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mirror of https://github.com/rclone/rclone synced 2024-11-21 22:50:16 +01:00

union: Implement multiple writable remotes

This commit is contained in:
Max Sum 2019-11-30 22:41:39 +08:00 committed by Nick Craig-Wood
parent 93f5125f51
commit 78a9e7440a
22 changed files with 2717 additions and 171 deletions

167
backend/union/entry.go Normal file
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package union
import (
"bufio"
"context"
"io"
"sync"
"time"
"github.com/pkg/errors"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
// Object describes a union Object
//
// This is a wrapped object which returns the Union Fs as its parent
type Object struct {
*upstream.Object
fs *Fs // what this object is part of
co []upstream.Entry
}
// Directory describes a union Directory
//
// This is a wrapped object contains all candidates
type Directory struct {
*upstream.Directory
cd []upstream.Entry
}
type entry interface {
upstream.Entry
candidates() []upstream.Entry
}
// UnWrap returns the Object that this Object is wrapping or
// nil if it isn't wrapping anything
func (o *Object) UnWrap() *upstream.Object {
return o.Object
}
// Fs returns the union Fs as the parent
func (o *Object) Fs() fs.Info {
return o.fs
}
func (o *Object) candidates() []upstream.Entry {
return o.co
}
func (d *Directory) candidates() []upstream.Entry {
return d.cd
}
// Update in to the object with the modTime given of the given size
//
// When called from outside a Fs by rclone, src.Size() will always be >= 0.
// But for unknown-sized objects (indicated by src.Size() == -1), Upload should either
// return an error or update the object properly (rather than e.g. calling panic).
func (o *Object) Update(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) error {
entries, err := o.fs.actionEntries(o.candidates()...)
if err != nil {
return err
}
if len(entries) == 1 {
obj := entries[0].(*upstream.Object)
return obj.Update(ctx, in, src, options...)
}
// Get multiple reader
readers := make([]io.Reader, len(entries))
writers := make([]io.Writer, len(entries))
errs := Errors(make([]error, len(entries)+1))
for i := range entries {
r, w := io.Pipe()
bw := bufio.NewWriter(w)
readers[i], writers[i] = r, bw
defer func() {
err := w.Close()
if err != nil {
panic(err)
}
}()
}
go func() {
mw := io.MultiWriter(writers...)
es := make([]error, len(writers)+1)
_, es[len(es)-1] = io.Copy(mw, in)
for i, bw := range writers {
es[i] = bw.(*bufio.Writer).Flush()
}
errs[len(entries)] = Errors(es).Err()
}()
// Multi-threading
multithread(len(entries), func(i int) {
if o, ok := entries[i].(*upstream.Object); ok {
err := o.Update(ctx, readers[i], src, options...)
errs[i] = errors.Wrap(err, o.UpstreamFs().Name())
} else {
errs[i] = fs.ErrorNotAFile
}
})
return errs.Err()
}
// Remove candidate objects selected by ACTION policy
func (o *Object) Remove(ctx context.Context) error {
entries, err := o.fs.actionEntries(o.candidates()...)
if err != nil {
return err
}
errs := Errors(make([]error, len(entries)))
multithread(len(entries), func(i int) {
if o, ok := entries[i].(*upstream.Object); ok {
err := o.Remove(ctx)
errs[i] = errors.Wrap(err, o.UpstreamFs().Name())
} else {
errs[i] = fs.ErrorNotAFile
}
})
return errs.Err()
}
// SetModTime sets the metadata on the object to set the modification date
func (o *Object) SetModTime(ctx context.Context, t time.Time) error {
entries, err := o.fs.actionEntries(o.candidates()...)
if err != nil {
return err
}
var wg sync.WaitGroup
errs := Errors(make([]error, len(entries)))
multithread(len(entries), func(i int) {
if o, ok := entries[i].(*upstream.Object); ok {
err := o.SetModTime(ctx, t)
errs[i] = errors.Wrap(err, o.UpstreamFs().Name())
} else {
errs[i] = fs.ErrorNotAFile
}
})
wg.Wait()
return errs.Err()
}
// ModTime returns the modification date of the directory
// It returns the latest ModTime of all candidates
func (d *Directory) ModTime(ctx context.Context) (t time.Time) {
entries := d.candidates()
times := make([]time.Time, len(entries))
multithread(len(entries), func(i int) {
times[i] = entries[i].ModTime(ctx)
})
for _, ti := range times {
if t.Before(ti) {
t = ti
}
}
return t
}
// Size returns the size of the directory
// It returns the sum of all candidates
func (d *Directory) Size() (s int64) {
for _, e := range d.candidates() {
s += e.Size()
}
return s
}

68
backend/union/errors.go Normal file
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package union
import (
"bytes"
"fmt"
)
// The Errors type wraps a slice of errors
type Errors []error
// Map returns a copy of the error slice with all its errors modified
// according to the mapping function. If mapping returns nil,
// the error is dropped from the error slice with no replacement.
func (e Errors) Map(mapping func(error) error) Errors {
s := make([]error, len(e))
i := 0
for _, err := range e {
nerr := mapping(err)
if nerr == nil {
continue
}
s[i] = nerr
i++
}
return Errors(s[:i])
}
// FilterNil returns the Errors without nil
func (e Errors) FilterNil() Errors {
ne := e.Map(func(err error) error {
return err
})
return ne
}
// Err returns a error interface that filtered nil,
// or nil if no non-nil Error is presented.
func (e Errors) Err() error {
ne := e.FilterNil()
if len(ne) == 0 {
return nil
}
return ne
}
// Error returns a concatenated string of the contained errors
func (e Errors) Error() string {
var buf bytes.Buffer
if len(e) == 0 {
buf.WriteString("no error")
}
if len(e) == 1 {
buf.WriteString("1 error: ")
} else {
fmt.Fprintf(&buf, "%d errors: ", len(e))
}
for i, err := range e {
if i != 0 {
buf.WriteString("; ")
}
buf.WriteString(err.Error())
}
return buf.String()
}

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package policy
import (
"context"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("all", &All{})
}
// All policy behaves the same as EpAll except for the CREATE category
// Action category: same as epall.
// Create category: apply to all branches.
// Search category: same as epall.
type All struct {
EpAll
}
// Create category policy, governing the creation of files and directories
func (p *All) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterNC(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
return upstreams, nil
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *All) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
entries = filterNCEntries(entries)
if len(entries) == 0 {
return nil, fs.ErrorPermissionDenied
}
return entries, nil
}

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package policy
import (
"context"
"path"
"sync"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("epall", &EpAll{})
}
// EpAll stands for existing path, all
// Action category: apply to all found.
// Create category: apply to all found.
// Search category: same as epff.
type EpAll struct {
EpFF
}
func (p *EpAll) epall(ctx context.Context, upstreams []*upstream.Fs, filePath string) ([]*upstream.Fs, error) {
var wg sync.WaitGroup
ufs := make([]*upstream.Fs, len(upstreams))
for i, u := range upstreams {
wg.Add(1)
i, u := i, u // Closure
go func() {
rfs := u.RootFs
remote := path.Join(u.RootPath, filePath)
if findEntry(ctx, rfs, remote) != nil {
ufs[i] = u
}
wg.Done()
}()
}
wg.Wait()
var results []*upstream.Fs
for _, f := range ufs {
if f != nil {
results = append(results, f)
}
}
if len(results) == 0 {
return nil, fs.ErrorObjectNotFound
}
return results, nil
}
// Action category policy, governing the modification of files and directories
func (p *EpAll) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterRO(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
return p.epall(ctx, upstreams, path)
}
// ActionEntries is ACTION category policy but receving a set of candidate entries
func (p *EpAll) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
entries = filterROEntries(entries)
if len(entries) == 0 {
return nil, fs.ErrorPermissionDenied
}
return entries, nil
}
// Create category policy, governing the creation of files and directories
func (p *EpAll) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterNC(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
upstreams, err := p.epall(ctx, upstreams, path+"/..")
return upstreams, err
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *EpAll) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
entries = filterNCEntries(entries)
if len(entries) == 0 {
return nil, fs.ErrorPermissionDenied
}
return entries, nil
}

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package policy
import (
"context"
"path"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("epff", &EpFF{})
}
// EpFF stands for existing path, first found
// Given the order of the candidates, act on the first one found where the relative path exists.
type EpFF struct{}
func (p *EpFF) epff(ctx context.Context, upstreams []*upstream.Fs, filePath string) (*upstream.Fs, error) {
ch := make(chan *upstream.Fs)
for _, u := range upstreams {
u := u // Closure
go func() {
rfs := u.RootFs
remote := path.Join(u.RootPath, filePath)
if findEntry(ctx, rfs, remote) == nil {
u = nil
}
ch <- u
}()
}
var u *upstream.Fs
for i := 0; i < len(upstreams); i++ {
u = <-ch
if u != nil {
// close remaining goroutines
go func(num int) {
defer close(ch)
for i := 0; i < num; i++ {
<-ch
}
}(len(upstreams) - 1 - i)
}
}
if u == nil {
return nil, fs.ErrorObjectNotFound
}
return u, nil
}
// Action category policy, governing the modification of files and directories
func (p *EpFF) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterRO(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
u, err := p.epff(ctx, upstreams, path)
return []*upstream.Fs{u}, err
}
// ActionEntries is ACTION category policy but receving a set of candidate entries
func (p *EpFF) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
entries = filterROEntries(entries)
if len(entries) == 0 {
return nil, fs.ErrorPermissionDenied
}
return entries[:1], nil
}
// Create category policy, governing the creation of files and directories
func (p *EpFF) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterNC(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
u, err := p.epff(ctx, upstreams, path+"/..")
return []*upstream.Fs{u}, err
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *EpFF) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
entries = filterNCEntries(entries)
if len(entries) == 0 {
return nil, fs.ErrorPermissionDenied
}
return entries[:1], nil
}
// Search category policy, governing the access to files and directories
func (p *EpFF) Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
return p.epff(ctx, upstreams, path)
}
// SearchEntries is SEARCH category policy but receving a set of candidate entries
func (p *EpFF) SearchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
return entries[0], nil
}

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package policy
import (
"context"
"math"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("eplfs", &EpLfs{})
}
// EpLfs stands for existing path, least free space
// Of all the candidates on which the path exists choose the one with the least free space.
type EpLfs struct {
EpAll
}
func (p *EpLfs) lfs(upstreams []*upstream.Fs) (*upstream.Fs, error) {
var minFreeSpace int64 = math.MaxInt64
var lfsupstream *upstream.Fs
for _, u := range upstreams {
space, err := u.GetFreeSpace()
if err != nil {
fs.LogPrintf(fs.LogLevelNotice, nil,
"Free Space is not supported for upstream %s, treating as infinite", u.Name())
}
if space < minFreeSpace {
minFreeSpace = space
lfsupstream = u
}
}
if lfsupstream == nil {
return nil, fs.ErrorObjectNotFound
}
return lfsupstream, nil
}
func (p *EpLfs) lfsEntries(entries []upstream.Entry) (upstream.Entry, error) {
var minFreeSpace int64
var lfsEntry upstream.Entry
for _, e := range entries {
space, err := e.UpstreamFs().GetFreeSpace()
if err != nil {
fs.LogPrintf(fs.LogLevelNotice, nil,
"Free Space is not supported for upstream %s, treating as infinite", e.UpstreamFs().Name())
}
if space < minFreeSpace {
minFreeSpace = space
lfsEntry = e
}
}
return lfsEntry, nil
}
// Action category policy, governing the modification of files and directories
func (p *EpLfs) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Action(ctx, upstreams, path)
if err != nil {
return nil, err
}
u, err := p.lfs(upstreams)
return []*upstream.Fs{u}, err
}
// ActionEntries is ACTION category policy but receving a set of candidate entries
func (p *EpLfs) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.ActionEntries(entries...)
if err != nil {
return nil, err
}
e, err := p.lfsEntries(entries)
return []upstream.Entry{e}, err
}
// Create category policy, governing the creation of files and directories
func (p *EpLfs) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Create(ctx, upstreams, path)
if err != nil {
return nil, err
}
u, err := p.lfs(upstreams)
return []*upstream.Fs{u}, err
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *EpLfs) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.CreateEntries(entries...)
if err != nil {
return nil, err
}
e, err := p.lfsEntries(entries)
return []upstream.Entry{e}, err
}
// Search category policy, governing the access to files and directories
func (p *EpLfs) Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams, err := p.epall(ctx, upstreams, path)
if err != nil {
return nil, err
}
return p.lfs(upstreams)
}
// SearchEntries is SEARCH category policy but receving a set of candidate entries
func (p *EpLfs) SearchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
return p.lfsEntries(entries)
}

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package policy
import (
"context"
"math"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("eplno", &EpLno{})
}
// EpLno stands for existing path, least number of objects
// Of all the candidates on which the path exists choose the one with the least number of objects
type EpLno struct {
EpAll
}
func (p *EpLno) lno(upstreams []*upstream.Fs) (*upstream.Fs, error) {
var minNumObj int64 = math.MaxInt64
var lnoUpstream *upstream.Fs
for _, u := range upstreams {
numObj, err := u.GetNumObjects()
if err != nil {
fs.LogPrintf(fs.LogLevelNotice, nil,
"Number of Objects is not supported for upstream %s, treating as 0", u.Name())
}
if minNumObj > numObj {
minNumObj = numObj
lnoUpstream = u
}
}
if lnoUpstream == nil {
return nil, fs.ErrorObjectNotFound
}
return lnoUpstream, nil
}
func (p *EpLno) lnoEntries(entries []upstream.Entry) (upstream.Entry, error) {
var minNumObj int64 = math.MaxInt64
var lnoEntry upstream.Entry
for _, e := range entries {
numObj, err := e.UpstreamFs().GetNumObjects()
if err != nil {
fs.LogPrintf(fs.LogLevelNotice, nil,
"Number of Objects is not supported for upstream %s, treating as 0", e.UpstreamFs().Name())
}
if minNumObj > numObj {
minNumObj = numObj
lnoEntry = e
}
}
return lnoEntry, nil
}
// Action category policy, governing the modification of files and directories
func (p *EpLno) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Action(ctx, upstreams, path)
if err != nil {
return nil, err
}
u, err := p.lno(upstreams)
return []*upstream.Fs{u}, err
}
// ActionEntries is ACTION category policy but receving a set of candidate entries
func (p *EpLno) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.ActionEntries(entries...)
if err != nil {
return nil, err
}
e, err := p.lnoEntries(entries)
return []upstream.Entry{e}, err
}
// Create category policy, governing the creation of files and directories
func (p *EpLno) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Create(ctx, upstreams, path)
if err != nil {
return nil, err
}
u, err := p.lno(upstreams)
return []*upstream.Fs{u}, err
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *EpLno) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.CreateEntries(entries...)
if err != nil {
return nil, err
}
e, err := p.lnoEntries(entries)
return []upstream.Entry{e}, err
}
// Search category policy, governing the access to files and directories
func (p *EpLno) Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams, err := p.epall(ctx, upstreams, path)
if err != nil {
return nil, err
}
return p.lno(upstreams)
}
// SearchEntries is SEARCH category policy but receving a set of candidate entries
func (p *EpLno) SearchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
return p.lnoEntries(entries)
}

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package policy
import (
"context"
"math"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("eplus", &EpLus{})
}
// EpLus stands for existing path, least used space
// Of all the candidates on which the path exists choose the one with the least used space.
type EpLus struct {
EpAll
}
func (p *EpLus) lus(upstreams []*upstream.Fs) (*upstream.Fs, error) {
var minUsedSpace int64 = math.MaxInt64
var lusupstream *upstream.Fs
for _, u := range upstreams {
space, err := u.GetUsedSpace()
if err != nil {
fs.LogPrintf(fs.LogLevelNotice, nil,
"Used Space is not supported for upstream %s, treating as 0", u.Name())
}
if space < minUsedSpace {
minUsedSpace = space
lusupstream = u
}
}
if lusupstream == nil {
return nil, fs.ErrorObjectNotFound
}
return lusupstream, nil
}
func (p *EpLus) lusEntries(entries []upstream.Entry) (upstream.Entry, error) {
var minUsedSpace int64
var lusEntry upstream.Entry
for _, e := range entries {
space, err := e.UpstreamFs().GetFreeSpace()
if err != nil {
fs.LogPrintf(fs.LogLevelNotice, nil,
"Used Space is not supported for upstream %s, treating as 0", e.UpstreamFs().Name())
}
if space < minUsedSpace {
minUsedSpace = space
lusEntry = e
}
}
return lusEntry, nil
}
// Action category policy, governing the modification of files and directories
func (p *EpLus) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Action(ctx, upstreams, path)
if err != nil {
return nil, err
}
u, err := p.lus(upstreams)
return []*upstream.Fs{u}, err
}
// ActionEntries is ACTION category policy but receving a set of candidate entries
func (p *EpLus) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.ActionEntries(entries...)
if err != nil {
return nil, err
}
e, err := p.lusEntries(entries)
return []upstream.Entry{e}, err
}
// Create category policy, governing the creation of files and directories
func (p *EpLus) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Create(ctx, upstreams, path)
if err != nil {
return nil, err
}
u, err := p.lus(upstreams)
return []*upstream.Fs{u}, err
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *EpLus) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.CreateEntries(entries...)
if err != nil {
return nil, err
}
e, err := p.lusEntries(entries)
return []upstream.Entry{e}, err
}
// Search category policy, governing the access to files and directories
func (p *EpLus) Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams, err := p.epall(ctx, upstreams, path)
if err != nil {
return nil, err
}
return p.lus(upstreams)
}
// SearchEntries is SEARCH category policy but receving a set of candidate entries
func (p *EpLus) SearchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
return p.lusEntries(entries)
}

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package policy
import (
"context"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("epmfs", &EpMfs{})
}
// EpMfs stands for existing path, most free space
// Of all the candidates on which the path exists choose the one with the most free space.
type EpMfs struct {
EpAll
}
func (p *EpMfs) mfs(upstreams []*upstream.Fs) (*upstream.Fs, error) {
var maxFreeSpace int64
var mfsupstream *upstream.Fs
for _, u := range upstreams {
space, err := u.GetFreeSpace()
if err != nil {
fs.LogPrintf(fs.LogLevelNotice, nil,
"Free Space is not supported for upstream %s, treating as infinite", u.Name())
}
if maxFreeSpace < space {
maxFreeSpace = space
mfsupstream = u
}
}
if mfsupstream == nil {
return nil, fs.ErrorObjectNotFound
}
return mfsupstream, nil
}
func (p *EpMfs) mfsEntries(entries []upstream.Entry) (upstream.Entry, error) {
var maxFreeSpace int64
var mfsEntry upstream.Entry
for _, e := range entries {
space, err := e.UpstreamFs().GetFreeSpace()
if err != nil {
fs.LogPrintf(fs.LogLevelNotice, nil,
"Free Space is not supported for upstream %s, treating as infinite", e.UpstreamFs().Name())
}
if maxFreeSpace < space {
maxFreeSpace = space
mfsEntry = e
}
}
return mfsEntry, nil
}
// Action category policy, governing the modification of files and directories
func (p *EpMfs) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Action(ctx, upstreams, path)
if err != nil {
return nil, err
}
u, err := p.mfs(upstreams)
return []*upstream.Fs{u}, err
}
// ActionEntries is ACTION category policy but receving a set of candidate entries
func (p *EpMfs) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.ActionEntries(entries...)
if err != nil {
return nil, err
}
e, err := p.mfsEntries(entries)
return []upstream.Entry{e}, err
}
// Create category policy, governing the creation of files and directories
func (p *EpMfs) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Create(ctx, upstreams, path)
if err != nil {
return nil, err
}
u, err := p.mfs(upstreams)
return []*upstream.Fs{u}, err
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *EpMfs) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.CreateEntries(entries...)
if err != nil {
return nil, err
}
e, err := p.mfsEntries(entries)
return []upstream.Entry{e}, err
}
// Search category policy, governing the access to files and directories
func (p *EpMfs) Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams, err := p.epall(ctx, upstreams, path)
if err != nil {
return nil, err
}
return p.mfs(upstreams)
}
// SearchEntries is SEARCH category policy but receving a set of candidate entries
func (p *EpMfs) SearchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
return p.mfsEntries(entries)
}

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@ -0,0 +1,86 @@
package policy
import (
"context"
"math/rand"
"time"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("eprand", &EpRand{})
}
// EpRand stands for existing path, random
// Calls epall and then randomizes. Returns one candidate.
type EpRand struct {
EpAll
}
func (p *EpRand) rand(upstreams []*upstream.Fs) *upstream.Fs {
rand.Seed(time.Now().Unix())
return upstreams[rand.Intn(len(upstreams))]
}
func (p *EpRand) randEntries(entries []upstream.Entry) upstream.Entry {
rand.Seed(time.Now().Unix())
return entries[rand.Intn(len(entries))]
}
// Action category policy, governing the modification of files and directories
func (p *EpRand) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Action(ctx, upstreams, path)
if err != nil {
return nil, err
}
return []*upstream.Fs{p.rand(upstreams)}, nil
}
// ActionEntries is ACTION category policy but receving a set of candidate entries
func (p *EpRand) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.ActionEntries(entries...)
if err != nil {
return nil, err
}
return []upstream.Entry{p.randEntries(entries)}, nil
}
// Create category policy, governing the creation of files and directories
func (p *EpRand) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.EpAll.Create(ctx, upstreams, path)
if err != nil {
return nil, err
}
return []*upstream.Fs{p.rand(upstreams)}, nil
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *EpRand) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.EpAll.CreateEntries(entries...)
if err != nil {
return nil, err
}
return []upstream.Entry{p.randEntries(entries)}, nil
}
// Search category policy, governing the access to files and directories
func (p *EpRand) Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams, err := p.epall(ctx, upstreams, path)
if err != nil {
return nil, err
}
return p.rand(upstreams), nil
}
// SearchEntries is SEARCH category policy but receving a set of candidate entries
func (p *EpRand) SearchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
return p.randEntries(entries), nil
}

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@ -0,0 +1,32 @@
package policy
import (
"context"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("ff", &FF{})
}
// FF stands for first found
// Search category: same as epff.
// Action category: same as epff.
// Create category: Given the order of the candiates, act on the first one found.
type FF struct {
EpFF
}
// Create category policy, governing the creation of files and directories
func (p *FF) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterNC(upstreams)
if len(upstreams) == 0 {
return upstreams, fs.ErrorPermissionDenied
}
return upstreams[:1], nil
}

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@ -0,0 +1,33 @@
package policy
import (
"context"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("lfs", &Lfs{})
}
// Lfs stands for least free space
// Search category: same as eplfs.
// Action category: same as eplfs.
// Create category: Pick the drive with the least free space.
type Lfs struct {
EpLfs
}
// Create category policy, governing the creation of files and directories
func (p *Lfs) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterNC(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
u, err := p.lfs(upstreams)
return []*upstream.Fs{u}, err
}

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@ -0,0 +1,33 @@
package policy
import (
"context"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("lno", &Lno{})
}
// Lno stands for least number of objects
// Search category: same as eplno.
// Action category: same as eplno.
// Create category: Pick the drive with the least number of objects.
type Lno struct {
EpLno
}
// Create category policy, governing the creation of files and directories
func (p *Lno) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterNC(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
u, err := p.lno(upstreams)
return []*upstream.Fs{u}, err
}

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@ -0,0 +1,33 @@
package policy
import (
"context"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("lus", &Lus{})
}
// Lus stands for least used space
// Search category: same as eplus.
// Action category: same as eplus.
// Create category: Pick the drive with the least used space.
type Lus struct {
EpLus
}
// Create category policy, governing the creation of files and directories
func (p *Lus) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterNC(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
u, err := p.lus(upstreams)
return []*upstream.Fs{u}, err
}

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@ -0,0 +1,33 @@
package policy
import (
"context"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("mfs", &Mfs{})
}
// Mfs stands for most free space
// Search category: same as epmfs.
// Action category: same as epmfs.
// Create category: Pick the drive with the most free space.
type Mfs struct {
EpMfs
}
// Create category policy, governing the creation of files and directories
func (p *Mfs) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterNC(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
u, err := p.mfs(upstreams)
return []*upstream.Fs{u}, err
}

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@ -0,0 +1,149 @@
package policy
import (
"context"
"path"
"sync"
"time"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("newest", &Newest{})
}
// Newest policy picks the file / directory with the largest mtime
// It implies the existance of a path
type Newest struct {
EpAll
}
func (p *Newest) newest(ctx context.Context, upstreams []*upstream.Fs, filePath string) (*upstream.Fs, error) {
var wg sync.WaitGroup
ufs := make([]*upstream.Fs, len(upstreams))
mtimes := make([]time.Time, len(upstreams))
for i, u := range upstreams {
wg.Add(1)
i, u := i, u // Closure
go func() {
defer wg.Done()
rfs := u.RootFs
remote := path.Join(u.RootPath, filePath)
if e := findEntry(ctx, rfs, remote); e != nil {
ufs[i] = u
mtimes[i] = e.ModTime(ctx)
}
}()
}
wg.Wait()
maxMtime := time.Time{}
var newestFs *upstream.Fs
for i, u := range ufs {
if u != nil && mtimes[i].After(maxMtime) {
maxMtime = mtimes[i]
newestFs = u
}
}
if newestFs == nil {
return nil, fs.ErrorObjectNotFound
}
return newestFs, nil
}
func (p *Newest) newestEntries(entries []upstream.Entry) (upstream.Entry, error) {
var wg sync.WaitGroup
mtimes := make([]time.Time, len(entries))
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
for i, e := range entries {
wg.Add(1)
i, e := i, e // Closure
go func() {
defer wg.Done()
mtimes[i] = e.ModTime(ctx)
}()
}
wg.Wait()
maxMtime := time.Time{}
var newestEntry upstream.Entry
for i, t := range mtimes {
if t.After(maxMtime) {
maxMtime = t
newestEntry = entries[i]
}
}
if newestEntry == nil {
return nil, fs.ErrorObjectNotFound
}
return newestEntry, nil
}
// Action category policy, governing the modification of files and directories
func (p *Newest) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterRO(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
u, err := p.newest(ctx, upstreams, path)
return []*upstream.Fs{u}, err
}
// ActionEntries is ACTION category policy but receving a set of candidate entries
func (p *Newest) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
entries = filterROEntries(entries)
if len(entries) == 0 {
return nil, fs.ErrorPermissionDenied
}
e, err := p.newestEntries(entries)
return []upstream.Entry{e}, err
}
// Create category policy, governing the creation of files and directories
func (p *Newest) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams = filterNC(upstreams)
if len(upstreams) == 0 {
return nil, fs.ErrorPermissionDenied
}
u, err := p.newest(ctx, upstreams, path+"/..")
return []*upstream.Fs{u}, err
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *Newest) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
entries = filterNCEntries(entries)
if len(entries) == 0 {
return nil, fs.ErrorPermissionDenied
}
e, err := p.newestEntries(entries)
return []upstream.Entry{e}, err
}
// Search category policy, governing the access to files and directories
func (p *Newest) Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
return p.newest(ctx, upstreams, path)
}
// SearchEntries is SEARCH category policy but receving a set of candidate entries
func (p *Newest) SearchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
return p.newestEntries(entries)
}

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@ -0,0 +1,129 @@
package policy
import (
"context"
"math/rand"
"path"
"strings"
"time"
"github.com/pkg/errors"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
var policies = make(map[string]Policy)
// Policy is the interface of a set of defined behavior choosing
// the upstream Fs to operate on
type Policy interface {
// Action category policy, governing the modification of files and directories
Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error)
// Create category policy, governing the creation of files and directories
Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error)
// Search category policy, governing the access to files and directories
Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error)
// ActionEntries is ACTION category policy but receving a set of candidate entries
ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error)
// CreateEntries is CREATE category policy but receving a set of candidate entries
CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error)
// SearchEntries is SEARCH category policy but receving a set of candidate entries
SearchEntries(entries ...upstream.Entry) (upstream.Entry, error)
}
func registerPolicy(name string, p Policy) {
policies[strings.ToLower(name)] = p
}
// Get a Policy from the list
func Get(name string) (Policy, error) {
p, ok := policies[strings.ToLower(name)]
if !ok {
return nil, errors.Errorf("didn't find policy called %q", name)
}
return p, nil
}
func filterRO(ufs []*upstream.Fs) (wufs []*upstream.Fs) {
for _, u := range ufs {
if u.IsWritable() {
wufs = append(wufs, u)
}
}
return wufs
}
func filterROEntries(ue []upstream.Entry) (wue []upstream.Entry) {
for _, e := range ue {
if e.UpstreamFs().IsWritable() {
wue = append(wue, e)
}
}
return wue
}
func filterNC(ufs []*upstream.Fs) (wufs []*upstream.Fs) {
for _, u := range ufs {
if u.IsCreatable() {
wufs = append(wufs, u)
}
}
return wufs
}
func filterNCEntries(ue []upstream.Entry) (wue []upstream.Entry) {
for _, e := range ue {
if e.UpstreamFs().IsCreatable() {
wue = append(wue, e)
}
}
return wue
}
func parentDir(absPath string) string {
parent := path.Dir(strings.TrimRight(absPath, "/"))
if parent == "." {
parent = ""
}
return parent
}
func clean(absPath string) string {
cleanPath := path.Clean(absPath)
if cleanPath == "." {
cleanPath = ""
}
return cleanPath
}
func findEntry(ctx context.Context, f fs.Fs, remote string) fs.DirEntry {
remote = clean(remote)
dir := parentDir(remote)
entries, err := f.List(ctx, dir)
if remote == dir {
if err != nil {
return nil
}
// random modtime for root
randomNow := time.Unix(time.Now().Unix()-rand.Int63n(10000), 0)
return fs.NewDir("", randomNow)
}
found := false
for _, e := range entries {
eRemote := e.Remote()
if f.Features().CaseInsensitive {
found = strings.EqualFold(remote, eRemote)
} else {
found = (remote == eRemote)
}
if found {
return e
}
}
return nil
}

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@ -0,0 +1,83 @@
package policy
import (
"context"
"math/rand"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
)
func init() {
registerPolicy("rand", &Rand{})
}
// Rand stands for random
// Calls all and then randomizes. Returns one candidate.
type Rand struct {
All
}
func (p *Rand) rand(upstreams []*upstream.Fs) *upstream.Fs {
return upstreams[rand.Intn(len(upstreams))]
}
func (p *Rand) randEntries(entries []upstream.Entry) upstream.Entry {
return entries[rand.Intn(len(entries))]
}
// Action category policy, governing the modification of files and directories
func (p *Rand) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.All.Action(ctx, upstreams, path)
if err != nil {
return nil, err
}
return []*upstream.Fs{p.rand(upstreams)}, nil
}
// ActionEntries is ACTION category policy but receving a set of candidate entries
func (p *Rand) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.All.ActionEntries(entries...)
if err != nil {
return nil, err
}
return []upstream.Entry{p.randEntries(entries)}, nil
}
// Create category policy, governing the creation of files and directories
func (p *Rand) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) {
upstreams, err := p.All.Create(ctx, upstreams, path)
if err != nil {
return nil, err
}
return []*upstream.Fs{p.rand(upstreams)}, nil
}
// CreateEntries is CREATE category policy but receving a set of candidate entries
func (p *Rand) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
entries, err := p.All.CreateEntries(entries...)
if err != nil {
return nil, err
}
return []upstream.Entry{p.randEntries(entries)}, nil
}
// Search category policy, governing the access to files and directories
func (p *Rand) Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error) {
if len(upstreams) == 0 {
return nil, fs.ErrorObjectNotFound
}
upstreams, err := p.epall(ctx, upstreams, path)
if err != nil {
return nil, err
}
return p.rand(upstreams), nil
}
// SearchEntries is SEARCH category policy but receving a set of candidate entries
func (p *Rand) SearchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
if len(entries) == 0 {
return nil, fs.ErrorObjectNotFound
}
return p.randEntries(entries), nil
}

View File

@ -1,17 +1,20 @@
package union
import (
"bufio"
"context"
"fmt"
"io"
"path"
"path/filepath"
"strings"
"sync"
"time"
"github.com/pkg/errors"
"github.com/rclone/rclone/backend/union/policy"
"github.com/rclone/rclone/backend/union/upstream"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/cache"
"github.com/rclone/rclone/fs/config/configmap"
"github.com/rclone/rclone/fs/config/configstruct"
"github.com/rclone/rclone/fs/hash"
@ -21,12 +24,32 @@ import (
func init() {
fsi := &fs.RegInfo{
Name: "union",
Description: "Union merges the contents of several remotes",
Description: "Union merges the contents of several upstream fs",
NewFs: NewFs,
Options: []fs.Option{{
Name: "remotes",
Help: "List of space separated remotes.\nCan be 'remotea:test/dir remoteb:', '\"remotea:test/space dir\" remoteb:', etc.\nThe last remote is used to write to.",
Name: "upstreams",
Help: "List of space separated upstreams.\nCan be 'upstreama:test/dir upstreamb:', '\"upstreama:test/space:ro dir\" upstreamb:', etc.\n",
Required: true,
}, {
Name: "action_policy",
Help: "Policy to choose upstream on ACTION category.",
Required: true,
Default: "epall",
}, {
Name: "create_policy",
Help: "Policy to choose upstream on CREATE category.",
Required: true,
Default: "epmfs",
}, {
Name: "search_policy",
Help: "Policy to choose upstream on SEARCH category.",
Required: true,
Default: "ff",
}, {
Name: "cache_time",
Help: "Cache time of usage and free space (in seconds). This option is only useful when a path preserving policy is used.",
Required: true,
Default: 120,
}},
}
fs.Register(fsi)
@ -34,39 +57,48 @@ func init() {
// Options defines the configuration for this backend
type Options struct {
Remotes fs.SpaceSepList `config:"remotes"`
Upstreams fs.SpaceSepList `config:"upstreams"`
Remotes fs.SpaceSepList `config:"remotes"` // Depreated
ActionPolicy string `config:"action_policy"`
CreatePolicy string `config:"create_policy"`
SearchPolicy string `config:"search_policy"`
CacheTime int `config:"cache_time"`
}
// Fs represents a union of remotes
// Fs represents a union of upstreams
type Fs struct {
name string // name of this remote
features *fs.Features // optional features
opt Options // options for this Fs
root string // the path we are working on
remotes []fs.Fs // slice of remotes
wr fs.Fs // writable remote
hashSet hash.Set // intersection of hash types
name string // name of this remote
features *fs.Features // optional features
opt 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
}
// Object describes a union Object
//
// This is a wrapped object which returns the Union Fs as its parent
type Object struct {
fs.Object
fs *Fs // what this object is part of
}
// Wrap an existing object in the union Object
func (f *Fs) wrapObject(o fs.Object) *Object {
return &Object{
Object: o,
fs: f,
// Wrap candidate objects in to an union Object
func (f *Fs) wrapEntries(entries ...upstream.Entry) (entry, error) {
e, err := f.searchEntries(entries...)
if err != nil {
return nil, err
}
switch e.(type) {
case *upstream.Object:
return &Object{
Object: e.(*upstream.Object),
fs: f,
co: entries,
}, nil
case *upstream.Directory:
return &Directory{
Directory: e.(*upstream.Directory),
cd: entries,
}, nil
default:
return nil, errors.Errorf("unknown object type %T", e)
}
}
// Fs returns the union Fs as the parent
func (o *Object) Fs() fs.Info {
return o.fs
}
// Name of the remote (as passed into NewFs)
@ -91,7 +123,16 @@ func (f *Fs) Features() *fs.Features {
// Rmdir removes the root directory of the Fs object
func (f *Fs) Rmdir(ctx context.Context, dir string) error {
return f.wr.Rmdir(ctx, dir)
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)
errs[i] = errors.Wrap(err, upstreams[i].Name())
})
return errs.Err()
}
// Hashes returns hash.HashNone to indicate remote hashing is unavailable
@ -101,7 +142,22 @@ func (f *Fs) Hashes() hash.Set {
// Mkdir makes the root directory of the Fs object
func (f *Fs) Mkdir(ctx context.Context, dir string) error {
return f.wr.Mkdir(ctx, dir)
upstreams, err := f.create(ctx, dir)
if err == fs.ErrorObjectNotFound && dir != parentDir(dir) {
if err := f.Mkdir(ctx, parentDir(dir)); err != nil {
return err
}
upstreams, err = f.create(ctx, dir)
}
if err != nil {
return err
}
errs := Errors(make([]error, len(upstreams)))
multithread(len(upstreams), func(i int) {
err := upstreams[i].Mkdir(ctx, dir)
errs[i] = errors.Wrap(err, upstreams[i].Name())
})
return errs.Err()
}
// Purge all files in the root and the root directory
@ -111,7 +167,21 @@ func (f *Fs) Mkdir(ctx context.Context, dir string) error {
//
// Return an error if it doesn't exist
func (f *Fs) Purge(ctx context.Context) error {
return f.wr.Features().Purge(ctx)
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)
errs[i] = errors.Wrap(err, upstreams[i].Name())
})
return errs.Err()
}
// Copy src to this remote using server side copy operations.
@ -124,15 +194,26 @@ func (f *Fs) Purge(ctx context.Context) error {
//
// If it isn't possible then return fs.ErrorCantCopy
func (f *Fs) Copy(ctx context.Context, src fs.Object, remote string) (fs.Object, error) {
if src.Fs() != f.wr {
srcObj, ok := src.(*Object)
if !ok {
fs.Debugf(src, "Can't copy - not same remote type")
return nil, fs.ErrorCantCopy
}
o, err := f.wr.Features().Copy(ctx, src, remote)
if err != nil {
o := srcObj.UnWrap()
u := o.UpstreamFs()
do := u.Features().Copy
if do == nil {
return nil, fs.ErrorCantCopy
}
if !u.IsCreatable() {
return nil, fs.ErrorPermissionDenied
}
co, err := do(ctx, o, remote)
if err != nil || co == nil {
return nil, err
}
return f.wrapObject(o), nil
wo, err := f.wrapEntries(u.WrapObject(co))
return wo.(*Object), err
}
// Move src to this remote using server side move operations.
@ -145,15 +226,47 @@ func (f *Fs) Copy(ctx context.Context, src fs.Object, remote string) (fs.Object,
//
// If it isn't possible then return fs.ErrorCantMove
func (f *Fs) Move(ctx context.Context, src fs.Object, remote string) (fs.Object, error) {
if src.Fs() != f.wr {
o, ok := src.(*Object)
if !ok {
fs.Debugf(src, "Can't move - not same remote type")
return nil, fs.ErrorCantMove
}
o, err := f.wr.Features().Move(ctx, src, remote)
entries, err := f.actionEntries(o.candidates()...)
if err != nil {
return nil, err
}
return f.wrapObject(o), err
for _, e := range entries {
if e.UpstreamFs().Features().Move == nil {
return nil, fs.ErrorCantMove
}
}
objs := make([]*upstream.Object, len(entries))
errs := Errors(make([]error, len(entries)))
multithread(len(entries), func(i int) {
u := entries[i].UpstreamFs()
o, ok := entries[i].(*upstream.Object)
if !ok {
errs[i] = errors.Wrap(fs.ErrorNotAFile, u.Name())
return
}
mo, err := u.Features().Move(ctx, o.UnWrap(), remote)
if err != nil || mo == nil {
errs[i] = errors.Wrap(err, u.Name())
return
}
objs[i] = u.WrapObject(mo)
})
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
@ -165,12 +278,46 @@ func (f *Fs) Move(ctx context.Context, src fs.Object, remote string) (fs.Object,
//
// If destination exists then return fs.ErrorDirExists
func (f *Fs) DirMove(ctx context.Context, src fs.Fs, srcRemote, dstRemote string) error {
srcFs, ok := src.(*Fs)
sfs, ok := src.(*Fs)
if !ok {
fs.Debugf(srcFs, "Can't move directory - not same remote type")
fs.Debugf(src, "Can't move directory - not same remote type")
return fs.ErrorCantDirMove
}
return f.wr.Features().DirMove(ctx, srcFs.wr, srcRemote, dstRemote)
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 {
if u.RootFs.Root() == su.RootFs.Root() {
du = u
}
}
if du == nil {
errs[i] = errors.Wrap(fs.ErrorCantDirMove, su.Name()+":"+su.Root())
return
}
err := du.Features().DirMove(ctx, su.Fs, srcRemote, dstRemote)
errs[i] = errors.Wrap(err, du.Name()+":"+du.Root())
})
errs = errs.FilterNil()
if len(errs) == 0 {
return nil
}
for _, e := range errs {
if errors.Cause(e) != fs.ErrorDirExists {
return errs
}
}
return fs.ErrorDirExists
}
// ChangeNotify calls the passed function with a path
@ -183,23 +330,23 @@ func (f *Fs) DirMove(ctx context.Context, src fs.Fs, srcRemote, dstRemote string
// 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 remoteChans []chan time.Duration
var uChans []chan time.Duration
for _, remote := range f.remotes {
if ChangeNotify := remote.Features().ChangeNotify; ChangeNotify != nil {
for _, u := range f.upstreams {
if ChangeNotify := u.Features().ChangeNotify; ChangeNotify != nil {
ch := make(chan time.Duration)
remoteChans = append(remoteChans, ch)
uChans = append(uChans, ch)
ChangeNotify(ctx, fn, ch)
}
}
go func() {
for i := range ch {
for _, c := range remoteChans {
for _, c := range uChans {
c <- i
}
}
for _, c := range remoteChans {
for _, c := range uChans {
close(c)
}
}()
@ -208,10 +355,103 @@ func (f *Fs) ChangeNotify(ctx context.Context, fn func(string, fs.EntryType), ch
// DirCacheFlush resets the directory cache - used in testing
// as an optional interface
func (f *Fs) DirCacheFlush() {
for _, remote := range f.remotes {
if DirCacheFlush := remote.Features().DirCacheFlush; DirCacheFlush != nil {
DirCacheFlush()
multithread(len(f.upstreams), func(i int) {
if do := f.upstreams[i].Features().DirCacheFlush; do != nil {
do()
}
})
}
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 {
if err := f.Mkdir(ctx, parentDir(srcPath)); err != nil {
return nil, err
}
upstreams, err = f.create(ctx, 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
}
errs := Errors(make([]error, len(upstreams)+1))
// Get multiple reader
readers := make([]io.Reader, len(upstreams))
writers := make([]io.Writer, len(upstreams))
for i := range writers {
r, w := io.Pipe()
bw := bufio.NewWriter(w)
readers[i], writers[i] = r, bw
defer func() {
err := w.Close()
if err != nil {
panic(err)
}
}()
}
go func() {
mw := io.MultiWriter(writers...)
es := make([]error, len(writers)+1)
_, es[len(es)-1] = io.Copy(mw, in)
for i, bw := range writers {
es[i] = bw.(*bufio.Writer).Flush()
}
errs[len(upstreams)] = Errors(es).Err()
}()
// Multi-threading
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] = errors.Wrap(err, u.Name())
return
}
objs[i] = u.WrapObject(o)
})
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
}
}
@ -221,29 +461,64 @@ func (f *Fs) DirCacheFlush() {
// 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.wr.Features().PutStream(ctx, in, src, options...)
if err != nil {
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
}
return f.wrapObject(o), err
}
// About gets quota information from the Fs
func (f *Fs) About(ctx context.Context) (*fs.Usage, error) {
return f.wr.Features().About(ctx)
}
// 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.wr.Put(ctx, in, src, options...)
if err != nil {
return nil, err
usage := &fs.Usage{
Total: new(int64),
Used: new(int64),
Trashed: new(int64),
Other: new(int64),
Free: new(int64),
Objects: new(int64),
}
return f.wrapObject(o), err
for _, u := range f.upstreams {
usg, err := u.About(ctx)
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
@ -256,60 +531,125 @@ func (f *Fs) Put(ctx context.Context, in io.Reader, src fs.ObjectInfo, options .
// This should return ErrDirNotFound if the directory isn't
// found.
func (f *Fs) List(ctx context.Context, dir string) (entries fs.DirEntries, err error) {
set := make(map[string]fs.DirEntry)
found := false
for _, remote := range f.remotes {
var remoteEntries, err = remote.List(ctx, dir)
if err == fs.ErrorDirNotFound {
continue
}
entriess := 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 {
return nil, errors.Wrapf(err, "List failed on %v", remote)
errs[i] = errors.Wrap(err, u.Name())
return
}
found = true
for _, remoteEntry := range remoteEntries {
set[remoteEntry.Remote()] = remoteEntry
uEntries := make([]upstream.Entry, len(entries))
for j, e := range entries {
uEntries[j], _ = u.WrapEntry(e)
}
}
if !found {
return nil, fs.ErrorDirNotFound
}
for _, entry := range set {
if o, ok := entry.(fs.Object); ok {
entry = f.wrapObject(o)
entriess[i] = uEntries
})
if len(errs) == len(errs.FilterNil()) {
errs = errs.Map(func(e error) error {
if errors.Cause(e) == fs.ErrorDirNotFound {
return nil
}
return e
})
if len(errs) == 0 {
return nil, fs.ErrorDirNotFound
}
entries = append(entries, entry)
return nil, errs.Err()
}
return entries, nil
return f.mergeDirEntries(entriess)
}
// NewObject creates a new remote union file object based on the first Object it finds (reverse remote order)
func (f *Fs) NewObject(ctx context.Context, path string) (fs.Object, error) {
for i := range f.remotes {
var remote = f.remotes[len(f.remotes)-i-1]
var obj, err = remote.NewObject(ctx, path)
if err == fs.ErrorObjectNotFound {
continue
// 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] = errors.Wrap(err, u.Name())
return
}
if err != nil {
return nil, errors.Wrapf(err, "NewObject failed on %v", remote)
objs[i] = u.WrapObject(o)
})
var entries []upstream.Entry
for _, o := range objs {
if o != nil {
entries = append(entries, o)
}
return f.wrapObject(obj), nil
}
return nil, fs.ErrorObjectNotFound
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 remotes
// Precision is the greatest Precision of all upstreams
func (f *Fs) Precision() time.Duration {
var greatestPrecision time.Duration
for _, remote := range f.remotes {
if remote.Precision() > greatestPrecision {
greatestPrecision = remote.Precision()
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) createEntries(entries ...upstream.Entry) ([]upstream.Entry, error) {
return f.createPolicy.CreateEntries(entries...)
}
func (f *Fs) search(ctx context.Context, path string) (*upstream.Fs, error) {
return f.searchPolicy.Search(ctx, f.upstreams, path)
}
func (f *Fs) searchEntries(entries ...upstream.Entry) (upstream.Entry, error) {
return f.searchPolicy.SearchEntries(entries...)
}
func (f *Fs) mergeDirEntries(entriess [][]upstream.Entry) (fs.DirEntries, error) {
entryMap := make(map[string]([]upstream.Entry))
for _, en := range entriess {
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
}
// NewFs constructs an Fs from the path.
//
// The returned Fs is the actual Fs, referenced by remote in the config
@ -320,51 +660,64 @@ func NewFs(name, root string, m configmap.Mapper) (fs.Fs, error) {
if err != nil {
return nil, err
}
if len(opt.Remotes) == 0 {
return nil, errors.New("union can't point to an empty remote - check the value of the remotes setting")
// 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.Remotes) == 1 {
return nil, errors.New("union can't point to a single remote - check the value of the remotes setting")
if len(opt.Upstreams) == 0 {
return nil, errors.New("union can't point to an empty upstream - check the value of the upstreams setting")
}
for _, remote := range opt.Remotes {
if strings.HasPrefix(remote, name+":") {
return nil, errors.New("can't point union remote at itself - check the value of the remote 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")
}
}
var remotes []fs.Fs
for i := range opt.Remotes {
// Last remote first so we return the correct (last) matching fs in case of fs.ErrorIsFile
var remote = opt.Remotes[len(opt.Remotes)-i-1]
_, configName, fsPath, err := fs.ParseRemote(remote)
if err != nil {
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(u, root, time.Duration(opt.CacheTime)*time.Second)
})
var usedUpstreams []*upstream.Fs
var fserr error
for i, err := range errs {
if err != nil && err != fs.ErrorIsFile {
return nil, err
}
var rootString = path.Join(fsPath, filepath.ToSlash(root))
if configName != "local" {
rootString = configName + ":" + rootString
// Only the upstreams returns ErrorIsFile would be used if any
if err == fs.ErrorIsFile {
usedUpstreams = append(usedUpstreams, upstreams[i])
fserr = fs.ErrorIsFile
}
myFs, err := cache.Get(rootString)
if err != nil {
if err == fs.ErrorIsFile {
return myFs, err
}
return nil, err
}
remotes = append(remotes, myFs)
}
// Reverse the remotes again so they are in the order as before
for i, j := 0, len(remotes)-1; i < j; i, j = i+1, j-1 {
remotes[i], remotes[j] = remotes[j], remotes[i]
if fserr == nil {
usedUpstreams = upstreams
}
f := &Fs{
name: name,
root: root,
opt: *opt,
remotes: remotes,
wr: remotes[len(remotes)-1],
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
}
var features = (&fs.Features{
CaseInsensitive: true,
@ -376,9 +729,14 @@ func NewFs(name, root string, m configmap.Mapper) (fs.Fs, error) {
SetTier: true,
GetTier: true,
}).Fill(f)
features = features.Mask(f.wr) // mask the features just on the writable fs
for _, f := range upstreams {
if !f.IsWritable() {
continue
}
features = features.Mask(f) // Mask all writable upstream fs
}
// Really need the union of all remotes for these, so
// Really need the union of all upstreams for these, so
// re-instate and calculate separately.
features.ChangeNotify = f.ChangeNotify
features.DirCacheFlush = f.DirCacheFlush
@ -388,12 +746,12 @@ func NewFs(name, root string, m configmap.Mapper) (fs.Fs, error) {
// Clear ChangeNotify and DirCacheFlush if all are nil
clearChangeNotify := true
clearDirCacheFlush := true
for _, remote := range f.remotes {
remoteFeatures := remote.Features()
if remoteFeatures.ChangeNotify != nil {
for _, u := range f.upstreams {
uFeatures := u.Features()
if uFeatures.ChangeNotify != nil {
clearChangeNotify = false
}
if remoteFeatures.DirCacheFlush != nil {
if uFeatures.DirCacheFlush != nil {
clearDirCacheFlush = false
}
}
@ -407,13 +765,34 @@ func NewFs(name, root string, m configmap.Mapper) (fs.Fs, error) {
f.features = features
// Get common intersection of hashes
hashSet := f.remotes[0].Hashes()
for _, remote := range f.remotes[1:] {
hashSet = hashSet.Overlap(remote.Hashes())
hashSet := f.upstreams[0].Hashes()
for _, u := range f.upstreams[1:] {
hashSet = hashSet.Overlap(u.Hashes())
}
f.hashSet = hashSet
return f, nil
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

View File

@ -2,17 +2,154 @@
package union_test
import (
"os"
"path/filepath"
"testing"
_ "github.com/rclone/rclone/backend/local"
"github.com/rclone/rclone/fstest"
"github.com/rclone/rclone/fstest/fstests"
"github.com/stretchr/testify/require"
)
// TestIntegration runs integration tests against the remote
func TestIntegration(t *testing.T) {
if *fstest.RemoteName == "" {
t.Skip("Skipping as -remote not set")
}
fstests.Run(t, &fstests.Opt{
RemoteName: "TestUnion:",
NilObject: nil,
SkipFsMatch: true,
RemoteName: *fstest.RemoteName,
UnimplementableFsMethods: []string{"OpenWriterAt", "DuplicateFiles"},
UnimplementableObjectMethods: []string{"MimeType"},
})
}
func TestStandard(t *testing.T) {
if *fstest.RemoteName != "" {
t.Skip("Skipping as -remote set")
}
tempdir1 := filepath.Join(os.TempDir(), "rclone-union-test-standard1")
tempdir2 := filepath.Join(os.TempDir(), "rclone-union-test-standard2")
tempdir3 := filepath.Join(os.TempDir(), "rclone-union-test-standard3")
require.NoError(t, os.MkdirAll(tempdir1, 0744))
require.NoError(t, os.MkdirAll(tempdir2, 0744))
require.NoError(t, os.MkdirAll(tempdir3, 0744))
upstreams := tempdir1 + " " + tempdir2 + " " + tempdir3
name := "TestUnion"
fstests.Run(t, &fstests.Opt{
RemoteName: name + ":",
ExtraConfig: []fstests.ExtraConfigItem{
{Name: name, Key: "type", Value: "union"},
{Name: name, Key: "upstreams", Value: upstreams},
{Name: name, Key: "action_policy", Value: "epall"},
{Name: name, Key: "create_policy", Value: "epmfs"},
{Name: name, Key: "search_policy", Value: "ff"},
},
UnimplementableFsMethods: []string{"OpenWriterAt", "DuplicateFiles"},
UnimplementableObjectMethods: []string{"MimeType"},
})
}
func TestRO(t *testing.T) {
if *fstest.RemoteName != "" {
t.Skip("Skipping as -remote set")
}
tempdir1 := filepath.Join(os.TempDir(), "rclone-union-test-ro1")
tempdir2 := filepath.Join(os.TempDir(), "rclone-union-test-ro2")
tempdir3 := filepath.Join(os.TempDir(), "rclone-union-test-ro3")
require.NoError(t, os.MkdirAll(tempdir1, 0744))
require.NoError(t, os.MkdirAll(tempdir2, 0744))
require.NoError(t, os.MkdirAll(tempdir3, 0744))
upstreams := tempdir1 + " " + tempdir2 + ":ro " + tempdir3 + ":ro"
name := "TestUnionRO"
fstests.Run(t, &fstests.Opt{
RemoteName: name + ":",
ExtraConfig: []fstests.ExtraConfigItem{
{Name: name, Key: "type", Value: "union"},
{Name: name, Key: "upstreams", Value: upstreams},
{Name: name, Key: "action_policy", Value: "epall"},
{Name: name, Key: "create_policy", Value: "epmfs"},
{Name: name, Key: "search_policy", Value: "ff"},
},
UnimplementableFsMethods: []string{"OpenWriterAt", "DuplicateFiles"},
UnimplementableObjectMethods: []string{"MimeType"},
})
}
func TestNC(t *testing.T) {
if *fstest.RemoteName != "" {
t.Skip("Skipping as -remote set")
}
tempdir1 := filepath.Join(os.TempDir(), "rclone-union-test-nc1")
tempdir2 := filepath.Join(os.TempDir(), "rclone-union-test-nc2")
tempdir3 := filepath.Join(os.TempDir(), "rclone-union-test-nc3")
require.NoError(t, os.MkdirAll(tempdir1, 0744))
require.NoError(t, os.MkdirAll(tempdir2, 0744))
require.NoError(t, os.MkdirAll(tempdir3, 0744))
upstreams := tempdir1 + " " + tempdir2 + ":nc " + tempdir3 + ":nc"
name := "TestUnionNC"
fstests.Run(t, &fstests.Opt{
RemoteName: name + ":",
ExtraConfig: []fstests.ExtraConfigItem{
{Name: name, Key: "type", Value: "union"},
{Name: name, Key: "upstreams", Value: upstreams},
{Name: name, Key: "action_policy", Value: "epall"},
{Name: name, Key: "create_policy", Value: "epmfs"},
{Name: name, Key: "search_policy", Value: "ff"},
},
UnimplementableFsMethods: []string{"OpenWriterAt", "DuplicateFiles"},
UnimplementableObjectMethods: []string{"MimeType"},
})
}
func TestPolicy1(t *testing.T) {
if *fstest.RemoteName != "" {
t.Skip("Skipping as -remote set")
}
tempdir1 := filepath.Join(os.TempDir(), "rclone-union-test-policy11")
tempdir2 := filepath.Join(os.TempDir(), "rclone-union-test-policy12")
tempdir3 := filepath.Join(os.TempDir(), "rclone-union-test-policy13")
require.NoError(t, os.MkdirAll(tempdir1, 0744))
require.NoError(t, os.MkdirAll(tempdir2, 0744))
require.NoError(t, os.MkdirAll(tempdir3, 0744))
upstreams := tempdir1 + " " + tempdir2 + " " + tempdir3
name := "TestUnionPolicy1"
fstests.Run(t, &fstests.Opt{
RemoteName: name + ":",
ExtraConfig: []fstests.ExtraConfigItem{
{Name: name, Key: "type", Value: "union"},
{Name: name, Key: "upstreams", Value: upstreams},
{Name: name, Key: "action_policy", Value: "all"},
{Name: name, Key: "create_policy", Value: "lus"},
{Name: name, Key: "search_policy", Value: "all"},
},
UnimplementableFsMethods: []string{"OpenWriterAt", "DuplicateFiles"},
UnimplementableObjectMethods: []string{"MimeType"},
})
}
func TestPolicy2(t *testing.T) {
if *fstest.RemoteName != "" {
t.Skip("Skipping as -remote set")
}
tempdir1 := filepath.Join(os.TempDir(), "rclone-union-test-policy21")
tempdir2 := filepath.Join(os.TempDir(), "rclone-union-test-policy22")
tempdir3 := filepath.Join(os.TempDir(), "rclone-union-test-policy23")
require.NoError(t, os.MkdirAll(tempdir1, 0744))
require.NoError(t, os.MkdirAll(tempdir2, 0744))
require.NoError(t, os.MkdirAll(tempdir3, 0744))
upstreams := tempdir1 + " " + tempdir2 + " " + tempdir3
name := "TestUnionPolicy2"
fstests.Run(t, &fstests.Opt{
RemoteName: name + ":",
ExtraConfig: []fstests.ExtraConfigItem{
{Name: name, Key: "type", Value: "union"},
{Name: name, Key: "upstreams", Value: upstreams},
{Name: name, Key: "action_policy", Value: "all"},
{Name: name, Key: "create_policy", Value: "rand"},
{Name: name, Key: "search_policy", Value: "ff"},
},
UnimplementableFsMethods: []string{"OpenWriterAt", "DuplicateFiles"},
UnimplementableObjectMethods: []string{"MimeType"},
})
}

View File

@ -0,0 +1,348 @@
package upstream
import (
"context"
"io"
"math"
"path"
"path/filepath"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/pkg/errors"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/cache"
)
var (
// ErrUsageFieldNotSupported stats the usage field is not supported by the backend
ErrUsageFieldNotSupported = errors.New("this usage field is not supported")
)
// Fs is a wrap of any fs and its configs
type Fs struct {
fs.Fs
RootFs fs.Fs
RootPath string
writable bool
creatable bool
usage *fs.Usage // Cache the usage
cacheTime time.Duration // cache duration
cacheExpiry int64 // usage cache expiry time
cacheMutex sync.RWMutex
cacheOnce sync.Once
cacheUpdate bool // if the cache is updating
}
// Directory describes a wrapped Directory
//
// This is a wrapped Directory which contains the upstream Fs
type Directory struct {
fs.Directory
f *Fs
}
// Object describes a wrapped Object
//
// This is a wrapped Object which contains the upstream Fs
type Object struct {
fs.Object
f *Fs
}
// Entry describe a warpped fs.DirEntry interface with the
// information of upstream Fs
type Entry interface {
fs.DirEntry
UpstreamFs() *Fs
}
// New creates a new Fs based on the
// string formatted `type:root_path(:ro/:nc)`
func New(remote, root string, cacheTime time.Duration) (*Fs, error) {
_, configName, fsPath, err := fs.ParseRemote(remote)
if err != nil {
return nil, err
}
f := &Fs{
RootPath: root,
writable: true,
creatable: true,
cacheExpiry: time.Now().Unix(),
cacheTime: cacheTime,
usage: &fs.Usage{},
}
if strings.HasSuffix(fsPath, ":ro") {
f.writable = false
f.creatable = false
fsPath = fsPath[0 : len(fsPath)-3]
} else if strings.HasSuffix(fsPath, ":nc") {
f.writable = true
f.creatable = false
fsPath = fsPath[0 : len(fsPath)-3]
}
if configName != "local" {
fsPath = configName + ":" + fsPath
}
rFs, err := cache.Get(fsPath)
if err != nil && err != fs.ErrorIsFile {
return nil, err
}
f.RootFs = rFs
rootString := path.Join(fsPath, filepath.ToSlash(root))
myFs, err := cache.Get(rootString)
if err != nil && err != fs.ErrorIsFile {
return nil, err
}
f.Fs = myFs
return f, err
}
// WrapDirectory wraps a fs.Directory to include the info
// of the upstream Fs
func (f *Fs) WrapDirectory(e fs.Directory) *Directory {
if e == nil {
return nil
}
return &Directory{
Directory: e,
f: f,
}
}
// WrapObject wraps a fs.Object to include the info
// of the upstream Fs
func (f *Fs) WrapObject(o fs.Object) *Object {
if o == nil {
return nil
}
return &Object{
Object: o,
f: f,
}
}
// WrapEntry wraps a fs.DirEntry to include the info
// of the upstream Fs
func (f *Fs) WrapEntry(e fs.DirEntry) (Entry, error) {
switch e.(type) {
case fs.Object:
return f.WrapObject(e.(fs.Object)), nil
case fs.Directory:
return f.WrapDirectory(e.(fs.Directory)), nil
default:
return nil, errors.Errorf("unknown object type %T", e)
}
}
// UpstreamFs get the upstream Fs the entry is stored in
func (e *Directory) UpstreamFs() *Fs {
return e.f
}
// UpstreamFs get the upstream Fs the entry is stored in
func (o *Object) UpstreamFs() *Fs {
return o.f
}
// UnWrap returns the Object that this Object is wrapping or
// nil if it isn't wrapping anything
func (o *Object) UnWrap() fs.Object {
return o.Object
}
// IsCreatable return if the fs is allowed to create new objects
func (f *Fs) IsCreatable() bool {
return f.creatable
}
// IsWritable return if the fs is allowed to write
func (f *Fs) IsWritable() bool {
return f.writable
}
// 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.Fs.Put(ctx, in, src, options...)
if err != nil {
return o, err
}
f.cacheMutex.Lock()
defer f.cacheMutex.Unlock()
size := src.Size()
if f.usage.Used != nil {
*f.usage.Used += size
}
if f.usage.Free != nil {
*f.usage.Free -= size
}
if f.usage.Objects != nil {
*f.usage.Objects++
}
return o, nil
}
// 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) {
do := f.Features().PutStream
if do == nil {
return nil, fs.ErrorNotImplemented
}
o, err := do(ctx, in, src, options...)
if err != nil {
return o, err
}
f.cacheMutex.Lock()
defer f.cacheMutex.Unlock()
size := o.Size()
if f.usage.Used != nil {
*f.usage.Used += size
}
if f.usage.Free != nil {
*f.usage.Free -= size
}
if f.usage.Objects != nil {
*f.usage.Objects++
}
return o, nil
}
// Update in to the object with the modTime given of the given size
//
// When called from outside a Fs by rclone, src.Size() will always be >= 0.
// But for unknown-sized objects (indicated by src.Size() == -1), Upload should either
// return an error or update the object properly (rather than e.g. calling panic).
func (o *Object) Update(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) error {
size := o.Size()
err := o.Object.Update(ctx, in, src, options...)
if err != nil {
return err
}
o.f.cacheMutex.Lock()
defer o.f.cacheMutex.Unlock()
delta := o.Size() - size
if delta <= 0 {
return nil
}
if o.f.usage.Used != nil {
*o.f.usage.Used += size
}
if o.f.usage.Free != nil {
*o.f.usage.Free -= size
}
return nil
}
// About gets quota information from the Fs
func (f *Fs) About(ctx context.Context) (*fs.Usage, error) {
if atomic.LoadInt64(&f.cacheExpiry) <= time.Now().Unix() {
err := f.updateUsage()
if err != nil {
return nil, ErrUsageFieldNotSupported
}
}
f.cacheMutex.RLock()
defer f.cacheMutex.RUnlock()
return f.usage, nil
}
// GetFreeSpace get the free space of the fs
func (f *Fs) GetFreeSpace() (int64, error) {
if atomic.LoadInt64(&f.cacheExpiry) <= time.Now().Unix() {
err := f.updateUsage()
if err != nil {
return math.MaxInt64, ErrUsageFieldNotSupported
}
}
f.cacheMutex.RLock()
defer f.cacheMutex.RUnlock()
if f.usage.Free == nil {
return math.MaxInt64, ErrUsageFieldNotSupported
}
return *f.usage.Free, nil
}
// GetUsedSpace get the used space of the fs
func (f *Fs) GetUsedSpace() (int64, error) {
if atomic.LoadInt64(&f.cacheExpiry) <= time.Now().Unix() {
err := f.updateUsage()
if err != nil {
return 0, ErrUsageFieldNotSupported
}
}
f.cacheMutex.RLock()
defer f.cacheMutex.RUnlock()
if f.usage.Used == nil {
return 0, ErrUsageFieldNotSupported
}
return *f.usage.Used, nil
}
// GetNumObjects get the number of objects of the fs
func (f *Fs) GetNumObjects() (int64, error) {
if atomic.LoadInt64(&f.cacheExpiry) <= time.Now().Unix() {
err := f.updateUsage()
if err != nil {
return 0, ErrUsageFieldNotSupported
}
}
f.cacheMutex.RLock()
defer f.cacheMutex.RUnlock()
if f.usage.Objects == nil {
return 0, ErrUsageFieldNotSupported
}
return *f.usage.Objects, nil
}
func (f *Fs) updateUsage() (err error) {
if do := f.RootFs.Features().About; do == nil {
return ErrUsageFieldNotSupported
}
done := false
f.cacheOnce.Do(func() {
f.cacheMutex.Lock()
err = f.updateUsageCore(false)
f.cacheMutex.Unlock()
done = true
})
if done {
return err
}
if !f.cacheUpdate {
f.cacheUpdate = true
go func() {
_ = f.updateUsageCore(true)
f.cacheUpdate = false
}()
}
return nil
}
func (f *Fs) updateUsageCore(lock bool) error {
// Run in background, should not be cancelled by user
ctx, cancel := context.WithTimeout(context.Background(), 15*time.Second)
defer cancel()
usage, err := f.RootFs.Features().About(ctx)
if err != nil {
f.cacheUpdate = false
return err
}
if lock {
f.cacheMutex.Lock()
defer f.cacheMutex.Unlock()
}
// Store usage
atomic.StoreInt64(&f.cacheExpiry, time.Now().Add(f.cacheTime).Unix())
f.usage = usage
return nil
}

View File

@ -1,7 +1,7 @@
---
title: "Union"
description: "Remote Unification"
date: "2018-08-29"
date: "2020-01-25"
---
<i class="fa fa-link"></i> Union
@ -12,22 +12,90 @@ The `union` remote provides a unification similar to UnionFS using other remotes
Paths may be as deep as required or a local path,
eg `remote:directory/subdirectory` or `/directory/subdirectory`.
During the initial setup with `rclone config` you will specify the target
remotes as a space separated list. The target remotes can either be a local paths or other remotes.
During the initial setup with `rclone config` you will specify the upstream
remotes as a space separated list. The upstream remotes can either be a local paths or other remotes.
The order of the remotes is important as it defines which remotes take precedence over others if there are files with the same name in the same logical path.
The last remote is the topmost remote and replaces files with the same name from previous remotes.
Attribute `:ro` and `:nc` can be attach to the end of path to tag the remote as **read only** or **no create**,
eg `remote:directory/subdirectory:ro` or `remote:directory/subdirectory:nc`.
Only the last remote is used to write to and delete from, all other remotes are read-only.
Subfolders can be used in target remote. Assume a union remote named `backup`
with the remotes `mydrive:private/backup mydrive2:/backup`. Invoking `rclone mkdir backup:desktop`
Subfolders can be used in upstream remotes. Assume a union remote named `backup`
with the remotes `mydrive:private/backup`. Invoking `rclone mkdir backup:desktop`
is exactly the same as invoking `rclone mkdir mydrive2:/backup/desktop`.
There will be no special handling of paths containing `..` segments.
Invoking `rclone mkdir backup:../desktop` is exactly the same as invoking
`rclone mkdir mydrive2:/backup/../desktop`.
### Behavior / Policies
The behavior of union backend is inspired by [trapexit/mergerfs](https://github.com/trapexit/mergerfs). All functions are grouped into 3 categories: **action**, **create** and **search**. These functions and categories can be assigned a policy which dictates what file or directory is chosen when performing that behavior. Any policy can be assigned to a function or category though some may not be very useful in practice. For instance: **rand** (random) may be useful for file creation (create) but could lead to very odd behavior if used for `delete` if there were more than one copy of the file.
#### Function / Category classifications
| Category | Description | Functions |
|----------|--------------------------|-------------------------------------------------------------------------------------|
| action | Writing Existing file | move, rmdir, rmdirs, delete, purge and copy, sync (as destination when file exist) |
| create | Create non-existing file | copy, sync (as destination when file not exist) |
| search | Reading and listing file | ls, lsd, lsl, cat, md5sum, sha1sum and copy, sync (as source) |
| N/A | | size, about |
#### Path Preservation
Policies, as described below, are of two basic types. `path preserving` and `non-path preserving`.
All policies which start with `ep` (**epff**, **eplfs**, **eplus**, **epmfs**, **eprand**) are `path preserving`. `ep` stands for `existing path`.
A path preserving policy will only consider upstreams where the relative path being accessed already exists.
When using non-path preserving policies paths will be created in target upstreams as necessary.
#### Quota Relevant Policies
Some policies rely on quota information. These policies should be used only if your upstreams support the respective quota fields.
| Policy | Required Field |
|------------|----------------|
| lfs, eplfs | Free |
| mfs, epmfs | Free |
| lus, eplus | Used |
| lno, eplno | Objects |
To check if your upstream support the field, run `rclone about remote: [flags]` and see if the reuqired field exists.
#### Filters
Policies basically search upstream remotes and create a list of files / paths for functions to work on. The policy is responsible for filtering and sorting. The policy type defines the sorting but filtering is mostly uniform as described below.
* No **search** policies filter.
* All **action** policies will filter out remotes which are tagged as **read-only**.
* All **create** policies will filter out remotes which are tagged **read-only** or **no-create**.
If all remotes are filtered an error will be returned.
#### Policy descriptions
THe policies definition are inspired by [trapexit/mergerfs](https://github.com/trapexit/mergerfs) but not exactly the same. Some policy definition could be different due to the much larger latency of remote file systems.
| Policy | Description |
|------------------|------------------------------------------------------------|
| all | Search category: same as **epall**. Action category: same as **epall**. Create category: act on all upstreams. |
| epall (existing path, all) | Search category: Given this order configured, act on the first one found where the relative path exists. Action category: apply to all found. Create category: act on all upstreams where the relative path exists. |
| epff (existing path, first found) | Act on the first one found, by the time upstreams reply, where the relative path exists. |
| eplfs (existing path, least free space) | Of all the upstreams on which the relative path exists choose the one with the least free space. |
| eplus (existing path, least used space) | Of all the upstreams on which the relative path exists choose the one with the least used space. |
| eplno (existing path, least number of objects) | Of all the upstreams on which the relative path exists choose the one with the least number of objects. |
| epmfs (existing path, most free space) | Of all the upstreams on which the relative path exists choose the one with the most free space. |
| eprand (existing path, random) | Calls **epall** and then randomizes. Returns only one upstream. |
| ff (first found) | Search category: same as **epff**. Action category: same as **epff**. Create category: Act on the first one found by the time upstreams reply. |
| lfs (least free space) | Search category: same as **eplfs**. Action category: same as **eplfs**. Create category: Pick the upstream with the least available free space. |
| lus (least used space) | Search category: same as **eplus**. Action category: same as **eplus**. Create category: Pick the upstream with the least used space. |
| lno (least number of objects) | Search category: same as **eplno**. Action category: same as **eplno**. Create category: Pick the upstream with the least number of objects. |
| mfs (most free space) | Search category: same as **epmfs**. Action category: same as **epmfs**. Create category: Pick the upstream with the most available free space. |
| newest | Pick the file / directory with the largest mtime. |
| rand (random) | Calls **all** and then randomizes. Returns only one upstream. |
### Setup
Here is an example of how to make a union called `remote` for local folders.
First run:
@ -49,16 +117,27 @@ XX / Union merges the contents of several remotes
\ "union"
[snip]
Storage> union
List of space separated remotes.
Can be 'remotea:test/dir remoteb:', '"remotea:test/space dir" remoteb:', etc.
The last remote is used to write to.
List of space separated upstreams.
Can be 'upstreama:test/dir upstreamb:', '\"upstreama:test/space:ro dir\" upstreamb:', etc.
Enter a string value. Press Enter for the default ("").
remotes>
upstreams>
Policy to choose upstream on ACTION class.
Enter a string value. Press Enter for the default ("epall").
action_policy>
Policy to choose upstream on CREATE class.
Enter a string value. Press Enter for the default ("epmfs").
create_policy>
Policy to choose upstream on SEARCH class.
Enter a string value. Press Enter for the default ("ff").
search_policy>
Cache time of usage and free space (in seconds). This option is only useful when a path preserving policy is used.
Enter a signed integer. Press Enter for the default ("120").
cache_time>
Remote config
--------------------
[remote]
type = union
remotes = C:\dir1 C:\dir2 C:\dir3
upstreams = C:\dir1 C:\dir2 C:\dir3
--------------------
y) Yes this is OK
e) Edit this remote
@ -97,17 +176,53 @@ Copy another local directory to the union directory called source, which will be
<!--- autogenerated options start - DO NOT EDIT, instead edit fs.RegInfo in backend/union/union.go then run make backenddocs -->
### Standard Options
Here are the standard options specific to union (Union merges the contents of several remotes).
Here are the standard options specific to union (Union merges the contents of several upstream fs).
#### --union-remotes
#### --union-upstreams
List of space separated remotes.
Can be 'remotea:test/dir remoteb:', '"remotea:test/space dir" remoteb:', etc.
The last remote is used to write to.
List of space separated upstreams.
Can be 'upstreama:test/dir upstreamb:', '"upstreama:test/space:ro dir" upstreamb:', etc.
- Config: remotes
- Env Var: RCLONE_UNION_REMOTES
- Config: upstreams
- Env Var: RCLONE_UNION_UPSTREAMS
- Type: string
- Default: ""
#### --union-action-policy
Policy to choose upstream on ACTION class.
- Config: action_policy
- Env Var: RCLONE_UNION_ACTION_POLICY
- Type: string
- Default: "epall"
#### --union-create-policy
Policy to choose upstream on CREATE class.
- Config: create_policy
- Env Var: RCLONE_UNION_CREATE_POLICY
- Type: string
- Default: "epmfs"
#### --union-search-policy
Policy to choose upstream on SEARCH class.
- Config: search_policy
- Env Var: RCLONE_UNION_SEARCH_POLICY
- Type: string
- Default: "ff"
#### --union-cache-time
Cache time of usage and free space (in seconds). This option is only useful when a path preserving policy is used.
- Config: cache_time
- Env Var: RCLONE_UNION_CACHE_TIME
- Type: int
- Default: 120
<!--- autogenerated options stop -->