package dht import ( _ "crypto/sha1" "errors" "math/big" "math/rand" "net" "strconv" "time" "github.com/anacrolix/torrent/iplist" ) const ( maxNodes = 320 ) var ( queryResendEvery = 5 * time.Second ) var maxDistance big.Int func init() { var zero big.Int maxDistance.SetBit(&zero, 160, 1) } // Uniquely identifies a transaction to us. type transactionKey struct { RemoteAddr string // host:port T string // The KRPC transaction ID. } // ServerConfig allows to set up a configuration of the `Server` instance // to be created with NewServer type ServerConfig struct { // Listen address. Used if Conn is nil. Addr string // Set NodeId Manually. Caller must ensure that, if NodeId does not // conform to DHT Security Extensions, that NoSecurity is also set. This // should be given as a HEX string. NodeIdHex string Conn net.PacketConn // Don't respond to queries from other nodes. Passive bool // DHT Bootstrap nodes BootstrapNodes []string // Disable bootstrapping from global servers even if given no BootstrapNodes. // This creates a solitary node that awaits other nodes; it's only useful if // you're creating your own DHT and want to avoid accidental crossover, without // spoofing a bootstrap node and filling your logs with connection errors. NoDefaultBootstrap bool // Disable the DHT security extension: // http://www.libtorrent.org/dht_sec.html. NoSecurity bool // Initial IP blocklist to use. Applied before serving and bootstrapping // begins. IPBlocklist iplist.Ranger // Used to secure the server's ID. Defaults to the Conn's LocalAddr(). PublicIP net.IP OnQuery func(*Msg, net.Addr) bool } // ServerStats instance is returned by Server.Stats() and stores Server metrics type ServerStats struct { // Count of nodes in the node table that responded to our last query or // haven't yet been queried. GoodNodes int // Count of nodes in the node table. Nodes int // Transactions awaiting a response. OutstandingTransactions int // Individual announce_peer requests that got a success response. ConfirmedAnnounces int // Nodes that have been blocked. BadNodes uint } func makeSocket(addr string) (socket *net.UDPConn, err error) { addr_, err := net.ResolveUDPAddr("", addr) if err != nil { return } socket, err = net.ListenUDP("udp", addr_) return } type nodeID struct { i big.Int set bool } func (nid *nodeID) IsUnset() bool { return !nid.set } func nodeIDFromString(s string) (ret nodeID) { if s == "" { return } ret.i.SetBytes([]byte(s)) ret.set = true return } func (nid0 *nodeID) Distance(nid1 *nodeID) (ret big.Int) { if nid0.IsUnset() != nid1.IsUnset() { ret = maxDistance return } ret.Xor(&nid0.i, &nid1.i) return } func (nid *nodeID) ByteString() string { var buf [20]byte b := nid.i.Bytes() copy(buf[20-len(b):], b) return string(buf[:]) } type node struct { addr Addr id nodeID announceToken string lastGotQuery time.Time lastGotResponse time.Time lastSentQuery time.Time } func (n *node) IsSecure() bool { if n.id.IsUnset() { return false } return NodeIdSecure(n.id.ByteString(), n.addr.UDPAddr().IP) } func (n *node) idString() string { return n.id.ByteString() } func (n *node) SetIDFromBytes(b []byte) { if len(b) != 20 { panic(b) } n.id.i.SetBytes(b) n.id.set = true } func (n *node) SetIDFromString(s string) { n.SetIDFromBytes([]byte(s)) } func (n *node) IDNotSet() bool { return n.id.i.Int64() == 0 } func (n *node) NodeInfo() (ret NodeInfo) { ret.Addr = n.addr if n := copy(ret.ID[:], n.idString()); n != 20 { panic(n) } return } func (n *node) DefinitelyGood() bool { if len(n.idString()) != 20 { return false } // No reason to think ill of them if they've never been queried. if n.lastSentQuery.IsZero() { return true } // They answered our last query. if n.lastSentQuery.Before(n.lastGotResponse) { return true } return true } func jitterDuration(average time.Duration, plusMinus time.Duration) time.Duration { return average - plusMinus/2 + time.Duration(rand.Int63n(int64(plusMinus))) } type Peer struct { IP net.IP Port int } func (p *Peer) String() string { return net.JoinHostPort(p.IP.String(), strconv.FormatInt(int64(p.Port), 10)) } func bootstrapAddrs(nodeAddrs []string) (addrs []*net.UDPAddr, err error) { bootstrapNodes := nodeAddrs if len(bootstrapNodes) == 0 { bootstrapNodes = []string{ "router.utorrent.com:6881", "router.bittorrent.com:6881", } } for _, addrStr := range bootstrapNodes { udpAddr, err := net.ResolveUDPAddr("udp4", addrStr) if err != nil { continue } addrs = append(addrs, udpAddr) } if len(addrs) == 0 { err = errors.New("nothing resolved") } return }