refactor: apply most of rustfmt changes
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a3ab0098da
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@ -7,7 +7,7 @@ use byteorder::LittleEndian;
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use byteorder_ext::{ReadBytesExt, WriteBytesExt};
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use dir_entry::DIR_ENTRY_SIZE;
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use fs::{FatType, FsStatusFlags, FormatVolumeOptions};
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use fs::{FatType, FormatVolumeOptions, FsStatusFlags};
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use table::RESERVED_FAT_ENTRIES;
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const KB: u64 = 1024;
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@ -227,10 +227,7 @@ impl BiosParameterBlock {
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}
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if self.total_sectors() <= self.first_data_sector() {
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return Err(Error::new(
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ErrorKind::Other,
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"Invalid BPB (total_sectors field value is too small)",
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));
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return Err(Error::new(ErrorKind::Other, "Invalid BPB (total_sectors field value is too small)"));
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}
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let total_clusters = self.total_clusters();
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@ -444,9 +441,14 @@ fn determine_bytes_per_cluster(total_bytes: u64, fat_type: FatType, bytes_per_se
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cmp::min(cmp::max(bytes_per_cluster, bytes_per_sector as u32), MAX_CLUSTER_SIZE)
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}
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fn determine_sectors_per_fat(total_sectors: u32, reserved_sectors: u16, fats: u8, root_dir_sectors: u32,
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sectors_per_cluster: u8, fat_type: FatType) -> u32 {
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fn determine_sectors_per_fat(
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total_sectors: u32,
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reserved_sectors: u16,
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fats: u8,
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root_dir_sectors: u32,
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sectors_per_cluster: u8,
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fat_type: FatType,
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) -> u32 {
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// TODO: check if this calculation is always correct (especially for FAT12)
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let tmp_val1 = total_sectors - (reserved_sectors as u32 + root_dir_sectors as u32);
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let mut tmp_val2 = (256 * sectors_per_cluster as u32) + fats as u32;
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@ -464,7 +466,8 @@ fn format_bpb(options: &FormatVolumeOptions) -> io::Result<(BiosParameterBlock,
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let total_sectors = options.total_sectors;
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let total_bytes = total_sectors as u64 * bytes_per_sector as u64;
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let fat_type = options.fat_type.unwrap_or_else(|| determine_fat_type(total_bytes));
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let bytes_per_cluster = options.bytes_per_cluster
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let bytes_per_cluster = options
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.bytes_per_cluster
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.unwrap_or_else(|| determine_bytes_per_cluster(total_bytes, fat_type, bytes_per_sector));
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let sectors_per_cluster = (bytes_per_cluster / bytes_per_sector as u32) as u8;
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@ -481,15 +484,23 @@ fn format_bpb(options: &FormatVolumeOptions) -> io::Result<(BiosParameterBlock,
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// Check if volume has enough space to accomodate reserved sectors, FAT, root directory and some data space
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// Having less than 8 sectors for FAT and data would make a little sense
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if total_sectors <= reserved_sectors as u32 + root_dir_sectors as u32 + 8 {
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return Err(Error::new(ErrorKind::Other, "Volume is too small",));
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return Err(Error::new(ErrorKind::Other, "Volume is too small"));
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}
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// calculate File Allocation Table size
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let sectors_per_fat = determine_sectors_per_fat(total_sectors, reserved_sectors, fats, root_dir_sectors,
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sectors_per_cluster, fat_type);
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let sectors_per_fat = determine_sectors_per_fat(
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total_sectors,
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reserved_sectors,
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fats,
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root_dir_sectors,
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sectors_per_cluster,
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fat_type,
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);
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// drive_num should be 0 for floppy disks and 0x80 for hard disks - determine it using FAT type
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let drive_num = options.drive_num.unwrap_or_else(|| if fat_type == FatType::Fat12 { 0 } else { 0x80 });
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let drive_num = options
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.drive_num
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.unwrap_or_else(|| if fat_type == FatType::Fat12 { 0 } else { 0x80 });
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// reserved_0 is always zero
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let reserved_0 = [0u8; 12];
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@ -544,7 +555,10 @@ fn format_bpb(options: &FormatVolumeOptions) -> io::Result<(BiosParameterBlock,
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// Check if number of clusters is proper for used FAT type
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if FatType::from_clusters(bpb.total_clusters()) != fat_type {
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return Err(Error::new(ErrorKind::Other, "Total number of clusters and FAT type does not match. Try other volume size"));
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return Err(Error::new(
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ErrorKind::Other,
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"Total number of clusters and FAT type does not match. Try other volume size",
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));
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}
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Ok((bpb, fat_type))
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10
src/dir.rs
10
src/dir.rs
@ -11,7 +11,7 @@ use dir_entry::{DirEntry, DirEntryData, DirFileEntryData, DirLfnEntryData, FileA
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#[cfg(feature = "alloc")]
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use dir_entry::{LFN_ENTRY_LAST_FLAG, LFN_PART_LEN};
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use file::File;
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use fs::{DiskSlice, FsIoAdapter, FileSystem, ReadWriteSeek};
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use fs::{DiskSlice, FileSystem, FsIoAdapter, ReadWriteSeek};
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#[cfg(feature = "alloc")]
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type LfnUtf16 = Vec<u16>;
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@ -1002,12 +1002,8 @@ mod tests {
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assert_eq!(&ShortNameGenerator::new("Foo.b").generate().unwrap(), b"FOO B ");
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assert_eq!(&ShortNameGenerator::new("Foo.baR").generate().unwrap(), b"FOO BAR");
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assert_eq!(&ShortNameGenerator::new("Foo+1.baR").generate().unwrap(), b"FOO_1~1 BAR");
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assert_eq!(
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&ShortNameGenerator::new("ver +1.2.text").generate().unwrap(), b"VER_12~1TEX"
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);
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assert_eq!(
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&ShortNameGenerator::new(".bashrc.swp").generate().unwrap(), b"BASHRC~1SWP"
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);
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assert_eq!(&ShortNameGenerator::new("ver +1.2.text").generate().unwrap(), b"VER_12~1TEX");
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assert_eq!(&ShortNameGenerator::new(".bashrc.swp").generate().unwrap(), b"BASHRC~1SWP");
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}
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#[test]
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15
src/fs.rs
15
src/fs.rs
@ -12,10 +12,10 @@ use io::{Error, ErrorKind, SeekFrom};
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use byteorder::LittleEndian;
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use byteorder_ext::{ReadBytesExt, WriteBytesExt};
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use boot_sector::{BootSector, BiosParameterBlock, format_boot_sector};
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use boot_sector::{format_boot_sector, BiosParameterBlock, BootSector};
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use dir::{Dir, DirRawStream};
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use file::File;
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use table::{alloc_cluster, count_free_clusters, read_fat_flags, format_fat, ClusterIterator, RESERVED_FAT_ENTRIES};
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use table::{alloc_cluster, count_free_clusters, format_fat, read_fat_flags, ClusterIterator, RESERVED_FAT_ENTRIES};
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use time::{TimeProvider, DEFAULT_TIME_PROVIDER};
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// FAT implementation based on:
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@ -453,9 +453,7 @@ impl<T: ReadWriteSeek> FileSystem<T> {
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}
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fn fat_slice<'b>(&'b self) -> DiskSlice<FsIoAdapter<'b, T>> {
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let io = FsIoAdapter {
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fs: self,
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};
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let io = FsIoAdapter { fs: self };
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fat_slice(io, &self.bpb)
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}
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@ -621,9 +619,7 @@ impl<'a, T: ReadWriteSeek> Seek for FsIoAdapter<'a, T> {
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// Note: derive cannot be used because of invalid bounds. See: https://github.com/rust-lang/rust/issues/26925
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impl<'a, T: ReadWriteSeek> Clone for FsIoAdapter<'a, T> {
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fn clone(&self) -> Self {
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FsIoAdapter {
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fs: self.fs,
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}
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FsIoAdapter { fs: self.fs }
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}
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}
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@ -948,8 +944,7 @@ pub fn format_volume<T: ReadWriteSeek>(mut disk: T, options: FormatVolumeOptions
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};
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assert!(root_dir_first_cluster == boot.bpb.root_dir_first_cluster);
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let first_data_sector = reserved_sectors + sectors_per_all_fats + root_dir_sectors;
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let root_dir_first_sector = first_data_sector
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+ boot.bpb.sectors_from_clusters(root_dir_first_cluster - RESERVED_FAT_ENTRIES);
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let root_dir_first_sector = first_data_sector + boot.bpb.sectors_from_clusters(root_dir_first_cluster - RESERVED_FAT_ENTRIES);
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let root_dir_pos = boot.bpb.bytes_from_sectors(root_dir_first_sector);
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disk.seek(SeekFrom::Start(root_dir_pos))?;
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write_zeros(&mut disk, boot.bpb.cluster_size() as u64)?;
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@ -120,7 +120,13 @@ pub(crate) fn count_free_clusters<T: ReadSeek>(fat: &mut T, fat_type: FatType, t
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}
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}
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pub(crate) fn format_fat<T: ReadWriteSeek>(fat: &mut T, fat_type: FatType, media: u8, bytes_per_fat: u64, total_clusters: u32) -> io::Result<()> {
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pub(crate) fn format_fat<T: ReadWriteSeek>(
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fat: &mut T,
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fat_type: FatType,
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media: u8,
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bytes_per_fat: u64,
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total_clusters: u32,
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) -> io::Result<()> {
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// init first two reserved entries to FAT ID
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match fat_type {
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FatType::Fat12 => {
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@ -39,7 +39,9 @@ fn basic_fs_test(fs: &FileSystem) {
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let filenames = subdir2.iter().map(|r| r.unwrap().file_name()).collect::<Vec<String>>();
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assert_eq!(filenames, [".", "..", "test file name.txt"]);
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subdir1.rename("subdir2 with long name/test file name.txt", &root_dir, "new-name.txt").expect("rename");
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subdir1
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.rename("subdir2 with long name/test file name.txt", &root_dir, "new-name.txt")
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.expect("rename");
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let filenames = subdir2.iter().map(|r| r.unwrap().file_name()).collect::<Vec<String>>();
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assert_eq!(filenames, [".", ".."]);
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@ -85,7 +87,6 @@ fn test_format_50mb() {
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assert_eq!(fs.fat_type(), fatfs::FatType::Fat16);
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}
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#[test]
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fn test_format_512mb_512sec() {
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let total_bytes = 2 * 1024 * MB;
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