rclone/swift/swift.go

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// Package swift provides an interface to the Swift object storage system
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package swift
import (
"bufio"
"bytes"
"fmt"
"io"
"path"
"regexp"
"strconv"
"strings"
"sync"
"time"
"github.com/ncw/rclone/fs"
"github.com/ncw/swift"
"github.com/pkg/errors"
)
// Constants
const (
directoryMarkerContentType = "application/directory" // content type of directory marker objects
listChunks = 1000 // chunk size to read directory listings
)
// Globals
var (
chunkSize = fs.SizeSuffix(5 * 1024 * 1024 * 1024)
)
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// Register with Fs
func init() {
fs.Register(&fs.RegInfo{
Name: "swift",
Description: "Openstack Swift (Rackspace Cloud Files, Memset Memstore, OVH)",
NewFs: NewFs,
Options: []fs.Option{{
Name: "env_auth",
Help: "Get swift credentials from environment variables in standard OpenStack form.",
Examples: []fs.OptionExample{
{
Value: "false",
Help: "Enter swift credentials in the next step",
}, {
Value: "true",
Help: "Get swift credentials from environment vars. Leave other fields blank if using this.",
},
},
}, {
Name: "user",
Help: "User name to log in.",
}, {
Name: "key",
Help: "API key or password.",
}, {
Name: "auth",
Help: "Authentication URL for server.",
Examples: []fs.OptionExample{{
Help: "Rackspace US",
Value: "https://auth.api.rackspacecloud.com/v1.0",
}, {
Help: "Rackspace UK",
Value: "https://lon.auth.api.rackspacecloud.com/v1.0",
}, {
Help: "Rackspace v2",
Value: "https://identity.api.rackspacecloud.com/v2.0",
}, {
Help: "Memset Memstore UK",
Value: "https://auth.storage.memset.com/v1.0",
}, {
Help: "Memset Memstore UK v2",
Value: "https://auth.storage.memset.com/v2.0",
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}, {
Help: "OVH",
Value: "https://auth.cloud.ovh.net/v2.0",
}},
}, {
Name: "domain",
Help: "User domain - optional (v3 auth)",
}, {
Name: "tenant",
Help: "Tenant name - optional for v1 auth, required otherwise",
}, {
Name: "tenant_domain",
Help: "Tenant domain - optional (v3 auth)",
}, {
Name: "region",
Help: "Region name - optional",
}, {
Name: "storage_url",
Help: "Storage URL - optional",
}, {
Name: "auth_version",
Help: "AuthVersion - optional - set to (1,2,3) if your auth URL has no version",
}, {
Name: "endpoint_type",
Help: "Endpoint type to choose from the service catalogue",
Examples: []fs.OptionExample{{
Help: "Public (default, choose this if not sure)",
Value: "public",
}, {
Help: "Internal (use internal service net)",
Value: "internal",
}, {
Help: "Admin",
Value: "admin",
}},
},
},
})
fs.VarP(&chunkSize, "swift-chunk-size", "", "Above this size files will be chunked into a _segments container.")
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}
// Fs represents a remote swift server
type Fs struct {
name string // name of this remote
root string // the path we are working on if any
features *fs.Features // optional features
c *swift.Connection // the connection to the swift server
container string // the container we are working on
containerOKMu sync.Mutex // mutex to protect container OK
containerOK bool // true if we have created the container
segmentsContainer string // container to store the segments (if any) in
noCheckContainer bool // don't check the container before creating it
}
// Object describes a swift object
//
// Will definitely have info but maybe not meta
type Object struct {
fs *Fs // what this object is part of
remote string // The remote path
info swift.Object // Info from the swift object if known
headers *swift.Headers // The object headers if known
}
// ------------------------------------------------------------
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// Name of the remote (as passed into NewFs)
func (f *Fs) Name() string {
return f.name
}
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// Root of the remote (as passed into NewFs)
func (f *Fs) Root() string {
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if f.root == "" {
return f.container
}
return f.container + "/" + f.root
}
// String converts this Fs to a string
func (f *Fs) String() string {
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if f.root == "" {
return fmt.Sprintf("Swift container %s", f.container)
}
return fmt.Sprintf("Swift container %s path %s", f.container, f.root)
}
// Features returns the optional features of this Fs
func (f *Fs) Features() *fs.Features {
return f.features
}
// Pattern to match a swift path
var matcher = regexp.MustCompile(`^([^/]*)(.*)$`)
// parseParse parses a swift 'url'
func parsePath(path string) (container, directory string, err error) {
parts := matcher.FindStringSubmatch(path)
if parts == nil {
err = errors.Errorf("couldn't find container in swift path %q", path)
} else {
container, directory = parts[1], parts[2]
directory = strings.Trim(directory, "/")
}
return
}
// swiftConnection makes a connection to swift
func swiftConnection(name string) (*swift.Connection, error) {
c := &swift.Connection{
UserName: fs.ConfigFileGet(name, "user"),
ApiKey: fs.ConfigFileGet(name, "key"),
AuthUrl: fs.ConfigFileGet(name, "auth"),
AuthVersion: fs.ConfigFileGetInt(name, "auth_version", 0),
Tenant: fs.ConfigFileGet(name, "tenant"),
Region: fs.ConfigFileGet(name, "region"),
Domain: fs.ConfigFileGet(name, "domain"),
TenantDomain: fs.ConfigFileGet(name, "tenant_domain"),
EndpointType: swift.EndpointType(fs.ConfigFileGet(name, "endpoint_type", "public")),
ConnectTimeout: 10 * fs.Config.ConnectTimeout, // Use the timeouts in the transport
Timeout: 10 * fs.Config.Timeout, // Use the timeouts in the transport
Transport: fs.Config.Transport(),
}
if fs.ConfigFileGetBool(name, "env_auth", false) {
err := c.ApplyEnvironment()
if err != nil {
return nil, errors.Wrap(err, "failed to read environment variables")
}
}
if c.UserName == "" {
return nil, errors.New("user not found")
}
if c.ApiKey == "" {
return nil, errors.New("key not found")
}
if c.AuthUrl == "" {
return nil, errors.New("auth not found")
}
err := c.Authenticate()
if err != nil {
return nil, err
}
return c, nil
}
// NewFsWithConnection contstructs an Fs from the path, container:path
// and authenticated connection.
//
// if noCheckContainer is set then the Fs won't check the container
// exists before creating it.
func NewFsWithConnection(name, root string, c *swift.Connection, noCheckContainer bool) (fs.Fs, error) {
container, directory, err := parsePath(root)
if err != nil {
return nil, err
}
f := &Fs{
name: name,
c: c,
container: container,
segmentsContainer: container + "_segments",
root: directory,
noCheckContainer: noCheckContainer,
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}
f.features = (&fs.Features{
ReadMimeType: true,
WriteMimeType: true,
BucketBased: true,
}).Fill(f)
// StorageURL overloading
storageURL := fs.ConfigFileGet(name, "storage_url")
if storageURL != "" {
f.c.StorageUrl = storageURL
f.c.Auth = newAuth(f.c.Auth, storageURL)
}
if f.root != "" {
f.root += "/"
// Check to see if the object exists - ignoring directory markers
info, _, err := f.c.Object(container, directory)
if err == nil && info.ContentType != directoryMarkerContentType {
f.root = path.Dir(directory)
if f.root == "." {
f.root = ""
} else {
f.root += "/"
}
// return an error with an fs which points to the parent
return f, fs.ErrorIsFile
}
}
return f, nil
}
// NewFs contstructs an Fs from the path, container:path
func NewFs(name, root string) (fs.Fs, error) {
c, err := swiftConnection(name)
if err != nil {
return nil, err
}
return NewFsWithConnection(name, root, c, false)
}
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// Return an Object from a path
//
// If it can't be found it returns the error fs.ErrorObjectNotFound.
func (f *Fs) newObjectWithInfo(remote string, info *swift.Object) (fs.Object, error) {
o := &Object{
fs: f,
remote: remote,
}
// Note that due to a quirk of swift, dynamic large objects are
// returned as 0 bytes in the listing. Correct this here by
// making sure we read the full metadata for all 0 byte files.
// We don't read the metadata for directory marker objects.
if info != nil && info.Bytes == 0 && info.ContentType != "application/directory" {
info = nil
}
if info != nil {
// Set info but not headers
o.info = *info
} else {
err := o.readMetaData() // reads info and headers, returning an error
if err != nil {
return nil, err
}
}
return o, nil
}
// NewObject finds the Object at remote. If it can't be found it
// returns the error fs.ErrorObjectNotFound.
func (f *Fs) NewObject(remote string) (fs.Object, error) {
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return f.newObjectWithInfo(remote, nil)
}
// listFn is called from list and listContainerRoot to handle an object.
type listFn func(remote string, object *swift.Object, isDirectory bool) error
// listContainerRoot lists the objects into the function supplied from
// the container and root supplied
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//
// Set recurse to read sub directories
func (f *Fs) listContainerRoot(container, root string, dir string, recurse bool, fn listFn) error {
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prefix := root
if dir != "" {
prefix += dir + "/"
}
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// Options for ObjectsWalk
opts := swift.ObjectsOpts{
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Prefix: prefix,
Limit: listChunks,
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}
if !recurse {
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opts.Delimiter = '/'
}
rootLength := len(root)
return f.c.ObjectsWalk(container, &opts, func(opts *swift.ObjectsOpts) (interface{}, error) {
objects, err := f.c.Objects(container, opts)
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if err == nil {
for i := range objects {
object := &objects[i]
isDirectory := false
if !recurse {
isDirectory = strings.HasSuffix(object.Name, "/")
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}
if !strings.HasPrefix(object.Name, prefix) {
fs.Logf(f, "Odd name received %q", object.Name)
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continue
}
if object.Name == prefix {
// If we have zero length directory markers ending in / then swift
// will return them in the listing for the directory which causes
// duplicate directories. Ignore them here.
continue
}
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remote := object.Name[rootLength:]
err = fn(remote, object, isDirectory)
if err != nil {
break
}
}
}
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return objects, err
})
}
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type addEntryFn func(fs.DirEntry) error
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// list the objects into the function supplied
func (f *Fs) list(dir string, recurse bool, fn addEntryFn) error {
err := f.listContainerRoot(f.container, f.root, dir, recurse, func(remote string, object *swift.Object, isDirectory bool) (err error) {
if isDirectory {
remote = strings.TrimRight(remote, "/")
d := fs.NewDir(remote, time.Time{}).SetSize(object.Bytes)
err = fn(d)
} else {
o, err := f.newObjectWithInfo(remote, object)
if err != nil {
return err
}
// Storable does a full metadata read on 0 size objects which might be dynamic large objects
if o.Storable() {
err = fn(o)
}
}
return err
})
if err == swift.ContainerNotFound {
err = fs.ErrorDirNotFound
}
return err
}
// listDir lists a single directory
func (f *Fs) listDir(dir string) (entries fs.DirEntries, err error) {
if f.container == "" {
return nil, fs.ErrorListBucketRequired
}
// List the objects
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err = f.list(dir, false, func(entry fs.DirEntry) error {
entries = append(entries, entry)
return nil
})
if err != nil {
return nil, err
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}
return entries, nil
}
// listContainers lists the containers
func (f *Fs) listContainers(dir string) (entries fs.DirEntries, err error) {
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if dir != "" {
return nil, fs.ErrorListBucketRequired
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}
containers, err := f.c.ContainersAll(nil)
if err != nil {
return nil, errors.Wrap(err, "container listing failed")
}
for _, container := range containers {
d := fs.NewDir(container.Name, time.Time{}).SetSize(container.Bytes).SetItems(container.Count)
entries = append(entries, d)
}
return entries, nil
}
// List the objects and directories in dir into entries. The
// entries can be returned in any order but should be for a
// complete directory.
//
// dir should be "" to list the root, and should not have
// trailing slashes.
//
// This should return ErrDirNotFound if the directory isn't
// found.
func (f *Fs) List(dir string) (entries fs.DirEntries, err error) {
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if f.container == "" {
return f.listContainers(dir)
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}
return f.listDir(dir)
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}
// ListR lists the objects and directories of the Fs starting
// from dir recursively into out.
//
// dir should be "" to start from the root, and should not
// have trailing slashes.
//
// This should return ErrDirNotFound if the directory isn't
// found.
//
// It should call callback for each tranche of entries read.
// These need not be returned in any particular order. If
// callback returns an error then the listing will stop
// immediately.
//
// Don't implement this unless you have a more efficient way
// of listing recursively that doing a directory traversal.
func (f *Fs) ListR(dir string, callback fs.ListRCallback) (err error) {
if f.container == "" {
return errors.New("container needed for recursive list")
}
list := fs.NewListRHelper(callback)
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err = f.list(dir, true, func(entry fs.DirEntry) error {
return list.Add(entry)
})
if err != nil {
return err
}
return list.Flush()
}
// Put the object into the container
//
// Copy the reader in to the new object which is returned
//
// The new object may have been created if an error is returned
func (f *Fs) Put(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) {
// Temporary Object under construction
fs := &Object{
fs: f,
remote: src.Remote(),
}
return fs, fs.Update(in, src, options...)
}
// PutStream uploads to the remote path with the modTime given of indeterminate size
func (f *Fs) PutStream(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) {
return f.Put(in, src, options...)
}
// Mkdir creates the container if it doesn't exist
func (f *Fs) Mkdir(dir string) error {
f.containerOKMu.Lock()
defer f.containerOKMu.Unlock()
if f.containerOK {
return nil
}
// if we are at the root, then it is OK
if f.container == "" {
return nil
}
// Check to see if container exists first
var err error = swift.ContainerNotFound
if !f.noCheckContainer {
_, _, err = f.c.Container(f.container)
}
if err == swift.ContainerNotFound {
err = f.c.ContainerCreate(f.container, nil)
}
if err == nil {
f.containerOK = true
}
return err
}
// Rmdir deletes the container if the fs is at the root
//
// Returns an error if it isn't empty
func (f *Fs) Rmdir(dir string) error {
f.containerOKMu.Lock()
defer f.containerOKMu.Unlock()
if f.root != "" || dir != "" {
return nil
}
err := f.c.ContainerDelete(f.container)
if err == nil {
f.containerOK = false
}
return err
}
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// Precision of the remote
func (f *Fs) Precision() time.Duration {
return time.Nanosecond
}
// Purge deletes all the files and directories
//
// Implemented here so we can make sure we delete directory markers
func (f *Fs) Purge() error {
// Delete all the files including the directory markers
toBeDeleted := make(chan fs.Object, fs.Config.Transfers)
delErr := make(chan error, 1)
go func() {
delErr <- fs.DeleteFiles(toBeDeleted)
}()
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err := f.list("", true, func(entry fs.DirEntry) error {
if o, ok := entry.(*Object); ok {
toBeDeleted <- o
}
return nil
})
close(toBeDeleted)
delError := <-delErr
if err == nil {
err = delError
}
if err != nil {
return err
}
return f.Rmdir("")
}
// Copy src to this remote using server side copy operations.
//
// This is stored with the remote path given
//
// It returns the destination Object and a possible error
//
// Will only be called if src.Fs().Name() == f.Name()
//
// If it isn't possible then return fs.ErrorCantCopy
func (f *Fs) Copy(src fs.Object, remote string) (fs.Object, error) {
err := f.Mkdir("")
if err != nil {
return nil, err
}
srcObj, ok := src.(*Object)
if !ok {
fs.Debugf(src, "Can't copy - not same remote type")
return nil, fs.ErrorCantCopy
}
srcFs := srcObj.fs
_, err = f.c.ObjectCopy(srcFs.container, srcFs.root+srcObj.remote, f.container, f.root+remote, nil)
if err != nil {
return nil, err
}
return f.NewObject(remote)
}
// Hashes returns the supported hash sets.
func (f *Fs) Hashes() fs.HashSet {
return fs.HashSet(fs.HashMD5)
}
// ------------------------------------------------------------
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// Fs returns the parent Fs
func (o *Object) Fs() fs.Info {
return o.fs
}
// Return a string version
func (o *Object) String() string {
if o == nil {
return "<nil>"
}
return o.remote
}
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// Remote returns the remote path
func (o *Object) Remote() string {
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return o.remote
}
// Hash returns the Md5sum of an object returning a lowercase hex string
func (o *Object) Hash(t fs.HashType) (string, error) {
if t != fs.HashMD5 {
return "", fs.ErrHashUnsupported
}
isDynamicLargeObject, err := o.isDynamicLargeObject()
if err != nil {
return "", err
}
isStaticLargeObject, err := o.isStaticLargeObject()
if err != nil {
return "", err
}
if isDynamicLargeObject || isStaticLargeObject {
fs.Debugf(o, "Returning empty Md5sum for swift large object")
return "", nil
}
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return strings.ToLower(o.info.Hash), nil
}
// hasHeader checks for the header passed in returning false if the
// object isn't found.
func (o *Object) hasHeader(header string) (bool, error) {
err := o.readMetaData()
if err != nil {
if err == fs.ErrorObjectNotFound {
return false, nil
}
return false, err
}
_, isDynamicLargeObject := (*o.headers)[header]
return isDynamicLargeObject, nil
}
// isDynamicLargeObject checks for X-Object-Manifest header
func (o *Object) isDynamicLargeObject() (bool, error) {
return o.hasHeader("X-Object-Manifest")
}
// isStaticLargeObjectFile checks for the X-Static-Large-Object header
func (o *Object) isStaticLargeObject() (bool, error) {
return o.hasHeader("X-Static-Large-Object")
}
// Size returns the size of an object in bytes
func (o *Object) Size() int64 {
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return o.info.Bytes
}
// readMetaData gets the metadata if it hasn't already been fetched
//
// it also sets the info
//
// it returns fs.ErrorObjectNotFound if the object isn't found
func (o *Object) readMetaData() (err error) {
if o.headers != nil {
return nil
}
info, h, err := o.fs.c.Object(o.fs.container, o.fs.root+o.remote)
if err != nil {
if err == swift.ObjectNotFound {
return fs.ErrorObjectNotFound
}
return err
}
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o.info = info
o.headers = &h
return nil
}
// ModTime returns the modification time of the object
//
//
// It attempts to read the objects mtime and if that isn't present the
// LastModified returned in the http headers
func (o *Object) ModTime() time.Time {
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err := o.readMetaData()
if err != nil {
fs.Debugf(o, "Failed to read metadata: %s", err)
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return o.info.LastModified
}
modTime, err := o.headers.ObjectMetadata().GetModTime()
if err != nil {
// fs.Logf(o, "Failed to read mtime from object: %v", err)
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return o.info.LastModified
}
return modTime
}
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// SetModTime sets the modification time of the local fs object
func (o *Object) SetModTime(modTime time.Time) error {
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err := o.readMetaData()
if err != nil {
return err
}
meta := o.headers.ObjectMetadata()
meta.SetModTime(modTime)
newHeaders := meta.ObjectHeaders()
for k, v := range newHeaders {
(*o.headers)[k] = v
}
// Include any other metadata from request
for k, v := range *o.headers {
if strings.HasPrefix(k, "X-Object-") {
newHeaders[k] = v
}
}
return o.fs.c.ObjectUpdate(o.fs.container, o.fs.root+o.remote, newHeaders)
}
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// Storable returns if this object is storable
//
// It compares the Content-Type to directoryMarkerContentType - that
// makes it a directory marker which is not storable.
func (o *Object) Storable() bool {
return o.info.ContentType != directoryMarkerContentType
}
// Open an object for read
func (o *Object) Open(options ...fs.OpenOption) (in io.ReadCloser, err error) {
headers := fs.OpenOptionHeaders(options)
_, isRanging := headers["Range"]
in, _, err = o.fs.c.ObjectOpen(o.fs.container, o.fs.root+o.remote, !isRanging, headers)
return
}
// min returns the smallest of x, y
func min(x, y int64) int64 {
if x < y {
return x
}
return y
}
// removeSegments removes any old segments from o
//
// if except is passed in then segments with that prefix won't be deleted
func (o *Object) removeSegments(except string) error {
segmentsRoot := o.fs.root + o.remote + "/"
err := o.fs.listContainerRoot(o.fs.segmentsContainer, segmentsRoot, "", true, func(remote string, object *swift.Object, isDirectory bool) error {
if isDirectory {
return nil
}
if except != "" && strings.HasPrefix(remote, except) {
// fs.Debugf(o, "Ignoring current segment file %q in container %q", segmentsRoot+remote, o.fs.segmentsContainer)
return nil
}
segmentPath := segmentsRoot + remote
fs.Debugf(o, "Removing segment file %q in container %q", segmentPath, o.fs.segmentsContainer)
return o.fs.c.ObjectDelete(o.fs.segmentsContainer, segmentPath)
})
if err != nil {
return err
}
// remove the segments container if empty, ignore errors
err = o.fs.c.ContainerDelete(o.fs.segmentsContainer)
if err == nil {
fs.Debugf(o, "Removed empty container %q", o.fs.segmentsContainer)
}
return nil
}
// urlEncode encodes a string so that it is a valid URL
//
// We don't use any of Go's standard methods as we need `/` not
// encoded but we need '&' encoded.
func urlEncode(str string) string {
var buf bytes.Buffer
for i := 0; i < len(str); i++ {
c := str[i]
if (c >= '0' && c <= '9') || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c == '/' || c == '.' {
_ = buf.WriteByte(c)
} else {
_, _ = buf.WriteString(fmt.Sprintf("%%%02X", c))
}
}
return buf.String()
}
// updateChunks updates the existing object using chunks to a separate
// container. It returns a string which prefixes current segments.
func (o *Object) updateChunks(in0 io.Reader, headers swift.Headers, size int64, contentType string) (string, error) {
// Create the segmentsContainer if it doesn't exist
err := o.fs.c.ContainerCreate(o.fs.segmentsContainer, nil)
if err != nil {
return "", err
}
// Upload the chunks
left := size
i := 0
uniquePrefix := fmt.Sprintf("%s/%d", swift.TimeToFloatString(time.Now()), size)
segmentsPath := fmt.Sprintf("%s%s/%s", o.fs.root, o.remote, uniquePrefix)
in := bufio.NewReader(in0)
for {
// can we read at least one byte?
if _, err := in.Peek(1); err != nil {
if left > 0 {
return "", err // read less than expected
}
fs.Debugf(o, "Uploading segments into %q seems done (%v)", o.fs.segmentsContainer, err)
break
}
n := int64(chunkSize)
if size != -1 {
n = min(left, n)
headers["Content-Length"] = strconv.FormatInt(n, 10) // set Content-Length as we know it
left -= n
}
segmentReader := io.LimitReader(in, n)
segmentPath := fmt.Sprintf("%s/%08d", segmentsPath, i)
fs.Debugf(o, "Uploading segment file %q into %q", segmentPath, o.fs.segmentsContainer)
_, err := o.fs.c.ObjectPut(o.fs.segmentsContainer, segmentPath, segmentReader, true, "", "", headers)
if err != nil {
return "", err
}
i++
}
// Upload the manifest
headers["X-Object-Manifest"] = urlEncode(fmt.Sprintf("%s/%s", o.fs.segmentsContainer, segmentsPath))
headers["Content-Length"] = "0" // set Content-Length as we know it
emptyReader := bytes.NewReader(nil)
manifestName := o.fs.root + o.remote
_, err = o.fs.c.ObjectPut(o.fs.container, manifestName, emptyReader, true, "", contentType, headers)
return uniquePrefix + "/", err
}
// Update the object with the contents of the io.Reader, modTime and size
//
// The new object may have been created if an error is returned
func (o *Object) Update(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) error {
if o.fs.container == "" {
return fs.FatalError(errors.New("container name needed in remote"))
}
err := o.fs.Mkdir("")
if err != nil {
return err
}
size := src.Size()
modTime := src.ModTime()
// Note whether this is a dynamic large object before starting
isDynamicLargeObject, err := o.isDynamicLargeObject()
if err != nil {
return err
}
// Set the mtime
m := swift.Metadata{}
m.SetModTime(modTime)
contentType := fs.MimeType(src)
headers := m.ObjectHeaders()
uniquePrefix := ""
if size > int64(chunkSize) || size == -1 {
uniquePrefix, err = o.updateChunks(in, headers, size, contentType)
if err != nil {
return err
}
} else {
headers["Content-Length"] = strconv.FormatInt(size, 10) // set Content-Length as we know it
_, err := o.fs.c.ObjectPut(o.fs.container, o.fs.root+o.remote, in, true, "", contentType, headers)
if err != nil {
return err
}
}
// If file was a dynamic large object then remove old/all segments
if isDynamicLargeObject {
err = o.removeSegments(uniquePrefix)
if err != nil {
fs.Logf(o, "Failed to remove old segments - carrying on with upload: %v", err)
}
}
// Read the metadata from the newly created object
o.headers = nil // wipe old metadata
return o.readMetaData()
}
// Remove an object
func (o *Object) Remove() error {
isDynamicLargeObject, err := o.isDynamicLargeObject()
if err != nil {
return err
}
// Remove file/manifest first
err = o.fs.c.ObjectDelete(o.fs.container, o.fs.root+o.remote)
if err != nil {
return err
}
// ...then segments if required
if isDynamicLargeObject {
err = o.removeSegments("")
if err != nil {
return err
}
}
return nil
}
// MimeType of an Object if known, "" otherwise
func (o *Object) MimeType() string {
return o.info.ContentType
}
// Check the interfaces are satisfied
var (
_ fs.Fs = &Fs{}
_ fs.Purger = &Fs{}
_ fs.PutStreamer = &Fs{}
_ fs.Copier = &Fs{}
_ fs.ListRer = &Fs{}
_ fs.Object = &Object{}
_ fs.MimeTyper = &Object{}
)