package daemon import ( "errors" "fmt" "io/ioutil" "os" "path/filepath" "strings" "sync" "github.com/docker/docker/api/types" "github.com/docker/docker/pkg/chrootarchive" "github.com/docker/docker/pkg/system" "github.com/docker/docker/volume" "github.com/docker/docker/volume/drivers" ) var ( // ErrVolumeReadonly is used to signal an error when trying to copy data into // a volume mount that is not writable. ErrVolumeReadonly = errors.New("mounted volume is marked read-only") // ErrVolumeInUse is a typed error returned when trying to remove a volume that is currently in use by a container ErrVolumeInUse = errors.New("volume is in use") // ErrNoSuchVolume is a typed error returned if the requested volume doesn't exist in the volume store ErrNoSuchVolume = errors.New("no such volume") ) // mountPoint is the intersection point between a volume and a container. It // specifies which volume is to be used and where inside a container it should // be mounted. type mountPoint struct { Name string Destination string Driver string RW bool Volume volume.Volume `json:"-"` Source string Mode string `json:"Relabel"` // Originally field was `Relabel`" } // Setup sets up a mount point by either mounting the volume if it is // configured, or creating the source directory if supplied. func (m *mountPoint) Setup() (string, error) { if m.Volume != nil { return m.Volume.Mount() } if len(m.Source) > 0 { if _, err := os.Stat(m.Source); err != nil { if !os.IsNotExist(err) { return "", err } if err := system.MkdirAll(m.Source, 0755); err != nil { return "", err } } return m.Source, nil } return "", fmt.Errorf("Unable to setup mount point, neither source nor volume defined") } // hasResource checks whether the given absolute path for a container is in // this mount point. If the relative path starts with `../` then the resource // is outside of this mount point, but we can't simply check for this prefix // because it misses `..` which is also outside of the mount, so check both. func (m *mountPoint) hasResource(absolutePath string) bool { relPath, err := filepath.Rel(m.Destination, absolutePath) return err == nil && relPath != ".." && !strings.HasPrefix(relPath, fmt.Sprintf("..%c", filepath.Separator)) } // Path returns the path of a volume in a mount point. func (m *mountPoint) Path() string { if m.Volume != nil { return m.Volume.Path() } return m.Source } // copyExistingContents copies from the source to the destination and // ensures the ownership is appropriately set. func copyExistingContents(source, destination string) error { volList, err := ioutil.ReadDir(source) if err != nil { return err } if len(volList) > 0 { srcList, err := ioutil.ReadDir(destination) if err != nil { return err } if len(srcList) == 0 { // If the source volume is empty copy files from the root into the volume if err := chrootarchive.CopyWithTar(source, destination); err != nil { return err } } } return copyOwnership(source, destination) } func newVolumeStore(vols []volume.Volume) *volumeStore { store := &volumeStore{ vols: make(map[string]*volumeCounter), } for _, v := range vols { store.vols[v.Name()] = &volumeCounter{v, 0} } return store } // volumeStore is a struct that stores the list of volumes available and keeps track of their usage counts type volumeStore struct { vols map[string]*volumeCounter mu sync.Mutex } type volumeCounter struct { volume.Volume count int } func getVolumeDriver(name string) (volume.Driver, error) { if name == "" { name = volume.DefaultDriverName } return volumedrivers.Lookup(name) } // Create tries to find an existing volume with the given name or create a new one from the passed in driver func (s *volumeStore) Create(name, driverName string, opts map[string]string) (volume.Volume, error) { s.mu.Lock() defer s.mu.Unlock() if vc, exists := s.vols[name]; exists { return vc.Volume, nil } vd, err := getVolumeDriver(driverName) if err != nil { return nil, err } v, err := vd.Create(name, opts) if err != nil { return nil, err } s.vols[v.Name()] = &volumeCounter{v, 0} return v, nil } // Get looks if a volume with the given name exists and returns it if so func (s *volumeStore) Get(name string) (volume.Volume, error) { s.mu.Lock() defer s.mu.Unlock() vc, exists := s.vols[name] if !exists { return nil, ErrNoSuchVolume } return vc.Volume, nil } // Remove removes the requested volume. A volume is not removed if the usage count is > 0 func (s *volumeStore) Remove(v volume.Volume) error { s.mu.Lock() defer s.mu.Unlock() name := v.Name() vc, exists := s.vols[name] if !exists { return ErrNoSuchVolume } if vc.count != 0 { return ErrVolumeInUse } vd, err := getVolumeDriver(vc.DriverName()) if err != nil { return err } if err := vd.Remove(vc.Volume); err != nil { return err } delete(s.vols, name) return nil } // Increment increments the usage count of the passed in volume by 1 func (s *volumeStore) Increment(v volume.Volume) { s.mu.Lock() defer s.mu.Unlock() vc, exists := s.vols[v.Name()] if !exists { s.vols[v.Name()] = &volumeCounter{v, 1} return } vc.count++ return } // Decrement decrements the usage count of the passed in volume by 1 func (s *volumeStore) Decrement(v volume.Volume) { s.mu.Lock() defer s.mu.Unlock() vc, exists := s.vols[v.Name()] if !exists { return } vc.count-- return } // Count returns the usage count of the passed in volume func (s *volumeStore) Count(v volume.Volume) int { vc, exists := s.vols[v.Name()] if !exists { return 0 } return vc.count } // List returns all the available volumes func (s *volumeStore) List() []volume.Volume { var ls []volume.Volume for _, vc := range s.vols { ls = append(ls, vc.Volume) } return ls } // volumeToAPIType converts a volume.Volume to the type used by the remote API func volumeToAPIType(v volume.Volume) *types.Volume { return &types.Volume{ Name: v.Name(), Driver: v.DriverName(), Mountpoint: v.Path(), } }