// Copyright 2022 - Offen Authors // SPDX-License-Identifier: MPL-2.0 package main import ( "context" "errors" "fmt" "io" "io/fs" "io/ioutil" "net/http" "os" "path" "path/filepath" "strings" "text/template" "time" "github.com/pkg/sftp" "golang.org/x/crypto/ssh" "github.com/containrrr/shoutrrr" "github.com/containrrr/shoutrrr/pkg/router" "github.com/docker/docker/api/types" "github.com/docker/docker/api/types/filters" "github.com/docker/docker/api/types/swarm" "github.com/docker/docker/client" "github.com/kelseyhightower/envconfig" "github.com/leekchan/timeutil" "github.com/minio/minio-go/v7" "github.com/minio/minio-go/v7/pkg/credentials" "github.com/otiai10/copy" "github.com/sirupsen/logrus" "github.com/studio-b12/gowebdav" "golang.org/x/crypto/openpgp" ) // script holds all the stateful information required to orchestrate a // single backup run. type script struct { cli *client.Client minioClient *minio.Client webdavClient *gowebdav.Client sshClient *ssh.Client sftpClient *sftp.Client logger *logrus.Logger sender *router.ServiceRouter template *template.Template hooks []hook hookLevel hookLevel file string stats *Stats encounteredLock bool c *Config } // newScript creates all resources needed for the script to perform actions against // remote resources like the Docker engine or remote storage locations. All // reading from env vars or other configuration sources is expected to happen // in this method. func newScript() (*script, error) { stdOut, logBuffer := buffer(os.Stdout) s := &script{ c: &Config{}, logger: &logrus.Logger{ Out: stdOut, Formatter: new(logrus.TextFormatter), Hooks: make(logrus.LevelHooks), Level: logrus.InfoLevel, }, stats: &Stats{ StartTime: time.Now(), LogOutput: logBuffer, Storages: StoragesStats{}, }, } s.registerHook(hookLevelPlumbing, func(error) error { s.stats.EndTime = time.Now() s.stats.TookTime = s.stats.EndTime.Sub(s.stats.StartTime) return nil }) if err := envconfig.Process("", s.c); err != nil { return nil, fmt.Errorf("newScript: failed to process configuration values: %w", err) } s.file = path.Join("/tmp", s.c.BackupFilename) if s.c.BackupFilenameExpand { s.file = os.ExpandEnv(s.file) s.c.BackupLatestSymlink = os.ExpandEnv(s.c.BackupLatestSymlink) s.c.BackupPruningPrefix = os.ExpandEnv(s.c.BackupPruningPrefix) } s.file = timeutil.Strftime(&s.stats.StartTime, s.file) _, err := os.Stat("/var/run/docker.sock") _, dockerHostSet := os.LookupEnv("DOCKER_HOST") if !os.IsNotExist(err) || dockerHostSet { cli, err := client.NewClientWithOpts(client.FromEnv, client.WithAPIVersionNegotiation()) if err != nil { return nil, fmt.Errorf("newScript: failed to create docker client") } s.cli = cli } if s.c.AwsS3BucketName != "" { var creds *credentials.Credentials if s.c.AwsAccessKeyID != "" && s.c.AwsSecretAccessKey != "" { creds = credentials.NewStaticV4( s.c.AwsAccessKeyID, s.c.AwsSecretAccessKey, "", ) } else if s.c.AwsIamRoleEndpoint != "" { creds = credentials.NewIAM(s.c.AwsIamRoleEndpoint) } else { return nil, errors.New("newScript: AWS_S3_BUCKET_NAME is defined, but no credentials were provided") } options := minio.Options{ Creds: creds, Secure: s.c.AwsEndpointProto == "https", } if s.c.AwsEndpointInsecure { if !options.Secure { return nil, errors.New("newScript: AWS_ENDPOINT_INSECURE = true is only meaningful for https") } transport, err := minio.DefaultTransport(true) if err != nil { return nil, fmt.Errorf("newScript: failed to create default minio transport") } transport.TLSClientConfig.InsecureSkipVerify = true options.Transport = transport } mc, err := minio.New(s.c.AwsEndpoint, &options) if err != nil { return nil, fmt.Errorf("newScript: error setting up minio client: %w", err) } s.minioClient = mc } if s.c.WebdavUrl != "" { if s.c.WebdavUsername == "" || s.c.WebdavPassword == "" { return nil, errors.New("newScript: WEBDAV_URL is defined, but no credentials were provided") } else { webdavClient := gowebdav.NewClient(s.c.WebdavUrl, s.c.WebdavUsername, s.c.WebdavPassword) s.webdavClient = webdavClient if s.c.WebdavUrlInsecure { defaultTransport, ok := http.DefaultTransport.(*http.Transport) if !ok { return nil, errors.New("newScript: unexpected error when asserting type for http.DefaultTransport") } webdavTransport := defaultTransport.Clone() webdavTransport.TLSClientConfig.InsecureSkipVerify = s.c.WebdavUrlInsecure s.webdavClient.SetTransport(webdavTransport) } } } if s.c.SSHHostName != "" { var authMethods []ssh.AuthMethod if s.c.SSHPassword != "" { authMethods = append(authMethods, ssh.Password(s.c.SSHPassword)) } if _, err := os.Stat(s.c.SSHIdentityFile); err == nil { key, err := ioutil.ReadFile(s.c.SSHIdentityFile) if err != nil { return nil, errors.New("newScript: error reading the private key") } var signer ssh.Signer if s.c.SSHIdentityPassphrase != "" { signer, err = ssh.ParsePrivateKeyWithPassphrase(key, []byte(s.c.SSHIdentityPassphrase)) if err != nil { return nil, errors.New("newScript: error parsing the encrypted private key") } authMethods = append(authMethods, ssh.PublicKeys(signer)) } else { signer, err = ssh.ParsePrivateKey(key) if err != nil { return nil, errors.New("newScript: error parsing the private key") } authMethods = append(authMethods, ssh.PublicKeys(signer)) } } sshClientConfig := &ssh.ClientConfig{ User: s.c.SSHUser, Auth: authMethods, HostKeyCallback: ssh.InsecureIgnoreHostKey(), } sshClient, err := ssh.Dial("tcp", fmt.Sprintf("%s:%s", s.c.SSHHostName, s.c.SSHPort), sshClientConfig) s.sshClient = sshClient if err != nil { return nil, fmt.Errorf("newScript: error creating ssh client: %w", err) } _, _, err = s.sshClient.SendRequest("keepalive", false, nil) if err != nil { return nil, err } sftpClient, err := sftp.NewClient(sshClient) s.sftpClient = sftpClient if err != nil { return nil, fmt.Errorf("newScript: error creating sftp client: %w", err) } } if s.c.EmailNotificationRecipient != "" { emailURL := fmt.Sprintf( "smtp://%s:%s@%s:%d/?from=%s&to=%s", s.c.EmailSMTPUsername, s.c.EmailSMTPPassword, s.c.EmailSMTPHost, s.c.EmailSMTPPort, s.c.EmailNotificationSender, s.c.EmailNotificationRecipient, ) s.c.NotificationURLs = append(s.c.NotificationURLs, emailURL) s.logger.Warn( "Using EMAIL_* keys for providing notification configuration has been deprecated and will be removed in the next major version.", ) s.logger.Warn( "Please use NOTIFICATION_URLS instead. Refer to the README for an upgrade guide.", ) } hookLevel, ok := hookLevels[s.c.NotificationLevel] if !ok { return nil, fmt.Errorf("newScript: unknown NOTIFICATION_LEVEL %s", s.c.NotificationLevel) } s.hookLevel = hookLevel if len(s.c.NotificationURLs) > 0 { sender, senderErr := shoutrrr.CreateSender(s.c.NotificationURLs...) if senderErr != nil { return nil, fmt.Errorf("newScript: error creating sender: %w", senderErr) } s.sender = sender tmpl := template.New("") tmpl.Funcs(templateHelpers) tmpl, err = tmpl.Parse(defaultNotifications) if err != nil { return nil, fmt.Errorf("newScript: unable to parse default notifications templates: %w", err) } if fi, err := os.Stat("/etc/dockervolumebackup/notifications.d"); err == nil && fi.IsDir() { tmpl, err = tmpl.ParseGlob("/etc/dockervolumebackup/notifications.d/*.*") if err != nil { return nil, fmt.Errorf("newScript: unable to parse user defined notifications templates: %w", err) } } s.template = tmpl // To prevent duplicate notifications, ensure the regsistered callbacks // run mutually exclusive. s.registerHook(hookLevelError, func(err error) error { if err == nil { return nil } return s.notifyFailure(err) }) s.registerHook(hookLevelInfo, func(err error) error { if err != nil { return nil } return s.notifySuccess() }) } return s, nil } func (s *script) runCommands() (func() error, error) { if s.cli == nil { return noop, nil } if err := s.runLabeledCommands("docker-volume-backup.exec-pre"); err != nil { return noop, fmt.Errorf("runCommands: error running pre commands: %w", err) } return func() error { if err := s.runLabeledCommands("docker-volume-backup.exec-post"); err != nil { return fmt.Errorf("runCommands: error running post commands: %w", err) } return nil }, nil } // stopContainers stops all Docker containers that are marked as to being // stopped during the backup and returns a function that can be called to // restart everything that has been stopped. func (s *script) stopContainers() (func() error, error) { if s.cli == nil { return noop, nil } allContainers, err := s.cli.ContainerList(context.Background(), types.ContainerListOptions{ Quiet: true, }) if err != nil { return noop, fmt.Errorf("stopContainersAndRun: error querying for containers: %w", err) } containerLabel := fmt.Sprintf( "docker-volume-backup.stop-during-backup=%s", s.c.BackupStopContainerLabel, ) containersToStop, err := s.cli.ContainerList(context.Background(), types.ContainerListOptions{ Quiet: true, Filters: filters.NewArgs(filters.KeyValuePair{ Key: "label", Value: containerLabel, }), }) if err != nil { return noop, fmt.Errorf("stopContainersAndRun: error querying for containers to stop: %w", err) } if len(containersToStop) == 0 { return noop, nil } s.logger.Infof( "Stopping %d container(s) labeled `%s` out of %d running container(s).", len(containersToStop), containerLabel, len(allContainers), ) var stoppedContainers []types.Container var stopErrors []error for _, container := range containersToStop { if err := s.cli.ContainerStop(context.Background(), container.ID, nil); err != nil { stopErrors = append(stopErrors, err) } else { stoppedContainers = append(stoppedContainers, container) } } var stopError error if len(stopErrors) != 0 { stopError = fmt.Errorf( "stopContainersAndRun: %d error(s) stopping containers: %w", len(stopErrors), join(stopErrors...), ) } s.stats.Containers = ContainersStats{ All: uint(len(allContainers)), ToStop: uint(len(containersToStop)), Stopped: uint(len(stoppedContainers)), } return func() error { servicesRequiringUpdate := map[string]struct{}{} var restartErrors []error for _, container := range stoppedContainers { if swarmServiceName, ok := container.Labels["com.docker.swarm.service.name"]; ok { servicesRequiringUpdate[swarmServiceName] = struct{}{} continue } if err := s.cli.ContainerStart(context.Background(), container.ID, types.ContainerStartOptions{}); err != nil { restartErrors = append(restartErrors, err) } } if len(servicesRequiringUpdate) != 0 { services, _ := s.cli.ServiceList(context.Background(), types.ServiceListOptions{}) for serviceName := range servicesRequiringUpdate { var serviceMatch swarm.Service for _, service := range services { if service.Spec.Name == serviceName { serviceMatch = service break } } if serviceMatch.ID == "" { return fmt.Errorf("stopContainersAndRun: couldn't find service with name %s", serviceName) } serviceMatch.Spec.TaskTemplate.ForceUpdate = 1 if _, err := s.cli.ServiceUpdate( context.Background(), serviceMatch.ID, serviceMatch.Version, serviceMatch.Spec, types.ServiceUpdateOptions{}, ); err != nil { restartErrors = append(restartErrors, err) } } } if len(restartErrors) != 0 { return fmt.Errorf( "stopContainersAndRun: %d error(s) restarting containers and services: %w", len(restartErrors), join(restartErrors...), ) } s.logger.Infof( "Restarted %d container(s) and the matching service(s).", len(stoppedContainers), ) return nil }, stopError } // takeBackup creates a tar archive of the configured backup location and // saves it to disk. func (s *script) takeBackup() error { backupSources := s.c.BackupSources if s.c.BackupFromSnapshot { s.logger.Warn( "Using BACKUP_FROM_SNAPSHOT has been deprecated and will be removed in the next major version.", ) s.logger.Warn( "Please use `exec-pre` and `exec-post` commands to prepare your backup sources. Refer to the README for an upgrade guide.", ) backupSources = filepath.Join("/tmp", s.c.BackupSources) // copy before compressing guard against a situation where backup folder's content are still growing. s.registerHook(hookLevelPlumbing, func(error) error { if err := remove(backupSources); err != nil { return fmt.Errorf("takeBackup: error removing snapshot: %w", err) } s.logger.Infof("Removed snapshot `%s`.", backupSources) return nil }) if err := copy.Copy(s.c.BackupSources, backupSources, copy.Options{ PreserveTimes: true, PreserveOwner: true, }); err != nil { return fmt.Errorf("takeBackup: error creating snapshot: %w", err) } s.logger.Infof("Created snapshot of `%s` at `%s`.", s.c.BackupSources, backupSources) } tarFile := s.file s.registerHook(hookLevelPlumbing, func(error) error { if err := remove(tarFile); err != nil { return fmt.Errorf("takeBackup: error removing tar file: %w", err) } s.logger.Infof("Removed tar file `%s`.", tarFile) return nil }) backupPath, err := filepath.Abs(stripTrailingSlashes(backupSources)) if err != nil { return fmt.Errorf("takeBackup: error getting absolute path: %w", err) } var filesEligibleForBackup []string if err := filepath.WalkDir(backupPath, func(path string, di fs.DirEntry, err error) error { if err != nil { return err } if s.c.BackupExcludeRegexp.Re != nil && s.c.BackupExcludeRegexp.Re.MatchString(path) { return nil } filesEligibleForBackup = append(filesEligibleForBackup, path) return nil }); err != nil { return fmt.Errorf("compress: error walking filesystem tree: %w", err) } if err := createArchive(filesEligibleForBackup, backupSources, tarFile); err != nil { return fmt.Errorf("takeBackup: error compressing backup folder: %w", err) } s.logger.Infof("Created backup of `%s` at `%s`.", backupSources, tarFile) return nil } // encryptBackup encrypts the backup file using PGP and the configured passphrase. // In case no passphrase is given it returns early, leaving the backup file // untouched. func (s *script) encryptBackup() error { if s.c.GpgPassphrase == "" { return nil } gpgFile := fmt.Sprintf("%s.gpg", s.file) s.registerHook(hookLevelPlumbing, func(error) error { if err := remove(gpgFile); err != nil { return fmt.Errorf("encryptBackup: error removing gpg file: %w", err) } s.logger.Infof("Removed GPG file `%s`.", gpgFile) return nil }) outFile, err := os.Create(gpgFile) defer outFile.Close() if err != nil { return fmt.Errorf("encryptBackup: error opening out file: %w", err) } _, name := path.Split(s.file) dst, err := openpgp.SymmetricallyEncrypt(outFile, []byte(s.c.GpgPassphrase), &openpgp.FileHints{ IsBinary: true, FileName: name, }, nil) defer dst.Close() if err != nil { return fmt.Errorf("encryptBackup: error encrypting backup file: %w", err) } src, err := os.Open(s.file) if err != nil { return fmt.Errorf("encryptBackup: error opening backup file `%s`: %w", s.file, err) } if _, err := io.Copy(dst, src); err != nil { return fmt.Errorf("encryptBackup: error writing ciphertext to file: %w", err) } s.file = gpgFile s.logger.Infof("Encrypted backup using given passphrase, saving as `%s`.", s.file) return nil } // copyBackup makes sure the backup file is copied to both local and remote locations // as per the given configuration. func (s *script) copyBackup() error { _, name := path.Split(s.file) if stat, err := os.Stat(s.file); err != nil { return fmt.Errorf("copyBackup: unable to stat backup file: %w", err) } else { size := stat.Size() s.stats.BackupFile = BackupFileStats{ Size: uint64(size), Name: name, FullPath: s.file, } } if s.minioClient != nil { if _, err := s.minioClient.FPutObject(context.Background(), s.c.AwsS3BucketName, filepath.Join(s.c.AwsS3Path, name), s.file, minio.PutObjectOptions{ ContentType: "application/tar+gzip", StorageClass: s.c.AwsStorageClass, }); err != nil { return fmt.Errorf("copyBackup: error uploading backup to remote storage: %w", err) } s.logger.Infof("Uploaded a copy of backup `%s` to bucket `%s`.", s.file, s.c.AwsS3BucketName) } if s.webdavClient != nil { bytes, err := os.ReadFile(s.file) if err != nil { return fmt.Errorf("copyBackup: error reading the file to be uploaded: %w", err) } if err := s.webdavClient.MkdirAll(s.c.WebdavPath, 0644); err != nil { return fmt.Errorf("copyBackup: error creating directory '%s' on WebDAV server: %w", s.c.WebdavPath, err) } if err := s.webdavClient.Write(filepath.Join(s.c.WebdavPath, name), bytes, 0644); err != nil { return fmt.Errorf("copyBackup: error uploading the file to WebDAV server: %w", err) } s.logger.Infof("Uploaded a copy of backup `%s` to WebDAV-URL '%s' at path '%s'.", s.file, s.c.WebdavUrl, s.c.WebdavPath) } if s.sshClient != nil { source, err := os.Open(s.file) if err != nil { return fmt.Errorf("copyBackup: error reading the file to be uploaded: %w", err) } defer source.Close() destination, err := s.sftpClient.Create(filepath.Join(s.c.SSHRemotePath, name)) if err != nil { return fmt.Errorf("copyBackup: error creating file on SSH storage: %w", err) } defer destination.Close() chunk := make([]byte, 1000000) for { num, err := source.Read(chunk) if err == io.EOF { tot, err := destination.Write(chunk[:num]) if err != nil { return fmt.Errorf("copyBackup: error uploading the file to SSH storage: %w", err) } if tot != len(chunk[:num]) { return fmt.Errorf("sshClient: failed to write stream") } break } if err != nil { return fmt.Errorf("copyBackup: error uploading the file to SSH storage: %w", err) } tot, err := destination.Write(chunk[:num]) if err != nil { return fmt.Errorf("copyBackup: error uploading the file to SSH storage: %w", err) } if tot != len(chunk[:num]) { return fmt.Errorf("sshClient: failed to write stream") } } s.logger.Infof("Uploaded a copy of backup `%s` to SSH storage '%s' at path '%s'.", s.file, s.c.SSHHostName, s.c.SSHRemotePath) } if _, err := os.Stat(s.c.BackupArchive); !os.IsNotExist(err) { if err := copyFile(s.file, path.Join(s.c.BackupArchive, name)); err != nil { return fmt.Errorf("copyBackup: error copying file to local archive: %w", err) } s.logger.Infof("Stored copy of backup `%s` in local archive `%s`.", s.file, s.c.BackupArchive) if s.c.BackupLatestSymlink != "" { symlink := path.Join(s.c.BackupArchive, s.c.BackupLatestSymlink) if _, err := os.Lstat(symlink); err == nil { os.Remove(symlink) } if err := os.Symlink(name, symlink); err != nil { return fmt.Errorf("copyBackup: error creating latest symlink: %w", err) } s.logger.Infof("Created/Updated symlink `%s` for latest backup.", s.c.BackupLatestSymlink) } } return nil } // pruneBackups rotates away backups from local and remote storages using // the given configuration. In case the given configuration would delete all // backups, it does nothing instead and logs a warning. func (s *script) pruneBackups() error { if s.c.BackupRetentionDays < 0 { return nil } deadline := time.Now().AddDate(0, 0, -int(s.c.BackupRetentionDays)).Add(s.c.BackupPruningLeeway) // doPrune holds general control flow that applies to any kind of storage. // Callers can pass in a thunk that performs the actual deletion of files. var doPrune = func(lenMatches, lenCandidates int, description string, doRemoveFiles func() error) error { if lenMatches != 0 && lenMatches != lenCandidates { if err := doRemoveFiles(); err != nil { return err } s.logger.Infof( "Pruned %d out of %d %s as their age exceeded the configured retention period of %d days.", lenMatches, lenCandidates, description, s.c.BackupRetentionDays, ) } else if lenMatches != 0 && lenMatches == lenCandidates { s.logger.Warnf("The current configuration would delete all %d existing %s.", lenMatches, description) s.logger.Warn("Refusing to do so, please check your configuration.") } else { s.logger.Infof("None of %d existing %s were pruned.", lenCandidates, description) } return nil } if s.minioClient != nil { candidates := s.minioClient.ListObjects(context.Background(), s.c.AwsS3BucketName, minio.ListObjectsOptions{ WithMetadata: true, Prefix: filepath.Join(s.c.AwsS3Path, s.c.BackupPruningPrefix), Recursive: true, }) var matches []minio.ObjectInfo var lenCandidates int for candidate := range candidates { lenCandidates++ if candidate.Err != nil { return fmt.Errorf( "pruneBackups: error looking up candidates from remote storage: %w", candidate.Err, ) } if candidate.LastModified.Before(deadline) { matches = append(matches, candidate) } } s.stats.Storages.S3 = StorageStats{ Total: uint(lenCandidates), Pruned: uint(len(matches)), } doPrune(len(matches), lenCandidates, "remote backup(s)", func() error { objectsCh := make(chan minio.ObjectInfo) go func() { for _, match := range matches { objectsCh <- match } close(objectsCh) }() errChan := s.minioClient.RemoveObjects(context.Background(), s.c.AwsS3BucketName, objectsCh, minio.RemoveObjectsOptions{}) var removeErrors []error for result := range errChan { if result.Err != nil { removeErrors = append(removeErrors, result.Err) } } if len(removeErrors) != 0 { return join(removeErrors...) } return nil }) } if s.webdavClient != nil { candidates, err := s.webdavClient.ReadDir(s.c.WebdavPath) if err != nil { return fmt.Errorf("pruneBackups: error looking up candidates from remote storage: %w", err) } var matches []fs.FileInfo var lenCandidates int for _, candidate := range candidates { if !strings.HasPrefix(candidate.Name(), s.c.BackupPruningPrefix) { continue } lenCandidates++ if candidate.ModTime().Before(deadline) { matches = append(matches, candidate) } } s.stats.Storages.WebDAV = StorageStats{ Total: uint(lenCandidates), Pruned: uint(len(matches)), } doPrune(len(matches), lenCandidates, "WebDAV backup(s)", func() error { for _, match := range matches { if err := s.webdavClient.Remove(filepath.Join(s.c.WebdavPath, match.Name())); err != nil { return fmt.Errorf("pruneBackups: error removing file from WebDAV storage: %w", err) } } return nil }) } if s.sshClient != nil { candidates, err := s.sftpClient.ReadDir(s.c.SSHRemotePath) if err != nil { return fmt.Errorf("pruneBackups: error reading directory from SSH storage: %w", err) } var matches []string for _, candidate := range candidates { if !strings.HasPrefix(candidate.Name(), s.c.BackupPruningPrefix) { continue } if candidate.ModTime().Before(deadline) { matches = append(matches, candidate.Name()) } } s.stats.Storages.SSH = StorageStats{ Total: uint(len(candidates)), Pruned: uint(len(matches)), } doPrune(len(matches), len(candidates), "SSH backup(s)", func() error { for _, match := range matches { if err := s.sftpClient.Remove(filepath.Join(s.c.SSHRemotePath, match)); err != nil { return fmt.Errorf("pruneBackups: error removing file from SSH storage: %w", err) } } return nil }) } if _, err := os.Stat(s.c.BackupArchive); !os.IsNotExist(err) { globPattern := path.Join( s.c.BackupArchive, fmt.Sprintf("%s*", s.c.BackupPruningPrefix), ) globMatches, err := filepath.Glob(globPattern) if err != nil { return fmt.Errorf( "pruneBackups: error looking up matching files using pattern %s: %w", globPattern, err, ) } var candidates []string for _, candidate := range globMatches { fi, err := os.Lstat(candidate) if err != nil { return fmt.Errorf( "pruneBackups: error calling Lstat on file %s: %w", candidate, err, ) } if fi.Mode()&os.ModeSymlink != os.ModeSymlink { candidates = append(candidates, candidate) } } var matches []string for _, candidate := range candidates { fi, err := os.Stat(candidate) if err != nil { return fmt.Errorf( "pruneBackups: error calling stat on file %s: %w", candidate, err, ) } if fi.ModTime().Before(deadline) { matches = append(matches, candidate) } } s.stats.Storages.Local = StorageStats{ Total: uint(len(candidates)), Pruned: uint(len(matches)), } doPrune(len(matches), len(candidates), "local backup(s)", func() error { var removeErrors []error for _, match := range matches { if err := os.Remove(match); err != nil { removeErrors = append(removeErrors, err) } } if len(removeErrors) != 0 { return fmt.Errorf( "pruneBackups: %d error(s) deleting local files, starting with: %w", len(removeErrors), join(removeErrors...), ) } return nil }) } return nil } // must exits the script run prematurely in case the given error // is non-nil. func (s *script) must(err error) { if err != nil { s.logger.Errorf("Fatal error running backup: %s", err) panic(err) } }