// Package dircache provides a simple cache for caching directory to path lookups package dircache // _methods are called without the lock import ( "context" "log" "strings" "sync" "github.com/pkg/errors" "github.com/rclone/rclone/fs" ) // DirCache caches paths to directory IDs and vice versa type DirCache struct { cacheMu sync.RWMutex cache map[string]string invCache map[string]string mu sync.Mutex fs DirCacher // Interface to find and make stuff trueRootID string // ID of the absolute root root string // the path we are working on rootID string // ID of the root directory rootParentID string // ID of the root's parent directory foundRoot bool // Whether we have found the root or not } // DirCacher describes an interface for doing the low level directory work type DirCacher interface { FindLeaf(ctx context.Context, pathID, leaf string) (pathIDOut string, found bool, err error) CreateDir(ctx context.Context, pathID, leaf string) (newID string, err error) } // New makes a DirCache // // The cache is safe for concurrent use func New(root string, trueRootID string, fs DirCacher) *DirCache { d := &DirCache{ trueRootID: trueRootID, root: root, fs: fs, } d.Flush() d.ResetRoot() return d } // Get an ID given a path func (dc *DirCache) Get(path string) (id string, ok bool) { dc.cacheMu.RLock() id, ok = dc.cache[path] dc.cacheMu.RUnlock() return } // GetInv gets a path given an ID func (dc *DirCache) GetInv(id string) (path string, ok bool) { dc.cacheMu.RLock() path, ok = dc.invCache[id] dc.cacheMu.RUnlock() return } // Put a path, id into the map func (dc *DirCache) Put(path, id string) { dc.cacheMu.Lock() dc.cache[path] = id dc.invCache[id] = path dc.cacheMu.Unlock() } // Flush the map of all data func (dc *DirCache) Flush() { dc.cacheMu.Lock() dc.cache = make(map[string]string) dc.invCache = make(map[string]string) dc.cacheMu.Unlock() } // FlushDir flushes the map of all data starting with dir // // If dir is empty then this is equivalent to calling ResetRoot func (dc *DirCache) FlushDir(dir string) { if dir == "" { dc.ResetRoot() return } dc.cacheMu.Lock() // Delete the root dir ID, ok := dc.cache[dir] if ok { delete(dc.cache, dir) delete(dc.invCache, ID) } // And any sub directories dir += "/" for key, ID := range dc.cache { if strings.HasPrefix(key, dir) { delete(dc.cache, key) delete(dc.invCache, ID) } } dc.cacheMu.Unlock() } // SplitPath splits a path into directory, leaf // // Path shouldn't start or end with a / // // If there are no slashes then directory will be "" and leaf = path func SplitPath(path string) (directory, leaf string) { lastSlash := strings.LastIndex(path, "/") if lastSlash >= 0 { directory = path[:lastSlash] leaf = path[lastSlash+1:] } else { directory = "" leaf = path } return } // FindDir finds the directory passed in returning the directory ID // starting from pathID // // Path shouldn't start or end with a / // // If create is set it will make the directory if not found // // Algorithm: // Look in the cache for the path, if found return the pathID // If not found strip the last path off the path and recurse // Now have a parent directory id, so look in the parent for self and return it func (dc *DirCache) FindDir(ctx context.Context, path string, create bool) (pathID string, err error) { dc.mu.Lock() defer dc.mu.Unlock() return dc._findDir(ctx, path, create) } // Look for the root and in the cache - safe to call without the mu func (dc *DirCache) _findDirInCache(path string) string { // fmt.Println("Finding",path,"create",create,"cache",cache) // If it is the root, then return it if path == "" { // fmt.Println("Root") return dc.rootID } // If it is in the cache then return it pathID, ok := dc.Get(path) if ok { // fmt.Println("Cache hit on", path) return pathID } return "" } // Unlocked findDir - must have mu func (dc *DirCache) _findDir(ctx context.Context, path string, create bool) (pathID string, err error) { pathID = dc._findDirInCache(path) if pathID != "" { return pathID, nil } // Split the path into directory, leaf directory, leaf := SplitPath(path) // Recurse and find pathID for parent directory parentPathID, err := dc._findDir(ctx, directory, create) if err != nil { return "", err } // Find the leaf in parentPathID pathID, found, err := dc.fs.FindLeaf(ctx, parentPathID, leaf) if err != nil { return "", err } // If not found create the directory if required or return an error if !found { if create { pathID, err = dc.fs.CreateDir(ctx, parentPathID, leaf) if err != nil { return "", errors.Wrap(err, "failed to make directory") } } else { return "", fs.ErrorDirNotFound } } // Store the leaf directory in the cache dc.Put(path, pathID) // fmt.Println("Dir", path, "is", pathID) return pathID, nil } // FindPath finds the leaf and directoryID from a path // // Do not call FindPath with the root directory - it will return an error // // If create is set parent directories will be created if they don't exist func (dc *DirCache) FindPath(ctx context.Context, path string, create bool) (leaf, directoryID string, err error) { if path == "" { err = errors.New("internal error: can't call FindPath with root directory") return } dc.mu.Lock() defer dc.mu.Unlock() directory, leaf := SplitPath(path) directoryID, err = dc._findDir(ctx, directory, create) return } // FindRoot finds the root directory if not already found // // Resets the root directory // // If create is set it will make the directory if not found func (dc *DirCache) FindRoot(ctx context.Context, create bool) error { dc.mu.Lock() defer dc.mu.Unlock() if dc.foundRoot { return nil } rootID, err := dc._findDir(ctx, dc.root, create) if err != nil { return err } dc.foundRoot = true dc.rootID = rootID // Find the parent of the root while we still have the root // directory tree cached rootParentPath, _ := SplitPath(dc.root) dc.rootParentID, _ = dc.Get(rootParentPath) // Reset the tree based on dc.root dc.Flush() // Put the root directory in dc.Put("", dc.rootID) return nil } // FindRootAndPath finds the root first if not found then finds leaf and directoryID from a path // // If create is set parent directories will be created if they don't exist func (dc *DirCache) FindRootAndPath(ctx context.Context, path string, create bool) (leaf, directoryID string, err error) { err = dc.FindRoot(ctx, create) if err != nil { return } return dc.FindPath(ctx, path, create) } // FoundRoot returns whether the root directory has been found yet // // Call this from FindLeaf or CreateDir only func (dc *DirCache) FoundRoot() bool { return dc.foundRoot } // RootID returns the ID of the root directory // // This should be called after FindRoot func (dc *DirCache) RootID() string { dc.mu.Lock() defer dc.mu.Unlock() if !dc.foundRoot { log.Fatalf("Internal Error: RootID() called before FindRoot") } return dc.rootID } // RootParentID returns the ID of the parent of the root directory // // This should be called after FindRoot func (dc *DirCache) RootParentID() (string, error) { dc.mu.Lock() defer dc.mu.Unlock() if !dc.foundRoot { return "", errors.New("internal error: RootID() called before FindRoot") } if dc.rootParentID == "" { return "", errors.New("internal error: didn't find rootParentID") } if dc.rootID == dc.trueRootID { return "", errors.New("is root directory") } return dc.rootParentID, nil } // ResetRoot resets the root directory to the absolute root and clears // the DirCache func (dc *DirCache) ResetRoot() { dc.mu.Lock() defer dc.mu.Unlock() dc.foundRoot = false dc.Flush() // Put the true root in dc.rootID = dc.trueRootID // Put the root directory in dc.Put("", dc.rootID) }