// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 package logging import ( "fmt" "os" "path/filepath" "sort" "strconv" "strings" "sync" "time" ) var ( now = time.Now ) // LogFile is used to setup a file based logger that also performs log rotation type LogFile struct { //Name of the log file fileName string //Path to the log file logPath string //Duration between each file rotation operation duration time.Duration //LastCreated represents the creation time of the latest log LastCreated time.Time //FileInfo is the pointer to the current file being written to FileInfo *os.File //MaxBytes is the maximum number of desired bytes for a log file MaxBytes int //BytesWritten is the number of bytes written in the current log file BytesWritten int64 // Max rotated files to keep before removing them. MaxFiles int //acquire is the mutex utilized to ensure we have no concurrency issues acquire sync.Mutex } func (l *LogFile) fileNamePattern() string { // Extract the file extension fileExt := filepath.Ext(l.fileName) // If we have no file extension we append .log if fileExt == "" { fileExt = ".log" } // Remove the file extension from the filename return strings.TrimSuffix(l.fileName, fileExt) + "-%s" + fileExt } func (l *LogFile) openNew() error { newfileName := l.fileName newfilePath := filepath.Join(l.logPath, newfileName) // Try creating or opening the active log file. Since the active log file // always has the same name, append log entries to prevent overwriting // previous log data. filePointer, err := os.OpenFile(newfilePath, os.O_CREATE|os.O_APPEND|os.O_WRONLY, 0640) if err != nil { return err } l.FileInfo = filePointer stat, err := filePointer.Stat() if err != nil { return err } // New file, new bytes tracker, new creation time :) l.LastCreated = l.createTime(stat) l.BytesWritten = 0 return nil } func (l *LogFile) renameCurrentFile() error { fileNamePattern := l.fileNamePattern() createTime := now() // Current file is consul.log always currentFilePath := filepath.Join(l.logPath, l.fileName) oldFileName := fmt.Sprintf(fileNamePattern, strconv.FormatInt(createTime.UnixNano(), 10)) oldFilePath := filepath.Join(l.logPath, oldFileName) return os.Rename(currentFilePath, oldFilePath) } func (l *LogFile) rotate() error { // Get the time from the last point of contact timeElapsed := time.Since(l.LastCreated) // Rotate if we hit the byte file limit or the time limit if (l.BytesWritten >= int64(l.MaxBytes) && (l.MaxBytes > 0)) || timeElapsed >= l.duration { l.FileInfo.Close() if err := l.renameCurrentFile(); err != nil { return err } if err := l.pruneFiles(); err != nil { return err } return l.openNew() } return nil } func (l *LogFile) pruneFiles() error { if l.MaxFiles == 0 { return nil } pattern := filepath.Join(l.logPath, fmt.Sprintf(l.fileNamePattern(), "*")) matches, err := filepath.Glob(pattern) if err != nil { return err } switch { case l.MaxFiles < 0: return removeFiles(matches) case len(matches) < l.MaxFiles: return nil } sort.Strings(matches) last := len(matches) - l.MaxFiles return removeFiles(matches[:last]) } func removeFiles(files []string) error { for _, file := range files { if err := os.Remove(file); err != nil { return err } } return nil } // Write is used to implement io.Writer func (l *LogFile) Write(b []byte) (n int, err error) { l.acquire.Lock() defer l.acquire.Unlock() // Create a new file if we have no file to write to if l.FileInfo == nil { if err := l.openNew(); err != nil { return 0, err } } // Check for the last contact and rotate if necessary if err := l.rotate(); err != nil { return 0, err } l.BytesWritten += int64(len(b)) return l.FileInfo.Write(b) }