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// Package vfscache deals with caching of files locally for the VFS layer
package vfscache
import (
"context"
"fmt"
"os"
"path"
"path/filepath"
"runtime"
"sort"
"strings"
"sync"
"time"
"github.com/pkg/errors"
"github.com/rclone/rclone/fs"
fscache "github.com/rclone/rclone/fs/cache"
"github.com/rclone/rclone/fs/config"
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"github.com/rclone/rclone/fs/fserrors"
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"github.com/rclone/rclone/fs/hash"
"github.com/rclone/rclone/fs/operations"
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"github.com/rclone/rclone/lib/file"
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"github.com/rclone/rclone/vfs/vfscache/writeback"
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"github.com/rclone/rclone/vfs/vfscommon"
)
// NB as Cache and Item are tightly linked it is necessary to have a
// total lock ordering between them. So Cache.mu must always be
// taken before Item.mu to avoid deadlocks.
//
// Cache may call into Item but care is needed if Item calls Cache
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// FIXME need to purge cache nodes which don't have backing files and aren't dirty
// these may get created by the VFS layer or may be orphans from reload()
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// Cache opened files
type Cache struct {
// read only - no locking needed to read these
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fremote fs . Fs // fs for the remote we are caching
fcache fs . Fs // fs for the cache directory
fcacheMeta fs . Fs // fs for the cache metadata directory
opt * vfscommon . Options // vfs Options
root string // root of the cache directory
metaRoot string // root of the cache metadata directory
hashType hash . Type // hash to use locally and remotely
hashOption * fs . HashesOption // corresponding OpenOption
writeback * writeback . WriteBack // holds Items for writeback
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avFn AddVirtualFn // if set, can be called to add dir entries
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mu sync . Mutex // protects the following variables
cond * sync . Cond // cond lock for synchronous cache cleaning
item map [ string ] * Item // files/directories in the cache
errItems map [ string ] error // items in error state
used int64 // total size of files in the cache
outOfSpace bool // out of space
cleanerKicked bool // some thread kicked the cleaner upon out of space
kickerMu sync . Mutex // mutex for clearnerKicked
kick chan struct { } // channel for kicking clear to start
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}
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// AddVirtualFn if registered by the WithAddVirtual method, can be
// called to register the object or directory at remote as a virtual
// entry in directory listings.
//
// This is used when reloading the Cache and uploading items need to
// go into the directory tree.
type AddVirtualFn func ( remote string , size int64 , isDir bool ) error
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// New creates a new cache heirachy for fremote
//
// This starts background goroutines which can be cancelled with the
// context passed in.
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func New ( ctx context . Context , fremote fs . Fs , opt * vfscommon . Options , avFn AddVirtualFn ) ( * Cache , error ) {
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fRoot := filepath . FromSlash ( fremote . Root ( ) )
if runtime . GOOS == "windows" {
if strings . HasPrefix ( fRoot , ` \\? ` ) {
fRoot = fRoot [ 3 : ]
}
fRoot = strings . Replace ( fRoot , ":" , "" , - 1 )
}
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root := file . UNCPath ( filepath . Join ( config . CacheDir , "vfs" , fremote . Name ( ) , fRoot ) )
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fs . Debugf ( nil , "vfs cache: root is %q" , root )
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metaRoot := file . UNCPath ( filepath . Join ( config . CacheDir , "vfsMeta" , fremote . Name ( ) , fRoot ) )
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fs . Debugf ( nil , "vfs cache: metadata root is %q" , root )
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fcache , err := fscache . Get ( root )
if err != nil {
return nil , errors . Wrap ( err , "failed to create cache remote" )
}
fcacheMeta , err := fscache . Get ( root )
if err != nil {
return nil , errors . Wrap ( err , "failed to create cache meta remote" )
}
hashType , hashOption := operations . CommonHash ( fcache , fremote )
c := & Cache {
fremote : fremote ,
fcache : fcache ,
fcacheMeta : fcacheMeta ,
opt : opt ,
root : root ,
metaRoot : metaRoot ,
item : make ( map [ string ] * Item ) ,
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errItems : make ( map [ string ] error ) ,
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hashType : hashType ,
hashOption : hashOption ,
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writeback : writeback . New ( ctx , opt ) ,
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avFn : avFn ,
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}
// Make sure cache directories exist
_ , err = c . mkdir ( "" )
if err != nil {
return nil , errors . Wrap ( err , "failed to make cache directory" )
}
// load in the cache and metadata off disk
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err = c . reload ( ctx )
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if err != nil {
return nil , errors . Wrap ( err , "failed to load cache" )
}
// Remove any empty directories
c . purgeEmptyDirs ( )
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// Create a channel for cleaner to be kicked upon out of space con
c . kick = make ( chan struct { } , 1 )
c . cond = sync . NewCond ( & c . mu )
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go c . cleaner ( ctx )
return c , nil
}
// clean returns the cleaned version of name for use in the index map
//
// name should be a remote path not an osPath
func clean ( name string ) string {
name = strings . Trim ( name , "/" )
name = path . Clean ( name )
if name == "." || name == "/" {
name = ""
}
return name
}
// toOSPath turns a remote relative name into an OS path in the cache
func ( c * Cache ) toOSPath ( name string ) string {
return filepath . Join ( c . root , filepath . FromSlash ( name ) )
}
// toOSPathMeta turns a remote relative name into an OS path in the
// cache for the metadata
func ( c * Cache ) toOSPathMeta ( name string ) string {
return filepath . Join ( c . metaRoot , filepath . FromSlash ( name ) )
}
// mkdir makes the directory for name in the cache and returns an os
// path for the file
func ( c * Cache ) mkdir ( name string ) ( string , error ) {
parent := vfscommon . FindParent ( name )
leaf := filepath . Base ( name )
parentPath := c . toOSPath ( parent )
err := os . MkdirAll ( parentPath , 0700 )
if err != nil {
return "" , errors . Wrap ( err , "make cache directory failed" )
}
parentPathMeta := c . toOSPathMeta ( parent )
err = os . MkdirAll ( parentPathMeta , 0700 )
if err != nil {
return "" , errors . Wrap ( err , "make cache meta directory failed" )
}
return filepath . Join ( parentPath , leaf ) , nil
}
// _get gets name from the cache or creates a new one
//
// It returns the item and found as to whether this item was found in
// the cache (or just created).
//
// name should be a remote path not an osPath
//
// must be called with mu held
func ( c * Cache ) _get ( name string ) ( item * Item , found bool ) {
item = c . item [ name ]
found = item != nil
if ! found {
item = newItem ( c , name )
c . item [ name ] = item
}
return item , found
}
// put puts item under name in the cache
//
// It returns an old item if there was one or nil if not.
//
// name should be a remote path not an osPath
func ( c * Cache ) put ( name string , item * Item ) ( oldItem * Item ) {
name = clean ( name )
c . mu . Lock ( )
oldItem = c . item [ name ]
if oldItem != item {
c . item [ name ] = item
} else {
oldItem = nil
}
c . mu . Unlock ( )
return oldItem
}
// InUse returns whether the name is in use in the cache
//
// name should be a remote path not an osPath
func ( c * Cache ) InUse ( name string ) bool {
name = clean ( name )
c . mu . Lock ( )
item := c . item [ name ]
c . mu . Unlock ( )
if item == nil {
return false
}
return item . inUse ( )
}
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// DirtyItem the Item if it exists in the cache and is Dirty
//
// name should be a remote path not an osPath
func ( c * Cache ) DirtyItem ( name string ) ( item * Item ) {
name = clean ( name )
c . mu . Lock ( )
defer c . mu . Unlock ( )
item = c . item [ name ]
if item != nil && ! item . IsDirty ( ) {
item = nil
}
return item
}
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// get gets a file name from the cache or creates a new one
//
// It returns the item and found as to whether this item was found in
// the cache (or just created).
//
// name should be a remote path not an osPath
func ( c * Cache ) get ( name string ) ( item * Item , found bool ) {
name = clean ( name )
c . mu . Lock ( )
item , found = c . _get ( name )
c . mu . Unlock ( )
return item , found
}
// Item gets a cache item for name
//
// To use it item.Open will need to be called
//
// name should be a remote path not an osPath
func ( c * Cache ) Item ( name string ) ( item * Item ) {
item , _ = c . get ( name )
return item
}
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// Exists checks to see if the file exists in the cache or not.
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//
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// This is done by bringing the item into the cache which will
// validate the backing file and metadata and then asking if the Item
// exists or not.
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func ( c * Cache ) Exists ( name string ) bool {
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item , _ := c . get ( name )
return item . Exists ( )
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}
// rename with os.Rename and more checking
func rename ( osOldPath , osNewPath string ) error {
sfi , err := os . Stat ( osOldPath )
if err != nil {
// Just do nothing if the source does not exist
if os . IsNotExist ( err ) {
return nil
}
return errors . Wrapf ( err , "Failed to stat source: %s" , osOldPath )
}
if ! sfi . Mode ( ) . IsRegular ( ) {
// cannot copy non-regular files (e.g., directories, symlinks, devices, etc.)
return errors . Errorf ( "Non-regular source file: %s (%q)" , sfi . Name ( ) , sfi . Mode ( ) . String ( ) )
}
dfi , err := os . Stat ( osNewPath )
if err != nil {
if ! os . IsNotExist ( err ) {
return errors . Wrapf ( err , "Failed to stat destination: %s" , osNewPath )
}
parent := vfscommon . OsFindParent ( osNewPath )
err = os . MkdirAll ( parent , 0700 )
if err != nil {
return errors . Wrapf ( err , "Failed to create parent dir: %s" , parent )
}
} else {
if ! ( dfi . Mode ( ) . IsRegular ( ) ) {
return errors . Errorf ( "Non-regular destination file: %s (%q)" , dfi . Name ( ) , dfi . Mode ( ) . String ( ) )
}
if os . SameFile ( sfi , dfi ) {
return nil
}
}
if err = os . Rename ( osOldPath , osNewPath ) ; err != nil {
return errors . Wrapf ( err , "Failed to rename in cache: %s to %s" , osOldPath , osNewPath )
}
return nil
}
// Rename the item in cache
func ( c * Cache ) Rename ( name string , newName string , newObj fs . Object ) ( err error ) {
item , _ := c . get ( name )
err = item . rename ( name , newName , newObj )
if err != nil {
return err
}
// Move the item in the cache
c . mu . Lock ( )
if item , ok := c . item [ name ] ; ok {
c . item [ newName ] = item
delete ( c . item , name )
}
c . mu . Unlock ( )
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fs . Infof ( name , "vfs cache: renamed in cache to %q" , newName )
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return nil
}
// Remove should be called if name is deleted
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//
// This returns true if the file was in the transfer queue so may not
// have completedly uploaded yet.
func ( c * Cache ) Remove ( name string ) ( wasWriting bool ) {
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name = clean ( name )
c . mu . Lock ( )
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item := c . item [ name ]
if item != nil {
delete ( c . item , name )
}
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c . mu . Unlock ( )
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if item == nil {
return false
}
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return item . remove ( "file deleted" )
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}
// SetModTime should be called to set the modification time of the cache file
func ( c * Cache ) SetModTime ( name string , modTime time . Time ) {
item , _ := c . get ( name )
item . setModTime ( modTime )
}
// CleanUp empties the cache of everything
func ( c * Cache ) CleanUp ( ) error {
err1 := os . RemoveAll ( c . root )
err2 := os . RemoveAll ( c . metaRoot )
if err1 != nil {
return err1
}
return err2
}
// walk walks the cache calling the function
func ( c * Cache ) walk ( dir string , fn func ( osPath string , fi os . FileInfo , name string ) error ) error {
return filepath . Walk ( dir , func ( osPath string , fi os . FileInfo , err error ) error {
if err != nil {
return err
}
// Find path relative to the cache root
name , err := filepath . Rel ( dir , osPath )
if err != nil {
return errors . Wrap ( err , "filepath.Rel failed in walk" )
}
if name == "." {
name = ""
}
// And convert into slashes
name = filepath . ToSlash ( name )
return fn ( osPath , fi , name )
} )
}
// reload walks the cache loading metadata files
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//
// It iterates the files first then metadata trees. It doesn't expect
// to find any new items iterating the metadata but it will clear up
// orphan files.
func ( c * Cache ) reload ( ctx context . Context ) error {
for _ , dir := range [ ] string { c . root , c . metaRoot } {
err := c . walk ( dir , func ( osPath string , fi os . FileInfo , name string ) error {
if fi . IsDir ( ) {
return nil
}
item , found := c . get ( name )
if ! found {
err := item . reload ( ctx )
if err != nil {
fs . Errorf ( name , "vfs cache: failed to reload item: %v" , err )
}
}
return nil
} )
if err != nil {
return errors . Wrapf ( err , "failed to walk cache %q" , dir )
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}
}
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return nil
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}
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// KickCleaner kicks cache cleaner upon out of space situation
func ( c * Cache ) KickCleaner ( ) {
/ * Use a separate kicker mutex for the kick to go through without waiting for the
cache mutex to avoid letting a thread kick again after the clearer just
finished cleaning and unlock the cache mutex . * /
fs . Debugf ( nil , "vfs cache: at the beginning of KickCleaner" )
c . kickerMu . Lock ( )
if ! c . cleanerKicked {
c . cleanerKicked = true
fs . Debugf ( nil , "vfs cache: in KickCleaner, ready to lock cache mutex" )
c . mu . Lock ( )
c . outOfSpace = true
fs . Logf ( nil , "vfs cache: in KickCleaner, ready to kick cleaner" )
c . kick <- struct { } { }
c . mu . Unlock ( )
}
c . kickerMu . Unlock ( )
c . mu . Lock ( )
for c . outOfSpace == true {
fs . Debugf ( nil , "vfs cache: in KickCleaner, looping on c.outOfSpace" )
c . cond . Wait ( )
}
fs . Debugf ( nil , "vfs cache: in KickCleaner, leaving c.outOfSpace loop" )
c . mu . Unlock ( )
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}
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// removeNotInUse removes items not in use with a possible maxAge cutoff
// called with cache mutex locked and up-to-date c.used (as we update it directly here)
func ( c * Cache ) removeNotInUse ( item * Item , maxAge time . Duration , emptyOnly bool ) {
removed , spaceFreed := item . RemoveNotInUse ( maxAge , emptyOnly )
// The item space might be freed even if we get an error after the cache file is removed
// The item will not be removed or reset the cache data is dirty (DataDirty)
c . used -= spaceFreed
if removed {
fs . Infof ( nil , "vfs cache RemoveNotInUse (maxAge=%d, emptyOnly=%v): item %s was removed, freed %d bytes" , maxAge , emptyOnly , item . GetName ( ) , spaceFreed )
// Remove the entry
delete ( c . item , item . name )
} else {
fs . Infof ( nil , "vfs cache RemoveNotInUse (maxAge=%d, emptyOnly=%v): item %s not removed, freed %d bytes" , maxAge , emptyOnly , item . GetName ( ) , spaceFreed )
}
return
}
// Retry failed resets during purgeClean()
func ( c * Cache ) retryFailedResets ( ) {
// Some items may have failed to reset becasue there was not enough space
// for saving the cache item's metadata. Redo the Reset()'s here now that
// we may have some available space.
if len ( c . errItems ) != 0 {
fs . Debugf ( nil , "vfs cache reset: before redoing reset errItems = %v" , c . errItems )
for itemName := range c . errItems {
_ , _ , err := c . item [ itemName ] . Reset ( )
if err == nil || ! fserrors . IsErrNoSpace ( err ) {
// TODO: not trying to handle non-ENOSPC errors yet
delete ( c . errItems , itemName )
}
}
fs . Debugf ( nil , "vfs cache reset: after redoing reset errItems = %v" , c . errItems )
}
}
func ( c * Cache ) purgeClean ( quota int64 ) {
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c . mu . Lock ( )
defer c . mu . Unlock ( )
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var items Items
if quota <= 0 || c . used < quota {
return
}
// Make a slice of clean cache files
for _ , item := range c . item {
if ! item . IsDataDirty ( ) {
items = append ( items , item )
}
}
sort . Sort ( items )
// Reset items until the quota is OK
for _ , item := range items {
if c . used < quota {
break
}
resetResult , spaceFreed , err := item . Reset ( )
// The item space might be freed even if we get an error after the cache file is removed
// The item will not be removed or reset if the cache data is dirty (DataDirty)
c . used -= spaceFreed
fs . Infof ( nil , "vfs cache purgeClean item.Reset %s: %s, freed %d bytes" , item . GetName ( ) , resetResult . String ( ) , spaceFreed )
if resetResult == RemovedNotInUse {
delete ( c . item , item . name )
}
if err != nil {
fs . Errorf ( nil , "vfs cache purgeClean item.Reset %s reset failed, err = %v, freed %d bytes" , item . GetName ( ) , err , spaceFreed )
c . errItems [ item . name ] = err
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}
}
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// Resest outOfSpace without checking whether we have reduced cache space below the quota.
// This allows some files to reduce their pendingAccesses count to allow them to be reset
// in the next iteration of the purge cleaner loop.
c . outOfSpace = false
c . cond . Broadcast ( )
}
// purgeOld gets rid of any files that are over age
func ( c * Cache ) purgeOld ( maxAge time . Duration ) {
c . mu . Lock ( )
defer c . mu . Unlock ( )
// cutoff := time.Now().Add(-maxAge)
for _ , item := range c . item {
c . removeNotInUse ( item , maxAge , false )
}
if c . used < int64 ( c . opt . CacheMaxSize ) {
c . outOfSpace = false
c . cond . Broadcast ( )
}
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}
// Purge any empty directories
func ( c * Cache ) purgeEmptyDirs ( ) {
ctx := context . Background ( )
err := operations . Rmdirs ( ctx , c . fcache , "" , true )
if err != nil {
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fs . Errorf ( c . fcache , "vfs cache: failed to remove empty directories from cache: %v" , err )
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}
err = operations . Rmdirs ( ctx , c . fcacheMeta , "" , true )
if err != nil {
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fs . Errorf ( c . fcache , "vfs cache: failed to remove empty directories from metadata cache: %v" , err )
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}
}
// updateUsed updates c.used so it is accurate
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func ( c * Cache ) updateUsed ( ) ( used int64 ) {
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c . mu . Lock ( )
defer c . mu . Unlock ( )
newUsed := int64 ( 0 )
for _ , item := range c . item {
newUsed += item . getDiskSize ( )
}
c . used = newUsed
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return newUsed
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}
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// Remove clean cache files that are not open until the total space
// is reduced below quota starting from the oldest first
func ( c * Cache ) purgeOverQuota ( quota int64 ) {
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c . updateUsed ( )
c . mu . Lock ( )
defer c . mu . Unlock ( )
if quota <= 0 || c . used < quota {
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return
}
var items Items
// Make a slice of unused files
for _ , item := range c . item {
if ! item . inUse ( ) {
items = append ( items , item )
}
}
sort . Sort ( items )
// Remove items until the quota is OK
for _ , item := range items {
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c . removeNotInUse ( item , 0 , c . used <= quota )
}
if c . used < quota {
c . outOfSpace = false
c . cond . Broadcast ( )
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}
}
// clean empties the cache of stuff if it can
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func ( c * Cache ) clean ( removeCleanFiles bool ) {
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// Cache may be empty so end
_ , err := os . Stat ( c . root )
if os . IsNotExist ( err ) {
return
}
c . mu . Lock ( )
oldItems , oldUsed := len ( c . item ) , fs . SizeSuffix ( c . used )
c . mu . Unlock ( )
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// loop cleaning the cache until we reach below cache quota
for {
// Remove any files that are over age
c . purgeOld ( c . opt . CacheMaxAge )
// Now remove files not in use until cache size is below quota starting from the
// oldest first
c . purgeOverQuota ( int64 ( c . opt . CacheMaxSize ) )
// removeCleanFiles indicates that we got ENOSPC error
// We remove cache files that are not dirty if we are still avove the max cache size
if removeCleanFiles {
c . purgeClean ( int64 ( c . opt . CacheMaxSize ) )
c . retryFailedResets ( )
} else {
break
}
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used := c . updateUsed ( )
if used <= int64 ( c . opt . CacheMaxSize ) && len ( c . errItems ) == 0 {
break
}
}
// Was kicked?
if removeCleanFiles {
c . kickerMu . Lock ( ) // Make sure this is called with cache mutex unlocked
// Reenable io threads to kick me
c . cleanerKicked = false
c . kickerMu . Unlock ( )
}
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// Stats
c . mu . Lock ( )
newItems , newUsed := len ( c . item ) , fs . SizeSuffix ( c . used )
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totalInUse := 0
for _ , item := range c . item {
if item . inUse ( ) {
totalInUse ++
}
}
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c . mu . Unlock ( )
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uploadsInProgress , uploadsQueued := c . writeback . Stats ( )
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fs . Infof ( nil , "vfs cache: cleaned: objects %d (was %d) in use %d, to upload %d, uploading %d, total size %v (was %v)" , newItems , oldItems , totalInUse , uploadsQueued , uploadsInProgress , newUsed , oldUsed )
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}
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// cleaner calls clean at regular intervals and upon being kicked for out-of-space condition
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//
// doesn't return until context is cancelled
func ( c * Cache ) cleaner ( ctx context . Context ) {
if c . opt . CachePollInterval <= 0 {
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fs . Debugf ( nil , "vfs cache: cleaning thread disabled because poll interval <= 0" )
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return
}
// Start cleaning the cache immediately
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c . clean ( false )
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// Then every interval specified
timer := time . NewTicker ( c . opt . CachePollInterval )
defer timer . Stop ( )
for {
select {
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case <- c . kick : // a thread encountering ENOSPC kicked me
c . clean ( true ) // remove inUse files that are clean (!item.info.Dirty)
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case <- timer . C :
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c . clean ( false ) // do not remove inUse files
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case <- ctx . Done ( ) :
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fs . Debugf ( nil , "vfs cache: cleaner exiting" )
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return
}
}
}
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// TotalInUse returns the number of items in the cache which are InUse
func ( c * Cache ) TotalInUse ( ) ( n int ) {
c . mu . Lock ( )
defer c . mu . Unlock ( )
for _ , item := range c . item {
if item . inUse ( ) {
n ++
}
}
return n
}
// Dump the cache into a string for debugging purposes
func ( c * Cache ) Dump ( ) string {
if c == nil {
return "Cache: <nil>\n"
}
c . mu . Lock ( )
defer c . mu . Unlock ( )
var out strings . Builder
out . WriteString ( "Cache{\n" )
for name , item := range c . item {
fmt . Fprintf ( & out , "\t%q: %+v,\n" , name , item )
}
out . WriteString ( "}\n" )
return out . String ( )
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}
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// AddVirtual adds a virtual directory entry by calling the addVirtual
// callback if one has been registered.
func ( c * Cache ) AddVirtual ( remote string , size int64 , isDir bool ) error {
if c . avFn == nil {
return errors . New ( "no AddVirtual function registered" )
}
return c . avFn ( remote , size , isDir )
}