package logging import ( "bufio" "fmt" "io/ioutil" "log" "os" "path/filepath" "sort" "strconv" "strings" "time" ) var ( flushDur = 100 * time.Millisecond ) // FileRotator writes bytes to a rotated set of files type FileRotator struct { MaxFiles int // MaxFiles is the maximum number of rotated files allowed in a path FileSize int64 // FileSize is the size a rotated file is allowed to grow path string // path is the path on the file system where the rotated set of files are opened baseFileName string // baseFileName is the base file name of the rotated files logFileIdx int // logFileIdx is the current index of the rotated files oldestLogFileIdx int // oldestLogFileIdx is the index of the oldest log file in a path currentFile *os.File // currentFile is the file that is currently getting written currentWr int64 // currentWr is the number of bytes written to the current file bufw *bufio.Writer flushTicker *time.Ticker logger *log.Logger purgeCh chan struct{} doneCh chan struct{} } // NewFileRotator returns a new file rotator func NewFileRotator(path string, baseFile string, maxFiles int, fileSize int64, logger *log.Logger) (*FileRotator, error) { rotator := &FileRotator{ MaxFiles: maxFiles, FileSize: fileSize, path: path, baseFileName: baseFile, flushTicker: time.NewTicker(flushDur), logger: logger, purgeCh: make(chan struct{}, 1), doneCh: make(chan struct{}, 1), } if err := rotator.lastFile(); err != nil { return nil, err } go rotator.purgeOldFiles() go rotator.flushPeriodically() return rotator, nil } // Write writes a byte array to a file and rotates the file if it's size becomes // equal to the maximum size the user has defined. func (f *FileRotator) Write(p []byte) (n int, err error) { n = 0 var nw int for n < len(p) { // Check if we still have space in the current file, otherwise close and // open the next file if f.currentWr >= f.FileSize { f.bufw.Flush() f.currentFile.Close() if err := f.nextFile(); err != nil { return 0, err } } // Calculate the remaining size on this file remainingSize := f.FileSize - f.currentWr // Check if the number of bytes that we have to write is less than the // remaining size of the file if remainingSize < int64(len(p[n:])) { // Write the number of bytes that we can write on the current file li := int64(n) + remainingSize nw, err = f.bufw.Write(p[n:li]) //nw, err = f.currentFile.Write(p[n:li]) } else { // Write all the bytes in the current file nw, err = f.bufw.Write(p[n:]) //nw, err = f.currentFile.Write(p[n:]) } // Increment the number of bytes written so far in this method // invocation n += nw // Increment the total number of bytes in the file f.currentWr += int64(n) if err != nil { return } } return } // nextFile opens the next file and purges older files if the number of rotated // files is larger than the maximum files configured by the user func (f *FileRotator) nextFile() error { nextFileIdx := f.logFileIdx for { nextFileIdx += 1 logFileName := filepath.Join(f.path, fmt.Sprintf("%s.%d", f.baseFileName, nextFileIdx)) if fi, err := os.Stat(logFileName); err == nil { if fi.IsDir() || fi.Size() >= f.FileSize { continue } } f.logFileIdx = nextFileIdx if err := f.createFile(); err != nil { return err } break } // Purge old files if we have more files than MaxFiles if f.logFileIdx-f.oldestLogFileIdx >= f.MaxFiles { select { case f.purgeCh <- struct{}{}: default: } } return nil } // lastFile finds out the rotated file with the largest index in a path. func (f *FileRotator) lastFile() error { finfos, err := ioutil.ReadDir(f.path) if err != nil { return err } prefix := fmt.Sprintf("%s.", f.baseFileName) for _, fi := range finfos { if fi.IsDir() { continue } if strings.HasPrefix(fi.Name(), prefix) { fileIdx := strings.TrimPrefix(fi.Name(), prefix) n, err := strconv.Atoi(fileIdx) if err != nil { continue } if n > f.logFileIdx { f.logFileIdx = n } } } if err := f.createFile(); err != nil { return err } return nil } // createFile opens a new or existing file for writing func (f *FileRotator) createFile() error { logFileName := filepath.Join(f.path, fmt.Sprintf("%s.%d", f.baseFileName, f.logFileIdx)) cFile, err := os.OpenFile(logFileName, os.O_RDWR|os.O_CREATE|os.O_APPEND, 0666) if err != nil { return err } f.currentFile = cFile fi, err := f.currentFile.Stat() if err != nil { return err } f.currentWr = fi.Size() if f.bufw == nil { f.bufw = bufio.NewWriter(f.currentFile) } else { f.bufw.Reset(f.currentFile) } return nil } // flushPeriodically flushes the buffered writer every 100ms to the underlying // file func (f *FileRotator) flushPeriodically() { for _ = range f.flushTicker.C { if f.bufw != nil { f.bufw.Flush() } } } func (f *FileRotator) Close() { // Stop the ticker and flush for one last time f.flushTicker.Stop() if f.bufw != nil { f.bufw.Flush() } // Stop the purge go routine f.doneCh <- struct{}{} close(f.purgeCh) } // purgeOldFiles removes older files and keeps only the last N files rotated for // a file func (f *FileRotator) purgeOldFiles() { for { select { case <-f.purgeCh: var fIndexes []int files, err := ioutil.ReadDir(f.path) if err != nil { return } // Inserting all the rotated files in a slice for _, fi := range files { if strings.HasPrefix(fi.Name(), f.baseFileName) { fileIdx := strings.TrimPrefix(fi.Name(), fmt.Sprintf("%s.", f.baseFileName)) n, err := strconv.Atoi(fileIdx) if err != nil { continue } fIndexes = append(fIndexes, n) } } // Sorting the file indexes so that we can purge the older files and keep // only the number of files as configured by the user sort.Sort(sort.IntSlice(fIndexes)) var toDelete []int toDelete = fIndexes[0 : len(fIndexes)-f.MaxFiles] for _, fIndex := range toDelete { fname := filepath.Join(f.path, fmt.Sprintf("%s.%d", f.baseFileName, fIndex)) os.RemoveAll(fname) } f.oldestLogFileIdx = fIndexes[0] case <-f.doneCh: return } } }