package squashfs import ( "bytes" "errors" "fmt" "io" "github.com/CalebQ42/GoSquashfs/internal/inode" ) var ( //ErrInodeNotFile is given when giving an inode, but the function requires a file inode. ErrInodeNotFile = errors.New("Given inode is NOT a file type") ) //DataReader reads data from data blocks. type DataReader struct { r *Reader offset int64 //offset relative to the beginning of the squash file blocks []DataBlock curBlock int //Which block in sizes is currently cached curData []byte curReadOffset int //offset relative to the currently cached data } //DataBlock holds info about a given data block from it's size type DataBlock struct { begOffset int64 //The offset relative to the beginning of the squash file. Makes it easier to seek to it. size uint32 compressed bool uncompressedSize uint32 } //NewDataBlock creates a new squashfs.datablock from a given size. func NewDataBlock(raw uint32) (dbs DataBlock) { dbs.compressed = raw&1<<24 != 1<<24 dbs.size = raw &^ 1 << 24 if !dbs.compressed { dbs.uncompressedSize = dbs.size } return } //NewDataReader creates a new data reader at the given offset, with the blocks defined by sizes func (r *Reader) NewDataReader(offset int64, sizes []uint32) (*DataReader, error) { var dr DataReader dr.r = r dr.offset = offset for _, size := range sizes { dr.blocks = append(dr.blocks, NewDataBlock(size)) } err := dr.readCurBlock() if err != nil { return nil, err } return &dr, nil } //NewDataReaderFromInode creates a new DataReader from a given inode. Inode must be of BasicFile or ExtendedFile types func (r *Reader) NewDataReaderFromInode(i *inode.Inode) (*DataReader, error) { var rdr DataReader switch i.Type { case inode.BasicFileType: fil := i.Info.(inode.BasicFile) rdr.offset = int64(fil.Init.BlockStart) for _, sizes := range fil.BlockSizes { rdr.blocks = append(rdr.blocks, NewDataBlock(sizes)) } case inode.ExtFileType: fil := i.Info.(inode.ExtendedFile) rdr.offset = int64(fil.Init.BlockStart) for _, sizes := range fil.BlockSizes { rdr.blocks = append(rdr.blocks, NewDataBlock(sizes)) } default: return nil, ErrInodeNotFile } err := rdr.readCurBlock() if err != nil { return nil, err } return &rdr, nil } func (d *DataReader) readNextBlock() error { d.curBlock++ if d.curBlock >= len(d.blocks) { d.curBlock-- return errors.New("Ran out of blocks") } err := d.readCurBlock() if err != nil { d.curBlock-- d.readCurBlock() return err } return nil } func (d *DataReader) readCurBlock() error { if d.curBlock >= len(d.blocks) { return io.EOF } if d.blocks[d.curBlock].size == 0 { d.curData = make([]byte, d.r.super.BlockSize) d.blocks[d.curBlock].uncompressedSize = d.r.super.BlockSize d.blocks[d.curBlock].begOffset = d.offset fmt.Println("dat red") fmt.Println(len(d.curData)) return nil } sec := io.NewSectionReader(d.r.r, d.offset, int64(d.blocks[d.curBlock].size)) if d.blocks[d.curBlock].compressed { btys, err := d.r.decompressor.Decompress(sec) if err != nil { return err } d.blocks[d.curBlock].uncompressedSize = uint32(len(btys)) d.curData = btys d.blocks[d.curBlock].begOffset = d.offset d.offset += int64(d.blocks[d.curBlock].size) fmt.Println("dat red") fmt.Println(len(d.curData)) return nil } var buf bytes.Buffer _, err := io.Copy(&buf, sec) if err != nil { return err } d.curData = buf.Bytes() d.blocks[d.curBlock].begOffset = d.offset d.offset += int64(d.blocks[d.curBlock].size) fmt.Println("dat red") fmt.Println(len(d.curData)) return err } func (d *DataReader) Read(p []byte) (int, error) { fmt.Println("dat") fmt.Println(len(d.curData)) if d.curReadOffset+len(p) < len(d.curData) { for i := 0; i < len(p); i++ { p[i] = d.curData[d.curReadOffset+i] } d.curReadOffset += len(p) return len(p), nil } read := 0 curRead := 0 for read < len(p) { if d.curReadOffset == len(d.curData) { err := d.readNextBlock() if err != nil { return read, err } curRead = 0 } for ; read < len(p); read++ { curRead++ if d.curReadOffset+curRead < len(d.curData) { p[read] = d.curData[d.curReadOffset+curRead] } else { break } } } if read != len(p) { return read, errors.New("Didn't read enough data") } return read, nil }