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use super::File;
use crate::drivers::BLOCK_DEVICE;
use crate::mm::UserBuffer;
use crate::sync::UPSafeCell;
use alloc::sync::Arc;
use alloc::vec::Vec;
use bitflags::*;
use easy_fs::{EasyFileSystem, Inode};
use lazy_static::*;
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 {
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) {
inode.clear();
Some(Arc::new(OSInode::new(readable, writable, inode)))
} else {
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
}
}