package main import ( "bytes" "fmt" "io" "log" "net" "math/rand" "regexp" "sort" "strings" "time" ) type Server struct { signalChan chan int eventChan chan Event running bool name string clientMap map[string]*Client //Map of nicks → clients channelMap map[string]*Channel //Map of channel names → channels } type Client struct { server *Server connection net.Conn signalChan chan int outputChan chan string nick string channelMap map[string]*Channel } type Channel struct { name string topic string clientMap map[string]*Client } type Event struct { client *Client input string } const ( signalStop int = iota signalDisconnect ) const ( rplWelcome int = iota rplJoin rplPart rplTopic rplNoTopic rplNames rplNickChange errMoreArgs errNoNick errInvalidNick errNickInUse errAlreadyReg errNoSuchNick ) var ( nickRegexp = regexp.MustCompile(`^[a-zA-Z\[\]_^{|}][a-zA-Z0-9\[\]_^{|}]*$`) channelRegexp = regexp.MustCompile(`^#[a-z0-9_\-]+$`) ) func NewServer() (*Server, error) { return &Server{signalChan: make(chan int), eventChan: make(chan Event), name: "rosella", clientMap: make(map[string]*Client), channelMap: make(map[string]*Channel)}, nil } func (s *Server) Start() { if s.running == false { s.running = true go s.serverThread() } } func (s *Server) HandleConnection(conn net.Conn) { client := &Client{server: s, connection: conn, outputChan: make(chan string), signalChan: make(chan int), channelMap: make(map[string]*Channel)} go client.clientThread() } func (s *Server) serverThread() { for { select { case s := <-s.signalChan: if s == signalStop { //TODO //Disconnect all clients then return return } case e := <-s.eventChan: s.handleEvent(e) } } } func (s *Server) handleEvent(e Event) { fields := strings.Fields(e.input) if len(fields) < 1 { return } if strings.HasPrefix(fields[0], ":") { fields = fields[1:] } command := strings.ToUpper(fields[0]) args := fields[1:] switch { case command == "NICK": if len(args) < 1 { e.client.reply(errNoNick) return } newNick := args[0] //Check newNick is of valid formatting (regex) if nickRegexp.MatchString(newNick) == false { e.client.reply(errInvalidNick) return } if _, exists := s.clientMap[newNick]; exists { e.client.reply(errNickInUse) return } e.client.setNick(newNick) case command == "USER": if e.client.nick == "" { //Give them a unique Guest nick newNick := fmt.Sprintf("Guest%d", rand.Int()) for s.clientMap[newNick] != nil { newNick = fmt.Sprintf("Guest%d", rand.Int()) } } e.client.reply(rplWelcome) case command == "JOIN": if len(args) < 1 { e.client.reply(errMoreArgs) return } if args[0] == "0" { //Quit all channels for channel := range e.client.channelMap { s.partChannel(e.client, channel) } return } channels := strings.Split(args[0], ",") for _, channel := range channels { //Join the channel if it's valid if channelRegexp.Match([]byte(channel)) { s.joinChannel(e.client, channel) } } case command == "PART": if len(args) < 1 { e.client.reply(errMoreArgs) return } channels := strings.Split(args[0], ",") for _, channel := range channels { //Part the channel if it's valid if channelRegexp.Match([]byte(channel)) { s.partChannel(e.client, channel) } } case command == "PRIVMSG": if len(args) < 2 { e.client.reply(errMoreArgs) return } message := strings.Join(args[1:], " ") channel, chanExists := s.channelMap[args[0]] client, clientExists := s.clientMap[args[0]] if chanExists { for _, c := range channel.clientMap { if c != e.client { c.outputChan <- fmt.Sprintf(":%s PRIVMSG %s %s", e.client.nick, args[0], message) } } } else if clientExists { client.outputChan <- fmt.Sprintf(":%s PRIVMSG %s %s", e.client.nick, client.nick, message) } else { e.client.reply(errNoSuchNick) } case command == "QUIT": //Stop the client, which will auto part channels and quit e.client.signalChan <- signalStop case command == "TOPIC": if len(args) < 1 { e.client.reply(errMoreArgs) return } channel, exists := s.channelMap[args[0]] if exists == false { e.client.reply(errNoSuchNick) return } channelName := args[0] if len(args) == 1 { e.client.reply(rplTopic, channelName, channel.topic) return } if args[1] == ":" { channel.topic = "" for _, client := range channel.clientMap { client.reply(rplNoTopic, channelName) } } else { topic := strings.Join(args[1:], " ") topic = strings.TrimPrefix(topic, ":") channel.topic = topic for _, client := range channel.clientMap { client.reply(rplTopic, channelName, channel.topic) } } default: log.Printf("Unknown command: %q", fields[0]) } } func (s *Server) joinChannel(client *Client, channelName string) { channel, exists := s.channelMap[channelName] if exists == false { channel = &Channel{name: channelName, topic: "", clientMap: make(map[string]*Client)} s.channelMap[channelName] = channel } channel.clientMap[client.nick] = client client.channelMap[channelName] = channel for _, c := range channel.clientMap { c.reply(rplJoin, client.nick, channelName) } if channel.topic != "" { client.reply(rplTopic, channelName, channel.topic) } else { client.reply(rplNoTopic, channelName) } nicks := make([]string, 0, 100) for nick := range channel.clientMap { nicks = append(nicks, nick) } client.reply(rplNames, channelName, strings.Join(nicks, " ")) } func (s *Server) partChannel(client *Client, channelName string) { channel, exists := s.channelMap[channelName] if exists == false { return } //Notify clients of the part for _, c := range channel.clientMap { c.reply(rplPart, client.nick, channelName) } delete(channel.clientMap, client.nick) delete(client.channelMap, channelName) } func (c *Client) clientThread() { defer c.connection.Close() readSignalChan := make(chan int, 1) writeSignalChan := make(chan int, 1) writeChan := make(chan string, 100) go c.readThread(readSignalChan) go c.writeThread(writeSignalChan, writeChan) for { select { case signal := <-c.signalChan: //Do stuff if signal == signalStop { readSignalChan <- signalStop writeSignalChan <- signalStop break } case line := <-c.outputChan: select { case writeChan <- line: //It worked default: log.Printf("Dropped a line for client: %q", c.nick) //Do nothing, dropping the line } } } //Part from all channels for channelName := range c.channelMap { c.server.partChannel(c, channelName) } //Remove from client list delete(c.server.clientMap, c.nick) } func (c *Client) readThread(signalChan chan int) { for { select { case signal := <-signalChan: if signal == signalStop { return } default: c.connection.SetReadDeadline(time.Now().Add(time.Second * 3)) buf := make([]byte, 512) ln, err := c.connection.Read(buf) if err != nil { if err == io.EOF { //They must have dc'd c.signalChan <- signalStop return } continue } rawLines := buf[:ln] lines := bytes.Split(rawLines, []byte("\r\n")) for _, line := range lines { if len(line) > 0 { c.server.eventChan <- Event{client: c, input: string(line)} } } } } } func (c *Client) writeThread(signalChan chan int, outputChan chan string) { for { select { case signal := <-signalChan: if signal == signalStop { return } case output := <-outputChan: line := []byte(fmt.Sprintf("%s\r\n", output)) c.connection.SetWriteDeadline(time.Now().Add(time.Second * 30)) _, err := c.connection.Write(line) if err != nil { log.Printf("Write err: %q", err.Error()) c.signalChan <- signalStop return } } } } //Send a reply to a user with the code specified func (c *Client) reply(code int, args ...string) { switch code { case rplWelcome: c.outputChan <- fmt.Sprintf(":%s 001 %s :Welcome to %s", c.server.name, c.nick, c.server.name) case rplJoin: c.outputChan <- fmt.Sprintf(":%s JOIN %s", args[0], args[1]) case rplPart: c.outputChan <- fmt.Sprintf(":%s PART %s", args[0], args[1]) case rplTopic: c.outputChan <- fmt.Sprintf(":%s 332 %s %s :%s", c.server.name, c.nick, args[0], args[1]) case rplNoTopic: c.outputChan <- fmt.Sprintf(":%s 331 %s %s :No topic is set", c.server.name, c.nick, args[0]) case rplNames: //TODO: break long lists up into multiple messages c.outputChan <- fmt.Sprintf(":%s 353 %s = %s :%s", c.server.name, c.nick, args[0], args[1]) c.outputChan <- fmt.Sprintf(":%s 366", c.server.name) case rplNickChange: c.outputChan <- fmt.Sprintf(":%s NICK %s", args[0], args[1]) case errMoreArgs: c.outputChan <- fmt.Sprintf(":%s 461 :Not enough params", c.server.name) case errNoNick: c.outputChan <- fmt.Sprintf(":%s 431 :No nickanme given", c.server.name) case errInvalidNick: c.outputChan <- fmt.Sprintf(":%s 432 :Erronenous nickname", c.server.name) case errNickInUse: c.outputChan <- fmt.Sprintf(":%s 433 :Nick already in use", c.server.name) case errAlreadyReg: c.outputChan <- fmt.Sprintf(":%s 462 :You need a valid nick first", c.server.name) case errNoSuchNick: c.outputChan <- fmt.Sprintf("%s 401 :No such nick/channel", c.server.name) default: log.Printf("Client.reply() with unknown reply code: %d", code) } } func (c *Client) setNick(nick string) { if c.nick != "" { delete(c.server.clientMap, c.nick) for _, channel := range c.channelMap { delete(channel.clientMap, c.nick) } } //Set up new nick oldNick := c.nick c.nick = nick c.server.clientMap[c.nick] = c clients := make([]string, 0, 100) for _, channel := range c.channelMap { channel.clientMap[c.nick] = c //Collect list of client nicks who can see us for client := range channel.clientMap { clients = append(clients, client) } } //By sorting the nicks and skipping duplicates we send each client one message sort.Strings(clients) prevNick := "" for _, nick := range clients { if nick == prevNick { continue } prevNick = nick client, exists := c.server.clientMap[nick] if exists { client.reply(rplNickChange, oldNick, c.nick) } } }