Пример #1
0
// newLogFileReader creates a new reader to read log files
//
// It creates a chain of readers which looks as following:
//
//   limit -> (multiline -> timeout) -> strip_newline -> json -> encode -> line -> log_file
//
// Each reader on the left, contains the reader on the right and calls `Next()` to fetch more data.
// At the base of all readers the the log_file reader. That means in the data is flowing in the opposite direction:
//
//   log_file -> line -> encode -> json -> strip_newline -> (timeout -> multiline) -> limit
//
// log_file implements io.Reader interface and encode reader is an adapter for io.Reader to
// reader.Reader also handling file encodings. All other readers implement reader.Reader
func (h *Harvester) newLogFileReader() (reader.Reader, error) {

	var r reader.Reader
	var err error

	// TODO: NewLineReader uses additional buffering to deal with encoding and testing
	//       for new lines in input stream. Simple 8-bit based encodings, or plain
	//       don't require 'complicated' logic.
	h.fileReader, err = NewLogFile(h.file, h.config)
	if err != nil {
		return nil, err
	}

	r, err = reader.NewEncode(h.fileReader, h.encoding, h.config.BufferSize)
	if err != nil {
		return nil, err
	}

	if h.config.JSON != nil {
		r = reader.NewJSON(r, h.config.JSON)
	}

	r = reader.NewStripNewline(r)

	if h.config.Multiline != nil {
		r, err = reader.NewMultiline(r, "\n", h.config.MaxBytes, h.config.Multiline)
		if err != nil {
			return nil, err
		}
	}

	return reader.NewLimit(r, h.config.MaxBytes), nil
}
Пример #2
0
// newLogFileReader creates a new reader to read log files
//
// It creates a chain of readers which looks as following:
//
//   limit -> (multiline -> timeout) -> strip_newline -> json -> encode -> line -> log_file
//
// Each reader on the left, contains the reader on the right and calls `Next()` to fetch more data.
// At the base of all readers the the log_file reader. That means in the data is flowing in the opposite direction:
//
//   log_file -> line -> encode -> json -> strip_newline -> (timeout -> multiline) -> limit
//
// log_file implements io.Reader interface and encode reader is an adapter for io.Reader to
// reader.Reader also handling file encodings. All other readers implement reader.Reader
func (h *Harvester) newLogFileReader() (reader.Reader, error) {

	var r reader.Reader
	var err error

	// TODO: NewLineReader uses additional buffering to deal with encoding and testing
	//       for new lines in input stream. Simple 8-bit based encodings, or plain
	//       don't require 'complicated' logic.
	h.fileReader, err = NewLogFile(h.file, h.config)
	if err != nil {
		return nil, err
	}

	// Closes reader after timeout or when done channel is closed
	go func() {
		var closeTimeout <-chan time.Time
		if h.config.CloseTimeout > 0 {
			closeTimeout = time.After(h.config.CloseTimeout)
		}

		select {
		case <-h.done:
		case <-closeTimeout:
			logp.Info("Closing harvester because close_timeout was reached: %s", h.state.Source)
		}
		h.fileReader.Close()
	}()

	r, err = reader.NewEncode(h.fileReader, h.encoding, h.config.BufferSize)
	if err != nil {
		return nil, err
	}

	if h.config.JSON != nil {
		r = reader.NewJSON(r, h.config.JSON)
	}

	r = reader.NewStripNewline(r)

	if h.config.Multiline != nil {
		r, err = reader.NewMultiline(r, "\n", h.config.MaxBytes, h.config.Multiline)
		if err != nil {
			return nil, err
		}
	}

	return reader.NewLimit(r, h.config.MaxBytes), nil
}