rclone/backend/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/rclone/fs/config/configmap"
"github.com/ncw/rclone/fs/config/configstruct"
"github.com/ncw/rclone/fs/fserrors"
"github.com/ncw/rclone/fs/fshttp"
"github.com/ncw/rclone/fs/hash"
"github.com/ncw/rclone/fs/operations"
"github.com/ncw/rclone/fs/walk"
"github.com/ncw/rclone/lib/pacer"
"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
defaultChunkSize = 5 * fs.GibiByte
minSleep = 10 * time.Millisecond // In case of error, start at 10ms sleep.
)
// SharedOptions are shared between swift and hubic
var SharedOptions = []fs.Option{{
Name: "chunk_size",
Help: `Above this size files will be chunked into a _segments container.
Above this size files will be chunked into a _segments container. The
default for this is 5GB which is its maximum value.`,
Default: defaultChunkSize,
Advanced: true,
}, {
Name: "no_chunk",
Help: `Don't chunk files during streaming upload.
When doing streaming uploads (eg using rcat or mount) setting this
flag will cause the swift backend to not upload chunked files.
This will limit the maximum upload size to 5GB. However non chunked
files are easier to deal with and have an MD5SUM.
Rclone will still chunk files bigger than chunk_size when doing normal
copy operations.`,
Default: false,
Advanced: true,
}}
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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: append([]fs.Option{{
Name: "env_auth",
Help: "Get swift credentials from environment variables in standard OpenStack form.",
Default: false,
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 (OS_USERNAME).",
}, {
Name: "key",
Help: "API key or password (OS_PASSWORD).",
}, {
Name: "auth",
Help: "Authentication URL for server (OS_AUTH_URL).",
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: "user_id",
Help: "User ID to log in - optional - most swift systems use user and leave this blank (v3 auth) (OS_USER_ID).",
}, {
Name: "domain",
Help: "User domain - optional (v3 auth) (OS_USER_DOMAIN_NAME)",
}, {
Name: "tenant",
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Help: "Tenant name - optional for v1 auth, this or tenant_id required otherwise (OS_TENANT_NAME or OS_PROJECT_NAME)",
}, {
Name: "tenant_id",
Help: "Tenant ID - optional for v1 auth, this or tenant required otherwise (OS_TENANT_ID)",
}, {
Name: "tenant_domain",
Help: "Tenant domain - optional (v3 auth) (OS_PROJECT_DOMAIN_NAME)",
}, {
Name: "region",
Help: "Region name - optional (OS_REGION_NAME)",
}, {
Name: "storage_url",
Help: "Storage URL - optional (OS_STORAGE_URL)",
}, {
Name: "auth_token",
Help: "Auth Token from alternate authentication - optional (OS_AUTH_TOKEN)",
}, {
Name: "application_credential_id",
Help: "Application Credential ID (OS_APPLICATION_CREDENTIAL_ID)",
}, {
Name: "application_credential_name",
Help: "Application Credential Name (OS_APPLICATION_CREDENTIAL_NAME)",
}, {
Name: "application_credential_secret",
Help: "Application Credential Secret (OS_APPLICATION_CREDENTIAL_SECRET)",
}, {
Name: "auth_version",
Help: "AuthVersion - optional - set to (1,2,3) if your auth URL has no version (ST_AUTH_VERSION)",
Default: 0,
}, {
Name: "endpoint_type",
Help: "Endpoint type to choose from the service catalogue (OS_ENDPOINT_TYPE)",
Default: "public",
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",
}},
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}, {
Name: "storage_policy",
Help: `The storage policy to use when creating a new container
This applies the specified storage policy when creating a new
container. The policy cannot be changed afterwards. The allowed
configuration values and their meaning depend on your Swift storage
provider.`,
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Default: "",
Examples: []fs.OptionExample{{
Help: "Default",
Value: "",
}, {
Help: "OVH Public Cloud Storage",
Value: "pcs",
}, {
Help: "OVH Public Cloud Archive",
Value: "pca",
}},
}}, SharedOptions...),
})
}
// Options defines the configuration for this backend
type Options struct {
EnvAuth bool `config:"env_auth"`
User string `config:"user"`
Key string `config:"key"`
Auth string `config:"auth"`
UserID string `config:"user_id"`
Domain string `config:"domain"`
Tenant string `config:"tenant"`
TenantID string `config:"tenant_id"`
TenantDomain string `config:"tenant_domain"`
Region string `config:"region"`
StorageURL string `config:"storage_url"`
AuthToken string `config:"auth_token"`
AuthVersion int `config:"auth_version"`
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ApplicationCredentialID string `config:"application_credential_id"`
ApplicationCredentialName string `config:"application_credential_name"`
ApplicationCredentialSecret string `config:"application_credential_secret"`
StoragePolicy string `config:"storage_policy"`
EndpointType string `config:"endpoint_type"`
ChunkSize fs.SizeSuffix `config:"chunk_size"`
NoChunk bool `config:"no_chunk"`
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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
opt Options // options for this backend
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
pacer *pacer.Pacer // To pace the API calls
}
// 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
size int64
lastModified time.Time
contentType string
md5 string
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
}
// retryErrorCodes is a slice of error codes that we will retry
var retryErrorCodes = []int{
401, // Unauthorized (eg "Token has expired")
408, // Request Timeout
409, // Conflict - various states that could be resolved on a retry
429, // Rate exceeded.
500, // Get occasional 500 Internal Server Error
503, // Service Unavailable/Slow Down - "Reduce your request rate"
504, // Gateway Time-out
}
// shouldRetry returns a boolean as to whether this err deserves to be
// retried. It returns the err as a convenience
func shouldRetry(err error) (bool, error) {
// If this is an swift.Error object extract the HTTP error code
if swiftError, ok := err.(*swift.Error); ok {
for _, e := range retryErrorCodes {
if swiftError.StatusCode == e {
return true, err
}
}
}
// Check for generic failure conditions
return fserrors.ShouldRetry(err), err
}
// 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(opt *Options, name string) (*swift.Connection, error) {
c := &swift.Connection{
// Keep these in the same order as the Config for ease of checking
UserName: opt.User,
ApiKey: opt.Key,
AuthUrl: opt.Auth,
UserId: opt.UserID,
Domain: opt.Domain,
Tenant: opt.Tenant,
TenantId: opt.TenantID,
TenantDomain: opt.TenantDomain,
Region: opt.Region,
StorageUrl: opt.StorageURL,
AuthToken: opt.AuthToken,
AuthVersion: opt.AuthVersion,
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ApplicationCredentialId: opt.ApplicationCredentialID,
ApplicationCredentialName: opt.ApplicationCredentialName,
ApplicationCredentialSecret: opt.ApplicationCredentialSecret,
EndpointType: swift.EndpointType(opt.EndpointType),
ConnectTimeout: 10 * fs.Config.ConnectTimeout, // Use the timeouts in the transport
Timeout: 10 * fs.Config.Timeout, // Use the timeouts in the transport
Transport: fshttp.NewTransport(fs.Config),
}
if opt.EnvAuth {
err := c.ApplyEnvironment()
if err != nil {
return nil, errors.Wrap(err, "failed to read environment variables")
}
}
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StorageUrl, AuthToken := c.StorageUrl, c.AuthToken // nolint
if !c.Authenticated() {
if (c.ApplicationCredentialId != "" || c.ApplicationCredentialName != "") && c.ApplicationCredentialSecret == "" {
if c.UserName == "" && c.UserId == "" {
return nil, errors.New("user name or user id not found for authentication (and no storage_url+auth_token is provided)")
}
if c.ApiKey == "" {
return nil, errors.New("key not found")
}
}
if c.AuthUrl == "" {
return nil, errors.New("auth not found")
}
err := c.Authenticate() // fills in c.StorageUrl and c.AuthToken
if err != nil {
return nil, err
}
}
// Make sure we re-auth with the AuthToken and StorageUrl
// provided by wrapping the existing auth, so we can just
// override one or the other or both.
if StorageUrl != "" || AuthToken != "" {
// Re-write StorageURL and AuthToken if they are being
// overridden as c.Authenticate above will have
// overwritten them.
if StorageUrl != "" {
c.StorageUrl = StorageUrl
}
if AuthToken != "" {
c.AuthToken = AuthToken
}
c.Auth = newAuth(c.Auth, StorageUrl, AuthToken)
}
return c, nil
}
func checkUploadChunkSize(cs fs.SizeSuffix) error {
const minChunkSize = fs.Byte
if cs < minChunkSize {
return errors.Errorf("%s is less than %s", cs, minChunkSize)
}
return nil
}
func (f *Fs) setUploadChunkSize(cs fs.SizeSuffix) (old fs.SizeSuffix, err error) {
err = checkUploadChunkSize(cs)
if err == nil {
old, f.opt.ChunkSize = f.opt.ChunkSize, cs
}
return
}
// NewFsWithConnection constructs 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(opt *Options, 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,
opt: *opt,
c: c,
container: container,
segmentsContainer: container + "_segments",
root: directory,
noCheckContainer: noCheckContainer,
pacer: pacer.New().SetMinSleep(minSleep).SetPacer(pacer.S3Pacer),
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}
f.features = (&fs.Features{
ReadMimeType: true,
WriteMimeType: true,
BucketBased: true,
}).Fill(f)
if f.root != "" {
f.root += "/"
// Check to see if the object exists - ignoring directory markers
var info swift.Object
err = f.pacer.Call(func() (bool, error) {
info, _, err = f.c.Object(container, directory)
return shouldRetry(err)
})
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
}
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// NewFs constructs an Fs from the path, container:path
func NewFs(name, root string, m configmap.Mapper) (fs.Fs, error) {
// Parse config into Options struct
opt := new(Options)
err := configstruct.Set(m, opt)
if err != nil {
return nil, err
}
err = checkUploadChunkSize(opt.ChunkSize)
if err != nil {
return nil, errors.Wrap(err, "swift: chunk size")
}
c, err := swiftConnection(opt, name)
if err != nil {
return nil, err
}
return NewFsWithConnection(opt, 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
err := o.decodeMetaData(info)
if err != nil {
return nil, err
}
} 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) {
var objects []swift.Object
var err error
err = f.pacer.Call(func() (bool, error) {
objects, err = f.c.Objects(container, opts)
return shouldRetry(err)
})
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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 {
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// newObjectWithInfo does a full metadata read on 0 size objects which might be dynamic large objects
var o fs.Object
o, err = f.newObjectWithInfo(remote, object)
if err != nil {
return err
}
if o.Storable() {
err = fn(o)
}
}
return err
})
if err == swift.ContainerNotFound {
err = fs.ErrorDirNotFound
}
return err
}
// mark the container as being OK
func (f *Fs) markContainerOK() {
if f.container != "" {
f.containerOKMu.Lock()
f.containerOK = true
f.containerOKMu.Unlock()
}
}
// 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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}
// container must be present if listing succeeded
f.markContainerOK()
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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}
var containers []swift.Container
err = f.pacer.Call(func() (bool, error) {
containers, err = f.c.ContainersAll(nil)
return shouldRetry(err)
})
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 := walk.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
}
// container must be present if listing succeeded
f.markContainerOK()
return list.Flush()
}
// About gets quota information
func (f *Fs) About() (*fs.Usage, error) {
var containers []swift.Container
var err error
err = f.pacer.Call(func() (bool, error) {
containers, err = f.c.ContainersAll(nil)
return shouldRetry(err)
})
if err != nil {
return nil, errors.Wrap(err, "container listing failed")
}
var total, objects int64
for _, c := range containers {
total += c.Bytes
objects += c.Count
}
usage := &fs.Usage{
Used: fs.NewUsageValue(total), // bytes in use
Objects: fs.NewUsageValue(objects), // objects in use
}
return usage, nil
}
// 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(),
headers: swift.Headers{}, // Empty object headers to stop readMetaData being called
}
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.pacer.Call(func() (bool, error) {
_, _, err = f.c.Container(f.container)
return shouldRetry(err)
})
}
if err == swift.ContainerNotFound {
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headers := swift.Headers{}
if f.opt.StoragePolicy != "" {
headers["X-Storage-Policy"] = f.opt.StoragePolicy
}
err = f.pacer.Call(func() (bool, error) {
err = f.c.ContainerCreate(f.container, headers)
return shouldRetry(err)
})
}
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
}
var err error
err = f.pacer.Call(func() (bool, error) {
err = f.c.ContainerDelete(f.container)
return shouldRetry(err)
})
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 <- operations.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.pacer.Call(func() (bool, error) {
_, err = f.c.ObjectCopy(srcFs.container, srcFs.root+srcObj.remote, f.container, f.root+remote, nil)
return shouldRetry(err)
})
if err != nil {
return nil, err
}
return f.NewObject(remote)
}
// Hashes returns the supported hash sets.
func (f *Fs) Hashes() hash.Set {
return hash.Set(hash.MD5)
}
// ------------------------------------------------------------
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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 hash.Type) (string, error) {
if t != hash.MD5 {
return "", hash.ErrUnsupported
}
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
}
return strings.ToLower(o.md5), 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 {
return o.size
}
// decodeMetaData sets the metadata in the object from a swift.Object
//
// Sets
// o.lastModified
// o.size
// o.md5
// o.contentType
func (o *Object) decodeMetaData(info *swift.Object) (err error) {
o.lastModified = info.LastModified
o.size = info.Bytes
o.md5 = info.Hash
o.contentType = info.ContentType
return nil
}
// 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
}
var info swift.Object
var h swift.Headers
err = o.fs.pacer.Call(func() (bool, error) {
info, h, err = o.fs.c.Object(o.fs.container, o.fs.root+o.remote)
return shouldRetry(err)
})
if err != nil {
if err == swift.ObjectNotFound {
return fs.ErrorObjectNotFound
}
return err
}
o.headers = h
err = o.decodeMetaData(&info)
if err != nil {
return err
}
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 {
if fs.Config.UseServerModTime {
return o.lastModified
}
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err := o.readMetaData()
if err != nil {
fs.Debugf(o, "Failed to read metadata: %s", err)
return o.lastModified
}
modTime, err := o.headers.ObjectMetadata().GetModTime()
if err != nil {
// fs.Logf(o, "Failed to read mtime from object: %v", err)
return o.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.pacer.Call(func() (bool, error) {
err = o.fs.c.ObjectUpdate(o.fs.container, o.fs.root+o.remote, newHeaders)
return shouldRetry(err)
})
}
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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.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"]
err = o.fs.pacer.Call(func() (bool, error) {
in, _, err = o.fs.c.ObjectOpen(o.fs.container, o.fs.root+o.remote, !isRanging, headers)
return shouldRetry(err)
})
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)
var err error
return o.fs.pacer.Call(func() (bool, error) {
err = o.fs.c.ObjectDelete(o.fs.segmentsContainer, segmentPath)
return shouldRetry(err)
})
})
if err != nil {
return err
}
// remove the segments container if empty, ignore errors
err = o.fs.pacer.Call(func() (bool, error) {
err = o.fs.c.ContainerDelete(o.fs.segmentsContainer)
return shouldRetry(err)
})
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
var err error
err = o.fs.pacer.Call(func() (bool, error) {
_, _, err = o.fs.c.Container(o.fs.segmentsContainer)
return shouldRetry(err)
})
if err == swift.ContainerNotFound {
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headers := swift.Headers{}
if o.fs.opt.StoragePolicy != "" {
headers["X-Storage-Policy"] = o.fs.opt.StoragePolicy
}
err = o.fs.pacer.Call(func() (bool, error) {
err = o.fs.c.ContainerCreate(o.fs.segmentsContainer, headers)
return shouldRetry(err)
})
}
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(o.fs.opt.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.pacer.CallNoRetry(func() (bool, error) {
_, err = o.fs.c.ObjectPut(o.fs.segmentsContainer, segmentPath, segmentReader, true, "", "", headers)
return shouldRetry(err)
})
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.pacer.Call(func() (bool, error) {
_, err = o.fs.c.ObjectPut(o.fs.container, manifestName, emptyReader, true, "", contentType, headers)
return shouldRetry(err)
})
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 fserrors.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(o.fs.opt.ChunkSize) || (size == -1 && !o.fs.opt.NoChunk) {
uniquePrefix, err = o.updateChunks(in, headers, size, contentType)
if err != nil {
return err
}
o.headers = nil // wipe old metadata
} else {
if size >= 0 {
headers["Content-Length"] = strconv.FormatInt(size, 10) // set Content-Length if we know it
}
var rxHeaders swift.Headers
err = o.fs.pacer.CallNoRetry(func() (bool, error) {
rxHeaders, err = o.fs.c.ObjectPut(o.fs.container, o.fs.root+o.remote, in, true, "", contentType, headers)
return shouldRetry(err)
})
if err != nil {
return err
}
// set Metadata since ObjectPut checked the hash and length so we know the
// object has been safely uploaded
o.lastModified = modTime
o.size = size
o.md5 = rxHeaders["ETag"]
o.contentType = contentType
o.headers = headers
}
// 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 if necessary
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.pacer.Call(func() (bool, error) {
err = o.fs.c.ObjectDelete(o.fs.container, o.fs.root+o.remote)
return shouldRetry(err)
})
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.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{}
)