/* This package picks up CRI parsing and writer for the logs from the kubernetes logs package. These two bits have been modified to fit the requirements of libpod. Copyright 2017 The Kubernetes Authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package logs import ( "bufio" "bytes" "fmt" "io" "math" "os" "time" "github.com/containers/libpod/libpod" "github.com/pkg/errors" "github.com/sirupsen/logrus" ) const ( // timeFormat is the time format used in the log. timeFormat = time.RFC3339Nano ) // LogStreamType is the type of the stream in CRI container log. type LogStreamType string const ( // Stdout is the stream type for stdout. Stdout LogStreamType = "stdout" // Stderr is the stream type for stderr. Stderr LogStreamType = "stderr" ) // LogTag is the tag of a log line in CRI container log. // Currently defined log tags: // * First tag: Partial/Full - P/F. // The field in the container log format can be extended to include multiple // tags by using a delimiter, but changes should be rare. type LogTag string const ( // LogTagPartial means the line is part of multiple lines. LogTagPartial LogTag = "P" // LogTagFull means the line is a single full line or the end of multiple lines. LogTagFull LogTag = "F" // LogTagDelimiter is the delimiter for different log tags. LogTagDelimiter = ":" ) var ( // eol is the end-of-line sign in the log. eol = []byte{'\n'} // delimiter is the delimiter for timestamp and stream type in log line. delimiter = []byte{' '} // tagDelimiter is the delimiter for log tags. tagDelimiter = []byte(LogTagDelimiter) ) // logMessage is the CRI internal log type. type logMessage struct { timestamp time.Time stream LogStreamType log []byte } // LogOptions is the options you can use for logs type LogOptions struct { Details bool Follow bool Since time.Time Tail uint64 Timestamps bool bytes int64 } // reset resets the log to nil. func (l *logMessage) reset() { l.timestamp = time.Time{} l.stream = "" l.log = nil } // parseCRILog parses logs in CRI log format. CRI Log format example: // 2016-10-06T00:17:09.669794202Z stdout P log content 1 // 2016-10-06T00:17:09.669794203Z stderr F log content 2 func parseCRILog(log []byte, msg *logMessage) error { var err error // Parse timestamp idx := bytes.Index(log, delimiter) if idx < 0 { return fmt.Errorf("timestamp is not found") } msg.timestamp, err = time.Parse(timeFormat, string(log[:idx])) if err != nil { return fmt.Errorf("unexpected timestamp format %q: %v", timeFormat, err) } // Parse stream type log = log[idx+1:] idx = bytes.Index(log, delimiter) if idx < 0 { return fmt.Errorf("stream type is not found") } msg.stream = LogStreamType(log[:idx]) if msg.stream != Stdout && msg.stream != Stderr { return fmt.Errorf("unexpected stream type %q", msg.stream) } // Parse log tag log = log[idx+1:] idx = bytes.Index(log, delimiter) if idx < 0 { return fmt.Errorf("log tag is not found") } // Keep this forward compatible. tags := bytes.Split(log[:idx], tagDelimiter) partial := (LogTag(tags[0]) == LogTagPartial) // Trim the tailing new line if this is a partial line. if partial && len(log) > 0 && log[len(log)-1] == '\n' { log = log[:len(log)-1] } // Get log content msg.log = log[idx+1:] return nil } // ReadLogs reads in the logs from the logPath func ReadLogs(logPath string, ctr *libpod.Container, opts *LogOptions) error { file, err := os.Open(logPath) if err != nil { return errors.Wrapf(err, "failed to open log file %q", logPath) } defer file.Close() msg := &logMessage{} opts.bytes = -1 writer := newLogWriter(opts) reader := bufio.NewReader(file) if opts.Follow { followLog(reader, writer, opts, ctr, msg, logPath) } else { dumpLog(reader, writer, opts, msg, logPath) } return err } func followLog(reader *bufio.Reader, writer *logWriter, opts *LogOptions, ctr *libpod.Container, msg *logMessage, logPath string) error { var cacheOutput []string firstPass := false if opts.Tail > 0 { firstPass = true } // We need to read the entire file in here until we reach EOF // and then dump it out in the case that the user also wants // tail output for { line, err := reader.ReadString(eol[0]) if err == io.EOF && opts.Follow { if firstPass { firstPass = false cacheLen := int64(len(cacheOutput)) start := int64(0) if cacheLen > int64(opts.Tail) { start = cacheLen - int64(opts.Tail) } for i := start; i < cacheLen; i++ { msg.reset() if err := parseCRILog([]byte(cacheOutput[i]), msg); err != nil { return errors.Wrapf(err, "error parsing log line") } // Write the log line into the stream. if err := writer.write(msg); err != nil { if err == errMaximumWrite { logrus.Infof("Finish parsing log file %q, hit bytes limit %d(bytes)", logPath, opts.bytes) return nil } logrus.Errorf("Failed with err %v when writing log for log file %q: %+v", err, logPath, msg) return err } } continue } time.Sleep(1 * time.Second) // Check if container is still running or paused state, err := ctr.State() if err != nil { return err } if state != libpod.ContainerStateRunning && state != libpod.ContainerStatePaused { break } continue } // exits if err != nil { break } if firstPass { cacheOutput = append(cacheOutput, line) continue } msg.reset() if err := parseCRILog([]byte(line), msg); err != nil { return errors.Wrapf(err, "error parsing log line") } // Write the log line into the stream. if err := writer.write(msg); err != nil { if err == errMaximumWrite { logrus.Infof("Finish parsing log file %q, hit bytes limit %d(bytes)", logPath, opts.bytes) return nil } logrus.Errorf("Failed with err %v when writing log for log file %q: %+v", err, logPath, msg) return err } } return nil } func dumpLog(reader *bufio.Reader, writer *logWriter, opts *LogOptions, msg *logMessage, logPath string) error { output := readLog(reader, opts) for _, line := range output { msg.reset() if err := parseCRILog([]byte(line), msg); err != nil { return errors.Wrapf(err, "error parsing log line") } // Write the log line into the stream. if err := writer.write(msg); err != nil { if err == errMaximumWrite { logrus.Infof("Finish parsing log file %q, hit bytes limit %d(bytes)", logPath, opts.bytes) return nil } logrus.Errorf("Failed with err %v when writing log for log file %q: %+v", err, logPath, msg) return err } } return nil } func readLog(reader *bufio.Reader, opts *LogOptions) []string { var output []string for { line, err := reader.ReadString(eol[0]) if err != nil { break } output = append(output, line) } start := 0 if opts.Tail > 0 { if len(output) > int(opts.Tail) { start = len(output) - int(opts.Tail) } } return output[start:] } // logWriter controls the writing into the stream based on the log options. type logWriter struct { stdout io.Writer stderr io.Writer opts *LogOptions remain int64 doAppend bool } // errMaximumWrite is returned when all bytes have been written. var errMaximumWrite = errors.New("maximum write") // errShortWrite is returned when the message is not fully written. var errShortWrite = errors.New("short write") func newLogWriter(opts *LogOptions) *logWriter { w := &logWriter{ stdout: os.Stdout, stderr: os.Stderr, opts: opts, remain: math.MaxInt64, // initialize it as infinity } if opts.bytes >= 0 { w.remain = opts.bytes } return w } // writeLogs writes logs into stdout, stderr. func (w *logWriter) write(msg *logMessage) error { if msg.timestamp.Before(w.opts.Since) { // Skip the line because it's older than since return nil } line := msg.log if w.opts.Timestamps && !w.doAppend { prefix := append([]byte(msg.timestamp.Format(timeFormat)), delimiter[0]) line = append(prefix, line...) if len(line) > 0 && line[len(line)-1] != '\n' { w.doAppend = true } } if w.doAppend && len(line) > 0 && line[len(line)-1] == '\n' { w.doAppend = false } // If the line is longer than the remaining bytes, cut it. if int64(len(line)) > w.remain { line = line[:w.remain] } // Get the proper stream to write to. var stream io.Writer switch msg.stream { case Stdout: stream = w.stdout case Stderr: stream = w.stderr default: return fmt.Errorf("unexpected stream type %q", msg.stream) } n, err := stream.Write(line) w.remain -= int64(n) if err != nil { return err } // If the line has not been fully written, return errShortWrite if n < len(line) { return errShortWrite } // If there are no more bytes left, return errMaximumWrite if w.remain <= 0 { return errMaximumWrite } return nil }