package maildir import ( "io" "net/textproto" "strings" "unicode" "github.com/emersion/go-maildir" "git.sr.ht/~sircmpwn/getopt" "git.sr.ht/~rjarry/aerc/lib" "git.sr.ht/~rjarry/aerc/logging" "git.sr.ht/~rjarry/aerc/models" ) type searchCriteria struct { Header textproto.MIMEHeader Body []string Text []string WithFlags []maildir.Flag WithoutFlags []maildir.Flag } func newSearchCriteria() *searchCriteria { return &searchCriteria{Header: make(textproto.MIMEHeader)} } func parseSearch(args []string) (*searchCriteria, error) { criteria := newSearchCriteria() opts, optind, err := getopt.Getopts(args, "rux:X:bat:H:f:c:") if err != nil { return nil, err } body := false text := false for _, opt := range opts { switch opt.Option { case 'r': criteria.WithFlags = append(criteria.WithFlags, maildir.FlagSeen) case 'u': criteria.WithoutFlags = append(criteria.WithoutFlags, maildir.FlagSeen) case 'x': criteria.WithFlags = append(criteria.WithFlags, getParsedFlag(opt.Value)) case 'X': criteria.WithoutFlags = append(criteria.WithoutFlags, getParsedFlag(opt.Value)) case 'H': // TODO case 'f': criteria.Header.Add("From", opt.Value) case 't': criteria.Header.Add("To", opt.Value) case 'c': criteria.Header.Add("Cc", opt.Value) case 'b': body = true case 'a': text = true } } switch { case text: criteria.Text = args[optind:] case body: criteria.Body = args[optind:] default: for _, arg := range args[optind:] { criteria.Header.Add("Subject", arg) } } return criteria, nil } func getParsedFlag(name string) maildir.Flag { var f maildir.Flag switch strings.ToLower(name) { case "seen": f = maildir.FlagSeen case "answered": f = maildir.FlagReplied case "flagged": f = maildir.FlagFlagged } return f } func (w *Worker) search(criteria *searchCriteria) ([]uint32, error) { requiredParts := getRequiredParts(criteria) logging.Infof("Required parts bitmask for search: %b", requiredParts) keys, err := w.c.UIDs(*w.selected) if err != nil { return nil, err } matchedUids := []uint32{} for _, key := range keys { success, err := w.searchKey(key, criteria, requiredParts) if err != nil { // don't return early so that we can still get some results logging.Errorf("Failed to search key %d: %v", key, err) } else if success { matchedUids = append(matchedUids, key) } } return matchedUids, nil } // Execute the search criteria for the given key, returns true if search succeeded func (w *Worker) searchKey(key uint32, criteria *searchCriteria, parts MsgParts, ) (bool, error) { message, err := w.c.Message(*w.selected, key) if err != nil { return false, err } // setup parts of the message to use in the search // this is so that we try to minimise reading unnecessary parts var ( flags []maildir.Flag header *models.MessageInfo body string all string ) if parts&FLAGS > 0 { flags, err = message.Flags() if err != nil { return false, err } } if parts&HEADER > 0 { header, err = message.MessageInfo() if err != nil { return false, err } } if parts&BODY > 0 { // TODO: select which part to search, maybe look for text/plain mi, err := message.MessageInfo() if err != nil { return false, err } path := lib.FindFirstNonMultipart(mi.BodyStructure, nil) reader, err := message.NewBodyPartReader(path) if err != nil { return false, err } bytes, err := io.ReadAll(reader) if err != nil { return false, err } body = string(bytes) } if parts&ALL > 0 { reader, err := message.NewReader() if err != nil { return false, err } defer reader.Close() bytes, err := io.ReadAll(reader) if err != nil { return false, err } all = string(bytes) } // now search through the criteria // implicit AND at the moment so fail fast if criteria.Header != nil { for k, v := range criteria.Header { headerValue := header.RFC822Headers.Get(k) for _, text := range v { if !containsSmartCase(headerValue, text) { return false, nil } } } } if criteria.Body != nil { for _, searchTerm := range criteria.Body { if !containsSmartCase(body, searchTerm) { return false, nil } } } if criteria.Text != nil { for _, searchTerm := range criteria.Text { if !containsSmartCase(all, searchTerm) { return false, nil } } } if criteria.WithFlags != nil { for _, searchFlag := range criteria.WithFlags { if !containsFlag(flags, searchFlag) { return false, nil } } } if criteria.WithoutFlags != nil { for _, searchFlag := range criteria.WithoutFlags { if containsFlag(flags, searchFlag) { return false, nil } } } return true, nil } // Returns true if searchFlag appears in flags func containsFlag(flags []maildir.Flag, searchFlag maildir.Flag) bool { match := false for _, flag := range flags { if searchFlag == flag { match = true } } return match } // Smarter version of strings.Contains for searching. // Is case-insensitive unless substr contains an upper case character func containsSmartCase(s string, substr string) bool { if hasUpper(substr) { return strings.Contains(s, substr) } return strings.Contains(strings.ToLower(s), strings.ToLower(substr)) } func hasUpper(s string) bool { for _, r := range s { if unicode.IsUpper(r) { return true } } return false } // The parts of a message, kind of type MsgParts int const NONE MsgParts = 0 const ( FLAGS MsgParts = 1 << iota HEADER BODY ALL ) // Returns a bitmask of the parts of the message required to be loaded for the // given criteria func getRequiredParts(criteria *searchCriteria) MsgParts { required := NONE if len(criteria.Header) > 0 { required |= HEADER } if criteria.Body != nil && len(criteria.Body) > 0 { required |= BODY } if criteria.Text != nil && len(criteria.Text) > 0 { required |= ALL } if criteria.WithFlags != nil && len(criteria.WithFlags) > 0 { required |= FLAGS } if criteria.WithoutFlags != nil && len(criteria.WithoutFlags) > 0 { required |= FLAGS } return required }