response:
* - `Err(())`: Sequence failed
* - `Ok(info)`: Sequence succeed
*/
fn get_cardinfo(&self) -> Result<SDCardInfo, ()> {
let mut info = SDCardInfo {
SD_csd: self.get_csdregister()?,
SD_cid: self.get_cidregister()?,
CardCapacity: 0,
CardBlockSize: 0,
};
info.CardBlockSize = 1 << u64::from(info.SD_csd.RdBlockLen);
info.CardCapacity = (u64::from(info.SD_csd.DeviceSize) + 1) * 1024 * info.CardBlockSize;
Ok(info)
}
/*
* Initializes the SD/SD communication in SPI mode.
* @param None
* @retval The SD Response info if succeeeded, otherwise Err
*/
pub fn init(&self) -> Result<SDCardInfo, InitError> {
/* Initialize SD_SPI */
self.lowlevel_init();
/* SD chip select high */
self.CS_HIGH();
/* NOTE: this reset doesn't always seem to work if the SD access was broken off in the
* middle of an operation: CMDFailed(CMD0, 127). */
/* Send dummy byte 0xFF, 10 times with CS high */
/* Rise CS and MOSI for 80 clocks cycles */
/* Send dummy byte 0xFF */
self.write_data(&[0xff; 10]);
/*------------Put SD in SPI mode--------------*/
/* SD initialized and set to SPI mode properly */
/* Send software reset */
self.send_cmd(CMD::CMD0, 0, 0x95);
let result = self.get_response();
self.end_cmd();
if result != 0x01 {
return Err(InitError::CMDFailed(CMD::CMD0, result));
}
/* Check voltage range */
self.send_cmd(CMD::CMD8, 0x01AA, 0x87);
/* 0x01 or 0x05 */
let result = self.get_response();
let mut frame = [0u8; 4];
self.read_data(&mut frame);
self.end_cmd();
if result != 0x01 {
return Err(InitError::CMDFailed(CMD::CMD8, result));
}
let mut index = 255;
while index != 0 {
/* <ACMD> */
self.send_cmd(CMD::CMD55, 0, 0);
let result = self.get_response();
self.end_cmd();
if result != 0x01 {
return Err(InitError::CMDFailed(CMD::CMD55, result));
}
/* Initiate SDC initialization process */
self.send_cmd(CMD::ACMD41, 0x40000000, 0);
let result = self.get_response();
self.end_cmd();
if result == 0x00 {
break;
}
index -= 1;
}
if index == 0 {
return Err(InitError::CMDFailed(CMD::ACMD41, result));
}
index = 255;
let mut frame = [0u8; 4];
while index != 0 {
/* Read OCR */
self.send_cmd(CMD::CMD58, 0, 1);
let result = self.get_response();
self.read_data(&mut frame);
self.end_cmd();
if result == 0 {
break;
}
index -= 1;
}
if index == 0 {
return Err(InitError::CMDFailed(CMD::CMD58, result));
}
if (frame[0] & 0x40) == 0 {
return Err(InitError::CardCapacityStatusNotSet(frame));
}
self.HIGH_SPEED_ENABLE();
self.get_cardinfo()
.map_err(|_| InitError::CannotGetCardInfo)
}
/*
* Reads a block of data from the SD.
* @param data_buf: slice that receives the data read from the SD.
* @param sector: SD's internal address to read from.
* @retval The SD Response:
* - `Err(())`: Sequence failed
* - `Ok(())`: Sequence succeed
*/
pub fn read_sector(&self, data_buf: &mut [u8], sector: u32) -> Result<(), ()> {
assert!(data_buf.len() >= SEC_LEN && (data_buf.len() % SEC_LEN) == 0);
/* Send CMD17 to read one block, or CMD18 for multiple */
let flag = if data_buf.len() == SEC_LEN {
self.send_cmd(CMD::CMD17, sector, 0);
false
} else {
self.send_cmd(CMD::CMD18, sector, 0);
true
};
/* Check if the SD acknowledged the read block command: R1 response (0x00: no errors) */
if self.get_response() != 0x00 {
self.end_cmd();
return Err(());
}
let mut error = false;
//let mut dma_chunk = [0u32; SEC_LEN];
let mut tmp_chunk= [0u8; SEC_LEN];
for chunk in data_buf.chunks_mut(SEC_LEN) {
if self.get_response() != SD_START_DATA_SINGLE_BLOCK_READ {
error = true;
break;
}
/* Read the SD block data : read NumByteToRead data */
//self.read_data_dma(&mut dma_chunk);
self.read_data(&mut tmp_chunk);
/* Place the data received as u32 units from DMA into the u8 target buffer */
for (a, b) in chunk.iter_mut().zip(/*dma_chunk*/tmp_chunk.iter()) {
//*a = (b & 0xff) as u8;
*a = *b;
}
/* Get CRC bytes (not really needed by us, but required by SD) */
let mut frame = [0u8; 2];
self.read_data(&mut frame);
}
self.end_cmd();
if flag {
self.send_cmd(CMD::CMD12, 0, 0);
self.get_response();
self.end_cmd();
self.end_cmd();
}
/* It is an error if not everything requested was read */
if error {
Err(())
} else {
Ok(())
}
}
/*
* Writes a block to the SD
* @param data_buf: slice containing the data to be written to the SD.
* @param sector: address to write on.
* @retval The SD Response:
* - `Err(())`: Sequence failed
* - `Ok(())`: Sequence succeed
*/
pub fn write_sector(&self, data_buf: &[u8], sector: u32) -> Result<(), ()> {
assert!(data_buf.len() >= SEC_LEN && (data_buf.len() % SEC_LEN) == 0);
let mut frame = [0xff, 0x00];
if data_buf.len() == SEC_LEN {
frame[1] = SD_START_DATA_SINGLE_BLOCK_WRITE;
self.send_cmd(CMD::CMD24, sector, 0);
} else {
frame[1] = SD_START_DATA_MULTIPLE_BLOCK_WRITE;
self.send_cmd(
CMD::ACMD23,
(data_buf.len() / SEC_LEN).try_into().unwrap(),
0,
);
self.get_response();
self.end_cmd();
self.send_cmd(CMD::CMD25, sector, 0);
}
/* Check if the SD acknowledged the write block command: R1 response (0x00: no errors) */
if self.get_response() != 0x00 {
self.end_cmd();
return Err(());
}
//let mut dma_chunk = [0u32; SEC_LEN];
let mut tmp_chunk = [0u8; SEC_LEN];
for chunk in data_buf.chunks(SEC_LEN) {
/* Send the data token to signify the start of the data */
self.write_data(&frame);
/* Write the block data to SD : write count data by block */
for (a, &b) in /*dma_chunk*/tmp_chunk.iter_mut().zip(chunk.iter()) {
//*a = b.into();
*a = b;
}
//self.write_data_dma(&mut dma_chunk);
self.write_data(&mut tmp_chunk);
/* Put dummy CRC bytes */
self.write_data(&[0xff, 0xff]);
/* Read data response */
if self.get_dataresponse() != 0x00 {
self.end_cmd();
return Err(());
}
}
self.end_cmd();
self.end_cmd();
Ok(())
}
}
/** GPIOHS GPIO number to use for controlling the SD card CS pin */
const SD_CS_GPIONUM: u8 = 7;
/** CS value passed to SPI controller, this is a dummy value as SPI0_CS3 is not mapping to anything
* in the FPIOA */
const SD_CS: u32 = 3;
/** Connect pins to internal functions */
fn io_init() {
fpioa::set_function(io::SPI0_SCLK, fpioa::function::SPI0_SCLK);
fpioa::set_function(io::SPI0_MOSI, fpioa::function::SPI0_D0);
fpioa::set_function(io::SPI0_MISO, fpioa::function::SPI0_D1);
fpioa::set_function(io::SPI0_CS0, fpioa::function::gpiohs(SD_CS_GPIONUM));
fpioa::set_io_pull(io::SPI0_CS0, fpioa::pull::DOWN); // GPIO output=pull down
}
lazy_static! {
static ref PERIPHERALS: UPSafeCell<Peripherals> = unsafe {
UPSafeCell::new(Peripherals::take().unwrap())
};
}
fn init_sdcard() -> SDCard<SPIImpl<SPI0>> {
// wait previous output
usleep(100000);
let peripherals = unsafe { Peripherals::steal() };
sysctl::pll_set_freq(sysctl::pll::PLL0, 800_000_000).unwrap();
sysctl::pll_set_freq(sysctl::pll::PLL1, 300_000_000).unwrap();
sysctl::pll_set_freq(sysctl::pll::PLL2, 45_158_400).unwrap();
let clocks = k210_hal::clock::Clocks::new();
peripherals.UARTHS.configure(115_200.bps(), &clocks);
io_init();
let spi = peripherals.SPI0.constrain();
let sd = SDCard::new(spi, SD_CS, SD_CS_GPIONUM);
let info = sd.init().unwrap();
let num_sectors = info.CardCapacity / 512;
assert!(num_sectors > 0);
println!("init sdcard!");
sd
}
pub struct SDCardWrapper(UPSafeCell<SDCard<SPIImpl<SPI0>>>);
impl SDCardWrapper {
pub fn new() -> Self {
unsafe { Self(UPSafeCell::new(init_sdcard())) }
}
}
impl BlockDevice for SDCardWrapper {
fn read_block(&self, block_id: usize, buf: &mut [u8]) {
self.0.exclusive_access().read_sector(buf,block_id as u32).unwrap();
}
fn write_block(&self, block_id: usize, buf: &[u8]) {
self.0.exclusive_access().write_sector(buf,block_id as u32).unwrap();
}
}

84
os/src/drivers/block/virtio_blk.rs Normal file
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@ -0,0 +1,84 @@
use virtio_drivers::{VirtIOBlk, VirtIOHeader};
use crate::mm::{
PhysAddr,
VirtAddr,
frame_alloc,
frame_dealloc,
PhysPageNum,
FrameTracker,
StepByOne,
PageTable,
kernel_token,
};
use super::BlockDevice;
use crate::sync::UPSafeCell;
use alloc::vec::Vec;
use lazy_static::*;
#[allow(unused)]
const VIRTIO0: usize = 0x10001000;
pub struct VirtIOBlock(UPSafeCell<VirtIOBlk<'static>>);
lazy_static! {
static ref QUEUE_FRAMES: UPSafeCell<Vec<FrameTracker>> = unsafe {
UPSafeCell::new(Vec::new())
};
}
impl BlockDevice for VirtIOBlock {
fn read_block(&self, block_id: usize, buf: &mut [u8]) {
self.0.exclusive_access()
.read_block(block_id, buf)
.expect("Error when reading VirtIOBlk");
}
fn write_block(&self, block_id: usize, buf: &[u8]) {
self.0.exclusive_access()
.write_block(block_id, buf)
.expect("Error when writing VirtIOBlk");
}
}
impl VirtIOBlock {
#[allow(unused)]
pub fn new() -> Self {
unsafe {
Self(UPSafeCell::new(VirtIOBlk::new(
&mut *(VIRTIO0 as *mut VirtIOHeader)
).unwrap()))
}
}
}
#[no_mangle]
pub extern "C" fn virtio_dma_alloc(pages: usize) -> PhysAddr {
let mut ppn_base = PhysPageNum(0);
for i in 0..pages {
let frame = frame_alloc().unwrap();
if i == 0 { ppn_base = frame.ppn; }
assert_eq!(frame.ppn.0, ppn_base.0 + i);
QUEUE_FRAMES.exclusive_access().push(frame);
}
ppn_base.into()
}
#[no_mangle]
pub extern "C" fn virtio_dma_dealloc(pa: PhysAddr, pages: usize) -> i32 {
let mut ppn_base: PhysPageNum = pa.into();
for _ in 0..pages {
frame_dealloc(ppn_base);
ppn_base.step();
}
0
}
#[no_mangle]
pub extern "C" fn virtio_phys_to_virt(paddr: PhysAddr) -> VirtAddr {
VirtAddr(paddr.0)
}
#[no_mangle]
pub extern "C" fn virtio_virt_to_phys(vaddr: VirtAddr) -> PhysAddr {
PageTable::from_token(kernel_token()).translate_va(vaddr).unwrap()
}

3
os/src/drivers/mod.rs Normal file
View File

@ -0,0 +1,3 @@
mod block;
pub use block::BLOCK_DEVICE;

159
os/src/fs/inode.rs Normal file
View File

@ -0,0 +1,159 @@
use easy_fs::{
EasyFileSystem,
Inode,
};
use crate::drivers::BLOCK_DEVICE;
use crate::sync::UPSafeCell;
use alloc::sync::Arc;
use lazy_static::*;
use bitflags::*;
use alloc::vec::Vec;
use super::File;
use crate::mm::UserBuffer;
pub struct OSInode {
readable: bool,
writable: bool,
inner: UPSafeCell<OSInodeInner>,
}
pub struct OSInodeInner {
offset: usize,
inode: Arc<Inode>,
}
impl OSInode {
pub fn new(
readable: bool,
writable: bool,
inode: Arc<Inode>,
) -> Self {
Self {
readable,
writable,
inner: unsafe { UPSafeCell::new(OSInodeInner {
offset: 0,
inode,
})},
}
}
pub fn read_all(&self) -> Vec<u8> {
let mut inner = self.inner.exclusive_access();
let mut buffer = [0u8; 512];
let mut v: Vec<u8> = Vec::new();
loop {
let len = inner.inode.read_at(inner.offset, &mut buffer);
if len == 0 {
break;
}
inner.offset += len;
v.extend_from_slice(&buffer[..len]);
}
v
}
}
lazy_static! {
pub static ref ROOT_INODE: Arc<Inode> = {
let efs = EasyFileSystem::open(BLOCK_DEVICE.clone());
Arc::new(EasyFileSystem::root_inode(&efs))
};
}
pub fn list_apps() {
println!("/**** APPS ****");
for app in ROOT_INODE.ls() {
println!("{}", app);
}
println!("**************/");
}
bitflags! {
pub struct OpenFlags: u32 {
const RDONLY = 0;
const WRONLY = 1 << 0;
const RDWR = 1 << 1;
const CREATE = 1 << 9;
const TRUNC = 1 << 10;
}
}
impl OpenFlags {
/// Do not check validity for simplicity
/// Return (readable, writable)
pub fn read_write(&self) -> (bool, bool) {
if self.is_empty() {
(true, false)
} else if self.contains(Self::WRONLY) {
(false, true)
} else {
(true, true)
}
}
}
pub fn open_file(name: &str, flags: OpenFlags) -> Option<Arc<OSInode>> {
let (readable, writable) = flags.read_write();
if flags.contains(OpenFlags::CREATE) {
if let Some(inode) = ROOT_INODE.find(name) {
// clear size
inode.clear();
Some(Arc::new(OSInode::new(
readable,
writable,
inode,
)))
} else {
// create file
ROOT_INODE.create(name)
.map(|inode| {
Arc::new(OSInode::new(
readable,
writable,
inode,
))
})
}
} else {
ROOT_INODE.find(name)
.map(|inode| {
if flags.contains(OpenFlags::TRUNC) {
inode.clear();
}
Arc::new(OSInode::new(
readable,
writable,
inode
))
})
}
}
impl File for OSInode {
fn readable(&self) -> bool { self.readable }
fn writable(&self) -> bool { self.writable }
fn read(&self, mut buf: UserBuffer) -> usize {
let mut inner = self.inner.exclusive_access();
let mut total_read_size = 0usize;
for slice in buf.buffers.iter_mut() {
let read_size = inner.inode.read_at(inner.offset, *slice);
if read_size == 0 {
break;
}
inner.offset += read_size;
total_read_size += read_size;
}
total_read_size
}
fn write(&self, buf: UserBuffer) -> usize {
let mut inner = self.inner.exclusive_access();
let mut total_write_size = 0usize;
for slice in buf.buffers.iter() {
let write_size = inner.inode.write_at(inner.offset, *slice);
assert_eq!(write_size, slice.len());
inner.offset += write_size;
total_write_size += write_size;
}
total_write_size
}
}

7
os/src/fs/mod.rs
View File

@ -1,11 +1,16 @@
mod pipe;
mod stdio;
mod inode;
use crate::mm::UserBuffer;
pub trait File : Send + Sync {
fn readable(&self) -> bool;
fn writable(&self) -> bool;
fn read(&self, buf: UserBuffer) -> usize;
fn write(&self, buf: UserBuffer) -> usize;
}
pub use pipe::{Pipe, make_pipe};
pub use stdio::{Stdin, Stdout};
pub use stdio::{Stdin, Stdout};
pub use inode::{OSInode, open_file, OpenFlags, list_apps};

6
os/src/fs/pipe.rs
View File

@ -114,8 +114,10 @@ pub fn make_pipe() -> (Arc<Pipe>, Arc<Pipe>) {
}
impl File for Pipe {
fn readable(&self) -> bool { self.readable }
fn writable(&self) -> bool { self.writable }
fn read(&self, buf: UserBuffer) -> usize {
assert_eq!(self.readable, true);
assert_eq!(self.readable(), true);
let mut buf_iter = buf.into_iter();
let mut read_size = 0usize;
loop {
@ -141,7 +143,7 @@ impl File for Pipe {
}
}
fn write(&self, buf: UserBuffer) -> usize {
assert_eq!(self.writable, true);
assert_eq!(self.writable(), true);
let mut buf_iter = buf.into_iter();
let mut write_size = 0usize;
loop {

4
os/src/fs/stdio.rs
View File

@ -8,6 +8,8 @@ pub struct Stdin;
pub struct Stdout;
impl File for Stdin {
fn readable(&self) -> bool { true }
fn writable(&self) -> bool { false }
fn read(&self, mut user_buf: UserBuffer) -> usize {
assert_eq!(user_buf.len(), 1);
// busy loop
@ -31,6 +33,8 @@ impl File for Stdin {
}
impl File for Stdout {
fn readable(&self) -> bool { false }
fn writable(&self) -> bool { true }
fn read(&self, _user_buf: UserBuffer) -> usize{
panic!("Cannot read from stdout!");
}

8
os/src/main.rs
View File

@ -14,18 +14,17 @@ mod lang_items;
mod sbi;
mod syscall;
mod trap;
mod loader;
mod config;
mod task;
mod timer;
mod sync;
mod mm;
mod fs;
mod drivers;
use core::arch::global_asm;
global_asm!(include_str!("entry.asm"));
global_asm!(include_str!("link_app.S"));
fn clear_bss() {
extern "C" {
@ -46,12 +45,11 @@ pub fn rust_main() -> ! {
println!("[kernel] Hello, world!");
mm::init();
mm::remap_test();
task::add_initproc();
println!("after initproc!");
trap::init();
trap::enable_timer_interrupt();
timer::set_next_trigger();
loader::list_apps();
fs::list_apps();
task::add_initproc();
task::run_tasks();
panic!("Unreachable in rust_main!");
}

14
os/src/mm/address.rs
View File

@ -8,15 +8,19 @@ const PPN_WIDTH_SV39: usize = PA_WIDTH_SV39 - PAGE_SIZE_BITS;
const VPN_WIDTH_SV39: usize = VA_WIDTH_SV39 - PAGE_SIZE_BITS;
/// Definitions
#[repr(C)]
#[derive(Copy, Clone, Ord, PartialOrd, Eq, PartialEq)]
pub struct PhysAddr(pub usize);
#[repr(C)]
#[derive(Copy, Clone, Ord, PartialOrd, Eq, PartialEq)]
pub struct VirtAddr(pub usize);
#[repr(C)]
#[derive(Copy, Clone, Ord, PartialOrd, Eq, PartialEq)]
pub struct PhysPageNum(pub usize);
#[repr(C)]
#[derive(Copy, Clone, Ord, PartialOrd, Eq, PartialEq)]
pub struct VirtPageNum(pub usize);
@ -116,6 +120,11 @@ impl VirtPageNum {
}
impl PhysAddr {
pub fn get_ref<T>(&self) -> &'static T {
unsafe {
(self.0 as *const T).as_ref().unwrap()
}
}
pub fn get_mut<T>(&self) -> &'static mut T {
unsafe {
(self.0 as *mut T).as_mut().unwrap()
@ -149,6 +158,11 @@ impl StepByOne for VirtPageNum {
self.0 += 1;
}
}
impl StepByOne for PhysPageNum {
fn step(&mut self) {
self.0 += 1;
}
}
#[derive(Copy, Clone)]
pub struct SimpleRange<T> where

2
os/src/mm/frame_allocator.rs
View File

@ -109,7 +109,7 @@ pub fn frame_alloc() -> Option<FrameTracker> {
.map(|ppn| FrameTracker::new(ppn))
}
fn frame_dealloc(ppn: PhysPageNum) {
pub fn frame_dealloc(ppn: PhysPageNum) {
FRAME_ALLOCATOR
.exclusive_access()
.dealloc(ppn);

16
os/src/mm/memory_set.rs
View File

@ -13,7 +13,8 @@ use crate::config::{
PAGE_SIZE,
TRAMPOLINE,
TRAP_CONTEXT,
USER_STACK_SIZE
USER_STACK_SIZE,
MMIO,
};
use core::arch::asm;
@ -36,6 +37,10 @@ lazy_static! {
});
}
pub fn kernel_token() -> usize {
KERNEL_SPACE.exclusive_access().token()
}
pub struct MemorySet {
page_table: PageTable,
areas: Vec<MapArea>,
@ -127,6 +132,15 @@ impl MemorySet {
MapType::Identical,
MapPermission::R | MapPermission::W,
), None);
println!("mapping memory-mapped registers");
for pair in MMIO {
memory_set.push(MapArea::new(
(*pair).0.into(),
((*pair).0 + (*pair).1).into(),
MapType::Identical,
MapPermission::R | MapPermission::W,
), None);
}
memory_set
}
/// Include sections in elf and trampoline and TrapContext and user stack,

14
os/src/mm/mod.rs
View File

@ -4,23 +4,25 @@ mod frame_allocator;
mod page_table;
mod memory_set;
use page_table::{PageTable, PTEFlags};
use address::{VPNRange, StepByOne};
pub use address::{PhysAddr, VirtAddr, PhysPageNum, VirtPageNum};
pub use frame_allocator::{FrameTracker, frame_alloc};
use page_table::PTEFlags;
use address::VPNRange;
pub use address::{PhysAddr, VirtAddr, PhysPageNum, VirtPageNum, StepByOne};
pub use frame_allocator::{FrameTracker, frame_alloc, frame_dealloc,};
pub use page_table::{
PageTable,
PageTableEntry,
translated_byte_buffer,
translated_str,
translated_ref,
translated_refmut,
UserBuffer,
UserBufferIterator,
};
pub use memory_set::{MemorySet, KERNEL_SPACE, MapPermission};
pub use memory_set::{MemorySet, KERNEL_SPACE, MapPermission, kernel_token};
pub use memory_set::remap_test;
pub fn init() {
heap_allocator::init_heap();
frame_allocator::init_frame_allocator();
KERNEL_SPACE.exclusive_access().activate();
}
}

14
os/src/mm/page_table.rs
View File

@ -174,6 +174,7 @@ pub fn translated_byte_buffer(token: usize, ptr: *const u8, len: usize) -> Vec<&
v
}
/// Load a string from other address spaces into kernel space without an end `\0`.
pub fn translated_str(token: usize, ptr: *const u8) -> String {
let page_table = PageTable::from_token(token);
let mut string = String::new();
@ -182,14 +183,18 @@ pub fn translated_str(token: usize, ptr: *const u8) -> String {
let ch: u8 = *(page_table.translate_va(VirtAddr::from(va)).unwrap().get_mut());
if ch == 0 {
break;
} else {
string.push(ch as char);
va += 1;
}
string.push(ch as char);
va += 1;
}
string
}
pub fn translated_ref<T>(token: usize, ptr: *const T) -> &'static T {
let page_table = PageTable::from_token(token);
page_table.translate_va(VirtAddr::from(ptr as usize)).unwrap().get_ref()
}
pub fn translated_refmut<T>(token: usize, ptr: *mut T) -> &'static mut T {
let page_table = PageTable::from_token(token);
let va = ptr as usize;
@ -247,5 +252,4 @@ impl Iterator for UserBufferIterator {
Some(r)
}
}
}
}

47
os/src/syscall/fs.rs
View File

@ -1,6 +1,12 @@
use crate::mm::{UserBuffer, translated_byte_buffer, translated_refmut};
use crate::mm::{
UserBuffer,
translated_byte_buffer,
translated_refmut,
translated_str,
};
use crate::task::{current_user_token, current_task};
use crate::fs::make_pipe;
use crate::fs::{make_pipe, OpenFlags, open_file};
use alloc::sync::Arc;
pub fn sys_write(fd: usize, buf: *const u8, len: usize) -> isize {
let token = current_user_token();
@ -10,6 +16,9 @@ pub fn sys_write(fd: usize, buf: *const u8, len: usize) -> isize {
return -1;
}
if let Some(file) = &inner.fd_table[fd] {
if !file.writable() {
return -1;
}
let file = file.clone();
// release current task TCB manually to avoid multi-borrow
drop(inner);
@ -30,6 +39,9 @@ pub fn sys_read(fd: usize, buf: *const u8, len: usize) -> isize {
}
if let Some(file) = &inner.fd_table[fd] {
let file = file.clone();
if !file.readable() {
return -1;
}
// release current task TCB manually to avoid multi-borrow
drop(inner);
file.read(
@ -40,6 +52,23 @@ pub fn sys_read(fd: usize, buf: *const u8, len: usize) -> isize {
}
}
pub fn sys_open(path: *const u8, flags: u32) -> isize {
let task = current_task().unwrap();
let token = current_user_token();
let path = translated_str(token, path);
if let Some(inode) = open_file(
path.as_str(),
OpenFlags::from_bits(flags).unwrap()
) {
let mut inner = task.inner_exclusive_access();
let fd = inner.alloc_fd();
inner.fd_table[fd] = Some(inode);
fd as isize
} else {
-1
}
}
pub fn sys_close(fd: usize) -> isize {
let task = current_task().unwrap();
let mut inner = task.inner_exclusive_access();
@ -65,4 +94,18 @@ pub fn sys_pipe(pipe: *mut usize) -> isize {
*translated_refmut(token, pipe) = read_fd;
*translated_refmut(token, unsafe { pipe.add(1) }) = write_fd;
0
}
pub fn sys_dup(fd: usize) -> isize {
let task = current_task().unwrap();
let mut inner = task.inner_exclusive_access();
if fd >= inner.fd_table.len() {
return -1;
}
if inner.fd_table[fd].is_none() {
return -1;
}
let new_fd = inner.alloc_fd();
inner.fd_table[new_fd] = Some(Arc::clone(inner.fd_table[fd].as_ref().unwrap()));
new_fd as isize
}

6
os/src/syscall/mod.rs
View File

@ -1,3 +1,5 @@
const SYSCALL_DUP: usize = 24;
const SYSCALL_OPEN: usize = 56;
const SYSCALL_CLOSE: usize = 57;
const SYSCALL_PIPE: usize = 59;
const SYSCALL_READ: usize = 63;
@ -18,6 +20,8 @@ use process::*;
pub fn syscall(syscall_id: usize, args: [usize; 3]) -> isize {
match syscall_id {
SYSCALL_DUP=> sys_dup(args[0]),
SYSCALL_OPEN => sys_open(args[0] as *const u8, args[1] as u32),
SYSCALL_CLOSE => sys_close(args[0]),
SYSCALL_PIPE => sys_pipe(args[0] as *mut usize),
SYSCALL_READ => sys_read(args[0], args[1] as *const u8, args[2]),
@ -27,7 +31,7 @@ pub fn syscall(syscall_id: usize, args: [usize; 3]) -> isize {
SYSCALL_GET_TIME => sys_get_time(),
SYSCALL_GETPID => sys_getpid(),
SYSCALL_FORK => sys_fork(),
SYSCALL_EXEC => sys_exec(args[0] as *const u8),
SYSCALL_EXEC => sys_exec(args[0] as *const u8, args[1] as *const usize),
SYSCALL_WAITPID => sys_waitpid(args[0] as isize, args[1] as *mut i32),
_ => panic!("Unsupported syscall_id: {}", syscall_id),
}

38
os/src/syscall/process.rs
View File

@ -9,9 +9,15 @@ use crate::timer::get_time_ms;
use crate::mm::{
translated_str,
translated_refmut,
translated_ref,
};
use crate::fs::{
open_file,
OpenFlags,
};
use crate::loader::get_app_data_by_name;
use alloc::sync::Arc;
use alloc::vec::Vec;
use alloc::string::String;
pub fn sys_exit(exit_code: i32) -> ! {
exit_current_and_run_next(exit_code);
@ -45,13 +51,25 @@ pub fn sys_fork() -> isize {
new_pid as isize
}
pub fn sys_exec(path: *const u8) -> isize {
pub fn sys_exec(path: *const u8, mut args: *const usize) -> isize {
let token = current_user_token();
let path = translated_str(token, path);
if let Some(data) = get_app_data_by_name(path.as_str()) {
let mut args_vec: Vec<String> = Vec::new();
loop {
let arg_str_ptr = *translated_ref(token, args);
if arg_str_ptr == 0 {
break;
}
args_vec.push(translated_str(token, arg_str_ptr as *const u8));
unsafe { args = args.add(1); }
}
if let Some(app_inode) = open_file(path.as_str(), OpenFlags::RDONLY) {
let all_data = app_inode.read_all();
let task = current_task().unwrap();
task.exec(data);
0
let argc = args_vec.len();
task.exec(all_data.as_slice(), args_vec);
// return argc because cx.x[10] will be covered with it later
argc as isize
} else {
-1
}
@ -63,7 +81,7 @@ pub fn sys_waitpid(pid: isize, exit_code_ptr: *mut i32) -> isize {
let task = current_task().unwrap();
// find a child process
// ---- access current TCB exclusively
// ---- access current PCB exclusively
let mut inner = task.inner_exclusive_access();
if inner.children
.iter()
@ -76,16 +94,16 @@ pub fn sys_waitpid(pid: isize, exit_code_ptr: *mut i32) -> isize {
.iter()
.enumerate()
.find(|(_, p)| {
// ++++ temporarily access child PCB lock exclusively
// ++++ temporarily access child PCB exclusively
p.inner_exclusive_access().is_zombie() && (pid == -1 || pid as usize == p.getpid())
// ++++ release child PCB
});
if let Some((idx, _)) = pair {
let child = inner.children.remove(idx);
// confirm that child will be deallocated after removing from children list
// confirm that child will be deallocated after being removed from children list
assert_eq!(Arc::strong_count(&child), 1);
let found_pid = child.getpid();
// ++++ temporarily access child TCB exclusively
// ++++ temporarily access child PCB exclusively
let exit_code = child.inner_exclusive_access().exit_code;
// ++++ release child PCB
*translated_refmut(inner.memory_set.token(), exit_code_ptr) = exit_code;
@ -93,5 +111,5 @@ pub fn sys_waitpid(pid: isize, exit_code_ptr: *mut i32) -> isize {
} else {
-2
}
// ---- release current PCB lock automatically
// ---- release current PCB automatically
}

12
os/src/task/mod.rs
View File

@ -5,14 +5,14 @@ mod manager;
mod processor;
mod pid;
use crate::loader::get_app_data_by_name;
use crate::fs::{open_file, OpenFlags};
use switch::__switch;
use task::{TaskControlBlock, TaskStatus};
use alloc::sync::Arc;
use manager::fetch_task;
use lazy_static::*;
pub use context::TaskContext;
pub use processor::{
run_tasks,
current_task,
@ -76,9 +76,11 @@ pub fn exit_current_and_run_next(exit_code: i32) {
}
lazy_static! {
pub static ref INITPROC: Arc<TaskControlBlock> = Arc::new(
TaskControlBlock::new(get_app_data_by_name("initproc").unwrap())
);
pub static ref INITPROC: Arc<TaskControlBlock> = Arc::new({
let inode = open_file("initproc", OpenFlags::RDONLY).unwrap();
let v = inode.read_all();
TaskControlBlock::new(v.as_slice())
});
}
pub fn add_initproc() {

49
os/src/task/task.rs
View File

@ -1,4 +1,10 @@
use crate::mm::{MemorySet, PhysPageNum, KERNEL_SPACE, VirtAddr};
use crate::mm::{
MemorySet,
PhysPageNum,
KERNEL_SPACE,
VirtAddr,
translated_refmut,
};
use crate::trap::{TrapContext, trap_handler};
use crate::config::TRAP_CONTEXT;
use crate::sync::UPSafeCell;
@ -8,6 +14,7 @@ use super::{PidHandle, pid_alloc, KernelStack};
use alloc::sync::{Weak, Arc};
use alloc::vec;
use alloc::vec::Vec;
use alloc::string::String;
use crate::fs::{File, Stdin, Stdout};
pub struct TaskControlBlock {
@ -102,33 +109,59 @@ impl TaskControlBlock {
);
task_control_block
}
pub fn exec(&self, elf_data: &[u8]) {
pub fn exec(&self, elf_data: &[u8], args: Vec<String>) {
// memory_set with elf program headers/trampoline/trap context/user stack
let (memory_set, user_sp, entry_point) = MemorySet::from_elf(elf_data);
let (memory_set, mut user_sp, entry_point) = MemorySet::from_elf(elf_data);
let trap_cx_ppn = memory_set
.translate(VirtAddr::from(TRAP_CONTEXT).into())
.unwrap()
.ppn();
// push arguments on user stack
user_sp -= (args.len() + 1) * core::mem::size_of::<usize>();
let argv_base = user_sp;
let mut argv: Vec<_> = (0..=args.len())
.map(|arg| {
translated_refmut(
memory_set.token(),
(argv_base + arg * core::mem::size_of::<usize>()) as *mut usize
)
})
.collect();
*argv[args.len()] = 0;
for i in 0..args.len() {
user_sp -= args[i].len() + 1;
*argv[i] = user_sp;
let mut p = user_sp;
for c in args[i].as_bytes() {
*translated_refmut(memory_set.token(), p as *mut u8) = *c;
p += 1;
}
*translated_refmut(memory_set.token(), p as *mut u8) = 0;
}
// make the user_sp aligned to 8B for k210 platform
user_sp -= user_sp % core::mem::size_of::<usize>();
// **** access inner exclusively
// **** access current TCB exclusively
let mut inner = self.inner_exclusive_access();
// substitute memory_set
inner.memory_set = memory_set;
// update trap_cx ppn
inner.trap_cx_ppn = trap_cx_ppn;
// initialize trap_cx
let trap_cx = inner.get_trap_cx();
*trap_cx = TrapContext::app_init_context(
let mut trap_cx = TrapContext::app_init_context(
entry_point,
user_sp,
KERNEL_SPACE.exclusive_access().token(),
self.kernel_stack.get_top(),
trap_handler as usize,
);
// **** release inner automatically
trap_cx.x[10] = args.len();
trap_cx.x[11] = argv_base;
*inner.get_trap_cx() = trap_cx;
// **** release current PCB
}
pub fn fork(self: &Arc<TaskControlBlock>) -> Arc<TaskControlBlock> {
// ---- access parent PCB exclusively
// ---- hold parent PCB lock
let mut parent_inner = self.inner_exclusive_access();
// copy user space(include trap context)
let memory_set = MemorySet::from_existed_user(

1
os/src/trap/context.rs
View File

@ -1,6 +1,7 @@
use riscv::register::sstatus::{Sstatus, self, SPP};
#[repr(C)]
#[derive(Debug)]
pub struct TrapContext {
pub x: [usize; 32],
pub sstatus: Sstatus,

5
os/src/trap/mod.rs
View File

@ -89,6 +89,7 @@ pub fn trap_handler() -> ! {
panic!("Unsupported trap {:?}, stval = {:#x}!", scause.cause(), stval);
}
}
//println!("before trap_return");
trap_return();
}
@ -116,7 +117,9 @@ pub fn trap_return() -> ! {
#[no_mangle]
pub fn trap_from_kernel() -> ! {
use riscv::register::sepc;
println!("stval = {:#x}, sepc = {:#x}", stval::read(), sepc::read());
panic!("a trap {:?} from kernel!", scause::read().cause());
}
pub use context::{TrapContext};
pub use context::TrapContext;

3
user/Cargo.toml
View File

@ -7,4 +7,5 @@ edition = "2018"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
buddy_system_allocator = "0.6"
buddy_system_allocator = "0.6"
bitflags = "1.2.1"

2
user/Makefile
View File

@ -20,4 +20,4 @@ build: binary
clean:
@cargo clean
.PHONY: elf binary build clean
.PHONY: elf binary build clean

34
user/src/bin/cat.rs Normal file
View File

@ -0,0 +1,34 @@
#![no_std]
#![no_main]
#[macro_use]
extern crate user_lib;
extern crate alloc;
use user_lib::{
open,
OpenFlags,
close,
read,
};
use alloc::string::String;
#[no_mangle]
pub fn main(argc: usize, argv: &[&str]) -> i32 {
assert!(argc == 2);
let fd = open(argv[1], OpenFlags::RDONLY);
if fd == -1 {
panic!("Error occured when opening file");
}
let fd = fd as usize;
let mut buf = [0u8; 16];
let mut s = String::new();
loop {
let size = read(fd, &mut buf) as usize;
if size == 0 { break; }
s.push_str(core::str::from_utf8(&buf[..size]).unwrap());
}
println!("{}", s);
close(fd);
0
}

16
user/src/bin/cmdline_args.rs Normal file
View File

@ -0,0 +1,16 @@
#![no_std]
#![no_main]
extern crate alloc;
#[macro_use]
extern crate user_lib;
#[no_mangle]
pub fn main(argc: usize, argv: &[&str]) -> i32 {
println!("argc = {}", argc);
for i in 0..argc {
println!("argv[{}] = {}", i, argv[i]);
}
0
}

38
user/src/bin/filetest_simple.rs Normal file
View File

@ -0,0 +1,38 @@
#![no_std]
#![no_main]
#[macro_use]
extern crate user_lib;
use user_lib::{
open,
close,
read,
write,
OpenFlags,
};
#[no_mangle]
pub fn main() -> i32 {
let test_str = "Hello, world!";
let filea = "filea\0";
let fd = open(filea, OpenFlags::CREATE | OpenFlags::WRONLY);
assert!(fd > 0);
let fd = fd as usize;
write(fd, test_str.as_bytes());
close(fd);
let fd = open(filea, OpenFlags::RDONLY);
assert!(fd > 0);
let fd = fd as usize;
let mut buffer = [0u8; 100];
let read_len = read(fd, &mut buffer) as usize;
close(fd);
assert_eq!(
test_str,
core::str::from_utf8(&buffer[..read_len]).unwrap(),
);
println!("file_test passed!");
0
}

36
user/src/bin/huge_write.rs Normal file
View File

@ -0,0 +1,36 @@
#![no_std]
#![no_main]
#[macro_use]
extern crate user_lib;
use user_lib::{
OpenFlags,
open,
close,
write,
get_time,
};
#[no_mangle]
pub fn main() -> i32 {
let mut buffer = [0u8; 1024]; // 1KiB
for i in 0..buffer.len() {
buffer[i] = i as u8;
}
let f = open("testf", OpenFlags::CREATE | OpenFlags::WRONLY);
if f < 0 {
panic!("Open test file failed!");
}
let f = f as usize;
let start = get_time();
let size_mb = 1usize;
for _ in 0..1024*size_mb {
write(f, &buffer);
}
close(f);
let time_ms = (get_time() - start) as usize;
let speed_kbs = size_mb * 1000000 / time_ms;
println!("{}MiB written, time cost = {}ms, write speed = {}KiB/s", size_mb, time_ms, speed_kbs);
0
}

2
user/src/bin/initproc.rs
View File

@ -14,7 +14,7 @@ use user_lib::{
#[no_mangle]
fn main() -> i32 {
if fork() == 0 {
exec("user_shell\0");
exec("user_shell\0", &[0 as *const u8]);
} else {
loop {
let mut exit_code: i32 = 0;

2
user/src/bin/run_pipe_test.rs
View File

@ -10,7 +10,7 @@ use user_lib::{fork, exec, wait};
pub fn main() -> i32 {
for i in 0..1000 {
if fork() == 0 {
exec("pipe_large_test\0");
exec("pipe_large_test\0", &[0 as *const u8]);
} else {
let mut _unused: i32 = 0;
wait(&mut _unused);

2
user/src/bin/sleep.rs
View File

@ -7,7 +7,7 @@ extern crate user_lib;
use user_lib::{sleep, exit, get_time, fork, waitpid};
fn sleepy() {
let time: usize = 100;
let time: usize = 1000;
for i in 0..5 {
sleep(time);
println!("sleep {} x {} msecs.", i + 1, time);

82
user/src/bin/user_shell.rs
View File

@ -12,7 +12,16 @@ const DL: u8 = 0x7fu8;
const BS: u8 = 0x08u8;
use alloc::string::String;
use user_lib::{fork, exec, waitpid};
use alloc::vec::Vec;
use user_lib::{
fork,
exec,
waitpid,
open,
OpenFlags,
close,
dup,
};
use user_lib::console::getchar;
#[no_mangle]
@ -26,11 +35,78 @@ pub fn main() -> i32 {
LF | CR => {
println!("");
if !line.is_empty() {
line.push('\0');
let args: Vec<_> = line.as_str().split(' ').collect();
let mut args_copy: Vec<String> = args
.iter()
.map(|&arg| {
let mut string = String::new();
string.push_str(arg);
string
})
.collect();
args_copy
.iter_mut()
.for_each(|string| {
string.push('\0');
});
// redirect input
let mut input = String::new();
if let Some((idx, _)) = args_copy
.iter()
.enumerate()
.find(|(_, arg)| arg.as_str() == "<\0") {
input = args_copy[idx + 1].clone();
args_copy.drain(idx..=idx + 1);
}
// redirect output
let mut output = String::new();
if let Some((idx, _)) = args_copy
.iter()
.enumerate()
.find(|(_, arg)| arg.as_str() == ">\0") {
output = args_copy[idx + 1].clone();
args_copy.drain(idx..=idx + 1);
}
let mut args_addr: Vec<*const u8> = args_copy
.iter()
.map(|arg| arg.as_ptr())
.collect();
args_addr.push(0 as *const u8);
let pid = fork();
if pid == 0 {
// input redirection
if !input.is_empty() {
let input_fd = open(input.as_str(), OpenFlags::RDONLY);
if input_fd == -1 {
println!("Error when opening file {}", input);
return -4;
}
let input_fd = input_fd as usize;
close(0);
assert_eq!(dup(input_fd), 0);
close(input_fd);
}
// output redirection
if !output.is_empty() {
let output_fd = open(
output.as_str(),
OpenFlags::CREATE | OpenFlags::WRONLY
);
if output_fd == -1 {
println!("Error when opening file {}", output);
return -4;
}
let output_fd = output_fd as usize;
close(1);
assert_eq!(dup(output_fd), 1);
close(output_fd);
}
// child process
if exec(line.as_str()) == -1 {
if exec(args_copy[0].as_str(), args_addr.as_slice()) == -1 {
println!("Error when executing!");
return -4;
}

2
user/src/bin/usertests.rs
View File

@ -26,7 +26,7 @@ pub fn main() -> i32 {
println!("Usertests: Running {}", test);
let pid = fork();
if pid == 0 {
exec(*test);
exec(*test, &[0 as *const u8]);
panic!("unreachable!");
} else {
let mut exit_code: i32 = Default::default();

39
user/src/lib.rs
View File

@ -9,11 +9,14 @@ mod syscall;
mod lang_items;
extern crate alloc;
#[macro_use]
extern crate bitflags;
use syscall::*;
use buddy_system_allocator::LockedHeap;
use alloc::vec::Vec;
const USER_HEAP_SIZE: usize = 16384;
const USER_HEAP_SIZE: usize = 32768;
static mut HEAP_SPACE: [u8; USER_HEAP_SIZE] = [0; USER_HEAP_SIZE];
@ -27,20 +30,46 @@ pub fn handle_alloc_error(layout: core::alloc::Layout) -> ! {
#[no_mangle]
#[link_section = ".text.entry"]
pub extern "C" fn _start() -> ! {
pub extern "C" fn _start(argc: usize, argv: usize) -> ! {
unsafe {
HEAP.lock()
.init(HEAP_SPACE.as_ptr() as usize, USER_HEAP_SIZE);
}
exit(main());
let mut v: Vec<&'static str> = Vec::new();
for i in 0..argc {
let str_start = unsafe {
((argv + i * core::mem::size_of::<usize>()) as *const usize).read_volatile()
};
let len = (0usize..).find(|i| unsafe {
((str_start + *i) as *const u8).read_volatile() == 0
}).unwrap();
v.push(
core::str::from_utf8(unsafe {
core::slice::from_raw_parts(str_start as *const u8, len)
}).unwrap()
);
}
exit(main(argc, v.as_slice()));
}
#[linkage = "weak"]
#[no_mangle]
fn main() -> i32 {
fn main(_argc: usize, _argv: &[&str]) -> i32 {
panic!("Cannot find main!");
}
bitflags! {
pub struct OpenFlags: u32 {
const RDONLY = 0;
const WRONLY = 1 << 0;
const RDWR = 1 << 1;
const CREATE = 1 << 9;
const TRUNC = 1 << 10;
}
}
pub fn dup(fd: usize) -> isize { sys_dup(fd) }
pub fn open(path: &str, flags: OpenFlags) -> isize { sys_open(path, flags.bits) }
pub fn close(fd: usize) -> isize { sys_close(fd) }
pub fn pipe(pipe_fd: &mut [usize]) -> isize { sys_pipe(pipe_fd) }
pub fn read(fd: usize, buf: &mut [u8]) -> isize { sys_read(fd, buf) }
@ -50,7 +79,7 @@ pub fn yield_() -> isize { sys_yield() }
pub fn get_time() -> isize { sys_get_time() }
pub fn getpid() -> isize { sys_getpid() }
pub fn fork() -> isize { sys_fork() }
pub fn exec(path: &str) -> isize { sys_exec(path) }
pub fn exec(path: &str, args: &[*const u8]) -> isize { sys_exec(path, args) }
pub fn wait(exit_code: &mut i32) -> isize {
loop {
match sys_waitpid(-1, exit_code as *mut _) {

14
user/src/syscall.rs
View File

@ -1,5 +1,7 @@
use core::arch::asm;
const SYSCALL_DUP: usize = 24;
const SYSCALL_OPEN: usize = 56;
const SYSCALL_CLOSE: usize = 57;
const SYSCALL_PIPE: usize = 59;
const SYSCALL_READ: usize = 63;
@ -26,6 +28,14 @@ fn syscall(id: usize, args: [usize; 3]) -> isize {
ret
}
pub fn sys_dup(fd: usize) -> isize {
syscall(SYSCALL_DUP, [fd, 0, 0])
}
pub fn sys_open(path: &str, flags: u32) -> isize {
syscall(SYSCALL_OPEN, [path.as_ptr() as usize, flags as usize, 0])
}
pub fn sys_close(fd: usize) -> isize {
syscall(SYSCALL_CLOSE, [fd, 0, 0])
}
@ -63,8 +73,8 @@ pub fn sys_fork() -> isize {
syscall(SYSCALL_FORK, [0, 0, 0])
}
pub fn sys_exec(path: &str) -> isize {
syscall(SYSCALL_EXEC, [path.as_ptr() as usize, 0, 0])
pub fn sys_exec(path: &str, args: &[*const u8]) -> isize {
syscall(SYSCALL_EXEC, [path.as_ptr() as usize, args.as_ptr() as usize, 0])
}
pub fn sys_waitpid(pid: isize, exit_code: *mut i32) -> isize {