rclone/backend/union/union.go

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// Package union implements a virtual provider to join existing remotes.
package union
import (
"bufio"
"context"
"errors"
"fmt"
"io"
"path"
"path/filepath"
"strings"
"sync"
"time"
"github.com/rclone/rclone/backend/union/common"
"github.com/rclone/rclone/backend/union/policy"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/config/configmap"
"github.com/rclone/rclone/fs/config/configstruct"
"github.com/rclone/rclone/fs/hash"
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"github.com/rclone/rclone/fs/operations"
"github.com/rclone/rclone/fs/walk"
)
// Register with Fs
func init() {
fsi := &fs.RegInfo{
Name: "union",
Description: "Union merges the contents of several upstream fs",
NewFs: NewFs,
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MetadataInfo: &fs.MetadataInfo{
Help: `Any metadata supported by the underlying remote is read and written.`,
},
Options: []fs.Option{{
Name: "upstreams",
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Help: "List of space separated upstreams.\n\nCan be 'upstreama:test/dir upstreamb:', '\"upstreama:test/space:ro dir\" upstreamb:', etc.",
Required: true,
}, {
Name: "action_policy",
Help: "Policy to choose upstream on ACTION category.",
Default: "epall",
}, {
Name: "create_policy",
Help: "Policy to choose upstream on CREATE category.",
Default: "epmfs",
}, {
Name: "search_policy",
Help: "Policy to choose upstream on SEARCH category.",
Default: "ff",
}, {
Name: "cache_time",
Help: "Cache time of usage and free space (in seconds).\n\nThis option is only useful when a path preserving policy is used.",
Default: 120,
}, {
Name: "min_free_space",
Help: `Minimum viable free space for lfs/eplfs policies.
If a remote has less than this much free space then it won't be
considered for use in lfs or eplfs policies.`,
Advanced: true,
Default: fs.Gibi,
}},
}
fs.Register(fsi)
}
// Fs represents a union of upstreams
type Fs struct {
name string // name of this remote
features *fs.Features // optional features
opt common.Options // options for this Fs
root string // the path we are working on
upstreams []*upstream.Fs // slice of upstreams
hashSet hash.Set // intersection of hash types
actionPolicy policy.Policy // policy for ACTION
createPolicy policy.Policy // policy for CREATE
searchPolicy policy.Policy // policy for SEARCH
}
// Wrap candidate objects in to a union Object
func (f *Fs) wrapEntries(entries ...upstream.Entry) (entry, error) {
e, err := f.searchEntries(entries...)
if err != nil {
return nil, err
}
switch e := e.(type) {
case *upstream.Object:
return &Object{
Object: e,
fs: f,
co: entries,
}, nil
case *upstream.Directory:
return &Directory{
Directory: e,
cd: entries,
}, nil
default:
return nil, fmt.Errorf("unknown object type %T", e)
}
}
// Name of the remote (as passed into NewFs)
func (f *Fs) Name() string {
return f.name
}
// Root of the remote (as passed into NewFs)
func (f *Fs) Root() string {
return f.root
}
// String converts this Fs to a string
func (f *Fs) String() string {
return fmt.Sprintf("union root '%s'", f.root)
}
// Features returns the optional features of this Fs
func (f *Fs) Features() *fs.Features {
return f.features
}
// Rmdir removes the root directory of the Fs object
func (f *Fs) Rmdir(ctx context.Context, dir string) error {
upstreams, err := f.action(ctx, dir)
if err != nil {
return err
}
errs := Errors(make([]error, len(upstreams)))
multithread(len(upstreams), func(i int) {
err := upstreams[i].Rmdir(ctx, dir)
if err != nil {
errs[i] = fmt.Errorf("%s: %w", upstreams[i].Name(), err)
}
})
return errs.Err()
}
// Hashes returns hash.HashNone to indicate remote hashing is unavailable
func (f *Fs) Hashes() hash.Set {
return f.hashSet
}
// mkdir makes the directory passed in and returns the upstreams used
func (f *Fs) mkdir(ctx context.Context, dir string) ([]*upstream.Fs, error) {
upstreams, err := f.create(ctx, dir)
if err == fs.ErrorObjectNotFound {
parent := parentDir(dir)
if dir != parent {
upstreams, err = f.mkdir(ctx, parent)
} else if dir == "" {
// If root dirs not created then create them
upstreams, err = f.upstreams, nil
}
}
if err != nil {
return nil, err
}
errs := Errors(make([]error, len(upstreams)))
multithread(len(upstreams), func(i int) {
err := upstreams[i].Mkdir(ctx, dir)
if err != nil {
errs[i] = fmt.Errorf("%s: %w", upstreams[i].Name(), err)
}
})
err = errs.Err()
if err != nil {
return nil, err
}
// If created roots then choose one
if dir == "" {
upstreams, err = f.create(ctx, dir)
}
return upstreams, err
}
// Mkdir makes the root directory of the Fs object
func (f *Fs) Mkdir(ctx context.Context, dir string) error {
_, err := f.mkdir(ctx, dir)
return err
}
// Purge all files in the directory
//
// Implement this if you have a way of deleting all the files
// quicker than just running Remove() on the result of List()
//
// Return an error if it doesn't exist
func (f *Fs) Purge(ctx context.Context, dir string) error {
for _, r := range f.upstreams {
if r.Features().Purge == nil {
return fs.ErrorCantPurge
}
}
upstreams, err := f.action(ctx, "")
if err != nil {
return err
}
errs := Errors(make([]error, len(upstreams)))
multithread(len(upstreams), func(i int) {
err := upstreams[i].Features().Purge(ctx, dir)
if errors.Is(err, fs.ErrorDirNotFound) {
err = nil
}
if err != nil {
errs[i] = fmt.Errorf("%s: %w", upstreams[i].Name(), err)
}
})
return errs.Err()
}
// 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(ctx context.Context, src fs.Object, remote string) (fs.Object, error) {
srcObj, ok := src.(*Object)
if !ok {
fs.Debugf(src, "Can't copy - not same remote type")
return nil, fs.ErrorCantCopy
}
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o := srcObj.UnWrapUpstream()
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su := o.UpstreamFs()
if su.Features().Copy == nil {
return nil, fs.ErrorCantCopy
}
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var du *upstream.Fs
for _, u := range f.upstreams {
if operations.Same(u.RootFs, su.RootFs) {
du = u
}
}
if du == nil {
return nil, fs.ErrorCantCopy
}
if !du.IsCreatable() {
return nil, fs.ErrorPermissionDenied
}
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co, err := du.Features().Copy(ctx, o, remote)
if err != nil || co == nil {
return nil, err
}
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wo, err := f.wrapEntries(du.WrapObject(co))
return wo.(*Object), err
}
// Move src to this remote using server-side move 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.ErrorCantMove
func (f *Fs) Move(ctx context.Context, src fs.Object, remote string) (fs.Object, error) {
o, ok := src.(*Object)
if !ok {
fs.Debugf(src, "Can't move - not same remote type")
return nil, fs.ErrorCantMove
}
entries, err := f.actionEntries(o.candidates()...)
if err != nil {
return nil, err
}
for _, e := range entries {
if !operations.CanServerSideMove(e.UpstreamFs()) {
return nil, fs.ErrorCantMove
}
}
objs := make([]*upstream.Object, len(entries))
errs := Errors(make([]error, len(entries)))
multithread(len(entries), func(i int) {
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su := entries[i].UpstreamFs()
o, ok := entries[i].(*upstream.Object)
if !ok {
errs[i] = fmt.Errorf("%s: %w", su.Name(), fs.ErrorNotAFile)
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return
}
var du *upstream.Fs
for _, u := range f.upstreams {
if operations.Same(u.RootFs, su.RootFs) {
du = u
}
}
if du == nil {
errs[i] = fmt.Errorf("%s: %s: %w", su.Name(), remote, fs.ErrorCantMove)
return
}
srcObj := o.UnWrap()
duFeatures := du.Features()
do := duFeatures.Move
if duFeatures.Move == nil {
do = duFeatures.Copy
}
// Do the Move or Copy
dstObj, err := do(ctx, srcObj, remote)
if err != nil {
errs[i] = fmt.Errorf("%s: %w", su.Name(), err)
return
}
if dstObj == nil {
errs[i] = fmt.Errorf("%s: destination object not found", su.Name())
return
}
objs[i] = du.WrapObject(dstObj)
// Delete the source object if Copy
if duFeatures.Move == nil {
err = srcObj.Remove(ctx)
if err != nil {
errs[i] = fmt.Errorf("%s: %w", su.Name(), err)
return
}
}
})
var en []upstream.Entry
for _, o := range objs {
if o != nil {
en = append(en, o)
}
}
e, err := f.wrapEntries(en...)
if err != nil {
return nil, err
}
return e.(*Object), errs.Err()
}
// DirMove moves src, srcRemote to this remote at dstRemote
// using server-side move operations.
//
// Will only be called if src.Fs().Name() == f.Name()
//
// If it isn't possible then return fs.ErrorCantDirMove
//
// If destination exists then return fs.ErrorDirExists
func (f *Fs) DirMove(ctx context.Context, src fs.Fs, srcRemote, dstRemote string) error {
sfs, ok := src.(*Fs)
if !ok {
fs.Debugf(src, "Can't move directory - not same remote type")
return fs.ErrorCantDirMove
}
upstreams, err := sfs.action(ctx, srcRemote)
if err != nil {
return err
}
for _, u := range upstreams {
if u.Features().DirMove == nil {
return fs.ErrorCantDirMove
}
}
errs := Errors(make([]error, len(upstreams)))
multithread(len(upstreams), func(i int) {
su := upstreams[i]
var du *upstream.Fs
for _, u := range f.upstreams {
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if operations.Same(u.RootFs, su.RootFs) {
du = u
}
}
if du == nil {
errs[i] = fmt.Errorf("%s: %s: %w", su.Name(), su.Root(), fs.ErrorCantDirMove)
return
}
err := du.Features().DirMove(ctx, su.Fs, srcRemote, dstRemote)
if err != nil {
errs[i] = fmt.Errorf("%s: %w", du.Name()+":"+du.Root(), err)
}
})
errs = errs.FilterNil()
if len(errs) == 0 {
return nil
}
for _, e := range errs {
if !errors.Is(e, fs.ErrorDirExists) {
return errs
}
}
return fs.ErrorDirExists
}
// ChangeNotify calls the passed function with a path
// that has had changes. If the implementation
// uses polling, it should adhere to the given interval.
// At least one value will be written to the channel,
// specifying the initial value and updated values might
// follow. A 0 Duration should pause the polling.
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// The ChangeNotify implementation must empty the channel
// regularly. When the channel gets closed, the implementation
// should stop polling and release resources.
func (f *Fs) ChangeNotify(ctx context.Context, fn func(string, fs.EntryType), ch <-chan time.Duration) {
var uChans []chan time.Duration
for _, u := range f.upstreams {
if ChangeNotify := u.Features().ChangeNotify; ChangeNotify != nil {
ch := make(chan time.Duration)
uChans = append(uChans, ch)
ChangeNotify(ctx, fn, ch)
}
}
go func() {
for i := range ch {
for _, c := range uChans {
c <- i
}
}
for _, c := range uChans {
close(c)
}
}()
}
// DirCacheFlush resets the directory cache - used in testing
// as an optional interface
func (f *Fs) DirCacheFlush() {
multithread(len(f.upstreams), func(i int) {
if do := f.upstreams[i].Features().DirCacheFlush; do != nil {
do()
}
})
}
// Tee in into n outputs
//
// When finished read the error from the channel
func multiReader(n int, in io.Reader) ([]io.Reader, <-chan error) {
readers := make([]io.Reader, n)
pipeWriters := make([]*io.PipeWriter, n)
writers := make([]io.Writer, n)
errChan := make(chan error, 1)
for i := range writers {
r, w := io.Pipe()
bw := bufio.NewWriter(w)
readers[i], pipeWriters[i], writers[i] = r, w, bw
}
go func() {
mw := io.MultiWriter(writers...)
es := make([]error, 2*n+1)
_, copyErr := io.Copy(mw, in)
es[2*n] = copyErr
// Flush the buffers
for i, bw := range writers {
es[i] = bw.(*bufio.Writer).Flush()
}
// Close the underlying pipes
for i, pw := range pipeWriters {
es[2*i] = pw.CloseWithError(copyErr)
}
errChan <- Errors(es).Err()
}()
return readers, errChan
}
func (f *Fs) put(ctx context.Context, in io.Reader, src fs.ObjectInfo, stream bool, options ...fs.OpenOption) (fs.Object, error) {
srcPath := src.Remote()
upstreams, err := f.create(ctx, srcPath)
if err == fs.ErrorObjectNotFound {
upstreams, err = f.mkdir(ctx, parentDir(srcPath))
}
if err != nil {
return nil, err
}
if len(upstreams) == 1 {
u := upstreams[0]
var o fs.Object
var err error
if stream {
o, err = u.Features().PutStream(ctx, in, src, options...)
} else {
o, err = u.Put(ctx, in, src, options...)
}
if err != nil {
return nil, err
}
e, err := f.wrapEntries(u.WrapObject(o))
return e.(*Object), err
}
// Multi-threading
readers, errChan := multiReader(len(upstreams), in)
errs := Errors(make([]error, len(upstreams)+1))
objs := make([]upstream.Entry, len(upstreams))
multithread(len(upstreams), func(i int) {
u := upstreams[i]
var o fs.Object
var err error
if stream {
o, err = u.Features().PutStream(ctx, readers[i], src, options...)
} else {
o, err = u.Put(ctx, readers[i], src, options...)
}
if err != nil {
errs[i] = fmt.Errorf("%s: %w", u.Name(), err)
if len(upstreams) > 1 {
// Drain the input buffer to allow other uploads to continue
_, _ = io.Copy(io.Discard, readers[i])
}
return
}
objs[i] = u.WrapObject(o)
})
errs[len(upstreams)] = <-errChan
err = errs.Err()
if err != nil {
return nil, err
}
e, err := f.wrapEntries(objs...)
return e.(*Object), err
}
// Put in to the remote path with the modTime given of the given size
//
// May create the object even if it returns an error - if so
// will return the object and the error, otherwise will return
// nil and the error
func (f *Fs) Put(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) {
o, err := f.NewObject(ctx, src.Remote())
switch err {
case nil:
return o, o.Update(ctx, in, src, options...)
case fs.ErrorObjectNotFound:
return f.put(ctx, in, src, false, options...)
default:
return nil, err
}
}
// PutStream uploads to the remote path with the modTime given of indeterminate size
//
// May create the object even if it returns an error - if so
// will return the object and the error, otherwise will return
// nil and the error
func (f *Fs) PutStream(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) {
o, err := f.NewObject(ctx, src.Remote())
switch err {
case nil:
return o, o.Update(ctx, in, src, options...)
case fs.ErrorObjectNotFound:
return f.put(ctx, in, src, true, options...)
default:
return nil, err
}
}
// About gets quota information from the Fs
func (f *Fs) About(ctx context.Context) (*fs.Usage, error) {
usage := &fs.Usage{
Total: new(int64),
Used: new(int64),
Trashed: new(int64),
Other: new(int64),
Free: new(int64),
Objects: new(int64),
}
for _, u := range f.upstreams {
usg, err := u.About(ctx)
if errors.Is(err, fs.ErrorDirNotFound) {
continue
}
if err != nil {
return nil, err
}
if usg.Total != nil && usage.Total != nil {
*usage.Total += *usg.Total
} else {
usage.Total = nil
}
if usg.Used != nil && usage.Used != nil {
*usage.Used += *usg.Used
} else {
usage.Used = nil
}
if usg.Trashed != nil && usage.Trashed != nil {
*usage.Trashed += *usg.Trashed
} else {
usage.Trashed = nil
}
if usg.Other != nil && usage.Other != nil {
*usage.Other += *usg.Other
} else {
usage.Other = nil
}
if usg.Free != nil && usage.Free != nil {
*usage.Free += *usg.Free
} else {
usage.Free = nil
}
if usg.Objects != nil && usage.Objects != nil {
*usage.Objects += *usg.Objects
} else {
usage.Objects = nil
}
}
return usage, 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(ctx context.Context, dir string) (entries fs.DirEntries, err error) {
entriesList := make([][]upstream.Entry, len(f.upstreams))
errs := Errors(make([]error, len(f.upstreams)))
multithread(len(f.upstreams), func(i int) {
u := f.upstreams[i]
entries, err := u.List(ctx, dir)
if err != nil {
errs[i] = fmt.Errorf("%s: %w", u.Name(), err)
return
}
uEntries := make([]upstream.Entry, len(entries))
for j, e := range entries {
uEntries[j], _ = u.WrapEntry(e)
}
entriesList[i] = uEntries
})
if len(errs) == len(errs.FilterNil()) {
errs = errs.Map(func(e error) error {
if errors.Is(e, fs.ErrorDirNotFound) {
return nil
}
return e
})
if len(errs) == 0 {
return nil, fs.ErrorDirNotFound
}
return nil, errs.Err()
}
return f.mergeDirEntries(entriesList)
}
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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(ctx context.Context, dir string, callback fs.ListRCallback) (err error) {
var entriesList [][]upstream.Entry
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errs := Errors(make([]error, len(f.upstreams)))
var mutex sync.Mutex
multithread(len(f.upstreams), func(i int) {
u := f.upstreams[i]
var err error
callback := func(entries fs.DirEntries) error {
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uEntries := make([]upstream.Entry, len(entries))
for j, e := range entries {
uEntries[j], _ = u.WrapEntry(e)
}
mutex.Lock()
entriesList = append(entriesList, uEntries)
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mutex.Unlock()
return nil
}
do := u.Features().ListR
if do != nil {
err = do(ctx, dir, callback)
} else {
err = walk.ListR(ctx, u, dir, true, -1, walk.ListAll, callback)
}
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if err != nil {
errs[i] = fmt.Errorf("%s: %w", u.Name(), err)
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return
}
})
if len(errs) == len(errs.FilterNil()) {
errs = errs.Map(func(e error) error {
if errors.Is(e, fs.ErrorDirNotFound) {
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return nil
}
return e
})
if len(errs) == 0 {
return fs.ErrorDirNotFound
}
return errs.Err()
}
entries, err := f.mergeDirEntries(entriesList)
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if err != nil {
return err
}
return callback(entries)
}
// NewObject creates a new remote union file object
func (f *Fs) NewObject(ctx context.Context, remote string) (fs.Object, error) {
objs := make([]*upstream.Object, len(f.upstreams))
errs := Errors(make([]error, len(f.upstreams)))
multithread(len(f.upstreams), func(i int) {
u := f.upstreams[i]
o, err := u.NewObject(ctx, remote)
if err != nil && err != fs.ErrorObjectNotFound {
errs[i] = fmt.Errorf("%s: %w", u.Name(), err)
return
}
objs[i] = u.WrapObject(o)
})
var entries []upstream.Entry
for _, o := range objs {
if o != nil {
entries = append(entries, o)
}
}
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
e, err := f.wrapEntries(entries...)
if err != nil {
return nil, err
}
return e.(*Object), errs.Err()
}
// Precision is the greatest Precision of all upstreams
func (f *Fs) Precision() time.Duration {
var greatestPrecision time.Duration
for _, u := range f.upstreams {
if u.Precision() > greatestPrecision {
greatestPrecision = u.Precision()
}
}
return greatestPrecision
}
func (f *Fs) action(ctx context.Context, path string) ([]*upstream.Fs, error) {
return f.actionPolicy.Action(ctx, f.upstreams, path)
}
func (f *Fs) actionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
return f.actionPolicy.ActionEntries(entries...)
}
func (f *Fs) create(ctx context.Context, path string) ([]*upstream.Fs, error) {
return f.createPolicy.Create(ctx, f.upstreams, path)
}
func (f *Fs) searchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
return f.searchPolicy.SearchEntries(entries...)
}
func (f *Fs) mergeDirEntries(entriesList [][]upstream.Entry) (fs.DirEntries, error) {
entryMap := make(map[string]([]upstream.Entry))
for _, en := range entriesList {
if en == nil {
continue
}
for _, entry := range en {
remote := entry.Remote()
if f.Features().CaseInsensitive {
remote = strings.ToLower(remote)
}
entryMap[remote] = append(entryMap[remote], entry)
}
}
var entries fs.DirEntries
for path := range entryMap {
e, err := f.wrapEntries(entryMap[path]...)
if err != nil {
return nil, err
}
entries = append(entries, e)
}
return entries, nil
}
// Shutdown the backend, closing any background tasks and any
// cached connections.
func (f *Fs) Shutdown(ctx context.Context) error {
errs := Errors(make([]error, len(f.upstreams)))
multithread(len(f.upstreams), func(i int) {
u := f.upstreams[i]
if do := u.Features().Shutdown; do != nil {
err := do(ctx)
if err != nil {
errs[i] = fmt.Errorf("%s: %w", u.Name(), err)
}
}
})
return errs.Err()
}
// NewFs constructs an Fs from the path.
//
// The returned Fs is the actual Fs, referenced by remote in the config
func NewFs(ctx context.Context, name, root string, m configmap.Mapper) (fs.Fs, error) {
// Parse config into Options struct
opt := new(common.Options)
err := configstruct.Set(m, opt)
if err != nil {
return nil, err
}
// Backward compatible to old config
if len(opt.Upstreams) == 0 && len(opt.Remotes) > 0 {
for i := 0; i < len(opt.Remotes)-1; i++ {
opt.Remotes[i] = opt.Remotes[i] + ":ro"
}
opt.Upstreams = opt.Remotes
}
if len(opt.Upstreams) == 0 {
return nil, errors.New("union can't point to an empty upstream - check the value of the upstreams setting")
}
if len(opt.Upstreams) == 1 {
return nil, errors.New("union can't point to a single upstream - check the value of the upstreams setting")
}
for _, u := range opt.Upstreams {
if strings.HasPrefix(u, name+":") {
return nil, errors.New("can't point union remote at itself - check the value of the upstreams setting")
}
}
root = strings.Trim(root, "/")
upstreams := make([]*upstream.Fs, len(opt.Upstreams))
errs := Errors(make([]error, len(opt.Upstreams)))
multithread(len(opt.Upstreams), func(i int) {
u := opt.Upstreams[i]
upstreams[i], errs[i] = upstream.New(ctx, u, root, opt)
})
var usedUpstreams []*upstream.Fs
var fserr error
for i, err := range errs {
if err != nil && err != fs.ErrorIsFile {
return nil, err
}
// Only the upstreams returns ErrorIsFile would be used if any
if err == fs.ErrorIsFile {
usedUpstreams = append(usedUpstreams, upstreams[i])
fserr = fs.ErrorIsFile
}
}
if fserr == nil {
usedUpstreams = upstreams
}
f := &Fs{
name: name,
root: root,
opt: *opt,
upstreams: usedUpstreams,
}
f.actionPolicy, err = policy.Get(opt.ActionPolicy)
if err != nil {
return nil, err
}
f.createPolicy, err = policy.Get(opt.CreatePolicy)
if err != nil {
return nil, err
}
f.searchPolicy, err = policy.Get(opt.SearchPolicy)
if err != nil {
return nil, err
}
fs.Debugf(f, "actionPolicy = %T, createPolicy = %T, searchPolicy = %T", f.actionPolicy, f.createPolicy, f.searchPolicy)
var features = (&fs.Features{
CaseInsensitive: true,
DuplicateFiles: false,
ReadMimeType: true,
WriteMimeType: true,
CanHaveEmptyDirectories: true,
BucketBased: true,
SetTier: true,
GetTier: true,
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ReadMetadata: true,
WriteMetadata: true,
UserMetadata: true,
}).Fill(ctx, f)
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canMove, slowHash := true, false
for _, f := range upstreams {
features = features.Mask(ctx, f) // Mask all upstream fs
if !operations.CanServerSideMove(f) {
canMove = false
}
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slowHash = slowHash || f.Features().SlowHash
}
// We can move if all remotes support Move or Copy
if canMove {
features.Move = f.Move
}
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// If any of upstreams are SlowHash, propagate it
features.SlowHash = slowHash
// Enable ListR when upstreams either support ListR or is local
// But not when all upstreams are local
if features.ListR == nil {
for _, u := range upstreams {
if u.Features().ListR != nil {
features.ListR = f.ListR
} else if !u.Features().IsLocal {
features.ListR = nil
break
}
}
}
f.features = features
// Get common intersection of hashes
hashSet := f.upstreams[0].Hashes()
for _, u := range f.upstreams[1:] {
hashSet = hashSet.Overlap(u.Hashes())
}
f.hashSet = hashSet
return f, fserr
}
func parentDir(absPath string) string {
parent := path.Dir(strings.TrimRight(filepath.ToSlash(absPath), "/"))
if parent == "." {
parent = ""
}
return parent
}
func multithread(num int, fn func(int)) {
var wg sync.WaitGroup
for i := 0; i < num; i++ {
wg.Add(1)
i := i
go func() {
defer wg.Done()
fn(i)
}()
}
wg.Wait()
}
// Check the interfaces are satisfied
var (
_ fs.Fs = (*Fs)(nil)
_ fs.Purger = (*Fs)(nil)
_ fs.PutStreamer = (*Fs)(nil)
_ fs.Copier = (*Fs)(nil)
_ fs.Mover = (*Fs)(nil)
_ fs.DirMover = (*Fs)(nil)
_ fs.DirCacheFlusher = (*Fs)(nil)
_ fs.ChangeNotifier = (*Fs)(nil)
_ fs.Abouter = (*Fs)(nil)
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_ fs.ListRer = (*Fs)(nil)
_ fs.Shutdowner = (*Fs)(nil)
)