// Copyright (C) 2014 The Syncthing Authors. // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this file, // You can obtain one at https://mozilla.org/MPL/2.0/. package scanner import ( "context" "path/filepath" "runtime" "strings" "sync/atomic" "time" "unicode/utf8" "github.com/rcrowley/go-metrics" "github.com/syncthing/syncthing/lib/events" "github.com/syncthing/syncthing/lib/fs" "github.com/syncthing/syncthing/lib/ignore" "github.com/syncthing/syncthing/lib/osutil" "github.com/syncthing/syncthing/lib/protocol" "golang.org/x/text/unicode/norm" ) var maskModePerm fs.FileMode func init() { if runtime.GOOS == "windows" { // There is no user/group/others in Windows' read-only // attribute, and all "w" bits are set in fs.FileMode // if the file is not read-only. Do not send these // group/others-writable bits to other devices in order to // avoid unexpected world-writable files on other platforms. maskModePerm = fs.ModePerm & 0755 } else { maskModePerm = fs.ModePerm } } type Config struct { // Folder for which the walker has been created Folder string // Limit walking to these paths within Dir, or no limit if Sub is empty Subs []string // If Matcher is not nil, it is used to identify files to ignore which were specified by the user. Matcher *ignore.Matcher // Number of hours to keep temporary files for TempLifetime time.Duration // If CurrentFiler is not nil, it is queried for the current file before rescanning. CurrentFiler CurrentFiler // The Filesystem provides an abstraction on top of the actual filesystem. Filesystem fs.Filesystem // If IgnorePerms is true, changes to permission bits will not be // detected. Scanned files will get zero permission bits and the // NoPermissionBits flag set. IgnorePerms bool // When AutoNormalize is set, file names that are in UTF8 but incorrect // normalization form will be corrected. AutoNormalize bool // Number of routines to use for hashing Hashers int // Our vector clock id ShortID protocol.ShortID // Optional progress tick interval which defines how often FolderScanProgress // events are emitted. Negative number means disabled. ProgressTickIntervalS int // Whether to use large blocks for large files or the old standard of 128KiB for everything. UseLargeBlocks bool } type CurrentFiler interface { // CurrentFile returns the file as seen at last scan. CurrentFile(name string) (protocol.FileInfo, bool) } func Walk(ctx context.Context, cfg Config) chan protocol.FileInfo { w := walker{cfg} if w.CurrentFiler == nil { w.CurrentFiler = noCurrentFiler{} } if w.Filesystem == nil { panic("no filesystem specified") } if w.Matcher == nil { w.Matcher = ignore.New(w.Filesystem) } return w.walk(ctx) } type walker struct { Config } // Walk returns the list of files found in the local folder by scanning the // file system. Files are blockwise hashed. func (w *walker) walk(ctx context.Context) chan protocol.FileInfo { l.Debugln("Walk", w.Subs, w.Matcher) toHashChan := make(chan protocol.FileInfo) finishedChan := make(chan protocol.FileInfo) // A routine which walks the filesystem tree, and sends files which have // been modified to the counter routine. go func() { hashFiles := w.walkAndHashFiles(ctx, toHashChan, finishedChan) if len(w.Subs) == 0 { w.Filesystem.Walk(".", hashFiles) } else { for _, sub := range w.Subs { w.Filesystem.Walk(sub, hashFiles) } } close(toHashChan) }() // We're not required to emit scan progress events, just kick off hashers, // and feed inputs directly from the walker. if w.ProgressTickIntervalS < 0 { newParallelHasher(ctx, w.Filesystem, w.Hashers, finishedChan, toHashChan, nil, nil) return finishedChan } // Defaults to every 2 seconds. if w.ProgressTickIntervalS == 0 { w.ProgressTickIntervalS = 2 } ticker := time.NewTicker(time.Duration(w.ProgressTickIntervalS) * time.Second) // We need to emit progress events, hence we create a routine which buffers // the list of files to be hashed, counts the total number of // bytes to hash, and once no more files need to be hashed (chan gets closed), // start a routine which periodically emits FolderScanProgress events, // until a stop signal is sent by the parallel hasher. // Parallel hasher is stopped by this routine when we close the channel over // which it receives the files we ask it to hash. go func() { var filesToHash []protocol.FileInfo var total int64 = 1 for file := range toHashChan { filesToHash = append(filesToHash, file) total += file.Size } realToHashChan := make(chan protocol.FileInfo) done := make(chan struct{}) progress := newByteCounter() newParallelHasher(ctx, w.Filesystem, w.Hashers, finishedChan, realToHashChan, progress, done) // A routine which actually emits the FolderScanProgress events // every w.ProgressTicker ticks, until the hasher routines terminate. go func() { defer progress.Close() for { select { case <-done: l.Debugln("Walk progress done", w.Folder, w.Subs, w.Matcher) ticker.Stop() return case <-ticker.C: current := progress.Total() rate := progress.Rate() l.Debugf("Walk %s %s current progress %d/%d at %.01f MiB/s (%d%%)", w.Folder, w.Subs, current, total, rate/1024/1024, current*100/total) events.Default.Log(events.FolderScanProgress, map[string]interface{}{ "folder": w.Folder, "current": current, "total": total, "rate": rate, // bytes per second }) case <-ctx.Done(): ticker.Stop() return } } }() loop: for _, file := range filesToHash { l.Debugln("real to hash:", file.Name) select { case realToHashChan <- file: case <-ctx.Done(): break loop } } close(realToHashChan) }() return finishedChan } func (w *walker) walkAndHashFiles(ctx context.Context, fchan, dchan chan protocol.FileInfo) fs.WalkFunc { now := time.Now() ignoredParent := "" return func(path string, info fs.FileInfo, err error) error { select { case <-ctx.Done(): return ctx.Err() default: } // Return value used when we are returning early and don't want to // process the item. For directories, this means do-not-descend. var skip error // nil // info nil when error is not nil if info != nil && info.IsDir() { skip = fs.SkipDir } if err != nil { l.Debugln("error:", path, info, err) return skip } if path == "." { return nil } if fs.IsTemporary(path) { l.Debugln("temporary:", path) if info.IsRegular() && info.ModTime().Add(w.TempLifetime).Before(now) { w.Filesystem.Remove(path) l.Debugln("removing temporary:", path, info.ModTime()) } return nil } if fs.IsInternal(path) { l.Debugln("ignored (internal):", path) return skip } if !utf8.ValidString(path) { l.Warnf("File name %q is not in UTF8 encoding; skipping.", path) return skip } if w.Matcher.Match(path).IsIgnored() { l.Debugln("ignored (patterns):", path) // Only descend if matcher says so and the current file is not a symlink. if w.Matcher.SkipIgnoredDirs() || info.IsSymlink() { return skip } // If the parent wasn't ignored already, set this path as the "highest" ignored parent if info.IsDir() && (ignoredParent == "" || !strings.HasPrefix(path, ignoredParent+string(fs.PathSeparator))) { ignoredParent = path } return nil } if ignoredParent == "" { // parent isn't ignored, nothing special return w.handleItem(ctx, path, fchan, dchan, skip) } // Part of current path below the ignored (potential) parent rel := strings.TrimPrefix(path, ignoredParent+string(fs.PathSeparator)) // ignored path isn't actually a parent of the current path if rel == path { ignoredParent = "" return w.handleItem(ctx, path, fchan, dchan, skip) } // The previously ignored parent directories of the current, not // ignored path need to be handled as well. if err = w.handleItem(ctx, ignoredParent, fchan, dchan, skip); err != nil { return err } for _, name := range strings.Split(rel, string(fs.PathSeparator)) { ignoredParent = filepath.Join(ignoredParent, name) if err = w.handleItem(ctx, ignoredParent, fchan, dchan, skip); err != nil { return err } } ignoredParent = "" return nil } } func (w *walker) handleItem(ctx context.Context, path string, fchan, dchan chan protocol.FileInfo, skip error) error { info, err := w.Filesystem.Lstat(path) // An error here would be weird as we've already gotten to this point, but act on it nonetheless if err != nil { return skip } path, shouldSkip := w.normalizePath(path, info) if shouldSkip { return skip } switch { case info.IsSymlink(): if err := w.walkSymlink(ctx, path, dchan); err != nil { return err } if info.IsDir() { // under no circumstances shall we descend into a symlink return fs.SkipDir } return nil case info.IsDir(): err = w.walkDir(ctx, path, info, dchan) case info.IsRegular(): err = w.walkRegular(ctx, path, info, fchan) } return err } func (w *walker) walkRegular(ctx context.Context, relPath string, info fs.FileInfo, fchan chan protocol.FileInfo) error { curFile, hasCurFile := w.CurrentFiler.CurrentFile(relPath) newMode := uint32(info.Mode()) if runtime.GOOS == "windows" { if osutil.IsWindowsExecutable(relPath) { // Set executable bits on files with executable extenions (.exe, // .bat, etc). newMode |= 0111 } else if hasCurFile { // If we have an existing index entry, copy the executable bits // from there. newMode |= (curFile.Permissions & 0111) } } blockSize := protocol.MinBlockSize if w.UseLargeBlocks { blockSize = protocol.BlockSize(info.Size()) if hasCurFile { // Check if we should retain current block size. curBlockSize := curFile.BlockSize() if blockSize > curBlockSize && blockSize/curBlockSize <= 2 { // New block size is larger, but not more than twice larger. // Retain. blockSize = curBlockSize } else if curBlockSize > blockSize && curBlockSize/blockSize <= 2 { // Old block size is larger, but not more than twice larger. // Retain. blockSize = curBlockSize } } } f := protocol.FileInfo{ Name: relPath, Type: protocol.FileInfoTypeFile, Version: curFile.Version.Update(w.ShortID), Permissions: newMode & uint32(maskModePerm), NoPermissions: w.IgnorePerms, ModifiedS: info.ModTime().Unix(), ModifiedNs: int32(info.ModTime().Nanosecond()), ModifiedBy: w.ShortID, Size: info.Size(), RawBlockSize: int32(blockSize), } if hasCurFile { if curFile.IsEquivalent(f, w.IgnorePerms, true) { return nil } if curFile.ShouldConflict() { // The old file was invalid for whatever reason and probably not // up to date with what was out there in the cluster. Drop all // others from the version vector to indicate that we haven't // taken their version into account, and possibly cause a // conflict. f.Version = f.Version.DropOthers(w.ShortID) } l.Debugln("rescan:", curFile, info.ModTime().Unix(), info.Mode()&fs.ModePerm) } l.Debugln("to hash:", relPath, f) select { case fchan <- f: case <-ctx.Done(): return ctx.Err() } return nil } func (w *walker) walkDir(ctx context.Context, relPath string, info fs.FileInfo, dchan chan protocol.FileInfo) error { cf, ok := w.CurrentFiler.CurrentFile(relPath) f := protocol.FileInfo{ Name: relPath, Type: protocol.FileInfoTypeDirectory, Version: cf.Version.Update(w.ShortID), Permissions: uint32(info.Mode() & maskModePerm), NoPermissions: w.IgnorePerms, ModifiedS: info.ModTime().Unix(), ModifiedNs: int32(info.ModTime().Nanosecond()), ModifiedBy: w.ShortID, } if ok { if cf.IsEquivalent(f, w.IgnorePerms, true) { return nil } if cf.ShouldConflict() { // The old file was invalid for whatever reason and probably not // up to date with what was out there in the cluster. Drop all // others from the version vector to indicate that we haven't // taken their version into account, and possibly cause a // conflict. f.Version = f.Version.DropOthers(w.ShortID) } } l.Debugln("dir:", relPath, f) select { case dchan <- f: case <-ctx.Done(): return ctx.Err() } return nil } // walkSymlink returns nil or an error, if the error is of the nature that // it should stop the entire walk. func (w *walker) walkSymlink(ctx context.Context, relPath string, dchan chan protocol.FileInfo) error { // Symlinks are not supported on Windows. We ignore instead of returning // an error. if runtime.GOOS == "windows" { return nil } // We always rehash symlinks as they have no modtime or // permissions. We check if they point to the old target by // checking that their existing blocks match with the blocks in // the index. target, err := w.Filesystem.ReadSymlink(relPath) if err != nil { l.Debugln("readlink error:", relPath, err) return nil } cf, ok := w.CurrentFiler.CurrentFile(relPath) f := protocol.FileInfo{ Name: relPath, Type: protocol.FileInfoTypeSymlink, Version: cf.Version.Update(w.ShortID), NoPermissions: true, // Symlinks don't have permissions of their own SymlinkTarget: target, ModifiedBy: w.ShortID, } if ok { if cf.IsEquivalent(f, w.IgnorePerms, true) { return nil } if cf.ShouldConflict() { // The old file was invalid for whatever reason and probably not // up to date with what was out there in the cluster. Drop all // others from the version vector to indicate that we haven't // taken their version into account, and possibly cause a // conflict. f.Version = f.Version.DropOthers(w.ShortID) } } l.Debugln("symlink changedb:", relPath, f) select { case dchan <- f: case <-ctx.Done(): return ctx.Err() } return nil } // normalizePath returns the normalized relative path (possibly after fixing // it on disk), or skip is true. func (w *walker) normalizePath(path string, info fs.FileInfo) (normPath string, skip bool) { if runtime.GOOS == "darwin" { // Mac OS X file names should always be NFD normalized. normPath = norm.NFD.String(path) } else { // Every other OS in the known universe uses NFC or just plain // doesn't bother to define an encoding. In our case *we* do care, // so we enforce NFC regardless. normPath = norm.NFC.String(path) } if path == normPath { // The file name is already normalized: nothing to do return path, false } if !w.AutoNormalize { // We're not authorized to do anything about it, so complain and skip. l.Warnf("File name %q is not in the correct UTF8 normalization form; skipping.", path) return "", true } // We will attempt to normalize it. normInfo, err := w.Filesystem.Lstat(normPath) if fs.IsNotExist(err) { // Nothing exists with the normalized filename. Good. if err = w.Filesystem.Rename(path, normPath); err != nil { l.Infof(`Error normalizing UTF8 encoding of file "%s": %v`, path, err) return "", true } l.Infof(`Normalized UTF8 encoding of file name "%s".`, path) } else if w.Filesystem.SameFile(info, normInfo) { // With some filesystems (ZFS), if there is an un-normalized path and you ask whether the normalized // version exists, it responds with true. Therefore we need to check fs.SameFile as well. // In this case, a call to Rename won't do anything, so we have to rename via a temp file. // We don't want to use the standard syncthing prefix here, as that will result in the file being ignored // and eventually deleted by Syncthing if the rename back fails. tempPath := fs.TempNameWithPrefix(normPath, "") if err = w.Filesystem.Rename(path, tempPath); err != nil { l.Infof(`Error during normalizing UTF8 encoding of file "%s" (renamed to "%s"): %v`, path, tempPath, err) return "", true } if err = w.Filesystem.Rename(tempPath, normPath); err != nil { // I don't ever expect this to happen, but if it does, we should probably tell our caller that the normalized // path is the temp path: that way at least the user's data still gets synced. l.Warnf(`Error renaming "%s" to "%s" while normalizating UTF8 encoding: %v. You will want to rename this file back manually`, tempPath, normPath, err) return tempPath, false } } else { // There is something already in the way at the normalized // file name. l.Infof(`File "%s" path has UTF8 encoding conflict with another file; ignoring.`, path) return "", true } return normPath, false } // A byteCounter gets bytes added to it via Update() and then provides the // Total() and one minute moving average Rate() in bytes per second. type byteCounter struct { total int64 metrics.EWMA stop chan struct{} } func newByteCounter() *byteCounter { c := &byteCounter{ EWMA: metrics.NewEWMA1(), // a one minute exponentially weighted moving average stop: make(chan struct{}), } go c.ticker() return c } func (c *byteCounter) ticker() { // The metrics.EWMA expects clock ticks every five seconds in order to // decay the average properly. t := time.NewTicker(5 * time.Second) for { select { case <-t.C: c.Tick() case <-c.stop: t.Stop() return } } } func (c *byteCounter) Update(bytes int64) { atomic.AddInt64(&c.total, bytes) c.EWMA.Update(bytes) } func (c *byteCounter) Total() int64 { return atomic.LoadInt64(&c.total) } func (c *byteCounter) Close() { close(c.stop) } // A no-op CurrentFiler type noCurrentFiler struct{} func (noCurrentFiler) CurrentFile(name string) (protocol.FileInfo, bool) { return protocol.FileInfo{}, false }