rclone/fs/cache/cache.go
Martin Czygan 5de9278650
fs/cache: make sure we call the Shutdown method on backends
This change ensures we call the Shutdown method on backends when
they drop out of the fs/cache and at program exit.

Some backends implement the optional fs.Shutdowner interface. Until now,
Shutdown is only checked and called, when a backend is wrapped (e.g.
crypt, compress, ...).

To have a general way to perform operations at the end of the backend
lifecycle with proper error handling, we can call Shutdown at cache
clear time.

We add a finalize hook to the cache which will be called when values
drop out of the cache.

Previous discussion: https://forum.rclone.org/t/31336
2022-06-28 12:51:59 +01:00

175 lines
4.8 KiB
Go

// Package cache implements the Fs cache
package cache
import (
"context"
"runtime"
"sync"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/filter"
"github.com/rclone/rclone/lib/cache"
)
var (
once sync.Once // creation
c *cache.Cache
mu sync.Mutex // mutex to protect remap
remap = map[string]string{} // map user supplied names to canonical names
)
// Create the cache just once
func createOnFirstUse() {
once.Do(func() {
ci := fs.GetConfig(context.Background())
c = cache.New()
c.SetExpireDuration(ci.FsCacheExpireDuration)
c.SetExpireInterval(ci.FsCacheExpireInterval)
c.SetFinalizer(func(value interface{}) {
if s, ok := value.(fs.Shutdowner); ok {
_ = fs.CountError(s.Shutdown(context.Background()))
}
})
})
}
// Canonicalize looks up fsString in the mapping from user supplied
// names to canonical names and return the canonical form
func Canonicalize(fsString string) string {
createOnFirstUse()
mu.Lock()
canonicalName, ok := remap[fsString]
mu.Unlock()
if !ok {
return fsString
}
fs.Debugf(nil, "fs cache: switching user supplied name %q for canonical name %q", fsString, canonicalName)
return canonicalName
}
// Put in a mapping from fsString => canonicalName if they are different
func addMapping(fsString, canonicalName string) {
if canonicalName == fsString {
return
}
mu.Lock()
remap[fsString] = canonicalName
mu.Unlock()
}
// GetFn gets an fs.Fs named fsString either from the cache or creates
// it afresh with the create function
func GetFn(ctx context.Context, fsString string, create func(ctx context.Context, fsString string) (fs.Fs, error)) (f fs.Fs, err error) {
createOnFirstUse()
canonicalFsString := Canonicalize(fsString)
created := false
value, err := c.Get(canonicalFsString, func(canonicalFsString string) (f interface{}, ok bool, err error) {
f, err = create(ctx, fsString) // always create the backend with the original non-canonicalised string
ok = err == nil || err == fs.ErrorIsFile
created = ok
return f, ok, err
})
if err != nil && err != fs.ErrorIsFile {
return nil, err
}
f = value.(fs.Fs)
// Check we stored the Fs at the canonical name
if created {
canonicalName := fs.ConfigString(f)
if canonicalName != canonicalFsString {
// Note that if err == fs.ErrorIsFile at this moment
// then we can't rename the remote as it will have the
// wrong error status, we need to add a new one.
if err == nil {
fs.Debugf(nil, "fs cache: renaming cache item %q to be canonical %q", canonicalFsString, canonicalName)
value, found := c.Rename(canonicalFsString, canonicalName)
if found {
f = value.(fs.Fs)
}
addMapping(canonicalFsString, canonicalName)
} else {
fs.Debugf(nil, "fs cache: adding new entry for parent of %q, %q", canonicalFsString, canonicalName)
Put(canonicalName, f)
}
}
}
return f, err
}
// Pin f into the cache until Unpin is called
func Pin(f fs.Fs) {
createOnFirstUse()
c.Pin(fs.ConfigString(f))
}
// PinUntilFinalized pins f into the cache until x is garbage collected
//
// This calls runtime.SetFinalizer on x so it shouldn't have a
// finalizer already.
func PinUntilFinalized(f fs.Fs, x interface{}) {
Pin(f)
runtime.SetFinalizer(x, func(_ interface{}) {
Unpin(f)
})
}
// Unpin f from the cache
func Unpin(f fs.Fs) {
createOnFirstUse()
c.Unpin(fs.ConfigString(f))
}
// Get gets an fs.Fs named fsString either from the cache or creates it afresh
func Get(ctx context.Context, fsString string) (f fs.Fs, err error) {
// If we are making a long lived backend which lives longer
// than this request, we want to disconnect it from the
// current context and in particular any WithCancel contexts,
// but we want to preserve the config embedded in the context.
newCtx := context.Background()
newCtx = fs.CopyConfig(newCtx, ctx)
newCtx = filter.CopyConfig(newCtx, ctx)
return GetFn(newCtx, fsString, fs.NewFs)
}
// GetArr gets []fs.Fs from []fsStrings either from the cache or creates it afresh
func GetArr(ctx context.Context, fsStrings []string) (f []fs.Fs, err error) {
var fArr []fs.Fs
for _, fsString := range fsStrings {
f1, err1 := GetFn(ctx, fsString, fs.NewFs)
if err1 != nil {
return fArr, err1
}
fArr = append(fArr, f1)
}
return fArr, nil
}
// Put puts an fs.Fs named fsString into the cache
func Put(fsString string, f fs.Fs) {
createOnFirstUse()
canonicalName := fs.ConfigString(f)
c.Put(canonicalName, f)
addMapping(fsString, canonicalName)
}
// ClearConfig deletes all entries which were based on the config name passed in
//
// Returns number of entries deleted
func ClearConfig(name string) (deleted int) {
createOnFirstUse()
return c.DeletePrefix(name + ":")
}
// Clear removes everything from the cache
func Clear() {
createOnFirstUse()
c.Clear()
}
// Entries returns the number of entries in the cache
func Entries() int {
createOnFirstUse()
return c.Entries()
}