New syntax for FormatVolumeOptions
This commit is contained in:
parent
fd89185461
commit
41c3d31ba2
126
src/fs.rs
126
src/fs.rs
@ -1114,22 +1114,74 @@ impl OemCpConverter for LossyOemCpConverter {
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pub(crate) static LOSSY_OEM_CP_CONVERTER: LossyOemCpConverter = LossyOemCpConverter { _dummy: () };
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pub(crate) static LOSSY_OEM_CP_CONVERTER: LossyOemCpConverter = LossyOemCpConverter { _dummy: () };
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#[derive(Default, Debug, Clone)]
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#[derive(Default, Debug, Clone)]
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pub struct FormatOptions {
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pub struct FormatVolumeOptions {
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pub bytes_per_sector: Option<u16>,
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bytes_per_sector: u16,
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pub total_sectors: u32,
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total_sectors: u32,
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pub bytes_per_cluster: Option<u32>,
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bytes_per_cluster: Option<u32>,
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pub fat_type: Option<FatType>,
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fat_type: Option<FatType>,
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pub root_entries: Option<u16>,
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root_entries: Option<u16>,
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pub media: Option<u8>,
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media: Option<u8>,
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pub sectors_per_track: Option<u16>,
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sectors_per_track: Option<u16>,
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pub heads: Option<u16>,
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heads: Option<u16>,
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pub drive_num: Option<u8>,
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drive_num: Option<u8>,
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pub volume_id: Option<u32>,
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volume_id: Option<u32>,
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pub volume_label: Option<[u8; 11]>,
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volume_label: Option<[u8; 11]>,
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// force usage of Default trait by struct users
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}
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_end: [u8;0],
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impl FormatVolumeOptions {
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pub fn new(total_sectors: u32, bytes_per_sector: u16) -> Self {
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FormatVolumeOptions {
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total_sectors,
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bytes_per_sector,
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..Default::default()
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}
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}
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pub fn bytes_per_cluster(mut self, bytes_per_cluster: u32) -> Self {
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self.bytes_per_cluster = Some(bytes_per_cluster);
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self
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}
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pub fn fat_type(mut self, fat_type: FatType) -> Self {
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self.fat_type = Some(fat_type);
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self
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}
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pub fn root_entries(mut self, root_entries: u16) -> Self {
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self.root_entries = Some(root_entries);
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self
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}
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pub fn media(mut self, media: u8) -> Self {
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self.media = Some(media);
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self
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}
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pub fn sectors_per_track(mut self, sectors_per_track: u16) -> Self {
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self.sectors_per_track = Some(sectors_per_track);
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self
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}
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pub fn heads(mut self, heads: u16) -> Self {
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self.heads = Some(heads);
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self
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}
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pub fn drive_num(mut self, drive_num: u8) -> Self {
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self.drive_num = Some(drive_num);
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self
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}
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pub fn volume_id(mut self, volume_id: u32) -> Self {
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self.volume_id = Some(volume_id);
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self
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}
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pub fn volume_label(mut self, volume_label: [u8; 11]) -> Self {
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self.volume_label = Some(volume_label);
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self
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}
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}
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}
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const KB: u64 = 1024;
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const KB: u64 = 1024;
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@ -1176,8 +1228,7 @@ fn determine_bytes_per_cluster(total_bytes: u64, fat_type: FatType, bytes_per_se
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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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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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sectors_per_cluster: u8, fat_type: FatType) -> u32 {
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// TODO: use _fat_entries_per_sector
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// TODO: check if this calculation is always correct (especially for FAT12)
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// FIXME: this is for FAT16/32
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let tmp_val1 = total_sectors - (reserved_sectors as u32 + root_dir_sectors as u32);
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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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let mut tmp_val2 = (256 * sectors_per_cluster as u32) + fats as u32;
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if fat_type == FatType::Fat32 {
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if fat_type == FatType::Fat32 {
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@ -1185,22 +1236,12 @@ fn determine_sectors_per_fat(total_sectors: u32, reserved_sectors: u16, fats: u8
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} else if fat_type == FatType::Fat12 {
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} else if fat_type == FatType::Fat12 {
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tmp_val2 = tmp_val2 / 3 * 4
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tmp_val2 = tmp_val2 / 3 * 4
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}
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}
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let sectors_per_fat = (tmp_val1 + (tmp_val2 - 1)) / tmp_val2;
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(tmp_val1 + (tmp_val2 - 1)) / tmp_val2
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// total_sectors = reserved_sectors + sectors_per_fat * fats + data_sectors
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// sectors_per_fat >= data_sectors / sectors_per_cluster / fat_entries_per_sector
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//
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// sectors_per_fat >= (total_sectors - reserved_sectors - sectors_per_fat * fats) / sectors_per_cluster / fat_entries_per_sector
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// sectors_per_fat + sectors_per_fat * fats / sectors_per_cluster / fat_entries_per_sector >= (total_sectors - reserved_sectors) / sectors_per_cluster / fat_entries_per_sector
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// sectors_per_fat * (1 + fats / sectors_per_cluster / fat_entries_per_sector) >= (total_sectors - reserved_sectors) / sectors_per_cluster / fat_entries_per_sector
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// sectors_per_fat >= (total_sectors - reserved_sectors) / sectors_per_cluster / fat_entries_per_sector / (1 + fats / sectors_per_cluster / fat_entries_per_sector)
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// fat_entries_per_sector = bytes_per_sector / bytes_per_fat_entry = fat16: 512/2
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sectors_per_fat
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}
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}
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fn format_bpb(options: &FormatOptions) -> io::Result<(BiosParameterBlock, FatType)> {
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fn format_bpb(options: &FormatVolumeOptions) -> io::Result<(BiosParameterBlock, FatType)> {
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// TODO: maybe total_sectors could be optional?
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// TODO: maybe total_sectors could be optional?
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let bytes_per_sector = options.bytes_per_sector.unwrap_or(512);
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let bytes_per_sector = options.bytes_per_sector;
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let total_sectors = options.total_sectors;
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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 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 fat_type = options.fat_type.unwrap_or_else(|| determine_fat_type(total_bytes));
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@ -1209,6 +1250,7 @@ fn format_bpb(options: &FormatOptions) -> io::Result<(BiosParameterBlock, FatTyp
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let sectors_per_cluster = (bytes_per_cluster / bytes_per_sector as u32) as u8;
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let sectors_per_cluster = (bytes_per_cluster / bytes_per_sector as u32) as u8;
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// Note: most of implementations use 32 reserved sectors for FAT32 but it's wasting of space
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// Note: most of implementations use 32 reserved sectors for FAT32 but it's wasting of space
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// We use 4 because there are two boot sectors and one FS Info sector (1 sector remains unused)
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let reserved_sectors: u16 = if fat_type == FatType::Fat32 { 4 } else { 1 };
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let reserved_sectors: u16 = if fat_type == FatType::Fat32 { 4 } else { 1 };
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let fats = 2u8;
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let fats = 2u8;
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@ -1217,19 +1259,23 @@ fn format_bpb(options: &FormatOptions) -> io::Result<(BiosParameterBlock, FatTyp
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let root_dir_bytes = root_entries as u32 * DIR_ENTRY_SIZE as u32;
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let root_dir_bytes = root_entries as u32 * DIR_ENTRY_SIZE as u32;
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let root_dir_sectors = (root_dir_bytes + bytes_per_sector as u32 - 1) / bytes_per_sector as u32;
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let root_dir_sectors = (root_dir_bytes + bytes_per_sector as u32 - 1) / bytes_per_sector as u32;
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if total_sectors <= reserved_sectors as u32 + root_dir_sectors as u32 + 16 {
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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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}
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//let fat_entries_per_sector = bytes_per_sector * 8 / fat_type.bits_per_fat_entry() as u16;
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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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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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sectors_per_cluster, fat_type);
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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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// 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.drive_num.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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let reserved_0 = [0u8; 12];
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// setup volume label
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let mut volume_label = [0u8; 11];
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let mut volume_label = [0u8; 11];
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if let Some(volume_label_from_opts) = options.volume_label {
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if let Some(volume_label_from_opts) = options.volume_label {
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volume_label.copy_from_slice(&volume_label_from_opts);
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volume_label.copy_from_slice(&volume_label_from_opts);
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@ -1237,6 +1283,7 @@ fn format_bpb(options: &FormatOptions) -> io::Result<(BiosParameterBlock, FatTyp
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volume_label.copy_from_slice("NO NAME ".as_bytes());
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volume_label.copy_from_slice("NO NAME ".as_bytes());
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}
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}
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// setup fs_type_label field
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let mut fs_type_label = [0u8; 8];
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let mut fs_type_label = [0u8; 8];
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let fs_type_label_str = match fat_type {
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let fs_type_label_str = match fat_type {
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FatType::Fat12 => "FAT12 ",
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FatType::Fat12 => "FAT12 ",
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@ -1245,6 +1292,7 @@ fn format_bpb(options: &FormatOptions) -> io::Result<(BiosParameterBlock, FatTyp
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};
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};
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fs_type_label.copy_from_slice(fs_type_label_str.as_bytes());
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fs_type_label.copy_from_slice(fs_type_label_str.as_bytes());
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// create Bios Parameter Block struct
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let bpb = BiosParameterBlock {
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let bpb = BiosParameterBlock {
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bytes_per_sector,
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bytes_per_sector,
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sectors_per_cluster,
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sectors_per_cluster,
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@ -1275,6 +1323,7 @@ fn format_bpb(options: &FormatOptions) -> io::Result<(BiosParameterBlock, FatTyp
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fs_type_label,
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fs_type_label,
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};
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};
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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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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(ErrorKind::Other, "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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@ -1301,7 +1350,7 @@ fn write_zeros_until_end_of_sector<T: ReadWriteSeek>(mut disk: T, bytes_per_sect
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Ok(())
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Ok(())
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}
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}
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fn format_boot_sector(options: &FormatOptions) -> io::Result<(BootRecord, FatType)> {
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fn format_boot_sector(options: &FormatVolumeOptions) -> io::Result<(BootRecord, FatType)> {
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let mut boot: BootRecord = Default::default();
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let mut boot: BootRecord = Default::default();
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let (bpb, fat_type) = format_bpb(options)?;
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let (bpb, fat_type) = format_bpb(options)?;
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boot.bpb = bpb;
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boot.bpb = bpb;
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@ -1336,10 +1385,13 @@ fn format_boot_sector(options: &FormatOptions) -> io::Result<(BootRecord, FatTyp
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Ok((boot, fat_type))
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Ok((boot, fat_type))
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}
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}
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// alternative names: create_filesystem, init_filesystem, prepare_fs
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pub fn format_volume<T: ReadWriteSeek>(mut disk: T, options: FormatVolumeOptions) -> io::Result<()> {
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pub fn format_volume<T: ReadWriteSeek>(mut disk: T, options: FormatOptions) -> io::Result<()> {
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disk.seek(SeekFrom::Start(0))?;
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// Create boot sector, validate and write to storage device
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let (boot, fat_type) = format_boot_sector(&options)?;
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let (boot, fat_type) = format_boot_sector(&options)?;
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boot.validate()?;
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boot.serialize(&mut disk)?;
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boot.serialize(&mut disk)?;
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// Make sure entire logical sector is updated (serialize method always writes 512 bytes)
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let bytes_per_sector = boot.bpb.bytes_per_sector;
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let bytes_per_sector = boot.bpb.bytes_per_sector;
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write_zeros_until_end_of_sector(&mut disk, bytes_per_sector)?;
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write_zeros_until_end_of_sector(&mut disk, bytes_per_sector)?;
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@ -1360,7 +1412,7 @@ pub fn format_volume<T: ReadWriteSeek>(mut disk: T, options: FormatOptions) -> i
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write_zeros_until_end_of_sector(&mut disk, bytes_per_sector)?;
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write_zeros_until_end_of_sector(&mut disk, bytes_per_sector)?;
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}
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}
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// FATs
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// format File Allocation Table
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let sectors_per_fat: u32 = boot.bpb.sectors_per_fat();
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let sectors_per_fat: u32 = boot.bpb.sectors_per_fat();
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let bytes_per_fat: u32 = sectors_per_fat * bytes_per_sector as u32;
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let bytes_per_fat: u32 = sectors_per_fat * bytes_per_sector as u32;
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let reserved_sectors = boot.bpb.reserved_sectors;
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let reserved_sectors = boot.bpb.reserved_sectors;
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@ -1372,7 +1424,7 @@ pub fn format_volume<T: ReadWriteSeek>(mut disk: T, options: FormatOptions) -> i
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format_fat(&mut fat_slice, fat_type, boot.bpb.media, bytes_per_fat, boot.bpb.total_clusters())?;
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format_fat(&mut fat_slice, fat_type, boot.bpb.media, bytes_per_fat, boot.bpb.total_clusters())?;
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}
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}
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// Root directory
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// init root directory - zero root directory region for FAT12/16 and alloc first root directory cluster for FAT32
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let root_dir_pos = fat_pos + bytes_per_fat as u64 * boot.bpb.fats as u64;
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let root_dir_pos = fat_pos + bytes_per_fat as u64 * boot.bpb.fats as u64;
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disk.seek(SeekFrom::Start(root_dir_pos))?;
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disk.seek(SeekFrom::Start(root_dir_pos))?;
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let root_dir_sectors: u32 = boot.bpb.root_dir_sectors();
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let root_dir_sectors: u32 = boot.bpb.root_dir_sectors();
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@ -48,7 +48,7 @@ fn basic_fs_test(fs: &FileSystem) {
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assert_eq!(filenames, ["subdir1", "new-name.txt"]);
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assert_eq!(filenames, ["subdir1", "new-name.txt"]);
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}
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}
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fn test_format_fs(opts: fatfs::FormatOptions, total_bytes: u64) -> FileSystem {
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fn test_format_fs(opts: fatfs::FormatVolumeOptions, total_bytes: u64) -> FileSystem {
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let _ = env_logger::try_init();
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let _ = env_logger::try_init();
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let storage_vec: Vec<u8> = Vec::with_capacity(total_bytes as usize);
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let storage_vec: Vec<u8> = Vec::with_capacity(total_bytes as usize);
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let storage_cur = io::Cursor::new(storage_vec);
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let storage_cur = io::Cursor::new(storage_vec);
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@ -63,8 +63,7 @@ fn test_format_fs(opts: fatfs::FormatOptions, total_bytes: u64) -> FileSystem {
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#[test]
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#[test]
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fn test_format_1mb() {
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fn test_format_1mb() {
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let total_bytes = 1 * MB;
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let total_bytes = 1 * MB;
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let mut opts: fatfs::FormatOptions = Default::default();
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let opts = fatfs::FormatVolumeOptions::new((total_bytes / 512) as u32, 512);
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opts.total_sectors = (total_bytes / 512) as u32;
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let fs = test_format_fs(opts, total_bytes);
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let fs = test_format_fs(opts, total_bytes);
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assert_eq!(fs.fat_type(), fatfs::FatType::Fat12);
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assert_eq!(fs.fat_type(), fatfs::FatType::Fat12);
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}
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}
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@ -72,8 +71,7 @@ fn test_format_1mb() {
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#[test]
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#[test]
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fn test_format_8mb() {
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fn test_format_8mb() {
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let total_bytes = 8 * MB;
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let total_bytes = 8 * MB;
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let mut opts: fatfs::FormatOptions = Default::default();
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let opts = fatfs::FormatVolumeOptions::new((total_bytes / 512) as u32, 512);
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opts.total_sectors = (total_bytes / 512) as u32;
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let fs = test_format_fs(opts, total_bytes);
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let fs = test_format_fs(opts, total_bytes);
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assert_eq!(fs.fat_type(), fatfs::FatType::Fat16);
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assert_eq!(fs.fat_type(), fatfs::FatType::Fat16);
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}
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}
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@ -81,8 +79,7 @@ fn test_format_8mb() {
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#[test]
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#[test]
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fn test_format_50mb() {
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fn test_format_50mb() {
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let total_bytes = 50 * MB;
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let total_bytes = 50 * MB;
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let mut opts: fatfs::FormatOptions = Default::default();
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let opts = fatfs::FormatVolumeOptions::new((total_bytes / 512) as u32, 512);
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opts.total_sectors = (total_bytes / 512) as u32;
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let fs = test_format_fs(opts, total_bytes);
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let fs = test_format_fs(opts, total_bytes);
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assert_eq!(fs.fat_type(), fatfs::FatType::Fat16);
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assert_eq!(fs.fat_type(), fatfs::FatType::Fat16);
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}
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}
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||||||
@ -91,17 +88,14 @@ fn test_format_50mb() {
|
|||||||
#[test]
|
#[test]
|
||||||
fn test_format_512mb() {
|
fn test_format_512mb() {
|
||||||
let total_bytes = 2 * 1024 * MB;
|
let total_bytes = 2 * 1024 * MB;
|
||||||
let mut opts: fatfs::FormatOptions = Default::default();
|
let opts = fatfs::FormatVolumeOptions::new((total_bytes / 512) as u32, 512);
|
||||||
opts.total_sectors = (total_bytes / 512) as u32;
|
|
||||||
let fs = test_format_fs(opts, total_bytes);
|
let fs = test_format_fs(opts, total_bytes);
|
||||||
assert_eq!(fs.fat_type(), fatfs::FatType::Fat32);
|
assert_eq!(fs.fat_type(), fatfs::FatType::Fat32);
|
||||||
}
|
}
|
||||||
|
|
||||||
fn create_format_options(total_bytes: u64, bytes_per_sector: Option<u16>) -> fatfs::FormatOptions {
|
fn create_format_options(total_bytes: u64, bytes_per_sector: Option<u16>) -> fatfs::FormatVolumeOptions {
|
||||||
let mut opts: fatfs::FormatOptions = Default::default();
|
let total_sectors = (total_bytes / bytes_per_sector.unwrap_or(512) as u64) as u32;
|
||||||
opts.total_sectors = (total_bytes / bytes_per_sector.unwrap_or(512) as u64) as u32;
|
fatfs::FormatVolumeOptions::new(total_sectors, bytes_per_sector.unwrap_or(512))
|
||||||
opts.bytes_per_sector = bytes_per_sector;
|
|
||||||
opts
|
|
||||||
}
|
}
|
||||||
|
|
||||||
#[test]
|
#[test]
|
||||||
|
Loading…
Reference in New Issue
Block a user