// Package udp implements a BitTorrent tracker via the UDP protocol as // described in BEP 15. package udp import ( "bytes" "context" "encoding/binary" "log" "net" "sync" "time" "github.com/prometheus/client_golang/prometheus" "github.com/chihaya/chihaya/bittorrent" "github.com/chihaya/chihaya/frontend" "github.com/chihaya/chihaya/frontend/udp/bytepool" ) func init() { prometheus.MustRegister(promResponseDurationMilliseconds) recordResponseDuration("action", nil, time.Second) } var promResponseDurationMilliseconds = prometheus.NewHistogramVec( prometheus.HistogramOpts{ Name: "chihaya_udp_response_duration_milliseconds", Help: "The duration of time it takes to receive and write a response to an API request", Buckets: prometheus.ExponentialBuckets(9.375, 2, 10), }, []string{"action", "error"}, ) // recordResponseDuration records the duration of time to respond to a UDP // Request in milliseconds . func recordResponseDuration(action string, err error, duration time.Duration) { var errString string if err != nil { errString = err.Error() } promResponseDurationMilliseconds. WithLabelValues(action, errString). Observe(float64(duration.Nanoseconds()) / float64(time.Millisecond)) } // Config represents all of the configurable options for a UDP BitTorrent // Tracker. type Config struct { Addr string PrivateKey string MaxClockSkew time.Duration AllowIPSpoofing bool } // Frontend holds the state of a UDP BitTorrent Frontend. type Frontend struct { socket *net.UDPConn closing chan struct{} wg sync.WaitGroup logic frontend.TrackerLogic Config } // NewFrontend allocates a new instance of a Frontend. func NewFrontend(logic frontend.TrackerLogic, cfg Config) *Frontend { return &Frontend{ closing: make(chan struct{}), logic: logic, Config: cfg, } } // Stop provides a thread-safe way to shutdown a currently running Frontend. func (t *Frontend) Stop() { close(t.closing) t.socket.SetReadDeadline(time.Now()) t.wg.Wait() } // ListenAndServe listens on the UDP network address t.Addr and blocks serving // BitTorrent requests until t.Stop() is called or an error is returned. func (t *Frontend) ListenAndServe() error { udpAddr, err := net.ResolveUDPAddr("udp", t.Addr) if err != nil { return err } t.socket, err = net.ListenUDP("udp", udpAddr) if err != nil { return err } defer t.socket.Close() pool := bytepool.New(256, 2048) for { // Check to see if we need to shutdown. select { case <-t.closing: t.wg.Wait() return nil default: } // Read a UDP packet into a reusable buffer. buffer := pool.Get() t.socket.SetReadDeadline(time.Now().Add(time.Second)) n, addr, err := t.socket.ReadFromUDP(buffer) if err != nil { pool.Put(buffer) if netErr, ok := err.(net.Error); ok && netErr.Temporary() { // A temporary failure is not fatal; just pretend it never happened. continue } return err } // We got nothin' if n == 0 { pool.Put(buffer) continue } log.Println("Got UDP Request") t.wg.Add(1) go func() { defer t.wg.Done() defer pool.Put(buffer) // Handle the request. start := time.Now() response, action, err := t.handleRequest( Request{buffer[:n], addr.IP}, ResponseWriter{t.socket, addr}, ) log.Printf("Handled UDP Request: %s, %s, %s\n", response, action, err) recordResponseDuration(action, err, time.Since(start)) }() } } // Request represents a UDP payload received by a Tracker. type Request struct { Packet []byte IP net.IP } // ResponseWriter implements the ability to respond to a Request via the // io.Writer interface. type ResponseWriter struct { socket *net.UDPConn addr *net.UDPAddr } // Write implements the io.Writer interface for a ResponseWriter. func (w ResponseWriter) Write(b []byte) (int, error) { w.socket.WriteToUDP(b, w.addr) return len(b), nil } // handleRequest parses and responds to a UDP Request. func (t *Frontend) handleRequest(r Request, w ResponseWriter) (response []byte, actionName string, err error) { if len(r.Packet) < 16 { // Malformed, no client packets are less than 16 bytes. // We explicitly return nothing in case this is a DoS attempt. err = errMalformedPacket return } // Parse the headers of the UDP packet. connID := r.Packet[0:8] actionID := binary.BigEndian.Uint32(r.Packet[8:12]) txID := r.Packet[12:16] // If this isn't requesting a new connection ID and the connection ID is // invalid, then fail. if actionID != connectActionID && !ValidConnectionID(connID, r.IP, time.Now(), t.MaxClockSkew, t.PrivateKey) { err = errBadConnectionID WriteError(w, txID, err) return } // Handle the requested action. switch actionID { case connectActionID: actionName = "connect" if !bytes.Equal(connID, initialConnectionID) { err = errMalformedPacket return } WriteConnectionID(w, txID, NewConnectionID(r.IP, time.Now(), t.PrivateKey)) return case announceActionID: actionName = "announce" var req *bittorrent.AnnounceRequest req, err = ParseAnnounce(r, t.AllowIPSpoofing) if err != nil { WriteError(w, txID, err) return } var resp *bittorrent.AnnounceResponse resp, err = t.logic.HandleAnnounce(context.TODO(), req) if err != nil { WriteError(w, txID, err) return } WriteAnnounce(w, txID, resp) go t.logic.AfterAnnounce(context.TODO(), req, resp) return case scrapeActionID: actionName = "scrape" var req *bittorrent.ScrapeRequest req, err = ParseScrape(r) if err != nil { WriteError(w, txID, err) return } var resp *bittorrent.ScrapeResponse resp, err = t.logic.HandleScrape(context.TODO(), req) if err != nil { WriteError(w, txID, err) return } WriteScrape(w, txID, resp) go t.logic.AfterScrape(context.TODO(), req, resp) return default: err = errUnknownAction WriteError(w, txID, err) return } }