package torrent import ( "bufio" "bytes" "context" "crypto/rand" "encoding/binary" "errors" "fmt" "io" "net" "net/http" "net/url" "strconv" "strings" "time" "github.com/anacrolix/dht" "github.com/anacrolix/dht/krpc" "github.com/anacrolix/log" "github.com/anacrolix/missinggo" "github.com/anacrolix/missinggo/bitmap" "github.com/anacrolix/missinggo/perf" "github.com/anacrolix/missinggo/pproffd" "github.com/anacrolix/missinggo/pubsub" "github.com/anacrolix/missinggo/slices" "github.com/anacrolix/sync" "github.com/anacrolix/torrent/bencode" "github.com/anacrolix/torrent/iplist" "github.com/anacrolix/torrent/metainfo" "github.com/anacrolix/torrent/mse" pp "github.com/anacrolix/torrent/peer_protocol" "github.com/anacrolix/torrent/storage" "github.com/davecgh/go-spew/spew" "github.com/dustin/go-humanize" "github.com/google/btree" "golang.org/x/time/rate" ) // Clients contain zero or more Torrents. A Client manages a blocklist, the // TCP/UDP protocol ports, and DHT as desired. type Client struct { // An aggregate of stats over all connections. First in struct to ensure // 64-bit alignment of fields. See #262. stats ConnStats _mu sync.RWMutex event sync.Cond closed missinggo.Event config *ClientConfig logger *log.Logger peerID PeerID defaultStorage *storage.Client onClose []func() conns []socket dhtServers []*dht.Server ipBlockList iplist.Ranger // Our BitTorrent protocol extension bytes, sent in our BT handshakes. extensionBytes pp.PeerExtensionBits // Set of addresses that have our client ID. This intentionally will // include ourselves if we end up trying to connect to our own address // through legitimate channels. dopplegangerAddrs map[string]struct{} badPeerIPs map[string]struct{} torrents map[InfoHash]*Torrent acceptLimiter map[ipStr]int dialRateLimiter *rate.Limiter } type ipStr string func (cl *Client) BadPeerIPs() []string { cl.rLock() defer cl.rUnlock() return cl.badPeerIPsLocked() } func (cl *Client) badPeerIPsLocked() []string { return slices.FromMapKeys(cl.badPeerIPs).([]string) } func (cl *Client) PeerID() PeerID { return cl.peerID } type torrentAddr string func (torrentAddr) Network() string { return "" } func (me torrentAddr) String() string { return string(me) } func (cl *Client) LocalPort() (port int) { cl.eachListener(func(l socket) bool { _port := missinggo.AddrPort(l.Addr()) if _port == 0 { panic(l) } if port == 0 { port = _port } else if port != _port { panic("mismatched ports") } return true }) return } func writeDhtServerStatus(w io.Writer, s *dht.Server) { dhtStats := s.Stats() fmt.Fprintf(w, "\t# Nodes: %d (%d good, %d banned)\n", dhtStats.Nodes, dhtStats.GoodNodes, dhtStats.BadNodes) fmt.Fprintf(w, "\tServer ID: %x\n", s.ID()) fmt.Fprintf(w, "\tAnnounces: %d\n", dhtStats.SuccessfulOutboundAnnouncePeerQueries) fmt.Fprintf(w, "\tOutstanding transactions: %d\n", dhtStats.OutstandingTransactions) } // Writes out a human readable status of the client, such as for writing to a // HTTP status page. func (cl *Client) WriteStatus(_w io.Writer) { cl.rLock() defer cl.rUnlock() w := bufio.NewWriter(_w) defer w.Flush() fmt.Fprintf(w, "Listen port: %d\n", cl.LocalPort()) fmt.Fprintf(w, "Peer ID: %+q\n", cl.PeerID()) fmt.Fprintf(w, "Announce key: %x\n", cl.announceKey()) fmt.Fprintf(w, "Banned IPs: %d\n", len(cl.badPeerIPsLocked())) cl.eachDhtServer(func(s *dht.Server) { fmt.Fprintf(w, "%s DHT server at %s:\n", s.Addr().Network(), s.Addr().String()) writeDhtServerStatus(w, s) }) spew.Fdump(w, cl.stats) fmt.Fprintf(w, "# Torrents: %d\n", len(cl.torrentsAsSlice())) fmt.Fprintln(w) for _, t := range slices.Sort(cl.torrentsAsSlice(), func(l, r *Torrent) bool { return l.InfoHash().AsString() < r.InfoHash().AsString() }).([]*Torrent) { if t.name() == "" { fmt.Fprint(w, "") } else { fmt.Fprint(w, t.name()) } fmt.Fprint(w, "\n") if t.info != nil { fmt.Fprintf(w, "%f%% of %d bytes (%s)", 100*(1-float64(t.bytesMissingLocked())/float64(t.info.TotalLength())), t.length, humanize.Bytes(uint64(t.info.TotalLength()))) } else { w.WriteString("") } fmt.Fprint(w, "\n") t.writeStatus(w) fmt.Fprintln(w) } } const debugLogValue = "debug" func (cl *Client) debugLogFilter(m *log.Msg) bool { if !cl.config.Debug { _, ok := m.Values()[debugLogValue] return !ok } return true } func (cl *Client) initLogger() { cl.logger = log.Default.Clone().AddValue(cl).AddFilter(log.NewFilter(cl.debugLogFilter)) } func (cl *Client) announceKey() int32 { return int32(binary.BigEndian.Uint32(cl.peerID[16:20])) } func NewClient(cfg *ClientConfig) (cl *Client, err error) { if cfg == nil { cfg = NewDefaultClientConfig() } defer func() { if err != nil { cl = nil } }() cl = &Client{ config: cfg, dopplegangerAddrs: make(map[string]struct{}), torrents: make(map[metainfo.Hash]*Torrent), dialRateLimiter: rate.NewLimiter(10, 10), } go cl.acceptLimitClearer() cl.initLogger() defer func() { if err == nil { return } cl.Close() }() cl.extensionBytes = defaultPeerExtensionBytes() cl.event.L = cl.locker() storageImpl := cfg.DefaultStorage if storageImpl == nil { // We'd use mmap but HFS+ doesn't support sparse files. storageImpl = storage.NewFile(cfg.DataDir) cl.onClose = append(cl.onClose, func() { if err := storageImpl.Close(); err != nil { log.Printf("error closing default storage: %s", err) } }) } cl.defaultStorage = storage.NewClient(storageImpl) if cfg.IPBlocklist != nil { cl.ipBlockList = cfg.IPBlocklist } if cfg.PeerID != "" { missinggo.CopyExact(&cl.peerID, cfg.PeerID) } else { o := copy(cl.peerID[:], cfg.Bep20) _, err = rand.Read(cl.peerID[o:]) if err != nil { panic("error generating peer id") } } if cl.config.HTTPProxy == nil && cl.config.ProxyURL != "" { if fixedURL, err := url.Parse(cl.config.ProxyURL); err == nil { cl.config.HTTPProxy = http.ProxyURL(fixedURL) } } cl.conns, err = listenAll(cl.enabledPeerNetworks(), cl.config.ListenHost, cl.config.ListenPort, cl.config.ProxyURL, cl.firewallCallback) if err != nil { return } // Check for panics. cl.LocalPort() for _, s := range cl.conns { if peerNetworkEnabled(s.Addr().Network(), cl.config) { go cl.acceptConnections(s) } } go cl.forwardPort() if !cfg.NoDHT { for _, s := range cl.conns { if pc, ok := s.(net.PacketConn); ok { ds, err := cl.newDhtServer(pc) if err != nil { panic(err) } cl.dhtServers = append(cl.dhtServers, ds) } } } return } func (cl *Client) firewallCallback(net.Addr) bool { cl.rLock() block := !cl.wantConns() cl.rUnlock() if block { torrent.Add("connections firewalled", 1) } else { torrent.Add("connections not firewalled", 1) } return block } func (cl *Client) enabledPeerNetworks() (ns []string) { for _, n := range allPeerNetworks { if peerNetworkEnabled(n, cl.config) { ns = append(ns, n) } } return } func (cl *Client) newDhtServer(conn net.PacketConn) (s *dht.Server, err error) { cfg := dht.ServerConfig{ IPBlocklist: cl.ipBlockList, Conn: conn, OnAnnouncePeer: cl.onDHTAnnouncePeer, PublicIP: func() net.IP { if connIsIpv6(conn) && cl.config.PublicIp6 != nil { return cl.config.PublicIp6 } return cl.config.PublicIp4 }(), StartingNodes: cl.config.DhtStartingNodes, } s, err = dht.NewServer(&cfg) if err == nil { go func() { if _, err := s.Bootstrap(); err != nil { log.Printf("error bootstrapping dht: %s", err) } }() } return } func firstNonEmptyString(ss ...string) string { for _, s := range ss { if s != "" { return s } } return "" } func (cl *Client) Closed() <-chan struct{} { cl.lock() defer cl.unlock() return cl.closed.C() } func (cl *Client) eachDhtServer(f func(*dht.Server)) { for _, ds := range cl.dhtServers { f(ds) } } func (cl *Client) closeSockets() { cl.eachListener(func(l socket) bool { l.Close() return true }) cl.conns = nil } // Stops the client. All connections to peers are closed and all activity will // come to a halt. func (cl *Client) Close() { cl.lock() defer cl.unlock() cl.closed.Set() cl.eachDhtServer(func(s *dht.Server) { s.Close() }) cl.closeSockets() for _, t := range cl.torrents { t.close() } for _, f := range cl.onClose { f() } cl.event.Broadcast() } func (cl *Client) ipBlockRange(ip net.IP) (r iplist.Range, blocked bool) { if cl.ipBlockList == nil { return } return cl.ipBlockList.Lookup(ip) } func (cl *Client) ipIsBlocked(ip net.IP) bool { _, blocked := cl.ipBlockRange(ip) return blocked } func (cl *Client) wantConns() bool { for _, t := range cl.torrents { if t.wantConns() { return true } } return false } func (cl *Client) waitAccept() { for { if cl.closed.IsSet() { return } if cl.wantConns() { return } cl.event.Wait() } } func (cl *Client) rejectAccepted(conn net.Conn) bool { ra := conn.RemoteAddr() rip := missinggo.AddrIP(ra) if cl.config.DisableIPv4Peers && rip.To4() != nil { return true } if cl.config.DisableIPv4 && len(rip) == net.IPv4len { return true } if cl.config.DisableIPv6 && len(rip) == net.IPv6len && rip.To4() == nil { return true } if cl.rateLimitAccept(rip) { return true } return cl.badPeerIPPort(rip, missinggo.AddrPort(ra)) } func (cl *Client) acceptConnections(l net.Listener) { for { conn, err := l.Accept() conn = pproffd.WrapNetConn(conn) cl.rLock() closed := cl.closed.IsSet() reject := false if conn != nil { reject = cl.rejectAccepted(conn) } cl.rUnlock() if closed { if conn != nil { conn.Close() } return } if err != nil { log.Printf("error accepting connection: %s", err) continue } go func() { if reject { torrent.Add("rejected accepted connections", 1) conn.Close() } else { go cl.incomingConnection(conn) } log.Fmsg("accepted %s connection from %s", conn.RemoteAddr().Network(), conn.RemoteAddr()).AddValue(debugLogValue).Log(cl.logger) torrent.Add(fmt.Sprintf("accepted conn remote IP len=%d", len(missinggo.AddrIP(conn.RemoteAddr()))), 1) torrent.Add(fmt.Sprintf("accepted conn network=%s", conn.RemoteAddr().Network()), 1) torrent.Add(fmt.Sprintf("accepted on %s listener", l.Addr().Network()), 1) }() } } func (cl *Client) incomingConnection(nc net.Conn) { defer nc.Close() if tc, ok := nc.(*net.TCPConn); ok { tc.SetLinger(0) } c := cl.newConnection(nc, false) c.Discovery = peerSourceIncoming cl.runReceivedConn(c) } // Returns a handle to the given torrent, if it's present in the client. func (cl *Client) Torrent(ih metainfo.Hash) (t *Torrent, ok bool) { cl.lock() defer cl.unlock() t, ok = cl.torrents[ih] return } func (cl *Client) torrent(ih metainfo.Hash) *Torrent { return cl.torrents[ih] } type dialResult struct { Conn net.Conn } func countDialResult(err error) { if err == nil { torrent.Add("successful dials", 1) } else { torrent.Add("unsuccessful dials", 1) } } func reducedDialTimeout(minDialTimeout, max time.Duration, halfOpenLimit int, pendingPeers int) (ret time.Duration) { ret = max / time.Duration((pendingPeers+halfOpenLimit)/halfOpenLimit) if ret < minDialTimeout { ret = minDialTimeout } return } // Returns whether an address is known to connect to a client with our own ID. func (cl *Client) dopplegangerAddr(addr string) bool { _, ok := cl.dopplegangerAddrs[addr] return ok } func ipNetworkSuffix(allowIpv4, allowIpv6 bool) string { switch { case allowIpv4 && allowIpv6: return "" case allowIpv4 && !allowIpv6: return "4" case !allowIpv4 && allowIpv6: return "6" default: panic("unhandled ip network combination") } } func dialUTP(ctx context.Context, addr string, sock utpSocket) (c net.Conn, err error) { return sock.DialContext(ctx, "", addr) } var allPeerNetworks = []string{"tcp4", "tcp6", "udp4", "udp6"} func peerNetworkEnabled(network string, cfg *ClientConfig) bool { c := func(s string) bool { return strings.Contains(network, s) } if cfg.DisableUTP { if c("udp") || c("utp") { return false } } if cfg.DisableTCP && c("tcp") { return false } if cfg.DisableIPv6 && c("6") { return false } return true } // Returns a connection over UTP or TCP, whichever is first to connect. func (cl *Client) dialFirst(ctx context.Context, addr string) net.Conn { ctx, cancel := context.WithCancel(ctx) // As soon as we return one connection, cancel the others. defer cancel() left := 0 resCh := make(chan dialResult, left) dial := func(f func(_ context.Context, addr string) (net.Conn, error)) { left++ go func() { c, err := f(ctx, addr) // This is a bit optimistic, but it looks non-trivial to thread // this through the proxy code. Set it now in case we close the // connection forthwith. if tc, ok := c.(*net.TCPConn); ok { tc.SetLinger(0) } countDialResult(err) resCh <- dialResult{c} }() } func() { cl.lock() defer cl.unlock() cl.eachListener(func(s socket) bool { if peerNetworkEnabled(s.Addr().Network(), cl.config) { dial(s.dial) } return true }) }() var res dialResult // Wait for a successful connection. func() { defer perf.ScopeTimer()() for ; left > 0 && res.Conn == nil; left-- { res = <-resCh } }() // There are still incompleted dials. go func() { for ; left > 0; left-- { conn := (<-resCh).Conn if conn != nil { conn.Close() } } }() if res.Conn != nil { go torrent.Add(fmt.Sprintf("network dialed first: %s", res.Conn.RemoteAddr().Network()), 1) } return res.Conn } func (cl *Client) noLongerHalfOpen(t *Torrent, addr string) { if _, ok := t.halfOpen[addr]; !ok { panic("invariant broken") } delete(t.halfOpen, addr) t.openNewConns() } // Performs initiator handshakes and returns a connection. Returns nil // *connection if no connection for valid reasons. func (cl *Client) handshakesConnection(ctx context.Context, nc net.Conn, t *Torrent, encryptHeader bool) (c *connection, err error) { c = cl.newConnection(nc, true) c.headerEncrypted = encryptHeader ctx, cancel := context.WithTimeout(ctx, cl.config.HandshakesTimeout) defer cancel() dl, ok := ctx.Deadline() if !ok { panic(ctx) } err = nc.SetDeadline(dl) if err != nil { panic(err) } ok, err = cl.initiateHandshakes(c, t) if !ok { c = nil } return } // Returns nil connection and nil error if no connection could be established // for valid reasons. func (cl *Client) establishOutgoingConnEx(t *Torrent, addr string, ctx context.Context, obfuscatedHeader bool) (c *connection, err error) { nc := cl.dialFirst(ctx, addr) if nc == nil { return } defer func() { if c == nil || err != nil { nc.Close() } }() return cl.handshakesConnection(ctx, nc, t, obfuscatedHeader) } // Returns nil connection and nil error if no connection could be established // for valid reasons. func (cl *Client) establishOutgoingConn(t *Torrent, addr string) (c *connection, err error) { torrent.Add("establish outgoing connection", 1) ctx, cancel := context.WithTimeout(context.Background(), func() time.Duration { cl.rLock() defer cl.rUnlock() return t.dialTimeout() }()) defer cancel() obfuscatedHeaderFirst := !cl.config.DisableEncryption && !cl.config.PreferNoEncryption c, err = cl.establishOutgoingConnEx(t, addr, ctx, obfuscatedHeaderFirst) if err != nil { return } if c != nil { torrent.Add("initiated conn with preferred header obfuscation", 1) return } if cl.config.ForceEncryption { // We should have just tried with an obfuscated header. A plaintext // header can't result in an encrypted connection, so we're done. if !obfuscatedHeaderFirst { panic(cl.config.EncryptionPolicy) } return } // Try again with encryption if we didn't earlier, or without if we did. c, err = cl.establishOutgoingConnEx(t, addr, ctx, !obfuscatedHeaderFirst) if c != nil { torrent.Add("initiated conn with fallback header obfuscation", 1) } return } // Called to dial out and run a connection. The addr we're given is already // considered half-open. func (cl *Client) outgoingConnection(t *Torrent, addr string, ps peerSource) { cl.dialRateLimiter.Wait(context.Background()) c, err := cl.establishOutgoingConn(t, addr) cl.lock() defer cl.unlock() // Don't release lock between here and addConnection, unless it's for // failure. cl.noLongerHalfOpen(t, addr) if err != nil { if cl.config.Debug { log.Printf("error establishing outgoing connection: %s", err) } return } if c == nil { return } defer c.Close() c.Discovery = ps cl.runHandshookConn(c, t) } // The port number for incoming peer connections. 0 if the client isn't // listening. func (cl *Client) incomingPeerPort() int { return cl.LocalPort() } func (cl *Client) initiateHandshakes(c *connection, t *Torrent) (ok bool, err error) { if c.headerEncrypted { var rw io.ReadWriter rw, c.cryptoMethod, err = mse.InitiateHandshake( struct { io.Reader io.Writer }{c.r, c.w}, t.infoHash[:], nil, func() mse.CryptoMethod { switch { case cl.config.ForceEncryption: return mse.CryptoMethodRC4 case cl.config.DisableEncryption: return mse.CryptoMethodPlaintext default: return mse.AllSupportedCrypto } }(), ) c.setRW(rw) if err != nil { return } } ih, ok, err := cl.connBTHandshake(c, &t.infoHash) if ih != t.infoHash { ok = false } return } // Calls f with any secret keys. func (cl *Client) forSkeys(f func([]byte) bool) { cl.lock() defer cl.unlock() for ih := range cl.torrents { if !f(ih[:]) { break } } } // Do encryption and bittorrent handshakes as receiver. func (cl *Client) receiveHandshakes(c *connection) (t *Torrent, err error) { defer perf.ScopeTimerErr(&err)() var rw io.ReadWriter rw, c.headerEncrypted, c.cryptoMethod, err = handleEncryption(c.rw(), cl.forSkeys, cl.config.EncryptionPolicy) c.setRW(rw) if err == nil || err == mse.ErrNoSecretKeyMatch { if c.headerEncrypted { torrent.Add("handshakes received encrypted", 1) } else { torrent.Add("handshakes received unencrypted", 1) } } else { torrent.Add("handshakes received with error while handling encryption", 1) } if err != nil { if err == mse.ErrNoSecretKeyMatch { err = nil } return } if cl.config.ForceEncryption && !c.headerEncrypted { err = errors.New("connection not encrypted") return } ih, ok, err := cl.connBTHandshake(c, nil) if err != nil { err = fmt.Errorf("error during bt handshake: %s", err) return } if !ok { return } cl.lock() t = cl.torrents[ih] cl.unlock() return } // Returns !ok if handshake failed for valid reasons. func (cl *Client) connBTHandshake(c *connection, ih *metainfo.Hash) (ret metainfo.Hash, ok bool, err error) { res, ok, err := pp.Handshake(c.rw(), ih, cl.peerID, cl.extensionBytes) if err != nil || !ok { return } ret = res.Hash c.PeerExtensionBytes = res.PeerExtensionBits c.PeerID = res.PeerID c.completedHandshake = time.Now() return } func (cl *Client) runReceivedConn(c *connection) { err := c.conn.SetDeadline(time.Now().Add(cl.config.HandshakesTimeout)) if err != nil { panic(err) } t, err := cl.receiveHandshakes(c) if err != nil { log.Fmsg( "error receiving handshakes: %s", err, ).AddValue( debugLogValue, ).Add( "network", c.remoteAddr().Network(), ).Log(cl.logger) torrent.Add("error receiving handshake", 1) cl.lock() cl.onBadAccept(c.remoteAddr()) cl.unlock() return } if t == nil { torrent.Add("received handshake for unloaded torrent", 1) cl.lock() cl.onBadAccept(c.remoteAddr()) cl.unlock() return } torrent.Add("received handshake for loaded torrent", 1) cl.lock() defer cl.unlock() cl.runHandshookConn(c, t) } func (cl *Client) runHandshookConn(c *connection, t *Torrent) { c.setTorrent(t) if c.PeerID == cl.peerID { if c.outgoing { connsToSelf.Add(1) addr := c.conn.RemoteAddr().String() cl.dopplegangerAddrs[addr] = struct{}{} } else { // Because the remote address is not necessarily the same as its // client's torrent listen address, we won't record the remote address // as a doppleganger. Instead, the initiator can record *us* as the // doppleganger. } return } c.conn.SetWriteDeadline(time.Time{}) c.r = deadlineReader{c.conn, c.r} completedHandshakeConnectionFlags.Add(c.connectionFlags(), 1) if connIsIpv6(c.conn) { torrent.Add("completed handshake over ipv6", 1) } if err := t.addConnection(c); err != nil { log.Fmsg("error adding connection: %s", err).AddValues(c, debugLogValue).Log(t.logger) return } defer t.dropConnection(c) go c.writer(time.Minute) cl.sendInitialMessages(c, t) err := c.mainReadLoop() if err != nil && cl.config.Debug { log.Printf("error during connection main read loop: %s", err) } } // See the order given in Transmission's tr_peerMsgsNew. func (cl *Client) sendInitialMessages(conn *connection, torrent *Torrent) { if conn.PeerExtensionBytes.SupportsExtended() && cl.extensionBytes.SupportsExtended() { conn.Post(pp.Message{ Type: pp.Extended, ExtendedID: pp.HandshakeExtendedID, ExtendedPayload: func() []byte { msg := pp.ExtendedHandshakeMessage{ M: map[pp.ExtensionName]pp.ExtensionNumber{ pp.ExtensionNameMetadata: metadataExtendedId, }, V: cl.config.ExtendedHandshakeClientVersion, Reqq: 64, // TODO: Really? YourIp: pp.CompactIp(missinggo.AddrIP(conn.remoteAddr())), Encryption: !cl.config.DisableEncryption, Port: cl.incomingPeerPort(), MetadataSize: torrent.metadataSize(), // TODO: We can figured these out specific to the socket // used. Ipv4: pp.CompactIp(cl.config.PublicIp4.To4()), Ipv6: cl.config.PublicIp6.To16(), } if !cl.config.DisablePEX { msg.M[pp.ExtensionNamePex] = pexExtendedId } return bencode.MustMarshal(msg) }(), }) } func() { if conn.fastEnabled() { if torrent.haveAllPieces() { conn.Post(pp.Message{Type: pp.HaveAll}) conn.sentHaves.AddRange(0, bitmap.BitIndex(conn.t.NumPieces())) return } else if !torrent.haveAnyPieces() { conn.Post(pp.Message{Type: pp.HaveNone}) conn.sentHaves.Clear() return } } conn.PostBitfield() }() if conn.PeerExtensionBytes.SupportsDHT() && cl.extensionBytes.SupportsDHT() && cl.haveDhtServer() { conn.Post(pp.Message{ Type: pp.Port, Port: cl.dhtPort(), }) } } func (cl *Client) dhtPort() (ret uint16) { cl.eachDhtServer(func(s *dht.Server) { ret = uint16(missinggo.AddrPort(s.Addr())) }) return } func (cl *Client) haveDhtServer() (ret bool) { cl.eachDhtServer(func(_ *dht.Server) { ret = true }) return } // Process incoming ut_metadata message. func (cl *Client) gotMetadataExtensionMsg(payload []byte, t *Torrent, c *connection) error { var d map[string]int err := bencode.Unmarshal(payload, &d) if _, ok := err.(bencode.ErrUnusedTrailingBytes); ok { } else if err != nil { return fmt.Errorf("error unmarshalling bencode: %s", err) } msgType, ok := d["msg_type"] if !ok { return errors.New("missing msg_type field") } piece := d["piece"] switch msgType { case pp.DataMetadataExtensionMsgType: c.allStats(add(1, func(cs *ConnStats) *Count { return &cs.MetadataChunksRead })) if !c.requestedMetadataPiece(piece) { return fmt.Errorf("got unexpected piece %d", piece) } c.metadataRequests[piece] = false begin := len(payload) - metadataPieceSize(d["total_size"], piece) if begin < 0 || begin >= len(payload) { return fmt.Errorf("data has bad offset in payload: %d", begin) } t.saveMetadataPiece(piece, payload[begin:]) c.lastUsefulChunkReceived = time.Now() return t.maybeCompleteMetadata() case pp.RequestMetadataExtensionMsgType: if !t.haveMetadataPiece(piece) { c.Post(t.newMetadataExtensionMessage(c, pp.RejectMetadataExtensionMsgType, d["piece"], nil)) return nil } start := (1 << 14) * piece c.Post(t.newMetadataExtensionMessage(c, pp.DataMetadataExtensionMsgType, piece, t.metadataBytes[start:start+t.metadataPieceSize(piece)])) return nil case pp.RejectMetadataExtensionMsgType: return nil default: return errors.New("unknown msg_type value") } } func (cl *Client) badPeerIPPort(ip net.IP, port int) bool { if port == 0 { return true } if cl.dopplegangerAddr(net.JoinHostPort(ip.String(), strconv.FormatInt(int64(port), 10))) { return true } if _, ok := cl.ipBlockRange(ip); ok { return true } if _, ok := cl.badPeerIPs[ip.String()]; ok { return true } return false } // Return a Torrent ready for insertion into a Client. func (cl *Client) newTorrent(ih metainfo.Hash, specStorage storage.ClientImpl) (t *Torrent) { // use provided storage, if provided storageClient := cl.defaultStorage if specStorage != nil { storageClient = storage.NewClient(specStorage) } t = &Torrent{ cl: cl, infoHash: ih, peers: prioritizedPeers{ om: btree.New(32), getPrio: func(p Peer) peerPriority { return bep40PriorityIgnoreError(cl.publicAddr(p.IP), p.addr()) }, }, conns: make(map[*connection]struct{}, 2*cl.config.EstablishedConnsPerTorrent), halfOpen: make(map[string]Peer), pieceStateChanges: pubsub.NewPubSub(), storageOpener: storageClient, maxEstablishedConns: cl.config.EstablishedConnsPerTorrent, networkingEnabled: true, requestStrategy: 2, metadataChanged: sync.Cond{ L: cl.locker(), }, duplicateRequestTimeout: 1 * time.Second, } t.logger = cl.logger.Clone().AddValue(t) t.setChunkSize(defaultChunkSize) return } // A file-like handle to some torrent data resource. type Handle interface { io.Reader io.Seeker io.Closer io.ReaderAt } func (cl *Client) AddTorrentInfoHash(infoHash metainfo.Hash) (t *Torrent, new bool) { return cl.AddTorrentInfoHashWithStorage(infoHash, nil) } // Adds a torrent by InfoHash with a custom Storage implementation. // If the torrent already exists then this Storage is ignored and the // existing torrent returned with `new` set to `false` func (cl *Client) AddTorrentInfoHashWithStorage(infoHash metainfo.Hash, specStorage storage.ClientImpl) (t *Torrent, new bool) { cl.lock() defer cl.unlock() t, ok := cl.torrents[infoHash] if ok { return } new = true t = cl.newTorrent(infoHash, specStorage) cl.eachDhtServer(func(s *dht.Server) { go t.dhtAnnouncer(s) }) cl.torrents[infoHash] = t cl.clearAcceptLimits() t.updateWantPeersEvent() // Tickle Client.waitAccept, new torrent may want conns. cl.event.Broadcast() return } // Add or merge a torrent spec. If the torrent is already present, the // trackers will be merged with the existing ones. If the Info isn't yet // known, it will be set. The display name is replaced if the new spec // provides one. Returns new if the torrent wasn't already in the client. // Note that any `Storage` defined on the spec will be ignored if the // torrent is already present (i.e. `new` return value is `true`) func (cl *Client) AddTorrentSpec(spec *TorrentSpec) (t *Torrent, new bool, err error) { t, new = cl.AddTorrentInfoHashWithStorage(spec.InfoHash, spec.Storage) if spec.DisplayName != "" { t.SetDisplayName(spec.DisplayName) } if spec.InfoBytes != nil { err = t.SetInfoBytes(spec.InfoBytes) if err != nil { return } } cl.lock() defer cl.unlock() if spec.ChunkSize != 0 { t.setChunkSize(pp.Integer(spec.ChunkSize)) } t.addTrackers(spec.Trackers) t.maybeNewConns() return } func (cl *Client) dropTorrent(infoHash metainfo.Hash) (err error) { t, ok := cl.torrents[infoHash] if !ok { err = fmt.Errorf("no such torrent") return } err = t.close() if err != nil { panic(err) } delete(cl.torrents, infoHash) return } func (cl *Client) allTorrentsCompleted() bool { for _, t := range cl.torrents { if !t.haveInfo() { return false } if !t.haveAllPieces() { return false } } return true } // Returns true when all torrents are completely downloaded and false if the // client is stopped before that. func (cl *Client) WaitAll() bool { cl.lock() defer cl.unlock() for !cl.allTorrentsCompleted() { if cl.closed.IsSet() { return false } cl.event.Wait() } return true } // Returns handles to all the torrents loaded in the Client. func (cl *Client) Torrents() []*Torrent { cl.lock() defer cl.unlock() return cl.torrentsAsSlice() } func (cl *Client) torrentsAsSlice() (ret []*Torrent) { for _, t := range cl.torrents { ret = append(ret, t) } return } func (cl *Client) AddMagnet(uri string) (T *Torrent, err error) { spec, err := TorrentSpecFromMagnetURI(uri) if err != nil { return } T, _, err = cl.AddTorrentSpec(spec) return } func (cl *Client) AddTorrent(mi *metainfo.MetaInfo) (T *Torrent, err error) { T, _, err = cl.AddTorrentSpec(TorrentSpecFromMetaInfo(mi)) var ss []string slices.MakeInto(&ss, mi.Nodes) cl.AddDHTNodes(ss) return } func (cl *Client) AddTorrentFromFile(filename string) (T *Torrent, err error) { mi, err := metainfo.LoadFromFile(filename) if err != nil { return } return cl.AddTorrent(mi) } func (cl *Client) DhtServers() []*dht.Server { return cl.dhtServers } func (cl *Client) AddDHTNodes(nodes []string) { for _, n := range nodes { hmp := missinggo.SplitHostMaybePort(n) ip := net.ParseIP(hmp.Host) if ip == nil { log.Printf("won't add DHT node with bad IP: %q", hmp.Host) continue } ni := krpc.NodeInfo{ Addr: krpc.NodeAddr{ IP: ip, Port: hmp.Port, }, } cl.eachDhtServer(func(s *dht.Server) { s.AddNode(ni) }) } } func (cl *Client) banPeerIP(ip net.IP) { if cl.badPeerIPs == nil { cl.badPeerIPs = make(map[string]struct{}) } cl.badPeerIPs[ip.String()] = struct{}{} } func (cl *Client) newConnection(nc net.Conn, outgoing bool) (c *connection) { c = &connection{ conn: nc, outgoing: outgoing, Choked: true, PeerChoked: true, PeerMaxRequests: 250, writeBuffer: new(bytes.Buffer), } c.writerCond.L = cl.locker() c.setRW(connStatsReadWriter{nc, c}) c.r = &rateLimitedReader{ l: cl.config.DownloadRateLimiter, r: c.r, } return } func (cl *Client) onDHTAnnouncePeer(ih metainfo.Hash, p dht.Peer) { cl.lock() defer cl.unlock() t := cl.torrent(ih) if t == nil { return } t.addPeers([]Peer{{ IP: p.IP, Port: p.Port, Source: peerSourceDHTAnnouncePeer, }}) } func firstNotNil(ips ...net.IP) net.IP { for _, ip := range ips { if ip != nil { return ip } } return nil } func (cl *Client) eachListener(f func(socket) bool) { for _, s := range cl.conns { if !f(s) { break } } } func (cl *Client) findListener(f func(net.Listener) bool) (ret net.Listener) { cl.eachListener(func(l socket) bool { ret = l return !f(l) }) return } func (cl *Client) publicIp(peer net.IP) net.IP { // TODO: Use BEP 10 to determine how peers are seeing us. if peer.To4() != nil { return firstNotNil( cl.config.PublicIp4, cl.findListenerIp(func(ip net.IP) bool { return ip.To4() != nil }), ) } else { return firstNotNil( cl.config.PublicIp6, cl.findListenerIp(func(ip net.IP) bool { return ip.To4() == nil }), ) } } func (cl *Client) findListenerIp(f func(net.IP) bool) net.IP { return missinggo.AddrIP(cl.findListener(func(l net.Listener) bool { return f(missinggo.AddrIP(l.Addr())) }).Addr()) } // Our IP as a peer should see it. func (cl *Client) publicAddr(peer net.IP) ipPort { return ipPort{cl.publicIp(peer), uint16(cl.incomingPeerPort())} } func (cl *Client) ListenAddrs() (ret []net.Addr) { cl.lock() defer cl.unlock() cl.eachListener(func(l socket) bool { ret = append(ret, l.Addr()) return true }) return } func (cl *Client) onBadAccept(addr net.Addr) { ip := maskIpForAcceptLimiting(missinggo.AddrIP(addr)) if cl.acceptLimiter == nil { cl.acceptLimiter = make(map[ipStr]int) } cl.acceptLimiter[ipStr(ip.String())]++ } func maskIpForAcceptLimiting(ip net.IP) net.IP { if ip4 := ip.To4(); ip4 != nil { return ip4.Mask(net.CIDRMask(24, 32)) } return ip } func (cl *Client) clearAcceptLimits() { cl.acceptLimiter = nil } func (cl *Client) acceptLimitClearer() { for { select { case <-cl.closed.LockedChan(cl.locker()): return case <-time.After(15 * time.Minute): cl.lock() cl.clearAcceptLimits() cl.unlock() } } } func (cl *Client) rateLimitAccept(ip net.IP) bool { if cl.config.DisableAcceptRateLimiting { return false } return cl.acceptLimiter[ipStr(maskIpForAcceptLimiting(ip).String())] > 0 } func (cl *Client) rLock() { cl._mu.RLock() } func (cl *Client) rUnlock() { cl._mu.RUnlock() } func (cl *Client) lock() { cl._mu.Lock() } func (cl *Client) unlock() { cl._mu.Unlock() } func (cl *Client) locker() sync.Locker { return clientLocker{cl} } type clientLocker struct { *Client } func (cl clientLocker) Lock() { cl.lock() } func (cl clientLocker) Unlock() { cl.unlock() }