package mastodon import ( "context" "encoding/json" "net/url" "path" "github.com/gorilla/websocket" ) // WSClient is a WebSocket client. type WSClient struct { websocket.Dialer client *Client } // NewWSClient return WebSocket client. func (c *Client) NewWSClient() *WSClient { return &WSClient{client: c} } // Stream is a struct of data that flows in streaming. type Stream struct { Event string `json:"event"` Payload interface{} `json:"payload"` } // StreamingWSPublic return channel to read events on public using WebSocket. func (c *WSClient) StreamingWSPublic(ctx context.Context) (chan Event, error) { return c.streamingWS(ctx, "public", "") } // StreamingWSPublicLocal return channel to read events on public local using WebSocket. func (c *WSClient) StreamingWSPublicLocal(ctx context.Context) (chan Event, error) { return c.streamingWS(ctx, "public:local", "") } // StreamingWSUser return channel to read events on home using WebSocket. func (c *WSClient) StreamingWSUser(ctx context.Context) (chan Event, error) { return c.streamingWS(ctx, "user", "") } // StreamingWSHashtag return channel to read events on tagged timeline using WebSocket. func (c *WSClient) StreamingWSHashtag(ctx context.Context, tag string) (chan Event, error) { return c.streamingWS(ctx, "hashtag", tag) } // StreamingWSHashtagLocal return channel to read events on tagged local timeline using WebSocket. func (c *WSClient) StreamingWSHashtagLocal(ctx context.Context, tag string) (chan Event, error) { return c.streamingWS(ctx, "hashtag:local", tag) } func (c *WSClient) streamingWS(ctx context.Context, stream, tag string) (chan Event, error) { params := url.Values{} params.Set("access_token", c.client.config.AccessToken) params.Set("stream", stream) if tag != "" { params.Set("tag", tag) } u, err := changeWebSocketScheme(c.client.config.Server) if err != nil { return nil, err } u.Path = path.Join(u.Path, "/api/v1/streaming") u.RawQuery = params.Encode() q := make(chan Event) go func() { for { err := c.handleWS(ctx, u.String(), q) if err != nil { return } } }() return q, nil } func (c *WSClient) handleWS(ctx context.Context, rawurl string, q chan Event) error { conn, err := c.dialRedirect(rawurl) if err != nil { q <- &ErrorEvent{err: err} // End. return err } defer conn.Close() for { select { case <-ctx.Done(): q <- &ErrorEvent{err: ctx.Err()} // End. return ctx.Err() default: } var s Stream err := conn.ReadJSON(&s) if err != nil { q <- &ErrorEvent{err: err} // Reconnect. break } err = nil switch s.Event { case "update": var status Status err = json.Unmarshal([]byte(s.Payload.(string)), &status) if err == nil { q <- &UpdateEvent{Status: &status} } case "notification": var notification Notification err = json.Unmarshal([]byte(s.Payload.(string)), ¬ification) if err == nil { q <- &NotificationEvent{Notification: ¬ification} } case "delete": q <- &DeleteEvent{ID: int64(s.Payload.(float64))} } if err != nil { q <- &ErrorEvent{err} } } return nil } func (c *WSClient) dialRedirect(rawurl string) (conn *websocket.Conn, err error) { for { conn, rawurl, err = c.dial(rawurl) if err != nil { return nil, err } else if conn != nil { return conn, nil } } } func (c *WSClient) dial(rawurl string) (*websocket.Conn, string, error) { conn, resp, err := c.Dial(rawurl, nil) if err != nil && err != websocket.ErrBadHandshake { return nil, "", err } defer resp.Body.Close() if loc := resp.Header.Get("Location"); loc != "" { u, err := changeWebSocketScheme(loc) if err != nil { return nil, "", err } return nil, u.String(), nil } return conn, "", err } func changeWebSocketScheme(rawurl string) (*url.URL, error) { u, err := url.Parse(rawurl) if err != nil { return nil, err } switch u.Scheme { case "http": u.Scheme = "ws" case "https": u.Scheme = "wss" } return u, nil }