package chat import ( "encoding/json" "fmt" "io" "time" log "github.com/sirupsen/logrus" "golang.org/x/net/websocket" "github.com/owncast/owncast/geoip" "github.com/owncast/owncast/models" "github.com/owncast/owncast/utils" "github.com/teris-io/shortid" ) const channelBufSize = 100 //Client represents a chat client. type Client struct { ConnectedAt time.Time MessageCount int UserAgent string IPAddress string Username *string ClientID string // How we identify unique viewers when counting viewer counts. Geo *geoip.GeoDetails `json:"geo"` socketID string // How we identify a single websocket client. ws *websocket.Conn ch chan models.ChatMessage pingch chan models.PingMessage usernameChangeChannel chan models.NameChangeEvent doneCh chan bool } const ( CHAT = "CHAT" NAMECHANGE = "NAME_CHANGE" PING = "PING" PONG = "PONG" ) //NewClient creates a new chat client func NewClient(ws *websocket.Conn) *Client { if ws == nil { log.Panicln("ws cannot be nil") } ch := make(chan models.ChatMessage, channelBufSize) doneCh := make(chan bool) pingch := make(chan models.PingMessage) usernameChangeChannel := make(chan models.NameChangeEvent) ipAddress := utils.GetIPAddressFromRequest(ws.Request()) userAgent := ws.Request().UserAgent() socketID, _ := shortid.Generate() clientID := socketID return &Client{time.Now(), 0, userAgent, ipAddress, nil, clientID, nil, socketID, ws, ch, pingch, usernameChangeChannel, doneCh} } //GetConnection gets the connection for the client func (c *Client) GetConnection() *websocket.Conn { return c.ws } func (c *Client) Write(msg models.ChatMessage) { select { case c.ch <- msg: default: _server.remove(c) _server.err(fmt.Errorf("client %s is disconnected", c.ClientID)) } } //Done marks the client as done func (c *Client) Done() { c.doneCh <- true } // Listen Write and Read request via chanel func (c *Client) Listen() { go c.listenWrite() c.listenRead() } // Listen write request via chanel func (c *Client) listenWrite() { for { select { // Send a PING keepalive case msg := <-c.pingch: websocket.JSON.Send(c.ws, msg) // send message to the client case msg := <-c.ch: // log.Println("Send:", msg) websocket.JSON.Send(c.ws, msg) case msg := <-c.usernameChangeChannel: websocket.JSON.Send(c.ws, msg) // receive done request case <-c.doneCh: _server.remove(c) c.doneCh <- true // for listenRead method return } } } // Listen read request via chanel func (c *Client) listenRead() { for { select { // receive done request case <-c.doneCh: _server.remove(c) c.doneCh <- true // for listenWrite method return // read data from websocket connection default: var data []byte err := websocket.Message.Receive(c.ws, &data) if err != nil { if err == io.EOF { c.doneCh <- true } else { log.Errorln(err) } return } var messageTypeCheck map[string]interface{} err = json.Unmarshal(data, &messageTypeCheck) if err != nil { log.Errorln(err) } messageType := messageTypeCheck["type"] if messageType == CHAT { c.chatMessageReceived(data) } else if messageType == NAMECHANGE { c.userChangedName(data) } } } } func (c *Client) userChangedName(data []byte) { var msg models.NameChangeEvent err := json.Unmarshal(data, &msg) if err != nil { log.Errorln(err) } msg.Type = NAMECHANGE msg.ID = shortid.MustGenerate() _server.usernameChanged(msg) c.Username = &msg.NewName } func (c *Client) chatMessageReceived(data []byte) { var msg models.ChatMessage err := json.Unmarshal(data, &msg) if err != nil { log.Errorln(err) } id, _ := shortid.Generate() msg.ID = id msg.Timestamp = time.Now() msg.Visible = true c.MessageCount++ c.Username = &msg.Author msg.ClientID = c.ClientID _server.SendToAll(msg) } // GetViewerClientFromChatClient returns a general models.Client from a chat websocket client. func (c *Client) GetViewerClientFromChatClient() models.Client { return models.Client{ ConnectedAt: c.ConnectedAt, MessageCount: c.MessageCount, UserAgent: c.UserAgent, IPAddress: c.IPAddress, Username: c.Username, ClientID: c.ClientID, Geo: geoip.GetGeoFromIP(c.IPAddress), } }