func (c *Core) Start() {
//TODO(kevlar)
// Listen on each port
c.listener = conn.NewListener()
for _, port := range []int{6666, 6667} {
c.listener.AddPort(port)
c.ports[port] = true
}
go func() {
for conn := range c.listener.Incoming {
conn.Subscribe(c.messages)
}
}()
go c.run()
}
func (s *IRCd) manageIncoming() {
defer s.running.Done()
quit := false
defer func() {
quit = true
}()
manage := func(conn *conn.Conn) {
inc := make(chan *parser.Message)
stop := make(chan string)
conn.Subscribe(inc)
conn.SubscribeClose(stop)
user, nick := false, false
pass, server, capab := false, false, false
sid := ""
queued := make([]*parser.Message, 0, 3)
for !quit {
select {
case msg := <-inc:
log.Debug.Printf(" %s %s", msg.SenderID, msg)
queued = append(queued, msg)
switch msg.Command {
case parser.CMD_PASS:
if len(msg.Args) == 4 {
pass = true
sid = msg.Args[3]
}
case parser.CMD_USER:
user = true
case parser.CMD_NICK:
nick = true
case parser.CMD_CAPAB:
capab = true
case parser.CMD_SERVER:
server = true
}
case <-stop:
return
}
if !quit && nick && user {
conn.Unsubscribe(inc)
conn.UnsubscribeClose(stop)
s.newClient <- conn
for _, msg := range queued {
s.fromClient <- msg
}
return
}
if !quit && pass && server && capab {
conn.SetServer(sid)
conn.Unsubscribe(inc)
conn.UnsubscribeClose(stop)
s.newServer <- conn
for _, msg := range queued {
msg.SenderID = sid
s.fromServer <- msg
}
return
}
}
}
for {
select {
// Connecting clients
case conn := <-s.Incoming:
go manage(conn)
}
}
}
func (s *IRCd) manageClients() {
defer s.running.Done()
uid2conn := make(map[string]*conn.Conn)
var open bool = true
var msg *parser.Message
for open {
// anything to do here?
select {
//// Incoming and outgoing messages to and from clients
// Messages directly from connections
// TODO(kevlar): Collapse into one case (I don't like that server gets split)
case msg = <-s.fromClient:
u := user.Get(msg.SenderID)
uid := u.ID()
if msg.Command == parser.CMD_ERROR {
user.Delete(uid)
conn := uid2conn[uid]
if conn != nil {
log.Debug.Printf("[%s] ** Connection terminated remotely", uid)
user.Delete(uid)
uid2conn[uid] = nil, false
conn.UnsubscribeClose(s.clientClosing)
conn.Close()
}
continue
}
log.Debug.Printf("[%s] >> %s", uid, msg)
DispatchClient(msg, s)
// Messages from hooks
case msg, open = <-s.ToClient:
// Handle internal messages
switch msg.Command {
case parser.INT_DELUSER:
// This is sent over the channel to ensure that all user messages
// which may need to query these UIDs are sent before they are
// removed.
for _, uid := range msg.DestIDs {
log.Debug.Printf("[%s] Netsplit", uid)
user.Delete(uid)
}
continue
}
// Count the number of messages sent
sentcount := 0
// For simplicity, * in the prefix or as the first argument
// is replaced by the nick of the user the message is sent to
setnick := len(msg.Args) > 0 && msg.Args[0] == "*"
setprefix := msg.Prefix == "*"
closeafter := false
if msg.Command == parser.CMD_ERROR {
// Close the connection and remove the prefix if we are sending an ERROR
closeafter = true
msg.Prefix = ""
} else if len(msg.Prefix) == 0 {
// Make sure a prefix is specified (use the server name)
msg.Prefix = Config.Name
}
local := make([]string, 0, len(msg.DestIDs))
remote := make([]string, 0, len(msg.DestIDs))
for _, id := range msg.DestIDs {
if id[:3] != Config.SID {
remote = append(remote, id)
continue
}
local = append(local, id)
}
// Pass the message to the server goroutine
if len(remote) > 0 {
if closeafter {
for _, id := range remote {
user.Delete(id)
}
} else {
log.Warn.Printf("Dropping non-local: %s", len(remote), msg)
}
// Short circuit if there are no local recipients
if len(local) == 0 {
continue
}
}
// Examine all arguments for UIDs and replace them
if isuid(msg.Prefix) {
nick, user, _, _, ok := user.GetInfo(msg.Prefix)
if !ok {
log.Warn.Printf("Nonexistent ID %s as prefix", msg.Prefix)
} else {
msg.Prefix = nick + "!" + user + "@host" // TODO(kevlar): hostname
}
}
for i := range msg.Args {
if isuid(msg.Args[i]) {
nick, _, _, _, ok := user.GetInfo(msg.Args[i])
if !ok {
log.Warn.Printf("Nonexistent ID %s as argument", msg.Args[i])
continue
}
msg.Args[i] = nick
}
}
for _, id := range msg.DestIDs {
conn, ok := uid2conn[id]
if !ok {
log.Warn.Printf("Nonexistent ID %s in send", id)
continue
}
if setnick || setprefix {
nick, _, _, _, _ := user.GetInfo(id)
if setnick {
msg.Args[0] = nick
}
if setprefix {
msg.Prefix = nick
}
}
conn.WriteMessage(msg)
log.Debug.Printf("[%s] << %s\n", id, msg)
sentcount++
if closeafter {
log.Debug.Printf("[%s] ** Connection terminated", id)
user.Delete(id)
uid2conn[id] = nil, false
conn.UnsubscribeClose(s.clientClosing)
conn.Close()
}
}
if sentcount == 0 {
log.Warn.Printf("Dropped outgoing client message: %s", msg)
}
// Connecting clients
case conn := <-s.newClient:
id := conn.ID()
uid2conn[id] = conn
user.Get(id)
conn.Subscribe(s.fromClient)
conn.SubscribeClose(s.clientClosing)
// Disconnecting clients
case closeid := <-s.clientClosing:
log.Debug.Printf("[%s] ** Connection closed", closeid)
user.Delete(closeid)
uid2conn[closeid] = nil, false
}
}
}