270 lines
5.8 KiB
Go
270 lines
5.8 KiB
Go
package fat
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import (
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"errors"
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"fmt"
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"math"
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"github.com/mitchellh/go-fs"
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)
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// The first cluster that can really hold user data is always 2
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const FirstCluster = 2
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// FAT is the actual file allocation table data structure that is
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// stored on disk to describe the various clusters on the disk.
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type FAT struct {
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bs *BootSectorCommon
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entries []uint32
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}
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func DecodeFAT(device fs.BlockDevice, bs *BootSectorCommon, n int) (*FAT, error) {
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if n > int(bs.NumFATs) {
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return nil, fmt.Errorf("FAT #%d greater than total FATs: %d", n, bs.NumFATs)
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}
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data := make([]byte, bs.SectorsPerFat*uint32(bs.BytesPerSector))
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if _, err := device.ReadAt(data, int64(bs.FATOffset(n))); err != nil {
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return nil, err
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}
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result := &FAT{
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bs: bs,
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entries: make([]uint32, FATEntryCount(bs)),
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}
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fatType := bs.FATType()
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for i := 0; i < int(FATEntryCount(bs)); i++ {
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var entryData uint32
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switch fatType {
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case FAT12:
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entryData = fatReadEntry12(data, i)
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case FAT16:
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entryData = fatReadEntry16(data, i)
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default:
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entryData = fatReadEntry32(data, i)
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}
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result.entries[i] = entryData
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}
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return result, nil
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}
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// NewFAT creates a new FAT data structure, properly initialized.
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func NewFAT(bs *BootSectorCommon) (*FAT, error) {
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result := &FAT{
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bs: bs,
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entries: make([]uint32, FATEntryCount(bs)),
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}
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// Set the initial two entries according to spec
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result.entries[0] = (uint32(bs.Media) & 0xFF) |
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(0xFFFFFF00 & result.entryMask())
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result.entries[1] = 0xFFFFFFFF & result.entryMask()
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return result, nil
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}
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// Bytes returns the raw bytes for the FAT that should be written to
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// the block device.
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func (f *FAT) Bytes() []byte {
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result := make([]byte, f.bs.SectorsPerFat*uint32(f.bs.BytesPerSector))
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for i, entry := range f.entries {
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switch f.bs.FATType() {
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case FAT12:
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f.writeEntry12(result, i, entry)
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case FAT16:
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f.writeEntry16(result, i, entry)
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default:
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f.writeEntry32(result, i, entry)
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}
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}
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return result
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}
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func (f *FAT) AllocChain() (uint32, error) {
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return f.allocNew()
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}
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func (f *FAT) allocNew() (uint32, error) {
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dataSize := (f.bs.TotalSectors * uint32(f.bs.BytesPerSector))
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dataSize -= f.bs.DataOffset()
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clusterCount := dataSize / f.bs.BytesPerCluster()
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lastClusterIndex := clusterCount + FirstCluster
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var availIdx uint32
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found := false
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for i := uint32(FirstCluster); i < lastClusterIndex; i++ {
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if f.entries[i] == 0 {
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availIdx = i
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found = true
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break
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}
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}
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if !found {
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return 0, errors.New("FAT FULL")
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}
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// Mark that this is now in use
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f.entries[availIdx] = 0xFFFFFFFF & f.entryMask()
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return availIdx, nil
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}
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// Chain returns the chain of clusters starting at a certain cluster.
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func (f *FAT) Chain(start uint32) []uint32 {
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chain := make([]uint32, 0, 2)
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cluster := start
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for {
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chain = append(chain, cluster)
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cluster = f.entries[cluster]
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if f.isEofCluster(cluster) || cluster == 0 {
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break
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}
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}
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return chain
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}
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// ResizeChain takes a given cluster number and resizes the chain
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// to the given length. It returns the new chain of clusters.
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func (f *FAT) ResizeChain(start uint32, length int) ([]uint32, error) {
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chain := f.Chain(start)
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if len(chain) == length {
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return chain, nil
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}
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change := int(math.Abs(float64(length - len(chain))))
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if length > len(chain) {
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var lastCluster uint32
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lastCluster = chain[0]
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for i := 1; i < len(chain); i++ {
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if f.isEofCluster(f.entries[lastCluster]) {
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break
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}
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lastCluster = chain[i]
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}
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for i := 0; i < change; i++ {
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newCluster, err := f.allocNew()
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if err != nil {
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return nil, err
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}
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f.entries[lastCluster] = newCluster
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lastCluster = newCluster
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}
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} else {
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panic("making chains smaller not implemented yet")
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}
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return f.Chain(start), nil
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}
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func (f *FAT) WriteToDevice(device fs.BlockDevice) error {
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fatBytes := f.Bytes()
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for i := 0; i < int(f.bs.NumFATs); i++ {
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offset := int64(f.bs.FATOffset(i))
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if _, err := device.WriteAt(fatBytes, offset); err != nil {
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return err
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}
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}
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return nil
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}
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func (f *FAT) entryMask() uint32 {
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switch f.bs.FATType() {
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case FAT12:
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return 0x0FFF
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case FAT16:
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return 0xFFFF
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default:
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return 0x0FFFFFFF
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}
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}
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func (f *FAT) isEofCluster(cluster uint32) bool {
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return cluster >= (0xFFFFFF8 & f.entryMask())
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}
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func (f *FAT) writeEntry12(data []byte, idx int, entry uint32) {
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dataIdx := idx + (idx / 2)
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data = data[dataIdx : dataIdx+2]
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if idx%2 == 1 {
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// ODD
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data[0] |= byte((entry & 0x0F) << 4)
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data[1] = byte((entry >> 4) & 0xFF)
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} else {
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// Even
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data[0] = byte(entry & 0xFF)
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data[1] = byte((entry >> 8) & 0x0F)
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}
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}
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func (f *FAT) writeEntry16(data []byte, idx int, entry uint32) {
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idx <<= 1
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data[idx] = byte(entry & 0xFF)
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data[idx+1] = byte((entry >> 8) & 0xFF)
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}
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func (f *FAT) writeEntry32(data []byte, idx int, entry uint32) {
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idx <<= 2
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data[idx] = byte(entry & 0xFF)
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data[idx+1] = byte((entry >> 8) & 0xFF)
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data[idx+2] = byte((entry >> 16) & 0xFF)
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data[idx+3] = byte((entry >> 24) & 0xFF)
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}
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// FATEntryCount returns the number of entries per fat for the given
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// boot sector.
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func FATEntryCount(bs *BootSectorCommon) uint32 {
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// Determine the number of entries that'll go in the FAT.
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var entryCount uint32 = bs.SectorsPerFat * uint32(bs.BytesPerSector)
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switch bs.FATType() {
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case FAT12:
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entryCount = uint32((uint64(entryCount) * 8) / 12)
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case FAT16:
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entryCount /= 2
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case FAT32:
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entryCount /= 4
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default:
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panic("impossible fat type")
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}
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return entryCount
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}
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func fatReadEntry12(data []byte, idx int) uint32 {
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idx += idx / 2
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var result uint32 = (uint32(data[idx+1]) << 8) | uint32(data[idx])
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if idx%2 == 0 {
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return result & 0xFFF
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} else {
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return result >> 4
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}
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}
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func fatReadEntry16(data []byte, idx int) uint32 {
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idx <<= 1
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return (uint32(data[idx+1]) << 8) | uint32(data[idx])
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}
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func fatReadEntry32(data []byte, idx int) uint32 {
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idx <<= 2
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return (uint32(data[idx+3]) << 24) |
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(uint32(data[idx+2]) << 16) |
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(uint32(data[idx+1]) << 8) |
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uint32(data[idx+0])
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}
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