1 files changed, 453 insertions, 0 deletions
diff --git a/vendor/github.com/matterbridge/slack/websocket_managed_conn.go b/vendor/github.com/matterbridge/slack/websocket_managed_conn.go
new file mode 100644
index 00000000..9c48852a
--- /dev/null
+++ b/vendor/github.com/matterbridge/slack/websocket_managed_conn.go
@@ -0,0 +1,453 @@
+package slack
+
+import (
+	"encoding/json"
+	"fmt"
+	"io"
+	"reflect"
+	"time"
+
+	"golang.org/x/net/websocket"
+)
+
+// ManageConnection can be called on a Slack RTM instance returned by the
+// NewRTM method. It will connect to the slack RTM API and handle all incoming
+// and outgoing events. If a connection fails then it will attempt to reconnect
+// and will notify any listeners through an error event on the IncomingEvents
+// channel.
+//
+// If the connection ends and the disconnect was unintentional then this will
+// attempt to reconnect.
+//
+// This should only be called once per slack API! Otherwise expect undefined
+// behavior.
+//
+// The defined error events are located in websocket_internals.go.
+func (rtm *RTM) ManageConnection() {
+	var connectionCount int
+	for {
+		connectionCount++
+		// start trying to connect
+		// the returned err is already passed onto the IncomingEvents channel
+		info, conn, err := rtm.connect(connectionCount, rtm.useRTMStart)
+		// if err != nil then the connection is sucessful - otherwise it is
+		// fatal
+		if err != nil {
+			return
+		}
+		rtm.info = info
+		rtm.IncomingEvents <- RTMEvent{"connected", &ConnectedEvent{
+			ConnectionCount: connectionCount,
+			Info:            info,
+		}}
+
+		rtm.conn = conn
+		rtm.isConnected = true
+
+		keepRunning := make(chan bool)
+		// we're now connected (or have failed fatally) so we can set up
+		// listeners
+		go rtm.handleIncomingEvents(keepRunning)
+
+		// this should be a blocking call until the connection has ended
+		rtm.handleEvents(keepRunning, 30*time.Second)
+
+		// after being disconnected we need to check if it was intentional
+		// if not then we should try to reconnect
+		if rtm.wasIntentional {
+			return
+		}
+		// else continue and run the loop again to connect
+	}
+}
+
+// connect attempts to connect to the slack websocket API. It handles any
+// errors that occur while connecting and will return once a connection
+// has been successfully opened.
+// If useRTMStart is false then it uses rtm.connect to create the connection,
+// otherwise it uses rtm.start.
+func (rtm *RTM) connect(connectionCount int, useRTMStart bool) (*Info, *websocket.Conn, error) {
+	// used to provide exponential backoff wait time with jitter before trying
+	// to connect to slack again
+	boff := &backoff{
+		Min:    100 * time.Millisecond,
+		Max:    5 * time.Minute,
+		Factor: 2,
+		Jitter: true,
+	}
+
+	for {
+		// send connecting event
+		rtm.IncomingEvents <- RTMEvent{"connecting", &ConnectingEvent{
+			Attempt:         boff.attempts + 1,
+			ConnectionCount: connectionCount,
+		}}
+		// attempt to start the connection
+		info, conn, err := rtm.startRTMAndDial(useRTMStart)
+		if err == nil {
+			return info, conn, nil
+		}
+		// check for fatal errors - currently only invalid_auth
+		if sErr, ok := err.(*WebError); ok && (sErr.Error() == "invalid_auth" || sErr.Error() == "account_inactive") {
+			rtm.IncomingEvents <- RTMEvent{"invalid_auth", &InvalidAuthEvent{}}
+			return nil, nil, sErr
+		}
+
+		// any other errors are treated as recoverable and we try again after
+		// sending the event along the IncomingEvents channel
+		rtm.IncomingEvents <- RTMEvent{"connection_error", &ConnectionErrorEvent{
+			Attempt:  boff.attempts,
+			ErrorObj: err,
+		}}
+		// get time we should wait before attempting to connect again
+		dur := boff.Duration()
+		rtm.Debugf("reconnection %d failed: %s", boff.attempts+1, err)
+		rtm.Debugln(" -> reconnecting in", dur)
+		time.Sleep(dur)
+	}
+}
+
+// startRTMAndDial attempts to connect to the slack websocket. If useRTMStart is true,
+// then it returns the  full information returned by the "rtm.start" method on the
+// slack API. Else it uses the "rtm.connect" method to connect
+func (rtm *RTM) startRTMAndDial(useRTMStart bool) (*Info, *websocket.Conn, error) {
+	var info *Info
+	var url string
+	var err error
+
+	if useRTMStart {
+		info, url, err = rtm.StartRTM()
+	} else {
+		info, url, err = rtm.ConnectRTM()
+	}
+	if err != nil {
+		return nil, nil, err
+	}
+
+	conn, err := websocketProxyDial(url, "http://api.slack.com")
+	if err != nil {
+		return nil, nil, err
+	}
+	return info, conn, err
+}
+
+// killConnection stops the websocket connection and signals to all goroutines
+// that they should cease listening to the connection for events.
+//
+// This should not be called directly! Instead a boolean value (true for
+// intentional, false otherwise) should be sent to the killChannel on the RTM.
+func (rtm *RTM) killConnection(keepRunning chan bool, intentional bool) error {
+	rtm.Debugln("killing connection")
+	if rtm.isConnected {
+		close(keepRunning)
+	}
+	rtm.isConnected = false
+	rtm.wasIntentional = intentional
+	err := rtm.conn.Close()
+	rtm.IncomingEvents <- RTMEvent{"disconnected", &DisconnectedEvent{intentional}}
+	return err
+}
+
+// handleEvents is a blocking function that handles all events. This sends
+// pings when asked to (on rtm.forcePing) and upon every given elapsed
+// interval. This also sends outgoing messages that are received from the RTM's
+// outgoingMessages channel. This also handles incoming raw events from the RTM
+// rawEvents channel.
+func (rtm *RTM) handleEvents(keepRunning chan bool, interval time.Duration) {
+	ticker := time.NewTicker(interval)
+	defer ticker.Stop()
+	for {
+		select {
+		// catch "stop" signal on channel close
+		case intentional := <-rtm.killChannel:
+			_ = rtm.killConnection(keepRunning, intentional)
+			return
+			// send pings on ticker interval
+		case <-ticker.C:
+			err := rtm.ping()
+			if err != nil {
+				_ = rtm.killConnection(keepRunning, false)
+				return
+			}
+		case <-rtm.forcePing:
+			err := rtm.ping()
+			if err != nil {
+				_ = rtm.killConnection(keepRunning, false)
+				return
+			}
+		// listen for messages that need to be sent
+		case msg := <-rtm.outgoingMessages:
+			rtm.sendOutgoingMessage(msg)
+		// listen for incoming messages that need to be parsed
+		case rawEvent := <-rtm.rawEvents:
+			rtm.handleRawEvent(rawEvent)
+		}
+	}
+}
+
+// handleIncomingEvents monitors the RTM's opened websocket for any incoming
+// events. It pushes the raw events onto the RTM channel rawEvents.
+//
+// This will stop executing once the RTM's keepRunning channel has been closed
+// or has anything sent to it.
+func (rtm *RTM) handleIncomingEvents(keepRunning <-chan bool) {
+	for {
+		// non-blocking listen to see if channel is closed
+		select {
+		// catch "stop" signal on channel close
+		case <-keepRunning:
+			return
+		default:
+			rtm.receiveIncomingEvent()
+		}
+	}
+}
+
+func (rtm *RTM) sendWithDeadline(msg interface{}) error {
+	// set a write deadline on the connection
+	if err := rtm.conn.SetWriteDeadline(time.Now().Add(10 * time.Second)); err != nil {
+		return err
+	}
+	if err := websocket.JSON.Send(rtm.conn, msg); err != nil {
+		return err
+	}
+	// remove write deadline
+	return rtm.conn.SetWriteDeadline(time.Time{})
+}
+
+// sendOutgoingMessage sends the given OutgoingMessage to the slack websocket.
+//
+// It does not currently detect if a outgoing message fails due to a disconnect
+// and instead lets a future failed 'PING' detect the failed connection.
+func (rtm *RTM) sendOutgoingMessage(msg OutgoingMessage) {
+	rtm.Debugln("Sending message:", msg)
+	if len(msg.Text) > MaxMessageTextLength {
+		rtm.IncomingEvents <- RTMEvent{"outgoing_error", &MessageTooLongEvent{
+			Message:   msg,
+			MaxLength: MaxMessageTextLength,
+		}}
+		return
+	}
+
+	if err := rtm.sendWithDeadline(msg); err != nil {
+		rtm.IncomingEvents <- RTMEvent{"outgoing_error", &OutgoingErrorEvent{
+			Message:  msg,
+			ErrorObj: err,
+		}}
+		// TODO force ping?
+	}
+}
+
+// ping sends a 'PING' message to the RTM's websocket. If the 'PING' message
+// fails to send then this returns an error signifying that the connection
+// should be considered disconnected.
+//
+// This does not handle incoming 'PONG' responses but does store the time of
+// each successful 'PING' send so latency can be detected upon a 'PONG'
+// response.
+func (rtm *RTM) ping() error {
+	id := rtm.idGen.Next()
+	rtm.Debugln("Sending PING ", id)
+	rtm.pings[id] = time.Now()
+
+	msg := &Ping{ID: id, Type: "ping"}
+
+	if err := rtm.sendWithDeadline(msg); err != nil {
+		rtm.Debugf("RTM Error sending 'PING %d': %s", id, err.Error())
+		return err
+	}
+	return nil
+}
+
+// receiveIncomingEvent attempts to receive an event from the RTM's websocket.
+// This will block until a frame is available from the websocket.
+func (rtm *RTM) receiveIncomingEvent() {
+	event := json.RawMessage{}
+	err := websocket.JSON.Receive(rtm.conn, &event)
+	if err == io.EOF {
+		// EOF's don't seem to signify a failed connection so instead we ignore
+		// them here and detect a failed connection upon attempting to send a
+		// 'PING' message
+
+		// trigger a 'PING' to detect pontential websocket disconnect
+		rtm.forcePing <- true
+		return
+	} else if err != nil {
+		rtm.IncomingEvents <- RTMEvent{"incoming_error", &IncomingEventError{
+			ErrorObj: err,
+		}}
+		// force a ping here too?
+		return
+	} else if len(event) == 0 {
+		rtm.Debugln("Received empty event")
+		return
+	}
+	rtm.Debugln("Incoming Event:", string(event[:]))
+	rtm.rawEvents <- event
+}
+
+// handleRawEvent takes a raw JSON message received from the slack websocket
+// and handles the encoded event.
+func (rtm *RTM) handleRawEvent(rawEvent json.RawMessage) {
+	event := &Event{}
+	err := json.Unmarshal(rawEvent, event)
+	if err != nil {
+		rtm.IncomingEvents <- RTMEvent{"unmarshalling_error", &UnmarshallingErrorEvent{err}}
+		return
+	}
+	switch event.Type {
+	case "":
+		rtm.handleAck(rawEvent)
+	case "hello":
+		rtm.IncomingEvents <- RTMEvent{"hello", &HelloEvent{}}
+	case "pong":
+		rtm.handlePong(rawEvent)
+	case "desktop_notification":
+		rtm.Debugln("Received desktop notification, ignoring")
+	default:
+		rtm.handleEvent(event.Type, rawEvent)
+	}
+}
+
+// handleAck handles an incoming 'ACK' message.
+func (rtm *RTM) handleAck(event json.RawMessage) {
+	ack := &AckMessage{}
+	if err := json.Unmarshal(event, ack); err != nil {
+		rtm.Debugln("RTM Error unmarshalling 'ack' event:", err)
+		rtm.Debugln(" -> Erroneous 'ack' event:", string(event))
+		return
+	}
+	if ack.Ok {
+		rtm.IncomingEvents <- RTMEvent{"ack", ack}
+	} else {
+		rtm.IncomingEvents <- RTMEvent{"ack_error", &AckErrorEvent{ack.Error}}
+	}
+}
+
+// handlePong handles an incoming 'PONG' message which should be in response to
+// a previously sent 'PING' message. This is then used to compute the
+// connection's latency.
+func (rtm *RTM) handlePong(event json.RawMessage) {
+	pong := &Pong{}
+	if err := json.Unmarshal(event, pong); err != nil {
+		rtm.Debugln("RTM Error unmarshalling 'pong' event:", err)
+		rtm.Debugln(" -> Erroneous 'ping' event:", string(event))
+		return
+	}
+	if pingTime, exists := rtm.pings[pong.ReplyTo]; exists {
+		latency := time.Since(pingTime)
+		rtm.IncomingEvents <- RTMEvent{"latency_report", &LatencyReport{Value: latency}}
+		delete(rtm.pings, pong.ReplyTo)
+	} else {
+		rtm.Debugln("RTM Error - unmatched 'pong' event:", string(event))
+	}
+}
+
+// handleEvent is the "default" response to an event that does not have a
+// special case. It matches the command's name to a mapping of defined events
+// and then sends the corresponding event struct to the IncomingEvents channel.
+// If the event type is not found or the event cannot be unmarshalled into the
+// correct struct then this sends an UnmarshallingErrorEvent to the
+// IncomingEvents channel.
+func (rtm *RTM) handleEvent(typeStr string, event json.RawMessage) {
+	v, exists := eventMapping[typeStr]
+	if !exists {
+		rtm.Debugf("RTM Error, received unmapped event %q: %s\n", typeStr, string(event))
+		err := fmt.Errorf("RTM Error: Received unmapped event %q: %s\n", typeStr, string(event))
+		rtm.IncomingEvents <- RTMEvent{"unmarshalling_error", &UnmarshallingErrorEvent{err}}
+		return
+	}
+	t := reflect.TypeOf(v)
+	recvEvent := reflect.New(t).Interface()
+	err := json.Unmarshal(event, recvEvent)
+	if err != nil {
+		rtm.Debugf("RTM Error, could not unmarshall event %q: %s\n", typeStr, string(event))
+		err := fmt.Errorf("RTM Error: Could not unmarshall event %q: %s\n", typeStr, string(event))
+		rtm.IncomingEvents <- RTMEvent{"unmarshalling_error", &UnmarshallingErrorEvent{err}}
+		return
+	}
+	rtm.IncomingEvents <- RTMEvent{typeStr, recvEvent}
+}
+
+// eventMapping holds a mapping of event names to their corresponding struct
+// implementations. The structs should be instances of the unmarshalling
+// target for the matching event type.
+var eventMapping = map[string]interface{}{
+	"message":         MessageEvent{},
+	"presence_change": PresenceChangeEvent{},
+	"user_typing":     UserTypingEvent{},
+
+	"channel_marked":          ChannelMarkedEvent{},
+	"channel_created":         ChannelCreatedEvent{},
+	"channel_joined":          ChannelJoinedEvent{},
+	"channel_left":            ChannelLeftEvent{},
+	"channel_deleted":         ChannelDeletedEvent{},
+	"channel_rename":          ChannelRenameEvent{},
+	"channel_archive":         ChannelArchiveEvent{},
+	"channel_unarchive":       ChannelUnarchiveEvent{},
+	"channel_history_changed": ChannelHistoryChangedEvent{},
+
+	"dnd_updated":      DNDUpdatedEvent{},
+	"dnd_updated_user": DNDUpdatedEvent{},
+
+	"im_created":         IMCreatedEvent{},
+	"im_open":            IMOpenEvent{},
+	"im_close":           IMCloseEvent{},
+	"im_marked":          IMMarkedEvent{},
+	"im_history_changed": IMHistoryChangedEvent{},
+
+	"group_marked":          GroupMarkedEvent{},
+	"group_open":            GroupOpenEvent{},
+	"group_joined":          GroupJoinedEvent{},
+	"group_left":            GroupLeftEvent{},
+	"group_close":           GroupCloseEvent{},
+	"group_rename":          GroupRenameEvent{},
+	"group_archive":         GroupArchiveEvent{},
+	"group_unarchive":       GroupUnarchiveEvent{},
+	"group_history_changed": GroupHistoryChangedEvent{},
+
+	"file_created":         FileCreatedEvent{},
+	"file_shared":          FileSharedEvent{},
+	"file_unshared":        FileUnsharedEvent{},
+	"file_public":          FilePublicEvent{},
+	"file_private":         FilePrivateEvent{},
+	"file_change":          FileChangeEvent{},
+	"file_deleted":         FileDeletedEvent{},
+	"file_comment_added":   FileCommentAddedEvent{},
+	"file_comment_edited":  FileCommentEditedEvent{},
+	"file_comment_deleted": FileCommentDeletedEvent{},
+
+	"pin_added":   PinAddedEvent{},
+	"pin_removed": PinRemovedEvent{},
+
+	"star_added":   StarAddedEvent{},
+	"star_removed": StarRemovedEvent{},
+
+	"reaction_added":   ReactionAddedEvent{},
+	"reaction_removed": ReactionRemovedEvent{},
+
+	"pref_change": PrefChangeEvent{},
+
+	"team_join":              TeamJoinEvent{},
+	"team_rename":            TeamRenameEvent{},
+	"team_pref_change":       TeamPrefChangeEvent{},
+	"team_domain_change":     TeamDomainChangeEvent{},
+	"team_migration_started": TeamMigrationStartedEvent{},
+
+	"manual_presence_change": ManualPresenceChangeEvent{},
+
+	"user_change": UserChangeEvent{},
+
+	"emoji_changed": EmojiChangedEvent{},
+
+	"commands_changed": CommandsChangedEvent{},
+
+	"email_domain_changed": EmailDomainChangedEvent{},
+
+	"bot_added":   BotAddedEvent{},
+	"bot_changed": BotChangedEvent{},
+
+	"accounts_changed": AccountsChangedEvent{},
+
+	"reconnect_url": ReconnectUrlEvent{},
+}