package chanbackup import ( "fmt" "io/ioutil" "os" "path/filepath" "github.com/lightningnetwork/lnd/keychain" ) const ( // DefaultBackupFileName is the default name of the auto updated static // channel backup fie. DefaultBackupFileName = "channel.backup" // DefaultTempBackupFileName is the default name of the temporary SCB // file that we'll use to atomically update the primary back up file // when new channel are detected. DefaultTempBackupFileName = "temp-dont-use.backup" ) var ( // ErrNoBackupFileExists is returned if caller attempts to call // UpdateAndSwap with the file name not set. ErrNoBackupFileExists = fmt.Errorf("back up file name not set") // ErrNoTempBackupFile is returned if caller attempts to call // UpdateAndSwap with the temp back up file name not set. ErrNoTempBackupFile = fmt.Errorf("temp backup file not set") ) // MultiFile represents a file on disk that a caller can use to read the packed // multi backup into an unpacked one, and also atomically update the contents // on disk once new channels have been opened, and old ones closed. This struct // relies on an atomic file rename property which most widely use file systems // have. type MultiFile struct { // fileName is the file name of the main back up file. fileName string // tempFileName is the name of the file that we'll use to stage a new // packed multi-chan backup, and the rename to the main back up file. tempFileName string // tempFile is an open handle to the temp back up file. tempFile *os.File } // NewMultiFile create a new multi-file instance at the target location on the // file system. func NewMultiFile(fileName string) *MultiFile { // We'll our temporary backup file in the very same directory as the // main backup file. backupFileDir := filepath.Dir(fileName) tempFileName := filepath.Join( backupFileDir, DefaultTempBackupFileName, ) return &MultiFile{ fileName: fileName, tempFileName: tempFileName, } } // UpdateAndSwap will attempt write a new temporary backup file to disk with // the newBackup encoded, then atomically swap (via rename) the old file for // the new file by updating the name of the new file to the old. func (b *MultiFile) UpdateAndSwap(newBackup PackedMulti) error { // If the main backup file isn't set, then we can't proceed. if b.fileName == "" { return ErrNoBackupFileExists } log.Infof("Updating backup file at %v", b.fileName) // If the old back up file still exists, then we'll delete it before // proceeding. if _, err := os.Stat(b.tempFileName); err == nil { log.Infof("Found old temp backup @ %v, removing before swap", b.tempFileName) err = os.Remove(b.tempFileName) if err != nil { return fmt.Errorf("unable to remove temp "+ "backup file: %v", err) } } // Now that we know the staging area is clear, we'll create the new // temporary back up file. var err error b.tempFile, err = os.Create(b.tempFileName) if err != nil { return fmt.Errorf("unable to create temp file: %v", err) } // With the file created, we'll write the new packed multi backup and // remove the temporary file all together once this method exits. _, err = b.tempFile.Write([]byte(newBackup)) if err != nil { return fmt.Errorf("unable to write backup to temp file: %v", err) } if err := b.tempFile.Sync(); err != nil { return fmt.Errorf("unable to sync temp file: %v", err) } defer os.Remove(b.tempFileName) log.Infof("Swapping old multi backup file from %v to %v", b.tempFileName, b.fileName) // Before we rename the swap (atomic name swap), we'll make // sure to close the current file as some OSes don't support // renaming a file that's already open (Windows). if err := b.tempFile.Close(); err != nil { return fmt.Errorf("unable to close file: %v", err) } // Finally, we'll attempt to atomically rename the temporary file to // the main back up file. If this succeeds, then we'll only have a // single file on disk once this method exits. return os.Rename(b.tempFileName, b.fileName) } // ExtractMulti attempts to extract the packed multi backup we currently point // to into an unpacked version. This method will fail if no backup file // currently exists as the specified location. func (b *MultiFile) ExtractMulti(keyChain keychain.KeyRing) (*Multi, error) { var err error // We'll return an error if the main file isn't currently set. if b.fileName == "" { return nil, ErrNoBackupFileExists } // Now that we've confirmed the target file is populated, we'll read // all the contents of the file. This function ensures that file is // always closed, even if we can't read the contents. multiBytes, err := ioutil.ReadFile(b.fileName) if err != nil { return nil, err } // Finally, we'll attempt to unpack the file and return the unpack // version to the caller. packedMulti := PackedMulti(multiBytes) return packedMulti.Unpack(keyChain) }