package imap import ( "crypto/tls" "fmt" "net" "net/url" "strconv" "strings" "time" "github.com/emersion/go-imap" sortthread "github.com/emersion/go-imap-sortthread" "github.com/emersion/go-imap/client" "golang.org/x/oauth2" "git.sr.ht/~rjarry/aerc/lib" "git.sr.ht/~rjarry/aerc/models" "git.sr.ht/~rjarry/aerc/worker/handlers" "git.sr.ht/~rjarry/aerc/worker/types" ) func init() { handlers.RegisterWorkerFactory("imap", NewIMAPWorker) handlers.RegisterWorkerFactory("imaps", NewIMAPWorker) } var errUnsupported = fmt.Errorf("unsupported command") type imapClient struct { *client.Client thread *sortthread.ThreadClient sort *sortthread.SortClient } type IMAPWorker struct { config struct { scheme string insecure bool addr string user *url.Userinfo folders []string oauthBearer lib.OAuthBearer // tcp connection parameters connection_timeout time.Duration keepalive_period time.Duration keepalive_probes int keepalive_interval int } client *imapClient idleStop chan struct{} idleDone chan error selected *imap.MailboxStatus updates chan client.Update worker *types.Worker // Map of sequence numbers to UIDs, index 0 is seq number 1 seqMap []uint32 } func NewIMAPWorker(worker *types.Worker) (types.Backend, error) { return &IMAPWorker{ idleDone: make(chan error), updates: make(chan client.Update, 50), worker: worker, selected: &imap.MailboxStatus{}, }, nil } func (w *IMAPWorker) handleMessage(msg types.WorkerMessage) error { if w.client != nil && w.client.State() == imap.SelectedState { close(w.idleStop) if err := <-w.idleDone; err != nil { w.worker.PostMessage(&types.Error{Error: err}, nil) } } defer func() { if w.client != nil && w.client.State() == imap.SelectedState { w.idleStop = make(chan struct{}) go func() { w.idleDone <- w.client.Idle(w.idleStop, &client.IdleOptions{0, 0}) }() } }() var reterr error // will be returned at the end, needed to support idle switch msg := msg.(type) { case *types.Unsupported: // No-op case *types.Configure: u, err := url.Parse(msg.Config.Source) if err != nil { reterr = err break } w.config.scheme = u.Scheme if strings.HasSuffix(w.config.scheme, "+insecure") { w.config.scheme = strings.TrimSuffix(w.config.scheme, "+insecure") w.config.insecure = true } if strings.HasSuffix(w.config.scheme, "+oauthbearer") { w.config.scheme = strings.TrimSuffix(w.config.scheme, "+oauthbearer") w.config.oauthBearer.Enabled = true q := u.Query() oauth2 := &oauth2.Config{} if q.Get("token_endpoint") != "" { oauth2.ClientID = q.Get("client_id") oauth2.ClientSecret = q.Get("client_secret") oauth2.Scopes = []string{q.Get("scope")} oauth2.Endpoint.TokenURL = q.Get("token_endpoint") } w.config.oauthBearer.OAuth2 = oauth2 } w.config.addr = u.Host if !strings.ContainsRune(w.config.addr, ':') { w.config.addr += ":" + w.config.scheme } w.config.user = u.User w.config.folders = msg.Config.Folders w.config.connection_timeout = 30 * time.Second w.config.keepalive_period = 0 * time.Second w.config.keepalive_probes = 3 w.config.keepalive_interval = 3 for key, value := range msg.Config.Params { switch key { case "connection-timeout": val, err := time.ParseDuration(value) if err != nil || val < 0 { reterr = fmt.Errorf( "invalid connection-timeout value %v: %v", value, err) break } w.config.connection_timeout = val case "keepalive-period": val, err := time.ParseDuration(value) if err != nil || val < 0 { reterr = fmt.Errorf( "invalid keepalive-period value %v: %v", value, err) break } w.config.keepalive_period = val case "keepalive-probes": val, err := strconv.Atoi(value) if err != nil || val < 0 { reterr = fmt.Errorf( "invalid keepalive-probes value %v: %v", value, err) break } w.config.keepalive_probes = val case "keepalive-interval": val, err := time.ParseDuration(value) if err != nil || val < 0 { reterr = fmt.Errorf( "invalid keepalive-interval value %v: %v", value, err) break } w.config.keepalive_interval = int(val.Seconds()) } } case *types.Connect: if w.client != nil && w.client.State() == imap.SelectedState { reterr = fmt.Errorf("Already connected") break } c, err := w.connect() if err != nil { reterr = err break } c.Updates = w.updates w.client = &imapClient{c, sortthread.NewThreadClient(c), sortthread.NewSortClient(c)} w.worker.PostMessage(&types.Done{types.RespondTo(msg)}, nil) case *types.Disconnect: if w.client == nil || w.client.State() != imap.SelectedState { reterr = fmt.Errorf("Not connected") break } if err := w.client.Logout(); err != nil { reterr = err break } w.worker.PostMessage(&types.Done{types.RespondTo(msg)}, nil) case *types.ListDirectories: w.handleListDirectories(msg) case *types.OpenDirectory: w.handleOpenDirectory(msg) case *types.FetchDirectoryContents: w.handleFetchDirectoryContents(msg) case *types.FetchDirectoryThreaded: w.handleDirectoryThreaded(msg) case *types.CreateDirectory: w.handleCreateDirectory(msg) case *types.RemoveDirectory: w.handleRemoveDirectory(msg) case *types.FetchMessageHeaders: w.handleFetchMessageHeaders(msg) case *types.FetchMessageBodyPart: w.handleFetchMessageBodyPart(msg) case *types.FetchFullMessages: w.handleFetchFullMessages(msg) case *types.DeleteMessages: w.handleDeleteMessages(msg) case *types.FlagMessages: w.handleFlagMessages(msg) case *types.AnsweredMessages: w.handleAnsweredMessages(msg) case *types.CopyMessages: w.handleCopyMessages(msg) case *types.AppendMessage: w.handleAppendMessage(msg) case *types.SearchDirectory: w.handleSearchDirectory(msg) default: reterr = errUnsupported } return reterr } func (w *IMAPWorker) handleImapUpdate(update client.Update) { w.worker.Logger.Printf("(= %T", update) switch update := update.(type) { case *client.MailboxUpdate: status := update.Mailbox if w.selected.Name == status.Name { w.selected = status } w.worker.PostMessage(&types.DirectoryInfo{ Info: &models.DirectoryInfo{ Flags: status.Flags, Name: status.Name, ReadOnly: status.ReadOnly, Exists: int(status.Messages), Recent: int(status.Recent), Unseen: int(status.Unseen), }, }, nil) case *client.MessageUpdate: msg := update.Message if msg.Uid == 0 { msg.Uid = w.seqMap[msg.SeqNum-1] } w.worker.PostMessage(&types.MessageInfo{ Info: &models.MessageInfo{ BodyStructure: translateBodyStructure(msg.BodyStructure), Envelope: translateEnvelope(msg.Envelope), Flags: translateImapFlags(msg.Flags), InternalDate: msg.InternalDate, Uid: msg.Uid, }, }, nil) case *client.ExpungeUpdate: i := update.SeqNum - 1 uid := w.seqMap[i] w.seqMap = append(w.seqMap[:i], w.seqMap[i+1:]...) w.worker.PostMessage(&types.MessagesDeleted{ Uids: []uint32{uid}, }, nil) } } func (w *IMAPWorker) connect() (*client.Client, error) { var ( conn *net.TCPConn c *client.Client ) addr, err := net.ResolveTCPAddr("tcp", w.config.addr) if err != nil { return nil, err } conn, err = net.DialTCP("tcp", nil, addr) if err != nil { return nil, err } if w.config.connection_timeout > 0 { end := time.Now().Add(w.config.connection_timeout) err = conn.SetDeadline(end) if err != nil { return nil, err } } if w.config.keepalive_period > 0 { err = w.setKeepaliveParameters(conn) if err != nil { return nil, err } } serverName, _, _ := net.SplitHostPort(w.config.addr) tlsConfig := &tls.Config{ServerName: serverName} switch w.config.scheme { case "imap": c, err = client.New(conn) if err != nil { return nil, err } if !w.config.insecure { if err = c.StartTLS(tlsConfig); err != nil { return nil, err } } case "imaps": tlsConn := tls.Client(conn, tlsConfig) c, err = client.New(tlsConn) if err != nil { return nil, err } default: return nil, fmt.Errorf("Unknown IMAP scheme %s", w.config.scheme) } c.ErrorLog = w.worker.Logger if w.config.user != nil { username := w.config.user.Username() password, hasPassword := w.config.user.Password() if !hasPassword { // TODO: ask password } if w.config.oauthBearer.Enabled { if err := w.config.oauthBearer.Authenticate( username, password, c); err != nil { return nil, err } } else if err := c.Login(username, password); err != nil { return nil, err } } c.SetDebug(w.worker.Logger.Writer()) if _, err := c.Select(imap.InboxName, false); err != nil { return nil, err } return c, nil } // Set additional keepalive parameters. // Uses new interfaces introduced in Go1.11, which let us get connection's file // descriptor, without blocking, and therefore without uncontrolled spawning of // threads (not goroutines, actual threads). func (w *IMAPWorker) setKeepaliveParameters(conn *net.TCPConn) error { err := conn.SetKeepAlive(true) if err != nil { return err } // Idle time before sending a keepalive probe err = conn.SetKeepAlivePeriod(w.config.keepalive_period) if err != nil { return err } rawConn, e := conn.SyscallConn() if e != nil { return e } err = rawConn.Control(func(fdPtr uintptr) { fd := int(fdPtr) // Max number of probes before failure err := lib.SetTcpKeepaliveProbes(fd, w.config.keepalive_probes) if err != nil { w.worker.Logger.Printf( "cannot set tcp keepalive probes: %v\n", err) } // Wait time after an unsuccessful probe err = lib.SetTcpKeepaliveInterval(fd, w.config.keepalive_interval) if err != nil { w.worker.Logger.Printf( "cannot set tcp keepalive interval: %v\n", err) } }) return err } func (w *IMAPWorker) Run() { for { select { case msg := <-w.worker.Actions: msg = w.worker.ProcessAction(msg) if err := w.handleMessage(msg); err == errUnsupported { w.worker.PostMessage(&types.Unsupported{ Message: types.RespondTo(msg), }, nil) } else if err != nil { w.worker.PostMessage(&types.Error{ Message: types.RespondTo(msg), Error: err, }, nil) } case update := <-w.updates: w.handleImapUpdate(update) } } }