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moby--moby/volume/local/local.go

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// Package local provides the default implementation for volumes. It
// is used to mount data volume containers and directories local to
// the host server.
package local // import "github.com/docker/docker/volume/local"
import (
"encoding/json"
"fmt"
"io/ioutil"
"os"
"path/filepath"
"reflect"
"strings"
"sync"
"github.com/docker/docker/daemon/names"
"github.com/docker/docker/errdefs"
"github.com/docker/docker/pkg/idtools"
"github.com/docker/docker/quota"
"github.com/docker/docker/volume"
"github.com/pkg/errors"
"github.com/sirupsen/logrus"
)
// VolumeDataPathName is the name of the directory where the volume data is stored.
// It uses a very distinctive name to avoid collisions migrating data between
// Docker versions.
const (
VolumeDataPathName = "_data"
volumesPathName = "volumes"
)
var (
// ErrNotFound is the typed error returned when the requested volume name can't be found
Remove static errors from errors package. Moving all strings to the errors package wasn't a good idea after all. Our custom implementation of Go errors predates everything that's nice and good about working with errors in Go. Take as an example what we have to do to get an error message: ```go func GetErrorMessage(err error) string { switch err.(type) { case errcode.Error: e, _ := err.(errcode.Error) return e.Message case errcode.ErrorCode: ec, _ := err.(errcode.ErrorCode) return ec.Message() default: return err.Error() } } ``` This goes against every good practice for Go development. The language already provides a simple, intuitive and standard way to get error messages, that is calling the `Error()` method from an error. Reinventing the error interface is a mistake. Our custom implementation also makes very hard to reason about errors, another nice thing about Go. I found several (>10) error declarations that we don't use anywhere. This is a clear sign about how little we know about the errors we return. I also found several error usages where the number of arguments was different than the parameters declared in the error, another clear example of how difficult is to reason about errors. Moreover, our custom implementation didn't really make easier for people to return custom HTTP status code depending on the errors. Again, it's hard to reason about when to set custom codes and how. Take an example what we have to do to extract the message and status code from an error before returning a response from the API: ```go switch err.(type) { case errcode.ErrorCode: daError, _ := err.(errcode.ErrorCode) statusCode = daError.Descriptor().HTTPStatusCode errMsg = daError.Message() case errcode.Error: // For reference, if you're looking for a particular error // then you can do something like : // import ( derr "github.com/docker/docker/errors" ) // if daError.ErrorCode() == derr.ErrorCodeNoSuchContainer { ... } daError, _ := err.(errcode.Error) statusCode = daError.ErrorCode().Descriptor().HTTPStatusCode errMsg = daError.Message default: // This part of will be removed once we've // converted everything over to use the errcode package // FIXME: this is brittle and should not be necessary. // If we need to differentiate between different possible error types, // we should create appropriate error types with clearly defined meaning errStr := strings.ToLower(err.Error()) for keyword, status := range map[string]int{ "not found": http.StatusNotFound, "no such": http.StatusNotFound, "bad parameter": http.StatusBadRequest, "conflict": http.StatusConflict, "impossible": http.StatusNotAcceptable, "wrong login/password": http.StatusUnauthorized, "hasn't been activated": http.StatusForbidden, } { if strings.Contains(errStr, keyword) { statusCode = status break } } } ``` You can notice two things in that code: 1. We have to explain how errors work, because our implementation goes against how easy to use Go errors are. 2. At no moment we arrived to remove that `switch` statement that was the original reason to use our custom implementation. This change removes all our status errors from the errors package and puts them back in their specific contexts. IT puts the messages back with their contexts. That way, we know right away when errors used and how to generate their messages. It uses custom interfaces to reason about errors. Errors that need to response with a custom status code MUST implementent this simple interface: ```go type errorWithStatus interface { HTTPErrorStatusCode() int } ``` This interface is very straightforward to implement. It also preserves Go errors real behavior, getting the message is as simple as using the `Error()` method. I included helper functions to generate errors that use custom status code in `errors/errors.go`. By doing this, we remove the hard dependency we have eeverywhere to our custom errors package. Yes, you can use it as a helper to generate error, but it's still very easy to generate errors without it. Please, read this fantastic blog post about errors in Go: http://dave.cheney.net/2014/12/24/inspecting-errors Signed-off-by: David Calavera <david.calavera@gmail.com>
2016-02-25 10:53:35 -05:00
ErrNotFound = fmt.Errorf("volume not found")
// volumeNameRegex ensures the name assigned for the volume is valid.
// This name is used to create the bind directory, so we need to avoid characters that
// would make the path to escape the root directory.
volumeNameRegex = names.RestrictedNamePattern
)
type activeMount struct {
count uint64
mounted bool
}
// New instantiates a new Root instance with the provided scope. Scope
// is the base path that the Root instance uses to store its
// volumes. The base path is created here if it does not exist.
func New(scope string, rootIdentity idtools.Identity) (*Root, error) {
rootDirectory := filepath.Join(scope, volumesPathName)
if err := idtools.MkdirAllAndChown(rootDirectory, 0701, idtools.CurrentIdentity()); err != nil {
return nil, err
}
r := &Root{
scope: scope,
path: rootDirectory,
volumes: make(map[string]*localVolume),
rootIdentity: rootIdentity,
}
dirs, err := ioutil.ReadDir(rootDirectory)
if err != nil {
return nil, err
}
if r.quotaCtl, err = quota.NewControl(rootDirectory); err != nil {
logrus.Debugf("No quota support for local volumes in %s: %v", rootDirectory, err)
}
for _, d := range dirs {
if !d.IsDir() {
continue
}
name := filepath.Base(d.Name())
v := &localVolume{
driverName: r.Name(),
name: name,
path: r.DataPath(name),
quotaCtl: r.quotaCtl,
}
r.volumes[name] = v
optsFilePath := filepath.Join(rootDirectory, name, "opts.json")
if b, err := ioutil.ReadFile(optsFilePath); err == nil {
opts := optsConfig{}
if err := json.Unmarshal(b, &opts); err != nil {
return nil, errors.Wrapf(err, "error while unmarshaling volume options for volume: %s", name)
}
// Make sure this isn't an empty optsConfig.
// This could be empty due to buggy behavior in older versions of Docker.
if !reflect.DeepEqual(opts, optsConfig{}) {
v.opts = &opts
}
// unmount anything that may still be mounted (for example, from an
// unclean shutdown). This is a no-op on windows
unmount(v.path)
}
}
return r, nil
}
// Root implements the Driver interface for the volume package and
// manages the creation/removal of volumes. It uses only standard vfs
// commands to create/remove dirs within its provided scope.
type Root struct {
m sync.Mutex
scope string
path string
quotaCtl *quota.Control
volumes map[string]*localVolume
rootIdentity idtools.Identity
}
// List lists all the volumes
func (r *Root) List() ([]volume.Volume, error) {
var ls []volume.Volume
r.m.Lock()
for _, v := range r.volumes {
ls = append(ls, v)
}
r.m.Unlock()
return ls, nil
}
// DataPath returns the constructed path of this volume.
func (r *Root) DataPath(volumeName string) string {
return filepath.Join(r.path, volumeName, VolumeDataPathName)
}
// Name returns the name of Root, defined in the volume package in the DefaultDriverName constant.
func (r *Root) Name() string {
return volume.DefaultDriverName
}
// Create creates a new volume.Volume with the provided name, creating
// the underlying directory tree required for this volume in the
// process.
func (r *Root) Create(name string, opts map[string]string) (volume.Volume, error) {
if err := r.validateName(name); err != nil {
return nil, err
}
r.m.Lock()
defer r.m.Unlock()
v, exists := r.volumes[name]
if exists {
return v, nil
}
path := r.DataPath(name)
volRoot := filepath.Dir(path)
// Root dir does not need to be accessed by the remapped root
if err := idtools.MkdirAllAndChown(volRoot, 0701, idtools.CurrentIdentity()); err != nil {
return nil, errors.Wrapf(errdefs.System(err), "error while creating volume root path '%s'", volRoot)
}
// Remapped root does need access to the data path
if err := idtools.MkdirAllAndChown(path, 0755, r.rootIdentity); err != nil {
return nil, errors.Wrapf(errdefs.System(err), "error while creating volume data path '%s'", path)
}
var err error
defer func() {
if err != nil {
os.RemoveAll(filepath.Dir(path))
}
}()
v = &localVolume{
driverName: r.Name(),
name: name,
path: path,
quotaCtl: r.quotaCtl,
}
if len(opts) != 0 {
if err = setOpts(v, opts); err != nil {
return nil, err
}
var b []byte
b, err = json.Marshal(v.opts)
if err != nil {
return nil, err
}
if err = ioutil.WriteFile(filepath.Join(filepath.Dir(path), "opts.json"), b, 0600); err != nil {
return nil, errdefs.System(errors.Wrap(err, "error while persisting volume options"))
}
}
r.volumes[name] = v
return v, nil
}
// Remove removes the specified volume and all underlying data. If the
// given volume does not belong to this driver and an error is
// returned. The volume is reference counted, if all references are
// not released then the volume is not removed.
func (r *Root) Remove(v volume.Volume) error {
r.m.Lock()
defer r.m.Unlock()
lv, ok := v.(*localVolume)
if !ok {
return errdefs.System(errors.Errorf("unknown volume type %T", v))
}
if lv.active.count > 0 {
return errdefs.System(errors.Errorf("volume has active mounts"))
}
if err := lv.unmount(); err != nil {
return err
}
realPath, err := filepath.EvalSymlinks(lv.path)
if err != nil {
if !os.IsNotExist(err) {
return err
}
realPath = filepath.Dir(lv.path)
}
if !r.scopedPath(realPath) {
return errdefs.System(errors.Errorf("Unable to remove a directory outside of the local volume root %s: %s", r.scope, realPath))
}
if err := removePath(realPath); err != nil {
return err
}
delete(r.volumes, lv.name)
return removePath(filepath.Dir(lv.path))
}
func removePath(path string) error {
if err := os.RemoveAll(path); err != nil {
if os.IsNotExist(err) {
return nil
}
return errdefs.System(errors.Wrapf(err, "error removing volume path '%s'", path))
}
return nil
}
// Get looks up the volume for the given name and returns it if found
func (r *Root) Get(name string) (volume.Volume, error) {
r.m.Lock()
v, exists := r.volumes[name]
r.m.Unlock()
if !exists {
return nil, ErrNotFound
}
return v, nil
}
// Scope returns the local volume scope
func (r *Root) Scope() string {
return volume.LocalScope
}
func (r *Root) validateName(name string) error {
if len(name) == 1 {
return errdefs.InvalidParameter(errors.New("volume name is too short, names should be at least two alphanumeric characters"))
}
if !volumeNameRegex.MatchString(name) {
return errdefs.InvalidParameter(errors.Errorf("%q includes invalid characters for a local volume name, only %q are allowed. If you intended to pass a host directory, use absolute path", name, names.RestrictedNameChars))
}
return nil
}
// localVolume implements the Volume interface from the volume package and
// represents the volumes created by Root.
type localVolume struct {
m sync.Mutex
// unique name of the volume
name string
// path is the path on the host where the data lives
path string
// driverName is the name of the driver that created the volume.
driverName string
// opts is the parsed list of options used to create the volume
opts *optsConfig
// active refcounts the active mounts
active activeMount
// reference to Root instances quotaCtl
quotaCtl *quota.Control
}
// Name returns the name of the given Volume.
func (v *localVolume) Name() string {
return v.name
}
// DriverName returns the driver that created the given Volume.
func (v *localVolume) DriverName() string {
return v.driverName
}
// Path returns the data location.
func (v *localVolume) Path() string {
return v.path
}
// CachedPath returns the data location
func (v *localVolume) CachedPath() string {
return v.path
}
// Mount implements the localVolume interface, returning the data location.
// If there are any provided mount options, the resources will be mounted at this point
func (v *localVolume) Mount(id string) (string, error) {
v.m.Lock()
defer v.m.Unlock()
if v.needsMount() {
if !v.active.mounted {
if err := v.mount(); err != nil {
return "", errdefs.System(err)
}
v.active.mounted = true
}
v.active.count++
}
if err := v.postMount(); err != nil {
return "", err
}
return v.path, nil
}
// Unmount dereferences the id, and if it is the last reference will unmount any resources
// that were previously mounted.
func (v *localVolume) Unmount(id string) error {
v.m.Lock()
defer v.m.Unlock()
// Always decrement the count, even if the unmount fails
// Essentially docker doesn't care if this fails, it will send an error, but
// ultimately there's nothing that can be done. If we don't decrement the count
// this volume can never be removed until a daemon restart occurs.
if v.needsMount() {
v.active.count--
}
if v.active.count > 0 {
return nil
}
return v.unmount()
}
func (v *localVolume) Status() map[string]interface{} {
return nil
}
// getAddress finds out address/hostname from options
func getAddress(opts string) string {
optsList := strings.Split(opts, ",")
for i := 0; i < len(optsList); i++ {
if strings.HasPrefix(optsList[i], "addr=") {
addr := strings.SplitN(optsList[i], "=", 2)[1]
return addr
}
}
return ""
}