use std::ascii::AsciiExt; use std::fmt; use std::io::prelude::*; use std::io; use std::io::{Cursor, ErrorKind, SeekFrom}; use std::cmp; use byteorder::{LittleEndian, ReadBytesExt, WriteBytesExt}; #[cfg(feature = "chrono")] use chrono::{TimeZone, Local, Datelike, Timelike}; #[cfg(feature = "chrono")] use chrono; use fs::{FileSystemRef, DiskSlice, FatType}; use file::File; #[derive(Clone)] pub(crate) enum DirRawStream<'a, 'b: 'a> { File(File<'a, 'b>), Root(DiskSlice<'a, 'b>), } impl <'a, 'b> DirRawStream<'a, 'b> { pub(crate) fn abs_pos(&self) -> Option { match self { &DirRawStream::File(ref file) => file.abs_pos(), &DirRawStream::Root(ref slice) => Some(slice.abs_pos()), } } pub(crate) fn first_cluster(&self) -> Option { match self { &DirRawStream::File(ref file) => file.first_cluster(), &DirRawStream::Root(_) => None, } } } impl <'a, 'b> Read for DirRawStream<'a, 'b> { fn read(&mut self, buf: &mut [u8]) -> io::Result { match self { &mut DirRawStream::File(ref mut file) => file.read(buf), &mut DirRawStream::Root(ref mut raw) => raw.read(buf), } } } impl <'a, 'b> Write for DirRawStream<'a, 'b> { fn write(&mut self, buf: &[u8]) -> io::Result { match self { &mut DirRawStream::File(ref mut file) => file.write(buf), &mut DirRawStream::Root(ref mut raw) => raw.write(buf), } } fn flush(&mut self) -> io::Result<()> { match self { &mut DirRawStream::File(ref mut file) => file.flush(), &mut DirRawStream::Root(ref mut raw) => raw.flush(), } } } impl <'a, 'b> Seek for DirRawStream<'a, 'b> { fn seek(&mut self, pos: SeekFrom) -> io::Result { match self { &mut DirRawStream::File(ref mut file) => file.seek(pos), &mut DirRawStream::Root(ref mut raw) => raw.seek(pos), } } } bitflags! { /// FAT file attributes #[derive(Default)] pub struct FileAttributes: u8 { const READ_ONLY = 0x01; const HIDDEN = 0x02; const SYSTEM = 0x04; const VOLUME_ID = 0x08; const DIRECTORY = 0x10; const ARCHIVE = 0x20; const LFN = Self::READ_ONLY.bits | Self::HIDDEN.bits | Self::SYSTEM.bits | Self::VOLUME_ID.bits; } } const LFN_PART_LEN: usize = 13; const DIR_ENTRY_SIZE: u64 = 32; const DIR_ENTRY_FREE_FLAG: u8 = 0xE5; const LFN_ENTRY_LAST_FLAG: u8 = 0x40; #[allow(dead_code)] #[derive(Clone, Debug, Default)] pub(crate) struct DirFileEntryData { name: [u8; 11], attrs: FileAttributes, reserved_0: u8, create_time_0: u8, create_time_1: u16, create_date: u16, access_date: u16, first_cluster_hi: u16, modify_time: u16, modify_date: u16, first_cluster_lo: u16, size: u32, } impl DirFileEntryData { fn new(name: [u8; 11], attrs: FileAttributes) -> Self { DirFileEntryData { name, attrs, ..Default::default() } } pub(crate) fn first_cluster(&self, fat_type: FatType) -> Option { let first_cluster_hi = if fat_type == FatType::Fat32 { self.first_cluster_hi } else { 0 }; let n = ((first_cluster_hi as u32) << 16) | self.first_cluster_lo as u32; if n == 0 { None } else { Some(n) } } fn set_first_cluster(&mut self, cluster: Option, fat_type: FatType) { let n = cluster.unwrap_or(0); if fat_type == FatType::Fat32 { self.first_cluster_hi = (n >> 16) as u16; } self.first_cluster_lo = (n & 0xFFFF) as u16; } pub(crate) fn size(&self) -> Option { if self.is_file() { Some(self.size) } else { None } } fn set_size(&mut self, size: u32) { self.size = size; } pub(crate) fn is_dir(&self) -> bool { self.attrs.contains(FileAttributes::DIRECTORY) } pub(crate) fn is_file(&self) -> bool { !self.is_dir() } fn created(&self) -> DateTime { DateTime::from_u16(self.create_date, self.create_time_1) } fn accessed(&self) -> Date { Date::from_u16(self.access_date) } fn modified(&self) -> DateTime { DateTime::from_u16(self.modify_date, self.modify_time) } fn set_created(&mut self, date_time: DateTime) { self.create_date = date_time.date.to_u16(); self.create_time_1 = date_time.time.to_u16(); } fn set_accessed(&mut self, date: Date) { self.access_date = date.to_u16(); } fn set_modified(&mut self, date_time: DateTime) { self.modify_date = date_time.date.to_u16(); self.modify_time = date_time.time.to_u16(); } #[cfg(feature = "chrono")] fn reset_created(&mut self) { let now = DateTime::from(chrono::Local::now()); self.set_created(now); } #[cfg(feature = "chrono")] fn reset_accessed(&mut self) -> bool { let now = Date::from(chrono::Local::now().date()); if now == self.accessed() { false } else { self.set_accessed(now); true } } #[cfg(feature = "chrono")] fn reset_modified(&mut self) { let now = DateTime::from(chrono::Local::now()); self.set_modified(now); } #[cfg(not(feature = "chrono"))] fn reset_created(&mut self) { // nop - user controls timestamps manually false } #[cfg(not(feature = "chrono"))] fn reset_accessed(&mut self) -> bool { // nop - user controls timestamps manually false } #[cfg(not(feature = "chrono"))] fn reset_modified(&mut self) { // nop - user controls timestamps manually false } fn serialize(&self, wrt: &mut Write) -> io::Result<()> { wrt.write_all(&self.name)?; wrt.write_u8(self.attrs.bits())?; wrt.write_u8(self.reserved_0)?; wrt.write_u8(self.create_time_0)?; wrt.write_u16::(self.create_time_1)?; wrt.write_u16::(self.create_date)?; wrt.write_u16::(self.access_date)?; wrt.write_u16::(self.first_cluster_hi)?; wrt.write_u16::(self.modify_time)?; wrt.write_u16::(self.modify_date)?; wrt.write_u16::(self.first_cluster_lo)?; wrt.write_u32::(self.size)?; Ok(()) } fn is_free(&self) -> bool { self.name[0] == DIR_ENTRY_FREE_FLAG } fn set_free(&mut self) { self.name[0] = DIR_ENTRY_FREE_FLAG; } fn is_end(&self) -> bool { self.name[0] == 0 } } #[allow(dead_code)] #[derive(Clone, Debug, Default)] struct DirLfnEntryData { order: u8, name_0: [u16; 5], attrs: FileAttributes, entry_type: u8, checksum: u8, name_1: [u16; 6], reserved_0: u16, name_2: [u16; 2], } impl DirLfnEntryData { fn new(order: u8, checksum: u8) -> Self { DirLfnEntryData { order, checksum, attrs: FileAttributes::LFN, ..Default::default() } } fn copy_name_from_slice(&mut self, lfn_part: &[u16; LFN_PART_LEN]) { self.name_0.copy_from_slice(&lfn_part[0..5]); self.name_1.copy_from_slice(&lfn_part[5..5+6]); self.name_2.copy_from_slice(&lfn_part[11..11+2]); } fn serialize(&self, wrt: &mut Write) -> io::Result<()> { wrt.write_u8(self.order)?; for ch in self.name_0.iter() { wrt.write_u16::(*ch)?; } wrt.write_u8(self.attrs.bits())?; wrt.write_u8(self.entry_type)?; wrt.write_u8(self.checksum)?; for ch in self.name_1.iter() { wrt.write_u16::(*ch)?; } wrt.write_u16::(self.reserved_0)?; for ch in self.name_2.iter() { wrt.write_u16::(*ch)?; } Ok(()) } fn is_free(&self) -> bool { self.order == DIR_ENTRY_FREE_FLAG } fn set_free(&mut self) { self.order = DIR_ENTRY_FREE_FLAG; } fn is_end(&self) -> bool { self.order == 0 } } #[derive(Clone, Debug)] enum DirEntryData { File(DirFileEntryData), Lfn(DirLfnEntryData), } impl DirEntryData { fn serialize(&mut self, wrt: &mut Write) -> io::Result<()> { match self { &mut DirEntryData::File(ref mut file) => file.serialize(wrt), &mut DirEntryData::Lfn(ref mut lfn) => lfn.serialize(wrt), } } fn deserialize(rdr: &mut Read) -> io::Result { let mut name = [0; 11]; match rdr.read_exact(&mut name) { Err(ref err) if err.kind() == io::ErrorKind::UnexpectedEof => { return Ok(DirEntryData::File(DirFileEntryData { ..Default::default() })); } Err(err) => return Err(err), _ => {}, } let attrs = FileAttributes::from_bits_truncate(rdr.read_u8()?); if attrs & FileAttributes::LFN == FileAttributes::LFN { let mut data = DirLfnEntryData { attrs, ..Default::default() }; let mut cur = Cursor::new(&name); data.order = cur.read_u8()?; cur.read_u16_into::(&mut data.name_0)?; data.entry_type = rdr.read_u8()?; data.checksum = rdr.read_u8()?; rdr.read_u16_into::(&mut data.name_1)?; data.reserved_0 = rdr.read_u16::()?; rdr.read_u16_into::(&mut data.name_2)?; Ok(DirEntryData::Lfn(data)) } else { let data = DirFileEntryData { name, attrs, reserved_0: rdr.read_u8()?, create_time_0: rdr.read_u8()?, create_time_1: rdr.read_u16::()?, create_date: rdr.read_u16::()?, access_date: rdr.read_u16::()?, first_cluster_hi: rdr.read_u16::()?, modify_time: rdr.read_u16::()?, modify_date: rdr.read_u16::()?, first_cluster_lo: rdr.read_u16::()?, size: rdr.read_u32::()?, }; Ok(DirEntryData::File(data)) } } fn is_free(&self) -> bool { match self { &DirEntryData::File(ref file) => file.is_free(), &DirEntryData::Lfn(ref lfn) => lfn.is_free(), } } fn set_free(&mut self) { match self { &mut DirEntryData::File(ref mut file) => file.set_free(), &mut DirEntryData::Lfn(ref mut lfn) => lfn.set_free(), } } fn is_end(&self) -> bool { match self { &DirEntryData::File(ref file) => file.is_end(), &DirEntryData::Lfn(ref lfn) => lfn.is_end(), } } } /// DOS compatible date #[derive(Clone, Copy, Debug, PartialEq)] pub struct Date { pub year: u16, pub month: u16, pub day: u16, } impl Date { pub(crate) fn from_u16(dos_date: u16) -> Self { let (year, month, day) = ((dos_date >> 9) + 1980, (dos_date >> 5) & 0xF, dos_date & 0x1F); Date { year, month, day } } fn to_u16(&self) -> u16 { ((self.year - 1980) << 9) | (self.month << 5) | self.day } } /// DOS compatible time #[derive(Clone, Copy, Debug, PartialEq)] pub struct Time { pub hour: u16, pub min: u16, pub sec: u16, } impl Time { pub(crate) fn from_u16(dos_time: u16) -> Self { let (hour, min, sec) = (dos_time >> 11, (dos_time >> 5) & 0x3F, (dos_time & 0x1F) * 2); Time { hour, min, sec } } fn to_u16(&self) -> u16 { (self.hour << 11) | (self.min << 5) | (self.sec / 2) } } /// DOS compatible date and time #[derive(Clone, Copy, Debug, PartialEq)] pub struct DateTime { pub date: Date, pub time: Time, } impl DateTime { pub(crate) fn from_u16(dos_date: u16, dos_time: u16) -> Self { DateTime { date: Date::from_u16(dos_date), time: Time::from_u16(dos_time), } } } #[cfg(feature = "chrono")] impl From for chrono::Date { fn from(date: Date) -> Self { Local.ymd(date.year as i32, date.month as u32, date.day as u32) } } #[cfg(feature = "chrono")] impl From for chrono::DateTime { fn from(date_time: DateTime) -> Self { chrono::Date::::from(date_time.date) .and_hms(date_time.time.hour as u32, date_time.time.min as u32, date_time.time.sec as u32) } } #[cfg(feature = "chrono")] impl From> for Date { fn from(date: chrono::Date) -> Self { Date { year: date.year() as u16, month: date.month() as u16, day: date.day() as u16, } } } #[cfg(feature = "chrono")] impl From> for DateTime { fn from(date_time: chrono::DateTime) -> Self { DateTime { date: Date::from(date_time.date()), time: Time { hour: date_time.hour() as u16, min: date_time.minute() as u16, sec: date_time.second() as u16, }, } } } #[derive(Clone, Debug)] pub(crate) struct DirEntryEditor { data: DirFileEntryData, pos: u64, dirty: bool, } impl DirEntryEditor { fn new(data: DirFileEntryData, pos: u64) -> DirEntryEditor { DirEntryEditor { data, pos, dirty: false, } } pub(crate) fn inner(&self) -> &DirFileEntryData { &self.data } pub(crate) fn set_first_cluster(&mut self, first_cluster: Option, fat_type: FatType) { if first_cluster != self.data.first_cluster(fat_type) { self.data.set_first_cluster(first_cluster, fat_type); self.dirty = true; } } pub(crate) fn set_size(&mut self, size: u32) { match self.data.size() { Some(n) if size != n => { self.data.set_size(size); self.dirty = true; }, _ => {}, } } pub(crate) fn set_created(&mut self, date_time: DateTime) { if date_time != self.data.created() { self.data.set_created(date_time); self.dirty = true; } } pub(crate) fn set_accessed(&mut self, date: Date) { if date != self.data.accessed() { self.data.set_accessed(date); self.dirty = true; } } pub(crate) fn set_modified(&mut self, date_time: DateTime) { if date_time != self.data.modified() { self.data.set_modified(date_time); self.dirty = true; } } pub(crate) fn reset_accessed(&mut self) { self.dirty |= self.data.reset_accessed(); } pub(crate) fn reset_modified(&mut self) { self.data.reset_modified(); self.dirty = true; } pub(crate) fn flush(&mut self, fs: FileSystemRef) -> io::Result<()> { if self.dirty { self.write(fs)?; self.dirty = false; } Ok(()) } fn write(&self, fs: FileSystemRef) -> io::Result<()> { let mut disk = fs.disk.borrow_mut(); disk.seek(io::SeekFrom::Start(self.pos))?; self.data.serialize(&mut *disk) } } /// FAT directory entry. /// /// Returned by DirIter. #[derive(Clone)] pub struct DirEntry<'a, 'b: 'a> { data: DirFileEntryData, lfn: Vec, entry_pos: u64, offset_range: (u64, u64), fs: FileSystemRef<'a, 'b>, } impl <'a, 'b> DirEntry<'a, 'b> { /// Returns short file name pub fn short_file_name(&self) -> String { let name_str = String::from_utf8_lossy(&self.data.name[0..8]); let ext_str = String::from_utf8_lossy(&self.data.name[8..11]); let name_trimmed = name_str.trim_right(); let ext_trimmed = ext_str.trim_right(); if ext_trimmed.is_empty() { name_trimmed.to_string() } else { format!("{}.{}", name_trimmed, ext_trimmed) } } /// Returns long file name or if it doesn't exist fallbacks to short file name. pub fn file_name(&self) -> String { if self.lfn.len() > 0 { String::from_utf16_lossy(&self.lfn) } else { self.short_file_name() } } /// Returns file attributes pub fn attributes(&self) -> FileAttributes { self.data.attrs } /// Checks if entry belongs to directory. pub fn is_dir(&self) -> bool { self.data.is_dir() } /// Checks if entry belongs to regular file. pub fn is_file(&self) -> bool { self.data.is_file() } pub(crate) fn first_cluster(&self) -> Option { self.data.first_cluster(self.fs.fat_type) } fn entry_info(&self) -> DirEntryEditor { DirEntryEditor::new(self.data.clone(), self.entry_pos) } /// Returns File struct for this entry. /// /// Panics if this is not a file. pub fn to_file(&self) -> File<'a, 'b> { assert!(!self.is_dir(), "Not a file entry"); File::new(self.first_cluster(), Some(self.entry_info()), self.fs) } /// Returns Dir struct for this entry. /// /// Panics if this is not a directory. pub fn to_dir(&self) -> Dir<'a, 'b> { assert!(self.is_dir(), "Not a directory entry"); match self.first_cluster() { Some(n) => { let file = File::new(Some(n), Some(self.entry_info()), self.fs); Dir::new(DirRawStream::File(file), self.fs) }, None => self.fs.root_dir(), } } /// Returns file size or 0 for directory. pub fn len(&self) -> u64 { self.data.size as u64 } /// Returns file creation date and time. pub fn created(&self) -> DateTime { self.data.created() } /// Returns file last access date. pub fn accessed(&self) -> Date { self.data.accessed() } /// Returns file last modification date and time. pub fn modified(&self) -> DateTime { self.data.modified() } } impl <'a, 'b> fmt::Debug for DirEntry<'a, 'b> { fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> { self.data.fmt(f) } } /// FAT directory #[derive(Clone)] pub struct Dir<'a, 'b: 'a> { stream: DirRawStream<'a, 'b>, fs: FileSystemRef<'a, 'b>, } impl <'a, 'b> Dir<'a, 'b> { pub(crate) fn new(stream: DirRawStream<'a, 'b>, fs: FileSystemRef<'a, 'b>) -> Dir<'a, 'b> { Dir { stream, fs } } /// Creates directory entries iterator pub fn iter(&self) -> DirIter<'a, 'b> { DirIter { stream: self.stream.clone(), fs: self.fs.clone(), err: false, } } fn split_path<'c>(path: &'c str) -> (&'c str, Option<&'c str>) { let mut path_split = path.trim_matches('/').splitn(2, "/"); let comp = path_split.next().unwrap(); // safe unwrap - splitn always returns at least one element let rest_opt = path_split.next(); (comp, rest_opt) } fn find_entry(&mut self, name: &str) -> io::Result> { for r in self.iter() { let e = r?; if e.file_name().eq_ignore_ascii_case(name) { return Ok(e); } } Err(io::Error::new(ErrorKind::NotFound, "file not found")) } /// Opens existing directory pub fn open_dir(&mut self, path: &str) -> io::Result> { let (name, rest_opt) = Self::split_path(path); let e = self.find_entry(name)?; match rest_opt { Some(rest) => e.to_dir().open_dir(rest), None => Ok(e.to_dir()) } } /// Opens existing file. pub fn open_file(&mut self, path: &str) -> io::Result> { let (name, rest_opt) = Self::split_path(path); let e = self.find_entry(name)?; match rest_opt { Some(rest) => e.to_dir().open_file(rest), None => Ok(e.to_file()) } } /// Creates new file or opens existing. pub fn create_file(&mut self, path: &str) -> io::Result> { let (name, rest_opt) = Self::split_path(path); let r = self.find_entry(name); match rest_opt { Some(rest) => r?.to_dir().create_file(rest), None => { match r { Err(ref err) if err.kind() == ErrorKind::NotFound => Ok(self.create_entry(name, FileAttributes::from_bits_truncate(0), None)?.to_file()), Err(err) => Err(err), Ok(e) => Ok(e.to_file()), } } } } /// Creates new directory or opens existing. pub fn create_dir(&mut self, path: &str) -> io::Result> { let (name, rest_opt) = Self::split_path(path); let r = self.find_entry(name); match rest_opt { Some(rest) => r?.to_dir().create_dir(rest), None => { match r { Err(ref err) if err.kind() == ErrorKind::NotFound => { let cluster = self.fs.alloc_cluster(None)?; let entry = self.create_entry(name, FileAttributes::DIRECTORY, Some(cluster))?; let mut dir = entry.to_dir(); dir.create_entry(".", FileAttributes::DIRECTORY, entry.first_cluster())?; dir.create_entry("..", FileAttributes::DIRECTORY, self.stream.first_cluster())?; Ok(dir) }, Err(err) => Err(err), Ok(e) => Ok(e.to_dir()), } } } } fn is_empty(&mut self) -> io::Result { for r in self.iter() { let e = r?; let name = e.file_name(); if name != "." && name != ".." { return Ok(false); } } Ok(true) } /// Removes existing file or directory. /// /// Make sure there is no reference to this file (no File instance) or filesystem corruption /// can happen. pub fn remove(&mut self, path: &str) -> io::Result<()> { let (name, rest_opt) = Self::split_path(path); let e = self.find_entry(name)?; match rest_opt { Some(rest) => e.to_dir().remove(rest), None => { trace!("removing {}", path); if e.is_dir() && !e.to_dir().is_empty()? { return Err(io::Error::new(ErrorKind::NotFound, "removing non-empty directory is denied")); } match e.first_cluster() { Some(n) => self.fs.cluster_iter(n).free()?, _ => {}, } let mut stream = self.stream.clone(); stream.seek(SeekFrom::Start(e.offset_range.0 as u64))?; let num = (e.offset_range.1 - e.offset_range.0) as usize / DIR_ENTRY_SIZE as usize; for _ in 0..num { let mut data = DirEntryData::deserialize(&mut stream)?; trace!("removing dir entry {:?}", data); data.set_free(); stream.seek(SeekFrom::Current(-(DIR_ENTRY_SIZE as i64)))?; data.serialize(&mut stream)?; } Ok(()) } } } fn find_free_entries(&mut self, num_entries: usize) -> io::Result> { let mut stream = self.stream.clone(); let mut first_free = 0; let mut num_free = 0; let mut i = 0; loop { let raw_entry = DirEntryData::deserialize(&mut stream)?; if raw_entry.is_end() { if num_free == 0 { first_free = i; } stream.seek(io::SeekFrom::Start(first_free as u64 * DIR_ENTRY_SIZE))?; return Ok(stream); } else if raw_entry.is_free() { if num_free == 0 { first_free = i; } num_free += 1; if num_free == num_entries { stream.seek(io::SeekFrom::Start(first_free as u64 * DIR_ENTRY_SIZE))?; return Ok(stream); } } else { num_free = 0; } i += 1; } } fn copy_short_name_part(dst: &mut [u8], src: &str) { let mut j = 0; for c in src.chars() { if j == dst.len() { break; } // replace characters allowed in long name but disallowed in short let c2 = match c { '.' | ' ' | '+' | ',' | ';' | '=' | '[' | ']' => '?', _ if c < '\u{80}' => c, _ => '?', }; // short name is always uppercase let upper = c2.to_uppercase().next().unwrap(); // SAFE: uppercase must return at least one character let byte = upper as u8; // SAFE: upper is in range 0x20-0x7F dst[j] = byte; j += 1; } } fn gen_short_name(name: &str) -> [u8;11] { // padded by ' ' let mut short_name = [0x20u8; 11]; // find extension after last dot match name.rfind('.') { Some(index) => { // extension found - copy parts before and after dot Dir::copy_short_name_part(&mut short_name[0..8], &name[..index]); Dir::copy_short_name_part(&mut short_name[8..11], &name[index+1..]); }, None => { // no extension - copy name and leave extension empty Dir::copy_short_name_part(&mut short_name[0..8], &name); } } // FIXME: make sure short name is unique... short_name } fn validate_name(name: &str) -> io::Result<()> { if name.len() == 0 { return Err(io::Error::new(ErrorKind::InvalidInput, "filename cannot be empty")); } if name.len() > 255 { return Err(io::Error::new(ErrorKind::InvalidInput, "filename is too long")); } for c in name.chars() { match c { 'a'...'z' | 'A'...'Z' | '0'...'9' | '\u{80}'...'\u{FFFF}' | '$' | '%' | '\'' | '-' | '_' | '@' | '~' | '`' | '!' | '(' | ')' | '{' | '}' | '.' | ' ' | '+' | ',' | ';' | '=' | '[' | ']' => {}, _ => return Err(io::Error::new(ErrorKind::InvalidInput, "invalid character in filename")), } } Ok(()) } fn create_entry(&mut self, name: &str, attrs: FileAttributes, first_cluster: Option) -> io::Result> { trace!("create_entry {}", name); Self::validate_name(name)?; let num_lfn_entries = (name.len() + LFN_PART_LEN - 1) / LFN_PART_LEN; let num_entries = num_lfn_entries + 1; // multiple lfn entries + one file entry let mut stream = self.find_free_entries(num_entries)?; let start_pos = stream.seek(io::SeekFrom::Current(0))?; let short_name = Self::gen_short_name(name); let lfn_chsum = lfn_checksum(&short_name); let lfn_utf8 = name.encode_utf16().collect::>(); for i in 0..num_lfn_entries { let lfn_index = num_lfn_entries - i; let mut order = lfn_index as u8; if i == 0 { order |= LFN_ENTRY_LAST_FLAG; } debug_assert!(order > 0); let lfn_pos = (lfn_index - 1) * LFN_PART_LEN; let mut lfn_part = [0xFFFFu16; LFN_PART_LEN]; let lfn_part_len = cmp::min(name.len() - lfn_pos, LFN_PART_LEN); lfn_part[..lfn_part_len].copy_from_slice(&lfn_utf8[lfn_pos..lfn_pos+lfn_part_len]); if lfn_part_len < LFN_PART_LEN { lfn_part[lfn_part_len] = 0; } let mut lfn_entry = DirLfnEntryData::new(order, lfn_chsum); lfn_entry.copy_name_from_slice(&lfn_part); lfn_entry.serialize(&mut stream)?; } let mut raw_entry = DirFileEntryData::new(short_name, attrs); raw_entry.set_first_cluster(first_cluster, self.fs.fat_type); raw_entry.reset_created(); raw_entry.reset_accessed(); raw_entry.reset_modified(); raw_entry.serialize(&mut stream)?; let end_pos = stream.seek(io::SeekFrom::Current(0))?; let abs_pos = stream.abs_pos().map(|p| p - DIR_ENTRY_SIZE); return Ok(DirEntry { data: raw_entry, lfn: Vec::new(), fs: self.fs, entry_pos: abs_pos.unwrap(), // safe offset_range: (start_pos, end_pos), }); } } /// Directory entries iterator. #[derive(Clone)] pub struct DirIter<'a, 'b: 'a> { stream: DirRawStream<'a, 'b>, fs: FileSystemRef<'a, 'b>, err: bool, } impl <'a, 'b> DirIter<'a, 'b> { fn read_dir_entry(&mut self) -> io::Result>> { let mut lfn_buf = LongNameBuilder::new(); let mut offset = self.stream.seek(SeekFrom::Current(0))?; let mut begin_offset = offset; loop { let raw_entry = DirEntryData::deserialize(&mut self.stream)?; offset += DIR_ENTRY_SIZE; match raw_entry { DirEntryData::File(data) => { // Check if this is end of dif if data.is_end() { return Ok(None); } // Check if this is deleted or volume ID entry if data.is_free() || data.attrs.contains(FileAttributes::VOLUME_ID) { lfn_buf.clear(); begin_offset = offset; continue; } // Get entry position on volume let entry_pos = self.stream.abs_pos().map(|p| p - DIR_ENTRY_SIZE); // Check if LFN checksum is valid lfn_buf.validate_chksum(&data.name); return Ok(Some(DirEntry { data, lfn: lfn_buf.to_vec(), fs: self.fs, entry_pos: entry_pos.unwrap(), // safe offset_range: (begin_offset, offset), })); }, DirEntryData::Lfn(data) => { // Check if this is deleted entry if data.is_free() { lfn_buf.clear(); begin_offset = offset; continue; } // Append to LFN buffer lfn_buf.process(&data); } } } } } impl <'a, 'b> Iterator for DirIter<'a, 'b> { type Item = io::Result>; fn next(&mut self) -> Option { if self.err { return None; } let r = self.read_dir_entry(); match r { Ok(Some(e)) => Some(Ok(e)), Ok(None) => None, Err(err) => { self.err = true; Some(Err(err)) }, } } } struct LongNameBuilder { buf: Vec, chksum: u8, index: u8, } fn lfn_checksum(short_name: &[u8]) -> u8 { let mut chksum = 0u8; for i in 0..11 { chksum = (((chksum & 1) << 7) as u16 + (chksum >> 1) as u16 + short_name[i] as u16) as u8; } chksum } impl LongNameBuilder { fn new() -> LongNameBuilder { LongNameBuilder { buf: Vec::::new(), chksum: 0, index: 0, } } fn clear(&mut self) { self.buf.clear(); self.index = 0; } fn to_vec(mut self) -> Vec { if self.index == 1 { self.truncate(); self.buf } else { warn!("unfinished LFN sequence {}", self.index); Vec::::new() } } fn truncate(&mut self) { // Truncate 0 and 0xFFFF characters from LFN buffer let mut lfn_len = self.buf.len(); loop { if lfn_len == 0 { break; } match self.buf[lfn_len-1] { 0xFFFF | 0 => lfn_len -= 1, _ => break, } } self.buf.truncate(lfn_len); } fn process(&mut self, data: &DirLfnEntryData) { let is_last = (data.order & LFN_ENTRY_LAST_FLAG) != 0; let index = data.order & 0x1F; if index == 0 { // Corrupted entry warn!("currupted lfn entry! {:x}", data.order); self.clear(); return; } if is_last { // last entry is actually first entry in stream self.index = index; self.chksum = data.checksum; self.buf.resize(index as usize * LFN_PART_LEN, 0); } else if self.index == 0 || index != self.index - 1 || data.checksum != self.chksum { // Corrupted entry warn!("currupted lfn entry! {:x} {:x} {:x} {:x}", data.order, self.index, data.checksum, self.chksum); self.clear(); return; } else { // Decrement LFN index only for non-last entries self.index -= 1; } let pos = LFN_PART_LEN * (index - 1) as usize; // copy name parts into LFN buffer self.buf[pos+0..pos+5].copy_from_slice(&data.name_0); self.buf[pos+5..pos+11].copy_from_slice(&data.name_1); self.buf[pos+11..pos+13].copy_from_slice(&data.name_2); } fn validate_chksum(&mut self, short_name: &[u8]) { let chksum = lfn_checksum(short_name); if chksum != self.chksum { warn!("checksum mismatch {:x} {:x} {:?}", chksum, self.chksum, short_name); self.clear(); } } }