// Copyright (c) 2012-2014 Jeremy Latt // Copyright (c) 2016-2017 Daniel Oaks // released under the MIT license package irc import ( "bufio" "crypto/sha256" "crypto/tls" "encoding/hex" "errors" "fmt" "io" "net" "strings" "sync" "time" ) var ( errNotTLS = errors.New("Not a TLS connection") errNoPeerCerts = errors.New("Client did not provide a certificate") handshakeTimeout, _ = time.ParseDuration("5s") ) // Socket represents an IRC socket. type Socket struct { Closed bool conn net.Conn reader *bufio.Reader MaxSendQBytes uint64 lineToSendExists chan bool linesToSend []string linesToSendMutex sync.Mutex } // NewSocket returns a new Socket. func NewSocket(conn net.Conn, maxSendQBytes uint64) Socket { return Socket{ conn: conn, reader: bufio.NewReader(conn), MaxSendQBytes: maxSendQBytes, lineToSendExists: make(chan bool), } } // Close stops a Socket from being able to send/receive any more data. func (socket *Socket) Close() { socket.Closed = true // 'send data' to force close loop to happen socket.linesToSendMutex.Lock() socket.linesToSend = append(socket.linesToSend, "") socket.linesToSendMutex.Unlock() go socket.fillLineToSendExists() } // CertFP returns the fingerprint of the certificate provided by the client. func (socket *Socket) CertFP() (string, error) { var tlsConn, isTLS = socket.conn.(*tls.Conn) if !isTLS { return "", errNotTLS } // ensure handehake is performed, and timeout after a few seconds tlsConn.SetDeadline(time.Now().Add(handshakeTimeout)) err := tlsConn.Handshake() tlsConn.SetDeadline(time.Time{}) if err != nil { return "", err } peerCerts := tlsConn.ConnectionState().PeerCertificates if len(peerCerts) < 1 { return "", errNoPeerCerts } rawCert := sha256.Sum256(peerCerts[0].Raw) fingerprint := hex.EncodeToString(rawCert[:]) return fingerprint, nil } // Read returns a single IRC line from a Socket. func (socket *Socket) Read() (string, error) { if socket.Closed { return "", io.EOF } lineBytes, err := socket.reader.ReadBytes('\n') // convert bytes to string line := string(lineBytes[:]) // read last message properly (such as ERROR/QUIT/etc), just fail next reads/writes if err == io.EOF { socket.Close() } if err == io.EOF && strings.TrimSpace(line) != "" { // don't do anything } else if err != nil { return "", err } return strings.TrimRight(line, "\r\n"), nil } // Write sends the given string out of Socket. func (socket *Socket) Write(data string) error { if socket.Closed { return io.EOF } socket.linesToSendMutex.Lock() socket.linesToSend = append(socket.linesToSend, data) socket.linesToSendMutex.Unlock() go socket.fillLineToSendExists() return nil } // fillLineToSendExists only exists because you can't goroutine single statements. func (socket *Socket) fillLineToSendExists() { socket.lineToSendExists <- true } // RunSocketWriter starts writing messages to the outgoing socket. func (socket *Socket) RunSocketWriter() { var errOut bool for { // wait for new lines select { case <-socket.lineToSendExists: socket.linesToSendMutex.Lock() // check sendq var sendQBytes uint64 for _, line := range socket.linesToSend { sendQBytes += uint64(len(line)) if socket.MaxSendQBytes < sendQBytes { break } } if socket.MaxSendQBytes < sendQBytes { socket.conn.Write([]byte("\r\nERROR :SendQ Exceeded\r\n")) fmt.Println("SendQ exceeded, disconnected client") break } // get data data := socket.linesToSend[0] if len(socket.linesToSend) > 1 { socket.linesToSend = socket.linesToSend[1:] } else { socket.linesToSend = []string{} } socket.linesToSendMutex.Unlock() // write data if 0 < len(data) { _, err := socket.conn.Write([]byte(data)) if err != nil { errOut = true fmt.Println(err.Error()) break } } // check if we're closed if socket.Closed { break } } if errOut { // error out, bad stuff happened break } } //TODO(dan): empty socket.lineToSendExists queue socket.conn.Close() if !socket.Closed { socket.Closed = true } } // WriteLine writes the given line out of Socket. func (socket *Socket) WriteLine(line string) error { return socket.Write(line + "\r\n") }