rust-fatfs/src/file.rs

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use core::cmp;
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use core;
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use io::prelude::*;
use io::{SeekFrom, ErrorKind};
use io;
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use fs::{FileSystem, ReadWriteSeek};
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use dir_entry::{DirEntryEditor, DateTime, Date};
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const MAX_FILE_SIZE: u32 = core::u32::MAX;
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/// A FAT filesystem file object used for reading and writing data.
pub struct File<'a, T: ReadWriteSeek + 'a> {
// Note first_cluster is None if file is empty
first_cluster: Option<u32>,
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// Note: if offset points between clusters current_cluster is the previous cluster
current_cluster: Option<u32>,
// current position in this file
offset: u32,
// file dir entry editor - None for root dir
entry: Option<DirEntryEditor>,
// file-system reference
fs: &'a FileSystem<T>,
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}
impl <'a, T: ReadWriteSeek> File<'a, T> {
pub(crate) fn new(first_cluster: Option<u32>, entry: Option<DirEntryEditor>, fs: &'a FileSystem<T>) -> Self {
File {
first_cluster, entry, fs,
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current_cluster: None, // cluster before first one
offset: 0,
}
}
fn update_size(&mut self) {
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let offset = self.offset;
if let Some(ref mut e) = self.entry {
e.reset_modified();
if e.inner().size().map_or(false, |s| offset > s) {
e.set_size(offset);
}
}
}
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/// Truncate file in current position.
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pub fn truncate(&mut self) -> io::Result<()> {
if let Some(ref mut e) = self.entry {
e.set_size(self.offset);
if self.offset == 0 {
e.set_first_cluster(None, self.fs.fat_type());
}
}
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if self.offset > 0 {
debug_assert!(self.current_cluster.is_some());
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// if offset is not 0 current cluster cannot be empty
self.fs.truncate_cluster_chain(self.current_cluster.unwrap()) // SAFE
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} else {
debug_assert!(self.current_cluster.is_none());
if let Some(n) = self.first_cluster {
self.fs.free_cluster_chain(n)?;
self.first_cluster = None;
}
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Ok(())
}
}
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pub(crate) fn abs_pos(&self) -> Option<u64> {
// Returns current position relative to filesystem start
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// Note: when between clusters it returns position after previous cluster
match self.current_cluster {
Some(n) => {
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let cluster_size = self.fs.cluster_size();
let offset_in_cluster = self.offset % cluster_size;
let offset_in_fs = self.fs.offset_from_cluster(n) + (offset_in_cluster as u64);
Some(offset_in_fs)
},
None => None,
}
}
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fn flush_dir_entry(&mut self) -> io::Result<()> {
if let Some(ref mut e) = self.entry {
e.flush(self.fs)?;
}
Ok(())
}
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/// Sets date and time of creation for this file.
///
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/// Note: if `chrono` feature is enabled (default) library automatically updates all timestamps
pub fn set_created(&mut self, date_time: DateTime) {
if let Some(ref mut e) = self.entry {
e.set_created(date_time);
}
}
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/// Sets date of last access for this file.
///
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/// Note: if `chrono` feature is enabled (default) library automatically updates all timestamps
pub fn set_accessed(&mut self, date: Date) {
if let Some(ref mut e) = self.entry {
e.set_accessed(date);
}
}
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/// Sets date and time of last modification for this file.
///
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/// Note: if `chrono` feature is enabled (default) library automatically updates all timestamps
pub fn set_modified(&mut self, date_time: DateTime) {
if let Some(ref mut e) = self.entry {
e.set_modified(date_time);
}
}
fn bytes_left_in_file(&self) -> Option<usize> {
match self.entry {
Some(ref e) => e.inner().size().map(|s| (s - self.offset) as usize),
None => None,
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}
}
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fn set_first_cluster(&mut self, cluster: u32) {
self.first_cluster = Some(cluster);
if let Some(ref mut e) = self.entry {
e.set_first_cluster(self.first_cluster, self.fs.fat_type());
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}
}
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pub(crate) fn first_cluster(&self) -> Option<u32> {
self.first_cluster
}
}
impl<'a, T: ReadWriteSeek> Drop for File<'a, T> {
fn drop(&mut self) {
if let Err(err) = self.flush() {
error!("flush failed {}", err);
}
}
}
// Note: derive cannot be used because of invalid bounds. See: https://github.com/rust-lang/rust/issues/26925
impl <'a, T: ReadWriteSeek> Clone for File<'a, T> {
fn clone(&self) -> Self {
File {
first_cluster: self.first_cluster,
current_cluster: self.current_cluster,
offset: self.offset,
entry: self.entry.clone(),
fs: self.fs,
}
}
}
impl<'a, T: ReadWriteSeek> Read for File<'a, T> {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
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let cluster_size = self.fs.cluster_size();
let current_cluster_opt = if self.offset % cluster_size == 0 {
// next cluster
match self.current_cluster {
None => self.first_cluster,
Some(n) => {
let r = self.fs.cluster_iter(n).next();
match r {
Some(Err(err)) => return Err(err),
Some(Ok(n)) => Some(n),
None => None,
}
},
}
} else {
self.current_cluster
};
let current_cluster = match current_cluster_opt {
Some(n) => n,
None => return Ok(0),
};
let offset_in_cluster = self.offset % cluster_size;
let bytes_left_in_cluster = (cluster_size - offset_in_cluster) as usize;
let bytes_left_in_file = self.bytes_left_in_file().unwrap_or(bytes_left_in_cluster);
let read_size = cmp::min(cmp::min(buf.len(), bytes_left_in_cluster), bytes_left_in_file);
if read_size == 0 {
return Ok(0);
}
trace!("read {} bytes in cluster {}", read_size, current_cluster);
let offset_in_fs = self.fs.offset_from_cluster(current_cluster) + (offset_in_cluster as u64);
let read_bytes = {
let mut disk = self.fs.disk.borrow_mut();
disk.seek(SeekFrom::Start(offset_in_fs))?;
disk.read(&mut buf[..read_size])?
};
if read_bytes == 0 {
return Ok(0);
}
self.offset += read_bytes as u32;
self.current_cluster = Some(current_cluster);
match self.entry {
Some(ref mut e) if self.fs.options.update_accessed_date => e.reset_accessed(),
_ => {},
}
Ok(read_bytes)
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}
}
impl<'a, T: ReadWriteSeek> Write for File<'a, T> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
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let cluster_size = self.fs.cluster_size();
let offset_in_cluster = self.offset % cluster_size;
let bytes_left_in_cluster = (cluster_size - offset_in_cluster) as usize;
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let bytes_left_until_max_file_size = (MAX_FILE_SIZE - self.offset) as usize;
let write_size = cmp::min(buf.len(), bytes_left_in_cluster);
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let write_size = cmp::min(write_size, bytes_left_until_max_file_size);
// Exit early if we are going to write no data
if write_size == 0 {
return Ok(0);
}
// Get cluster for write possibly allocating new one
let current_cluster = if self.offset % cluster_size == 0 {
// next cluster
let next_cluster = match self.current_cluster {
None => self.first_cluster,
Some(n) => {
let r = self.fs.cluster_iter(n).next();
match r {
Some(Err(err)) => return Err(err),
Some(Ok(n)) => Some(n),
None => None,
}
},
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};
match next_cluster {
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Some(n) => n,
None => {
// end of chain reached - allocate new cluster
let new_cluster = self.fs.alloc_cluster(self.current_cluster)?;
trace!("allocated cluser {}", new_cluster);
if self.first_cluster.is_none() {
self.set_first_cluster(new_cluster);
}
if self.entry.clone().map_or(true, |e| e.inner().size().is_none()) {
// zero new directory cluster
trace!("zeroing directory cluser {}", new_cluster);
let abs_pos = self.fs.offset_from_cluster(new_cluster);
let mut disk = self.fs.disk.borrow_mut();
disk.seek(SeekFrom::Start(abs_pos))?;
for _ in 0..cluster_size/32 {
let zero = [0u8; 32];
disk.write(&zero)?;
}
}
new_cluster
},
}
} else {
// self.current_cluster should be a valid cluster
match self.current_cluster {
Some(n) => n,
None => panic!("Offset inside cluster but no cluster allocated"),
}
};
trace!("write {} bytes in cluster {}", write_size, current_cluster);
let offset_in_fs = self.fs.offset_from_cluster(current_cluster) + (offset_in_cluster as u64);
let written_bytes = {
let mut disk = self.fs.disk.borrow_mut();
disk.seek(SeekFrom::Start(offset_in_fs))?;
disk.write(&buf[..write_size])?
};
if written_bytes == 0 {
return Ok(0);
}
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// some bytes were writter - update position and optionally size
self.offset += written_bytes as u32;
self.current_cluster = Some(current_cluster);
self.update_size();
Ok(written_bytes)
}
fn flush(&mut self) -> io::Result<()> {
self.flush_dir_entry()?;
let mut disk = self.fs.disk.borrow_mut();
disk.flush()
}
}
impl<'a, T: ReadWriteSeek> Seek for File<'a, T> {
fn seek(&mut self, pos: SeekFrom) -> io::Result<u64> {
let mut new_pos = match pos {
SeekFrom::Current(x) => self.offset as i64 + x,
SeekFrom::Start(x) => x as i64,
SeekFrom::End(x) => self.entry.iter().next().map_or(None, |e| e.inner().size()).expect("cannot seek from end if size is unknown") as i64 + x,
};
if new_pos < 0 {
return Err(io::Error::new(ErrorKind::InvalidInput, "invalid seek"));
}
new_pos = match self.entry {
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Some(ref e) => {
if e.inner().size().map_or(false, |s| new_pos > s as i64) {
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info!("seek beyond end of file");
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e.inner().size().unwrap() as i64 // SAFE: map_or returns false if size is empty
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} else {
new_pos
}
},
_ => new_pos,
};
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trace!("file seek {} -> {} - entry {:?}", self.offset, new_pos, self.entry);
if new_pos == self.offset as i64 {
return Ok(self.offset as u64);
}
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let cluster_size = self.fs.cluster_size();
// get number of clusters to seek (favoring previous cluster in corner case)
let cluster_count = ((new_pos + cluster_size as i64 - 1) / cluster_size as i64 - 1) as isize;
let old_cluster_count = ((self.offset as i64 + cluster_size as i64 - 1) / cluster_size as i64 - 1) as isize;
let new_cluster = if new_pos == 0 {
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None
} else if cluster_count == old_cluster_count {
self.current_cluster
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} else {
match self.first_cluster {
Some(n) => {
let mut cluster = n;
let mut iter = self.fs.cluster_iter(n);
for i in 0..cluster_count {
cluster = match iter.next() {
Some(r) => r?,
None => {
// chain ends before new position - seek to end of last cluster
new_pos = (i + 1) as i64 * cluster_size as i64;
break;
},
};
}
Some(cluster)
},
None => {
// empty file - always seek to 0
new_pos = 0;
None
},
}
};
self.offset = new_pos as u32;
self.current_cluster = new_cluster;
Ok(self.offset as u64)
}
}