func (f *fakeSnappyBackend) RemoveSnapFiles(s snap.PlaceInfo, meter progress.Meter) error { meter.Notify("remove-snap-files") f.ops = append(f.ops, fakeOp{ op: "remove-snap-files", name: s.MountDir(), }) return nil }
func (f *fakeSnappyBackend) UnlinkSnap(info *snap.Info, meter progress.Meter) error { meter.Notify("unlink") f.ops = append(f.ops, fakeOp{ op: "unlink-snap", name: info.MountDir(), }) return nil }
// UpdateAll the installed snappy packages, it returns the updated Parts // if updates where available and an error and nil if any of the updates // fail to apply. func UpdateAll(flags InstallFlags, meter progress.Meter) ([]Part, error) { updates, err := ListUpdates() if err != nil { return nil, err } for _, part := range updates { meter.Notify(fmt.Sprintf("Updating %s (%s)", part.Name(), part.Version())) if err := doUpdate(part, flags, meter); err != nil { return nil, err } } return updates, nil }
func parseSIProgress(pb progress.Meter, stdout io.Reader) error { if pb == nil { pb = &progress.NullProgress{} } scanner := bufio.NewScanner(stdout) // s-i is funny, total changes during the runs total := 0.0 pb.Start("ubuntu-core", 100) for scanner.Scan() { if os.Getenv("SNAPPY_DEBUG") != "" { fmt.Println(scanner.Text()) } jsonStream := strings.NewReader(scanner.Text()) dec := json.NewDecoder(jsonStream) var genericData genericJSON if err := dec.Decode(&genericData); err != nil { // we ignore invalid json here and continue // the parsing if s-i-cli or ubuntu-core-upgrader // output something unexpected (like stray debug // output or whatnot) continue } switch { case genericData.Type == "spinner": pb.Spin(genericData.Message) case genericData.Type == "error": return fmt.Errorf("error from %s: %s", systemImageCli, genericData.Message) case genericData.Type == "progress": if total != genericData.Total { total = genericData.Total pb.SetTotal(total) } pb.Set(genericData.Now) } } // ugly: avoid Spin() artifacts pb.Notify("\nApply done") if err := scanner.Err(); err != nil { return err } return nil }
// Purge a part by a partSpec string, name[.origin][=version] func Purge(partSpec string, flags PurgeFlags, meter progress.Meter) error { var e error datadirs := DataDirs(partSpec) if len(datadirs) == 0 { return ErrPackageNotFound } purgeActive := flags&DoPurgeActive != 0 var active []*SnapPart // There can be a number of datadirs, such as for multiple versions, the // .snap being installed for multiple users, or the .snap using both the // snap data path as well as the user data path. They all need to be purged. for _, datadir := range datadirs { yamlPath := filepath.Join(dirs.SnapSnapsDir, datadir.QualifiedName(), datadir.Version, "meta", "package.yaml") part, err := NewInstalledSnapPart(yamlPath, datadir.Origin) if err != nil { // no such part installed continue } if part.IsActive() { if !purgeActive { return ErrStillActive } // We've been asked to purge a currently-active part. We don't want // to blow away data out from under an active part, so we'll // temporarily deactivate it here and keep track of it so we can // reactivate it later. err = part.deactivate(false, meter) if err == nil { active = append(active, part) } else { meter.Notify(fmt.Sprintf("Unable to deactivate %s: %s", part.Name(), err)) meter.Notify("Purge continues.") } } } // Conduct the purge. for _, datadir := range datadirs { if err := remove(datadir.QualifiedName(), datadir.Version); err != nil { e = err meter.Notify(fmt.Sprintf("unable to purge %s version %s: %s", datadir.QualifiedName(), datadir.Version, err.Error())) } } // Reactivate the temporarily deactivated parts. for _, part := range active { if err := part.activate(false, meter); err != nil { meter.Notify(fmt.Sprintf("Unable to reactivate %s: %s", part.Name(), err)) } } return e }
// UpdateAll the installed snappy packages, it returns the updated Parts // if updates where available and an error and nil if any of the updates // fail to apply. func UpdateAll(flags InstallFlags, meter progress.Meter) ([]Part, error) { mStore := NewUbuntuStoreSnapRepository() updates, err := mStore.Updates() if err != nil { return nil, err } for _, part := range updates { meter.Notify(fmt.Sprintf("Updating %s (%s)", part.Name(), part.Version())) if err := doUpdate(mStore, part, flags, meter); err != nil { return nil, err } } installedUpdates, err := convertToInstalledSnaps(updates) if err != nil { return nil, err } return installedUpdates, nil }
// UpdateAll the installed snappy packages, it returns the updated Snaps // if updates where available and an error and nil if any of the updates // fail to apply. func UpdateAll(flags InstallFlags, meter progress.Meter) ([]*Snap, error) { mStore := NewConfiguredUbuntuStoreSnapRepository() updates, err := snapUpdates(mStore) if err != nil { return nil, err } for _, snap := range updates { meter.Notify(fmt.Sprintf("Updating %s (%s)", snap.Name(), snap.Version)) if err := doUpdate(mStore, snap, flags, meter); err != nil { return nil, err } } installedUpdates, err := convertToInstalledSnaps(updates) if err != nil { return nil, err } return installedUpdates, nil }
func (f *fakeSnappyBackend) Download(name, channel string, checker func(*snap.Info) error, p progress.Meter, auther store.Authenticator) (*snap.Info, string, error) { p.Notify("download") var macaroon string if auther != nil { macaroon = auther.(*auth.MacaroonAuthenticator).Macaroon } f.ops = append(f.ops, fakeOp{ op: "download", macaroon: macaroon, name: name, channel: channel, }) p.SetTotal(float64(f.fakeTotalProgress)) p.Set(float64(f.fakeCurrentProgress)) revno := 11 if channel == "channel-for-7" { revno = 7 } info := &snap.Info{ SideInfo: snap.SideInfo{ OfficialName: strings.Split(name, ".")[0], Channel: channel, SnapID: "snapIDsnapidsnapidsnapidsnapidsn", Revision: revno, }, Version: name, } err := checker(info) if err != nil { return nil, "", err } return info, "downloaded-snap-path", nil }
// Install installs the snap func (s *SnapPart) Install(inter progress.Meter, flags InstallFlags) (name string, err error) { allowOEM := (flags & AllowOEM) != 0 inhibitHooks := (flags & InhibitHooks) != 0 if s.IsInstalled() { return "", ErrAlreadyInstalled } if err := s.CanInstall(allowOEM, inter); err != nil { return "", err } manifestData, err := s.deb.ControlMember("manifest") if err != nil { logger.Noticef("Snap inspect failed for %q: %v", s.Name(), err) return "", err } // the "oem" parts are special if s.Type() == pkg.TypeOem { if err := installOemHardwareUdevRules(s.m); err != nil { return "", err } } fullName := QualifiedName(s) dataDir := filepath.Join(dirs.SnapDataDir, fullName, s.Version()) var oldPart *SnapPart if currentActiveDir, _ := filepath.EvalSymlinks(filepath.Join(s.basedir, "..", "current")); currentActiveDir != "" { oldPart, err = NewInstalledSnapPart(filepath.Join(currentActiveDir, "meta", "package.yaml"), s.origin) if err != nil { return "", err } } if err := os.MkdirAll(s.basedir, 0755); err != nil { logger.Noticef("Can not create %q: %v", s.basedir, err) return "", err } // if anything goes wrong here we cleanup defer func() { if err != nil { if e := os.RemoveAll(s.basedir); e != nil && !os.IsNotExist(e) { logger.Noticef("Failed to remove %q: %v", s.basedir, e) } } }() // we need to call the external helper so that we can reliable drop // privs if err := s.deb.UnpackWithDropPrivs(s.basedir, dirs.GlobalRootDir); err != nil { return "", err } // legacy, the hooks (e.g. apparmor) need this. Once we converted // all hooks this can go away clickMetaDir := filepath.Join(s.basedir, ".click", "info") if err := os.MkdirAll(clickMetaDir, 0755); err != nil { return "", err } if err := writeCompatManifestJSON(clickMetaDir, manifestData, s.origin); err != nil { return "", err } // write the hashes now if err := s.deb.ExtractHashes(filepath.Join(s.basedir, "meta")); err != nil { return "", err } // deal with the data: // // if there was a previous version, stop it // from being active so that it stops running and can no longer be // started then copy the data // // otherwise just create a empty data dir if oldPart != nil { // we need to stop making it active err = oldPart.deactivate(inhibitHooks, inter) defer func() { if err != nil { if cerr := oldPart.activate(inhibitHooks, inter); cerr != nil { logger.Noticef("Setting old version back to active failed: %v", cerr) } } }() if err != nil { return "", err } err = copySnapData(fullName, oldPart.Version(), s.Version()) } else { err = os.MkdirAll(dataDir, 0755) } defer func() { if err != nil { if cerr := removeSnapData(fullName, s.Version()); cerr != nil { logger.Noticef("When cleaning up data for %s %s: %v", s.Name(), s.Version(), cerr) } } }() if err != nil { return "", err } // and finally make active err = s.activate(inhibitHooks, inter) defer func() { if err != nil && oldPart != nil { if cerr := oldPart.activate(inhibitHooks, inter); cerr != nil { logger.Noticef("When setting old %s version back to active: %v", s.Name(), cerr) } } }() if err != nil { return "", err } // oh, one more thing: refresh the security bits if !inhibitHooks { deps, err := s.Dependents() if err != nil { return "", err } sysd := systemd.New(dirs.GlobalRootDir, inter) stopped := make(map[string]time.Duration) defer func() { if err != nil { for serviceName := range stopped { if e := sysd.Start(serviceName); e != nil { inter.Notify(fmt.Sprintf("unable to restart %s with the old %s: %s", serviceName, s.Name(), e)) } } } }() for _, dep := range deps { if !dep.IsActive() { continue } for _, svc := range dep.ServiceYamls() { serviceName := filepath.Base(generateServiceFileName(dep.m, svc)) timeout := time.Duration(svc.StopTimeout) if err = sysd.Stop(serviceName, timeout); err != nil { inter.Notify(fmt.Sprintf("unable to stop %s; aborting install: %s", serviceName, err)) return "", err } stopped[serviceName] = timeout } } if err := s.RefreshDependentsSecurity(oldPart, inter); err != nil { return "", err } started := make(map[string]time.Duration) defer func() { if err != nil { for serviceName, timeout := range started { if e := sysd.Stop(serviceName, timeout); e != nil { inter.Notify(fmt.Sprintf("unable to stop %s with the old %s: %s", serviceName, s.Name(), e)) } } } }() for serviceName, timeout := range stopped { if err = sysd.Start(serviceName); err != nil { inter.Notify(fmt.Sprintf("unable to restart %s; aborting install: %s", serviceName, err)) return "", err } started[serviceName] = timeout } } return s.Name(), nil }
// Install installs the snap func (s *SystemImagePart) Install(pb progress.Meter, flags InstallFlags) (name string, err error) { if provisioning.IsSideLoaded(bootloaderDir()) { return "", ErrSideLoaded } if pb != nil { // ensure the progress finishes when we are done defer func() { pb.Finished() }() } // Ensure there is always a kernel + initrd to boot with, even // if the update does not provide new versions. if s.needsBootAssetSync() { if pb != nil { pb.Notify("Syncing boot files") } err = s.partition.SyncBootloaderFiles(bootAssetFilePaths()) if err != nil { return "", err } } // find out what config file to use, the other partition may be // empty so we need to fallback to the current one if it is configFile := systemImageClientConfig err = s.partition.RunWithOther(partition.RO, func(otherRoot string) (err error) { // XXX: Note that systemImageDownloadUpdate() requires // the s-i _client_ config file whereas otherIsEmpty() // checks the s-i _channel_ config file. otherConfigFile := filepath.Join(dirs.GlobalRootDir, otherRoot, systemImageClientConfig) if !otherIsEmpty(otherRoot) && helpers.FileExists(otherConfigFile) { configFile = otherConfigFile } // NOTE: we need to pass the config dir here configDir := filepath.Dir(configFile) return systemImageDownloadUpdate(configDir, pb) }) if err != nil { return "", err } // Check that the final system state is as expected. if err = s.verifyUpgradeWasApplied(); err != nil { return "", err } // XXX: ToggleNextBoot() calls handleAssets() (but not SyncBootloader // files :/) - handleAssets() may copy kernel/initramfs to the // sync mounted /boot/uboot, so its very slow, tell the user // at least that something is going on if pb != nil { pb.Notify("Updating boot files") } if err = s.partition.ToggleNextBoot(); err != nil { return "", err } return SystemImagePartName, nil }
// Install installs the snap func (s *SnapFile) Install(inter progress.Meter, flags InstallFlags) (name string, err error) { allowGadget := (flags & AllowGadget) != 0 inhibitHooks := (flags & InhibitHooks) != 0 // we do not Verify() the package here. This is done earlier in // NewSnapFile() to ensure that we do not mount/inspect // potentially dangerous snaps if err := s.CanInstall(allowGadget, inter); err != nil { return "", err } // the "gadget" parts are special if s.Type() == snap.TypeGadget { if err := installGadgetHardwareUdevRules(s.m); err != nil { return "", err } } fullName := QualifiedName(s) dataDir := filepath.Join(dirs.SnapDataDir, fullName, s.Version()) var oldPart *SnapPart if currentActiveDir, _ := filepath.EvalSymlinks(filepath.Join(s.instdir, "..", "current")); currentActiveDir != "" { oldPart, err = NewInstalledSnapPart(filepath.Join(currentActiveDir, "meta", "package.yaml"), s.origin) if err != nil { return "", err } } if err := os.MkdirAll(s.instdir, 0755); err != nil { logger.Noticef("Can not create %q: %v", s.instdir, err) return "", err } // if anything goes wrong here we cleanup defer func() { if err != nil { if e := os.RemoveAll(s.instdir); e != nil && !os.IsNotExist(e) { logger.Noticef("Failed to remove %q: %v", s.instdir, e) } } }() // we need to call the external helper so that we can reliable drop // privs if err := s.deb.Install(s.instdir); err != nil { return "", err } // generate the mount unit for the squashfs if err := s.m.addSquashfsMount(s.instdir, inhibitHooks, inter); err != nil { return "", err } // if anything goes wrong we ensure we stop defer func() { if err != nil { if e := s.m.removeSquashfsMount(s.instdir, inter); e != nil { logger.Noticef("Failed to remove mount unit for %s: %s", fullName, e) } } }() // FIXME: special handling is bad 'mkay if s.m.Type == snap.TypeKernel { if err := extractKernelAssets(s, inter, flags); err != nil { return "", fmt.Errorf("failed to install kernel %s", err) } } // deal with the data: // // if there was a previous version, stop it // from being active so that it stops running and can no longer be // started then copy the data // // otherwise just create a empty data dir if oldPart != nil { // we need to stop making it active err = oldPart.deactivate(inhibitHooks, inter) defer func() { if err != nil { if cerr := oldPart.activate(inhibitHooks, inter); cerr != nil { logger.Noticef("Setting old version back to active failed: %v", cerr) } } }() if err != nil { return "", err } err = copySnapData(fullName, oldPart.Version(), s.Version()) } else { err = os.MkdirAll(dataDir, 0755) } defer func() { if err != nil { if cerr := removeSnapData(fullName, s.Version()); cerr != nil { logger.Noticef("When cleaning up data for %s %s: %v", s.Name(), s.Version(), cerr) } } }() if err != nil { return "", err } if !inhibitHooks { newPart, err := newSnapPartFromYaml(filepath.Join(s.instdir, "meta", "package.yaml"), s.origin, s.m) if err != nil { return "", err } // and finally make active err = newPart.activate(inhibitHooks, inter) defer func() { if err != nil && oldPart != nil { if cerr := oldPart.activate(inhibitHooks, inter); cerr != nil { logger.Noticef("When setting old %s version back to active: %v", s.Name(), cerr) } } }() if err != nil { return "", err } // oh, one more thing: refresh the security bits deps, err := newPart.Dependents() if err != nil { return "", err } sysd := systemd.New(dirs.GlobalRootDir, inter) stopped := make(map[string]time.Duration) defer func() { if err != nil { for serviceName := range stopped { if e := sysd.Start(serviceName); e != nil { inter.Notify(fmt.Sprintf("unable to restart %s with the old %s: %s", serviceName, s.Name(), e)) } } } }() for _, dep := range deps { if !dep.IsActive() { continue } for _, svc := range dep.ServiceYamls() { serviceName := filepath.Base(generateServiceFileName(dep.m, svc)) timeout := time.Duration(svc.StopTimeout) if err = sysd.Stop(serviceName, timeout); err != nil { inter.Notify(fmt.Sprintf("unable to stop %s; aborting install: %s", serviceName, err)) return "", err } stopped[serviceName] = timeout } } if err := newPart.RefreshDependentsSecurity(oldPart, inter); err != nil { return "", err } started := make(map[string]time.Duration) defer func() { if err != nil { for serviceName, timeout := range started { if e := sysd.Stop(serviceName, timeout); e != nil { inter.Notify(fmt.Sprintf("unable to stop %s with the old %s: %s", serviceName, s.Name(), e)) } } } }() for serviceName, timeout := range stopped { if err = sysd.Start(serviceName); err != nil { inter.Notify(fmt.Sprintf("unable to restart %s; aborting install: %s", serviceName, err)) return "", err } started[serviceName] = timeout } } return s.Name(), nil }