// Package tailfile provides helper functions to read the nth lines of any // ReadSeeker. package tailfile // import "github.com/docker/docker/pkg/tailfile" import ( "bufio" "bytes" "context" "errors" "io" "os" ) const blockSize = 1024 var eol = []byte("\n") // ErrNonPositiveLinesNumber is an error returned if the lines number was negative. var ErrNonPositiveLinesNumber = errors.New("The number of lines to extract from the file must be positive") //TailFile returns last n lines of the passed in file. func TailFile(f *os.File, n int) ([][]byte, error) { size, err := f.Seek(0, io.SeekEnd) if err != nil { return nil, err } rAt := io.NewSectionReader(f, 0, size) r, nLines, err := NewTailReader(context.Background(), rAt, n) if err != nil { return nil, err } buf := make([][]byte, 0, nLines) scanner := bufio.NewScanner(r) for scanner.Scan() { buf = append(buf, scanner.Bytes()) } return buf, nil } // SizeReaderAt is an interface used to get a ReaderAt as well as the size of the underlying reader. // Note that the size of the underlying reader should not change when using this interface. type SizeReaderAt interface { io.ReaderAt Size() int64 } // NewTailReader scopes the passed in reader to just the last N lines passed in func NewTailReader(ctx context.Context, r SizeReaderAt, reqLines int) (io.Reader, int, error) { return NewTailReaderWithDelimiter(ctx, r, reqLines, eol) } // NewTailReaderWithDelimiter scopes the passed in reader to just the last N lines passed in // In this case a "line" is defined by the passed in delimiter. // // Delimiter lengths should be generally small, no more than 12 bytes func NewTailReaderWithDelimiter(ctx context.Context, r SizeReaderAt, reqLines int, delimiter []byte) (io.Reader, int, error) { if reqLines < 1 { return nil, 0, ErrNonPositiveLinesNumber } if len(delimiter) == 0 { return nil, 0, errors.New("must provide a delimiter") } var ( size = r.Size() tailStart int64 tailEnd = size found int ) if int64(len(delimiter)) >= size { return bytes.NewReader(nil), 0, nil } scanner := newScanner(r, delimiter) for scanner.Scan(ctx) { if err := scanner.Err(); err != nil { return nil, 0, scanner.Err() } found++ if found == 1 { tailEnd = scanner.End() } if found == reqLines { break } } tailStart = scanner.Start(ctx) if found == 0 { return bytes.NewReader(nil), 0, nil } if found < reqLines && tailStart != 0 { tailStart = 0 } return io.NewSectionReader(r, tailStart, tailEnd-tailStart), found, nil } func newScanner(r SizeReaderAt, delim []byte) *scanner { size := r.Size() readSize := blockSize if readSize > int(size) { readSize = int(size) } // silly case... if len(delim) >= readSize/2 { readSize = len(delim)*2 + 2 } return &scanner{ r: r, pos: size, buf: make([]byte, readSize), delim: delim, } } type scanner struct { r SizeReaderAt pos int64 buf []byte delim []byte err error idx int } func (s *scanner) Start(ctx context.Context) int64 { if s.idx > 0 { idx := bytes.LastIndex(s.buf[:s.idx], s.delim) if idx >= 0 { return s.pos + int64(idx) + int64(len(s.delim)) } } // slow path buf := make([]byte, len(s.buf)) copy(buf, s.buf) readAhead := &scanner{ r: s.r, pos: s.pos, delim: s.delim, idx: s.idx, buf: buf, } if !readAhead.Scan(ctx) { return 0 } return readAhead.End() } func (s *scanner) End() int64 { return s.pos + int64(s.idx) + int64(len(s.delim)) } func (s *scanner) Err() error { return s.err } func (s *scanner) Scan(ctx context.Context) bool { if s.err != nil { return false } for { select { case <-ctx.Done(): s.err = ctx.Err() return false default: } idx := s.idx - len(s.delim) if idx < 0 { readSize := int(s.pos) if readSize > len(s.buf) { readSize = len(s.buf) } if readSize < len(s.delim) { return false } offset := s.pos - int64(readSize) n, err := s.r.ReadAt(s.buf[:readSize], offset) if err != nil && err != io.EOF { s.err = err return false } s.pos -= int64(n) idx = n } s.idx = bytes.LastIndex(s.buf[:idx], s.delim) if s.idx >= 0 { return true } if len(s.delim) > 1 && s.pos > 0 { // in this case, there may be a partial delimiter at the front of the buffer, so set the position forward // up to the maximum size partial that could be there so it can be read again in the next iteration with any // potential remainder. // An example where delimiter is `####`: // [##asdfqwerty] // ^ // This resets the position to where the arrow is pointing. // It could actually check if a partial exists and at the front, but that is pretty similar to the indexing // code above though a bit more complex since each byte has to be checked (`len(delimiter)-1`) factorial). // It's much simpler and cleaner to just re-read `len(delimiter)-1` bytes again. s.pos += int64(len(s.delim)) - 1 } } }