//go:build linux || freebsd package zfs // import "github.com/docker/docker/daemon/graphdriver/zfs" import ( "context" "fmt" "os" "os/exec" "path" "strconv" "strings" "sync" "time" "github.com/containerd/log" "github.com/docker/docker/daemon/graphdriver" "github.com/docker/docker/daemon/internal/mountref" zfs "github.com/mistifyio/go-zfs/v3" "github.com/moby/locker" "github.com/moby/sys/mount" "github.com/moby/sys/mountinfo" "github.com/moby/sys/user" "github.com/opencontainers/selinux/go-selinux/label" "github.com/pkg/errors" "golang.org/x/sys/unix" ) type zfsOptions struct { fsName string mountPath string } func init() { graphdriver.Register("zfs", Init) } // Logger returns a zfs logger implementation. type Logger struct{} // Log wraps log message from ZFS driver with a prefix '[zfs]'. func (*Logger) Log(cmd []string) { log.G(context.TODO()).WithField("storage-driver", "zfs").Debugf("[zfs] %s", strings.Join(cmd, " ")) } // Init returns a new ZFS driver. // It takes base mount path and an array of options which are represented as key value pairs. // Each option is in the for key=value. 'zfs.fsname' is expected to be a valid key in the options. func Init(base string, opt []string, idMap user.IdentityMapping) (graphdriver.Driver, error) { var err error logger := log.G(context.TODO()).WithField("storage-driver", "zfs") if _, err := exec.LookPath("zfs"); err != nil { logger.Debugf("zfs command is not available: %v", err) return nil, graphdriver.ErrPrerequisites } file, err := os.OpenFile("/dev/zfs", os.O_RDWR, 0o600) if err != nil { logger.Debugf("cannot open /dev/zfs: %v", err) return nil, graphdriver.ErrPrerequisites } defer file.Close() options, err := parseOptions(opt) if err != nil { return nil, err } options.mountPath = base rootdir := path.Dir(base) if options.fsName == "" { err = checkRootdirFs(rootdir) if err != nil { return nil, err } } if options.fsName == "" { options.fsName, err = lookupZfsDataset(rootdir) if err != nil { return nil, err } } zfs.SetLogger(new(Logger)) filesystems, err := zfs.Filesystems(options.fsName) if err != nil { return nil, fmt.Errorf("Cannot find root filesystem %s: %v", options.fsName, err) } filesystemsCache := make(map[string]bool, len(filesystems)) var rootDataset *zfs.Dataset for _, fs := range filesystems { if fs.Name == options.fsName { rootDataset = fs } filesystemsCache[fs.Name] = true } if rootDataset == nil { return nil, fmt.Errorf("BUG: zfs get all -t filesystem -rHp '%s' should contain '%s'", options.fsName, options.fsName) } _, gid := idMap.RootPair() if err := user.MkdirAllAndChown(base, 0o710, os.Getuid(), gid); err != nil { return nil, fmt.Errorf("Failed to create '%s': %v", base, err) } d := &Driver{ dataset: rootDataset, options: options, filesystemsCache: filesystemsCache, idMap: idMap, ctr: mountref.NewCounter(isMounted), locker: locker.New(), } return graphdriver.NewNaiveDiffDriver(d, idMap), nil } // isMounted parses /proc/mountinfo to check whether the specified path // is mounted. func isMounted(path string) bool { m, _ := mountinfo.Mounted(path) return m } func parseOptions(opt []string) (zfsOptions, error) { var options zfsOptions options.fsName = "" for _, option := range opt { key, val, err := graphdriver.ParseStorageOptKeyValue(option) if err != nil { return options, err } key = strings.ToLower(key) switch key { case "zfs.fsname": options.fsName = val default: return options, fmt.Errorf("Unknown option %s", key) } } return options, nil } func lookupZfsDataset(rootdir string) (string, error) { var stat unix.Stat_t if err := unix.Stat(rootdir, &stat); err != nil { return "", fmt.Errorf("Failed to access '%s': %s", rootdir, err) } wantedDev := stat.Dev mounts, err := mountinfo.GetMounts(nil) if err != nil { return "", err } for _, m := range mounts { if err := unix.Stat(m.Mountpoint, &stat); err != nil { log.G(context.TODO()).WithField("storage-driver", "zfs").Debugf("failed to stat '%s' while scanning for zfs mount: %v", m.Mountpoint, err) continue // may fail on fuse file systems } if stat.Dev == wantedDev && m.FSType == "zfs" { return m.Source, nil } } return "", fmt.Errorf("Failed to find zfs dataset mounted on '%s' in /proc/mounts", rootdir) } // Driver holds information about the driver, such as zfs dataset, options and cache. type Driver struct { dataset *zfs.Dataset options zfsOptions sync.Mutex // protects filesystem cache against concurrent access filesystemsCache map[string]bool idMap user.IdentityMapping ctr *mountref.Counter locker *locker.Locker } func (d *Driver) String() string { return "zfs" } // Cleanup is called on daemon shutdown, it is a no-op for ZFS. // TODO(@cpuguy83): Walk layer tree and check mounts? func (d *Driver) Cleanup() error { return nil } // Status returns information about the ZFS filesystem. It returns a two dimensional array of information // such as pool name, dataset name, disk usage, parent quota and compression used. // Currently it return 'Zpool', 'Zpool Health', 'Parent Dataset', 'Space Used By Parent', // 'Space Available', 'Parent Quota' and 'Compression'. func (d *Driver) Status() [][2]string { parts := strings.Split(d.dataset.Name, "/") pool, err := zfs.GetZpool(parts[0]) var poolName, poolHealth string if err == nil { poolName = pool.Name poolHealth = pool.Health } else { poolName = fmt.Sprintf("error while getting pool information %v", err) poolHealth = "not available" } quota := "no" if d.dataset.Quota != 0 { quota = strconv.FormatUint(d.dataset.Quota, 10) } return [][2]string{ {"Zpool", poolName}, {"Zpool Health", poolHealth}, {"Parent Dataset", d.dataset.Name}, {"Space Used By Parent", strconv.FormatUint(d.dataset.Used, 10)}, {"Space Available", strconv.FormatUint(d.dataset.Avail, 10)}, {"Parent Quota", quota}, {"Compression", d.dataset.Compression}, } } // GetMetadata returns image/container metadata related to graph driver func (d *Driver) GetMetadata(id string) (map[string]string, error) { return map[string]string{ "Mountpoint": d.mountPath(id), "Dataset": d.zfsPath(id), }, nil } func (d *Driver) cloneFilesystem(name, parentName string) error { snapshotName := strconv.Itoa(time.Now().Nanosecond()) parentDataset := zfs.Dataset{Name: parentName} snapshot, err := parentDataset.Snapshot(snapshotName /*recursive */, false) if err != nil { return err } _, err = snapshot.Clone(name, map[string]string{"mountpoint": "legacy"}) if err == nil { d.Lock() d.filesystemsCache[name] = true d.Unlock() } if err != nil { snapshot.Destroy(zfs.DestroyDeferDeletion) return err } return snapshot.Destroy(zfs.DestroyDeferDeletion) } func (d *Driver) zfsPath(id string) string { return d.options.fsName + "/" + id } func (d *Driver) mountPath(id string) string { return path.Join(d.options.mountPath, "graph", getMountpoint(id)) } // CreateReadWrite creates a layer that is writable for use as a container // file system. func (d *Driver) CreateReadWrite(id, parent string, opts *graphdriver.CreateOpts) error { return d.Create(id, parent, opts) } // Create prepares the dataset and filesystem for the ZFS driver for the given id under the parent. func (d *Driver) Create(id, parent string, opts *graphdriver.CreateOpts) error { var storageOpt map[string]string if opts != nil { storageOpt = opts.StorageOpt } err := d.create(id, parent, storageOpt) if err == nil { return nil } if zfsError, ok := err.(*zfs.Error); ok { if !strings.HasSuffix(zfsError.Stderr, "dataset already exists\n") { return err } // aborted build -> cleanup } else { return err } dataset := zfs.Dataset{Name: d.zfsPath(id)} if err := dataset.Destroy(zfs.DestroyRecursiveClones); err != nil { return err } // retry return d.create(id, parent, storageOpt) } func (d *Driver) create(id, parent string, storageOpt map[string]string) error { name := d.zfsPath(id) quota, err := parseStorageOpt(storageOpt) if err != nil { return err } if parent == "" { mountoptions := map[string]string{"mountpoint": "legacy"} fs, err := zfs.CreateFilesystem(name, mountoptions) if err == nil { err = setQuota(name, quota) if err == nil { d.Lock() d.filesystemsCache[fs.Name] = true d.Unlock() } } return err } err = d.cloneFilesystem(name, d.zfsPath(parent)) if err == nil { err = setQuota(name, quota) } return err } func parseStorageOpt(storageOpt map[string]string) (string, error) { // Read size to change the disk quota per container for k, v := range storageOpt { key := strings.ToLower(k) switch key { case "size": return v, nil default: return "0", fmt.Errorf("Unknown option %s", key) } } return "0", nil } func setQuota(name string, quota string) error { if quota == "0" { return nil } fs, err := zfs.GetDataset(name) if err != nil { return err } return fs.SetProperty("quota", quota) } // Remove deletes the dataset, filesystem and the cache for the given id. func (d *Driver) Remove(id string) error { d.locker.Lock(id) defer d.locker.Unlock(id) name := d.zfsPath(id) dataset := zfs.Dataset{Name: name} err := dataset.Destroy(zfs.DestroyRecursive) if err != nil { var errZfs *zfs.Error isZfsError := errors.As(err, &errZfs) if isZfsError && strings.HasSuffix(strings.TrimSpace(errZfs.Stderr), "dataset does not exist") { log.G(context.TODO()).WithFields(log.Fields{ "error": err, "storage-driver": "zfs", }).Warnf("Tried to destroy inexistent dataset %q", name) err = nil } } if err == nil { d.Lock() delete(d.filesystemsCache, name) d.Unlock() } return err } // Get returns the mountpoint for the given id after creating the target directories if necessary. func (d *Driver) Get(id, mountLabel string) (_ string, retErr error) { d.locker.Lock(id) defer d.locker.Unlock(id) mountpoint := d.mountPath(id) if count := d.ctr.Increment(mountpoint); count > 1 { return mountpoint, nil } defer func() { if retErr != nil { if c := d.ctr.Decrement(mountpoint); c <= 0 { if mntErr := unix.Unmount(mountpoint, 0); mntErr != nil { log.G(context.TODO()).WithField("storage-driver", "zfs").Errorf("Error unmounting %v: %v", mountpoint, mntErr) } if rmErr := unix.Rmdir(mountpoint); rmErr != nil && !os.IsNotExist(rmErr) { log.G(context.TODO()).WithField("storage-driver", "zfs").Debugf("Failed to remove %s: %v", id, rmErr) } } } }() filesystem := d.zfsPath(id) options := label.FormatMountLabel("", mountLabel) log.G(context.TODO()).WithField("storage-driver", "zfs").Debugf(`mount("%s", "%s", "%s")`, filesystem, mountpoint, options) uid, gid := d.idMap.RootPair() // Create the target directories if they don't exist if err := user.MkdirAllAndChown(mountpoint, 0o755, uid, gid); err != nil { return "", err } if err := mount.Mount(filesystem, mountpoint, "zfs", options); err != nil { return "", errors.Wrap(err, "error creating zfs mount") } // this could be our first mount after creation of the filesystem, and the root dir may still have root // permissions instead of the remapped root uid:gid (if user namespaces are enabled): if err := os.Chown(mountpoint, uid, gid); err != nil { return "", fmt.Errorf("error modifying zfs mountpoint (%s) directory ownership: %v", mountpoint, err) } return mountpoint, nil } // Put removes the existing mountpoint for the given id if it exists. func (d *Driver) Put(id string) error { d.locker.Lock(id) defer d.locker.Unlock(id) mountpoint := d.mountPath(id) if count := d.ctr.Decrement(mountpoint); count > 0 { return nil } logger := log.G(context.TODO()).WithField("storage-driver", "zfs") logger.Debugf(`unmount("%s")`, mountpoint) if err := unix.Unmount(mountpoint, unix.MNT_DETACH); err != nil { logger.Warnf("Failed to unmount %s mount %s: %v", id, mountpoint, err) } if err := unix.Rmdir(mountpoint); err != nil && !os.IsNotExist(err) { logger.Debugf("Failed to remove %s mount point %s: %v", id, mountpoint, err) } return nil } // Exists checks to see if the cache entry exists for the given id. func (d *Driver) Exists(id string) bool { d.Lock() defer d.Unlock() return d.filesystemsCache[d.zfsPath(id)] }