volume/volume.go - third_party/github.com/moby/moby - Git at Google

 package volume

 import (
 	"fmt"
 	"os"
 	"strings"
 	"syscall"

 	"github.com/docker/docker/pkg/stringid"
 	"github.com/docker/docker/pkg/system"
 	"github.com/opencontainers/runc/libcontainer/label"
 )

 // DefaultDriverName is the driver name used for the driver
 // implemented in the local package.
 const DefaultDriverName = "local"

 // Scopes define if a volume has is cluster-wide (global) or local only.
 // Scopes are returned by the volume driver when it is queried for capabilities and then set on a volume
 const (
 	LocalScope  = "local"
 	GlobalScope = "global"
 )

 // Driver is for creating and removing volumes.
 type Driver interface {
 	// Name returns the name of the volume driver.
 	Name() string
 	// Create makes a new volume with the given id.
 	Create(name string, opts map[string]string) (Volume, error)
 	// Remove deletes the volume.
 	Remove(vol Volume) (err error)
 	// List lists all the volumes the driver has
 	List() ([]Volume, error)
 	// Get retrieves the volume with the requested name
 	Get(name string) (Volume, error)
 	// Scope returns the scope of the driver (e.g. `golbal` or `local`).
 	// Scope determines how the driver is handled at a cluster level
 	Scope() string
 }

 // Capability defines a set of capabilities that a driver is able to handle.
 type Capability struct {
 	// Scope is the scope of the driver, `global` or `local`
 	// A `global` scope indicates that the driver manages volumes across the cluster
 	// A `local` scope indicates that the driver only manages volumes resources local to the host
 	// Scope is declared by the driver
 	Scope string
 }

 // Volume is a place to store data. It is backed by a specific driver, and can be mounted.
 type Volume interface {
 	// Name returns the name of the volume
 	Name() string
 	// DriverName returns the name of the driver which owns this volume.
 	DriverName() string
 	// Path returns the absolute path to the volume.
 	Path() string
 	// Mount mounts the volume and returns the absolute path to
 	// where it can be consumed.
 	Mount(id string) (string, error)
 	// Unmount unmounts the volume when it is no longer in use.
 	Unmount(id string) error
 	// Status returns low-level status information about a volume
 	Status() map[string]interface{}
 }

 // LabeledVolume wraps a Volume with user-defined labels
 type LabeledVolume interface {
 	Labels() map[string]string
 	Volume
 }

 // ScopedVolume wraps a volume with a cluster scope (e.g., `local` or `global`)
 type ScopedVolume interface {
 	Scope() string
 	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 {
 	Source      string // Container host directory
 	Destination string // Inside the container
 	RW          bool   // True if writable
 	Name        string // Name set by user
 	Driver      string // Volume driver to use
 	Volume      Volume `json:"-"`

 	// Note Mode is not used on Windows
 	Mode string `json:"Relabel"` // Originally field was `Relabel`"

 	// Note Propagation is not used on Windows
 	Propagation string // Mount propagation string
 	Named       bool   // specifies if the mountpoint was specified by name

 	// Specifies if data should be copied from the container before the first mount
 	// Use a pointer here so we can tell if the user set this value explicitly
 	// This allows us to error out when the user explicitly enabled copy but we can't copy due to the volume being populated
 	CopyData bool `json:"-"`
 	// ID is the opaque ID used to pass to the volume driver.
 	// This should be set by calls to `Mount` and unset by calls to `Unmount`
 	ID string
 }

 // 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(mountLabel string) (string, error) {
 	if m.Volume != nil {
 		if m.ID == "" {
 			m.ID = stringid.GenerateNonCryptoID()
 		}
 		return m.Volume.Mount(m.ID)
 	}
 	if len(m.Source) == 0 {
 		return "", fmt.Errorf("Unable to setup mount point, neither source nor volume defined")
 	}
 	// system.MkdirAll() produces an error if m.Source exists and is a file (not a directory),
 	if err := system.MkdirAll(m.Source, 0755); err != nil {
 		if perr, ok := err.(*os.PathError); ok {
 			if perr.Err != syscall.ENOTDIR {
 				return "", err
 			}
 		}
 	}
 	if label.RelabelNeeded(m.Mode) {
 		if err := label.Relabel(m.Source, mountLabel, label.IsShared(m.Mode)); err != nil {
 			return "", err
 		}
 	}
 	return m.Source, nil
 }

 // 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
 }

 // Type returns the type of mount point
 func (m *MountPoint) Type() string {
 	if m.Name != "" {
 		return "volume"
 	}
 	if m.Source != "" {
 		return "bind"
 	}
 	return "ephemeral"
 }

 // ParseVolumesFrom ensures that the supplied volumes-from is valid.
 func ParseVolumesFrom(spec string) (string, string, error) {
 	if len(spec) == 0 {
 		return "", "", fmt.Errorf("malformed volumes-from specification: %s", spec)
 	}

 	specParts := strings.SplitN(spec, ":", 2)
 	id := specParts[0]
 	mode := "rw"

 	if len(specParts) == 2 {
 		mode = specParts[1]
 		if !ValidMountMode(mode) {
 			return "", "", errInvalidMode(mode)
 		}
 		// For now don't allow propagation properties while importing
 		// volumes from data container. These volumes will inherit
 		// the same propagation property as of the original volume
 		// in data container. This probably can be relaxed in future.
 		if HasPropagation(mode) {
 			return "", "", errInvalidMode(mode)
 		}
 		// Do not allow copy modes on volumes-from
 		if _, isSet := getCopyMode(mode); isSet {
 			return "", "", errInvalidMode(mode)
 		}
 	}
 	return id, mode, nil
 }

 func errInvalidMode(mode string) error {
 	return fmt.Errorf("invalid mode: %v", mode)
 }

 func errInvalidSpec(spec string) error {
 	return fmt.Errorf("Invalid volume specification: '%s'", spec)
 }
	package volume

	import (
	"fmt"
	"os"
	"strings"
	"syscall"

	"github.com/docker/docker/pkg/stringid"
	"github.com/docker/docker/pkg/system"
	"github.com/opencontainers/runc/libcontainer/label"
	)

	// DefaultDriverName is the driver name used for the driver
	// implemented in the local package.
	const DefaultDriverName = "local"

	// Scopes define if a volume has is cluster-wide (global) or local only.
	// Scopes are returned by the volume driver when it is queried for capabilities and then set on a volume
	const (
	LocalScope = "local"
	GlobalScope = "global"
	)

	// Driver is for creating and removing volumes.
	type Driver interface {
	// Name returns the name of the volume driver.
	Name() string
	// Create makes a new volume with the given id.
	Create(name string, opts map[string]string) (Volume, error)
	// Remove deletes the volume.
	Remove(vol Volume) (err error)
	// List lists all the volumes the driver has
	List() ([]Volume, error)
	// Get retrieves the volume with the requested name
	Get(name string) (Volume, error)
	// Scope returns the scope of the driver (e.g. `golbal` or `local`).
	// Scope determines how the driver is handled at a cluster level
	Scope() string
	}

	// Capability defines a set of capabilities that a driver is able to handle.
	type Capability struct {
	// Scope is the scope of the driver, `global` or `local`
	// A `global` scope indicates that the driver manages volumes across the cluster
	// A `local` scope indicates that the driver only manages volumes resources local to the host
	// Scope is declared by the driver
	Scope string
	}

	// Volume is a place to store data. It is backed by a specific driver, and can be mounted.
	type Volume interface {
	// Name returns the name of the volume
	Name() string
	// DriverName returns the name of the driver which owns this volume.
	DriverName() string
	// Path returns the absolute path to the volume.
	Path() string
	// Mount mounts the volume and returns the absolute path to
	// where it can be consumed.
	Mount(id string) (string, error)
	// Unmount unmounts the volume when it is no longer in use.
	Unmount(id string) error
	// Status returns low-level status information about a volume
	Status() map[string]interface{}
	}

	// LabeledVolume wraps a Volume with user-defined labels
	type LabeledVolume interface {
	Labels() map[string]string
	Volume
	}

	// ScopedVolume wraps a volume with a cluster scope (e.g., `local` or `global`)
	type ScopedVolume interface {
	Scope() string
	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 {
	Source string // Container host directory
	Destination string // Inside the container
	RW bool // True if writable
	Name string // Name set by user
	Driver string // Volume driver to use
	Volume Volume `json:"-"`

	// Note Mode is not used on Windows
	Mode string `json:"Relabel"` // Originally field was `Relabel`"

	// Note Propagation is not used on Windows
	Propagation string // Mount propagation string
	Named bool // specifies if the mountpoint was specified by name

	// Specifies if data should be copied from the container before the first mount
	// Use a pointer here so we can tell if the user set this value explicitly
	// This allows us to error out when the user explicitly enabled copy but we can't copy due to the volume being populated
	CopyData bool `json:"-"`
	// ID is the opaque ID used to pass to the volume driver.
	// This should be set by calls to `Mount` and unset by calls to `Unmount`
	ID string
	}

	// 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(mountLabel string) (string, error) {
	if m.Volume != nil {
	if m.ID == "" {
	m.ID = stringid.GenerateNonCryptoID()
	}
	return m.Volume.Mount(m.ID)
	}
	if len(m.Source) == 0 {
	return "", fmt.Errorf("Unable to setup mount point, neither source nor volume defined")
	}
	// system.MkdirAll() produces an error if m.Source exists and is a file (not a directory),
	if err := system.MkdirAll(m.Source, 0755); err != nil {
	if perr, ok := err.(*os.PathError); ok {
	if perr.Err != syscall.ENOTDIR {
	return "", err
	}
	}
	}
	if label.RelabelNeeded(m.Mode) {
	if err := label.Relabel(m.Source, mountLabel, label.IsShared(m.Mode)); err != nil {
	return "", err
	}
	}
	return m.Source, nil
	}

	// 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
	}

	// Type returns the type of mount point
	func (m *MountPoint) Type() string {
	if m.Name != "" {
	return "volume"
	}
	if m.Source != "" {
	return "bind"
	}
	return "ephemeral"
	}

	// ParseVolumesFrom ensures that the supplied volumes-from is valid.
	func ParseVolumesFrom(spec string) (string, string, error) {
	if len(spec) == 0 {
	return "", "", fmt.Errorf("malformed volumes-from specification: %s", spec)
	}

	specParts := strings.SplitN(spec, ":", 2)
	id := specParts[0]
	mode := "rw"

	if len(specParts) == 2 {
	mode = specParts[1]
	if !ValidMountMode(mode) {
	return "", "", errInvalidMode(mode)
	}
	// For now don't allow propagation properties while importing
	// volumes from data container. These volumes will inherit
	// the same propagation property as of the original volume
	// in data container. This probably can be relaxed in future.
	if HasPropagation(mode) {
	return "", "", errInvalidMode(mode)
	}
	// Do not allow copy modes on volumes-from
	if _, isSet := getCopyMode(mode); isSet {
	return "", "", errInvalidMode(mode)
	}
	}
	return id, mode, nil
	}

	func errInvalidMode(mode string) error {
	return fmt.Errorf("invalid mode: %v", mode)
	}

	func errInvalidSpec(spec string) error {
	return fmt.Errorf("Invalid volume specification: '%s'", spec)
	}