// Package filter controls the filtering of files package filter import ( "bufio" "context" "errors" "fmt" "log" "os" "path" "regexp" "strings" "time" "github.com/rclone/rclone/fs" "golang.org/x/sync/errgroup" ) // This is the globally active filter // // This is accessed through GetConfig and AddConfig var globalConfig = mustNewFilter(nil) // rule is one filter rule type rule struct { Include bool Regexp *regexp.Regexp } // Match returns true if rule matches path func (r *rule) Match(path string) bool { return r.Regexp.MatchString(path) } // String the rule func (r *rule) String() string { c := "-" if r.Include { c = "+" } return fmt.Sprintf("%s %s", c, r.Regexp.String()) } // rules is a slice of rules type rules struct { rules []rule existing map[string]struct{} } // add adds a rule if it doesn't exist already func (rs *rules) add(Include bool, re *regexp.Regexp) { if rs.existing == nil { rs.existing = make(map[string]struct{}) } newRule := rule{ Include: Include, Regexp: re, } newRuleString := newRule.String() if _, ok := rs.existing[newRuleString]; ok { return // rule already exists } rs.rules = append(rs.rules, newRule) rs.existing[newRuleString] = struct{}{} } // clear clears all the rules func (rs *rules) clear() { rs.rules = nil rs.existing = nil } // len returns the number of rules func (rs *rules) len() int { return len(rs.rules) } // FilesMap describes the map of files to transfer type FilesMap map[string]struct{} // Opt configures the filter type Opt struct { DeleteExcluded bool FilterRule []string FilterFrom []string ExcludeRule []string ExcludeFrom []string ExcludeFile []string IncludeRule []string IncludeFrom []string FilesFrom []string FilesFromRaw []string MinAge fs.Duration MaxAge fs.Duration MinSize fs.SizeSuffix MaxSize fs.SizeSuffix IgnoreCase bool } // DefaultOpt is the default config for the filter var DefaultOpt = Opt{ MinAge: fs.DurationOff, MaxAge: fs.DurationOff, MinSize: fs.SizeSuffix(-1), MaxSize: fs.SizeSuffix(-1), } // Filter describes any filtering in operation type Filter struct { Opt Opt ModTimeFrom time.Time ModTimeTo time.Time fileRules rules dirRules rules files FilesMap // files if filesFrom dirs FilesMap // dirs from filesFrom } // NewFilter parses the command line options and creates a Filter // object. If opt is nil, then DefaultOpt will be used func NewFilter(opt *Opt) (f *Filter, err error) { f = &Filter{} // Make a copy of the options if opt != nil { f.Opt = *opt } else { f.Opt = DefaultOpt } // Filter flags if f.Opt.MinAge.IsSet() { f.ModTimeTo = time.Now().Add(-time.Duration(f.Opt.MinAge)) fs.Debugf(nil, "--min-age %v to %v", f.Opt.MinAge, f.ModTimeTo) } if f.Opt.MaxAge.IsSet() { f.ModTimeFrom = time.Now().Add(-time.Duration(f.Opt.MaxAge)) if !f.ModTimeTo.IsZero() && f.ModTimeTo.Before(f.ModTimeFrom) { log.Fatal("filter: --min-age can't be larger than --max-age") } fs.Debugf(nil, "--max-age %v to %v", f.Opt.MaxAge, f.ModTimeFrom) } addImplicitExclude := false foundExcludeRule := false for _, rule := range f.Opt.IncludeRule { err = f.Add(true, rule) if err != nil { return nil, err } addImplicitExclude = true } for _, rule := range f.Opt.IncludeFrom { err := forEachLine(rule, false, func(line string) error { return f.Add(true, line) }) if err != nil { return nil, err } addImplicitExclude = true } for _, rule := range f.Opt.ExcludeRule { err = f.Add(false, rule) if err != nil { return nil, err } foundExcludeRule = true } for _, rule := range f.Opt.ExcludeFrom { err := forEachLine(rule, false, func(line string) error { return f.Add(false, line) }) if err != nil { return nil, err } foundExcludeRule = true } if addImplicitExclude && foundExcludeRule { fs.Errorf(nil, "Using --filter is recommended instead of both --include and --exclude as the order they are parsed in is indeterminate") } for _, rule := range f.Opt.FilterRule { err = f.AddRule(rule) if err != nil { return nil, err } } for _, rule := range f.Opt.FilterFrom { err := forEachLine(rule, false, f.AddRule) if err != nil { return nil, err } } inActive := f.InActive() for _, rule := range f.Opt.FilesFrom { if !inActive { return nil, fmt.Errorf("The usage of --files-from overrides all other filters, it should be used alone or with --files-from-raw") } f.initAddFile() // init to show --files-from set even if no files within err := forEachLine(rule, false, func(line string) error { return f.AddFile(line) }) if err != nil { return nil, err } } for _, rule := range f.Opt.FilesFromRaw { // --files-from-raw can be used with --files-from, hence we do // not need to get the value of f.InActive again if !inActive { return nil, fmt.Errorf("The usage of --files-from-raw overrides all other filters, it should be used alone or with --files-from") } f.initAddFile() // init to show --files-from set even if no files within err := forEachLine(rule, true, func(line string) error { return f.AddFile(line) }) if err != nil { return nil, err } } if addImplicitExclude { err = f.Add(false, "/**") if err != nil { return nil, err } } if fs.GetConfig(context.Background()).Dump&fs.DumpFilters != 0 { fmt.Println("--- start filters ---") fmt.Println(f.DumpFilters()) fmt.Println("--- end filters ---") } return f, nil } func mustNewFilter(opt *Opt) *Filter { f, err := NewFilter(opt) if err != nil { panic(err) } return f } // addDirGlobs adds directory globs from the file glob passed in func (f *Filter) addDirGlobs(Include bool, glob string) error { for _, dirGlob := range globToDirGlobs(glob) { // Don't add "/" as we always include the root if dirGlob == "/" { continue } dirRe, err := GlobToRegexp(dirGlob, f.Opt.IgnoreCase) if err != nil { return err } f.dirRules.add(Include, dirRe) } return nil } // Add adds a filter rule with include or exclude status indicated func (f *Filter) Add(Include bool, glob string) error { isDirRule := strings.HasSuffix(glob, "/") isFileRule := !isDirRule // Make excluding "dir/" equivalent to excluding "dir/**" if isDirRule && !Include { glob += "**" } if strings.Contains(glob, "**") { isDirRule, isFileRule = true, true } re, err := GlobToRegexp(glob, f.Opt.IgnoreCase) if err != nil { return err } if isFileRule { f.fileRules.add(Include, re) // If include rule work out what directories are needed to scan // if exclude rule, we can't rule anything out // Unless it is `*` which matches everything // NB ** and /** are DirRules if Include || glob == "*" { err = f.addDirGlobs(Include, glob) if err != nil { return err } } } if isDirRule { f.dirRules.add(Include, re) } return nil } // AddRule adds a filter rule with include/exclude indicated by the prefix // // These are // // + glob // - glob // ! // // '+' includes the glob, '-' excludes it and '!' resets the filter list // // Line comments may be introduced with '#' or ';' func (f *Filter) AddRule(rule string) error { switch { case rule == "!": f.Clear() return nil case strings.HasPrefix(rule, "- "): return f.Add(false, rule[2:]) case strings.HasPrefix(rule, "+ "): return f.Add(true, rule[2:]) } return fmt.Errorf("malformed rule %q", rule) } // initAddFile creates f.files and f.dirs func (f *Filter) initAddFile() { if f.files == nil { f.files = make(FilesMap) f.dirs = make(FilesMap) } } // AddFile adds a single file to the files from list func (f *Filter) AddFile(file string) error { f.initAddFile() file = strings.Trim(file, "/") f.files[file] = struct{}{} // Put all the parent directories into f.dirs for { file = path.Dir(file) if file == "." { break } if _, found := f.dirs[file]; found { break } f.dirs[file] = struct{}{} } return nil } // Files returns all the files from the `--files-from` list // // It may be nil if the list is empty func (f *Filter) Files() FilesMap { return f.files } // Clear clears all the filter rules func (f *Filter) Clear() { f.fileRules.clear() f.dirRules.clear() } // InActive returns false if any filters are active func (f *Filter) InActive() bool { return (f.files == nil && f.ModTimeFrom.IsZero() && f.ModTimeTo.IsZero() && f.Opt.MinSize < 0 && f.Opt.MaxSize < 0 && f.fileRules.len() == 0 && f.dirRules.len() == 0 && len(f.Opt.ExcludeFile) == 0) } // IncludeRemote returns whether this remote passes the filter rules. func (f *Filter) IncludeRemote(remote string) bool { for _, rule := range f.fileRules.rules { if rule.Match(remote) { return rule.Include } } return true } // ListContainsExcludeFile checks if exclude file is present in the list. func (f *Filter) ListContainsExcludeFile(entries fs.DirEntries) bool { if len(f.Opt.ExcludeFile) == 0 { return false } for _, entry := range entries { obj, ok := entry.(fs.Object) if ok { basename := path.Base(obj.Remote()) for _, excludeFile := range f.Opt.ExcludeFile { if basename == excludeFile { return true } } } } return false } // IncludeDirectory returns a function which checks whether this // directory should be included in the sync or not. func (f *Filter) IncludeDirectory(ctx context.Context, fs fs.Fs) func(string) (bool, error) { return func(remote string) (bool, error) { remote = strings.Trim(remote, "/") // first check if we need to remove directory based on // the exclude file excl, err := f.DirContainsExcludeFile(ctx, fs, remote) if err != nil { return false, err } if excl { return false, nil } // filesFrom takes precedence if f.files != nil { _, include := f.dirs[remote] return include, nil } remote += "/" for _, rule := range f.dirRules.rules { if rule.Match(remote) { return rule.Include, nil } } return true, nil } } // DirContainsExcludeFile checks if exclude file is present in a // directory. If fs is nil, it works properly if ExcludeFile is an // empty string (for testing). func (f *Filter) DirContainsExcludeFile(ctx context.Context, fremote fs.Fs, remote string) (bool, error) { if len(f.Opt.ExcludeFile) > 0 { for _, excludeFile := range f.Opt.ExcludeFile { exists, err := fs.FileExists(ctx, fremote, path.Join(remote, excludeFile)) if err != nil { return false, err } if exists { return true, nil } } } return false, nil } // Include returns whether this object should be included into the // sync or not func (f *Filter) Include(remote string, size int64, modTime time.Time) bool { // filesFrom takes precedence if f.files != nil { _, include := f.files[remote] return include } if !f.ModTimeFrom.IsZero() && modTime.Before(f.ModTimeFrom) { return false } if !f.ModTimeTo.IsZero() && modTime.After(f.ModTimeTo) { return false } if f.Opt.MinSize >= 0 && size < int64(f.Opt.MinSize) { return false } if f.Opt.MaxSize >= 0 && size > int64(f.Opt.MaxSize) { return false } return f.IncludeRemote(remote) } // IncludeObject returns whether this object should be included into // the sync or not. This is a convenience function to avoid calling // o.ModTime(), which is an expensive operation. func (f *Filter) IncludeObject(ctx context.Context, o fs.Object) bool { var modTime time.Time if !f.ModTimeFrom.IsZero() || !f.ModTimeTo.IsZero() { modTime = o.ModTime(ctx) } else { modTime = time.Unix(0, 0) } return f.Include(o.Remote(), o.Size(), modTime) } // forEachLine calls fn on every line in the file pointed to by path // // It ignores empty lines and lines starting with '#' or ';' if raw is false func forEachLine(path string, raw bool, fn func(string) error) (err error) { var scanner *bufio.Scanner if path == "-" { scanner = bufio.NewScanner(os.Stdin) } else { in, err := os.Open(path) if err != nil { return err } scanner = bufio.NewScanner(in) defer fs.CheckClose(in, &err) } for scanner.Scan() { line := scanner.Text() if !raw { line = strings.TrimSpace(line) if len(line) == 0 || line[0] == '#' || line[0] == ';' { continue } } err := fn(line) if err != nil { return err } } return scanner.Err() } // DumpFilters dumps the filters in textual form, 1 per line func (f *Filter) DumpFilters() string { rules := []string{} if !f.ModTimeFrom.IsZero() { rules = append(rules, fmt.Sprintf("Last-modified date must be equal or greater than: %s", f.ModTimeFrom.String())) } if !f.ModTimeTo.IsZero() { rules = append(rules, fmt.Sprintf("Last-modified date must be equal or less than: %s", f.ModTimeTo.String())) } rules = append(rules, "--- File filter rules ---") for _, rule := range f.fileRules.rules { rules = append(rules, rule.String()) } rules = append(rules, "--- Directory filter rules ---") for _, dirRule := range f.dirRules.rules { rules = append(rules, dirRule.String()) } return strings.Join(rules, "\n") } // HaveFilesFrom returns true if --files-from has been supplied func (f *Filter) HaveFilesFrom() bool { return f.files != nil } var errFilesFromNotSet = errors.New("--files-from not set so can't use Filter.ListR") // MakeListR makes function to return all the files set using --files-from func (f *Filter) MakeListR(ctx context.Context, NewObject func(ctx context.Context, remote string) (fs.Object, error)) fs.ListRFn { return func(ctx context.Context, dir string, callback fs.ListRCallback) error { ci := fs.GetConfig(ctx) if !f.HaveFilesFrom() { return errFilesFromNotSet } var ( checkers = ci.Checkers remotes = make(chan string, checkers) g errgroup.Group ) for i := 0; i < checkers; i++ { g.Go(func() (err error) { var entries = make(fs.DirEntries, 1) for remote := range remotes { entries[0], err = NewObject(ctx, remote) if err == fs.ErrorObjectNotFound { // Skip files that are not found } else if err != nil { return err } else { err = callback(entries) if err != nil { return err } } } return nil }) } for remote := range f.files { remotes <- remote } close(remotes) return g.Wait() } } // UsesDirectoryFilters returns true if the filter uses directory // filters and false if it doesn't. // // This is used in deciding whether to walk directories or use ListR func (f *Filter) UsesDirectoryFilters() bool { if len(f.dirRules.rules) == 0 { return false } rule := f.dirRules.rules[0] re := rule.Regexp.String() if rule.Include == true && re == "^.*$" { return false } return true } // Context key for config type configContextKeyType struct{} var configContextKey = configContextKeyType{} // GetConfig returns the global or context sensitive config func GetConfig(ctx context.Context) *Filter { if ctx == nil { return globalConfig } c := ctx.Value(configContextKey) if c == nil { return globalConfig } return c.(*Filter) } // CopyConfig copies the global config (if any) from srcCtx into // dstCtx returning the new context. func CopyConfig(dstCtx, srcCtx context.Context) context.Context { if srcCtx == nil { return dstCtx } c := srcCtx.Value(configContextKey) if c == nil { return dstCtx } return context.WithValue(dstCtx, configContextKey, c) } // AddConfig returns a mutable config structure based on a shallow // copy of that found in ctx and returns a new context with that added // to it. func AddConfig(ctx context.Context) (context.Context, *Filter) { c := GetConfig(ctx) cCopy := new(Filter) *cCopy = *c newCtx := context.WithValue(ctx, configContextKey, cCopy) return newCtx, cCopy } // ReplaceConfig replaces the filter config in the ctx with the one // passed in and returns a new context with that added to it. func ReplaceConfig(ctx context.Context, f *Filter) context.Context { newCtx := context.WithValue(ctx, configContextKey, f) return newCtx } // Context key for the "use filter" flag type useFlagContextKeyType struct{} var useFlagContextKey = useFlagContextKeyType{} // GetUseFilter obtains the "use filter" flag from context // The flag tells filter-aware backends (Drive) to constrain List using filter func GetUseFilter(ctx context.Context) bool { if ctx != nil { if pVal := ctx.Value(useFlagContextKey); pVal != nil { return *(pVal.(*bool)) } } return false } // SetUseFilter returns a context having (re)set the "use filter" flag func SetUseFilter(ctx context.Context, useFilter bool) context.Context { if useFilter == GetUseFilter(ctx) { return ctx // Minimize depth of nested contexts } pVal := new(bool) *pVal = useFilter return context.WithValue(ctx, useFlagContextKey, pVal) }