"github.com/anacrolix/chansync/events"
"github.com/anacrolix/dht/v2"
. "github.com/anacrolix/generics"
+ g "github.com/anacrolix/generics"
"github.com/anacrolix/log"
"github.com/anacrolix/missinggo/perf"
"github.com/anacrolix/missinggo/slices"
"github.com/anacrolix/missinggo/v2/pubsub"
"github.com/anacrolix/multiless"
"github.com/anacrolix/sync"
- request_strategy "github.com/anacrolix/torrent/request-strategy"
- typedRoaring "github.com/anacrolix/torrent/typed-roaring"
- "github.com/davecgh/go-spew/spew"
"github.com/pion/datachannel"
+ "golang.org/x/exp/maps"
"github.com/anacrolix/torrent/bencode"
"github.com/anacrolix/torrent/common"
+ "github.com/anacrolix/torrent/internal/check"
+ "github.com/anacrolix/torrent/internal/nestedmaps"
"github.com/anacrolix/torrent/metainfo"
pp "github.com/anacrolix/torrent/peer_protocol"
+ utHolepunch "github.com/anacrolix/torrent/peer_protocol/ut-holepunch"
+ request_strategy "github.com/anacrolix/torrent/request-strategy"
"github.com/anacrolix/torrent/segments"
"github.com/anacrolix/torrent/storage"
"github.com/anacrolix/torrent/tracker"
+ typedRoaring "github.com/anacrolix/torrent/typed-roaring"
"github.com/anacrolix/torrent/webseed"
"github.com/anacrolix/torrent/webtorrent"
)
userOnWriteChunkErr func(error)
closed chansync.SetOnce
+ onClose []func()
infoHash metainfo.Hash
pieces []Piece
chunkPool sync.Pool
// Total length of the torrent in bytes. Stored because it's not O(1) to
// get this from the info dict.
- length *int64
+ _length Option[int64]
// The storage to open when the info dict becomes available.
storageOpener *storage.Client
maxEstablishedConns int
// Set of addrs to which we're attempting to connect. Connections are
// half-open until all handshakes are completed.
- halfOpen map[string]PeerInfo
+ halfOpen map[string]map[outgoingConnAttemptKey]*PeerInfo
// Reserve of peers to connect to. A peer can be both here and in the
// active connections if were told about the peer after connecting with
// them. That encourages us to reconnect to peers that are well known in
// the swarm.
peers prioritizedPeers
- // Whether we want to know to know more peers.
+ // Whether we want to know more peers.
wantPeersEvent missinggo.Event
// An announcer for each tracker URL.
trackerAnnouncers map[string]torrentTrackerAnnouncer
connsWithAllPieces map[*Peer]struct{}
- requestState []requestState
+ requestState map[RequestIndex]requestState
// Chunks we've written to since the corresponding piece was last checked.
dirtyChunks typedRoaring.Bitmap[RequestIndex]
requestIndexes []RequestIndex
}
+type outgoingConnAttemptKey = *PeerInfo
+
+func (t *Torrent) length() int64 {
+ return t._length.Value
+}
+
func (t *Torrent) selectivePieceAvailabilityFromPeers(i pieceIndex) (count int) {
// This could be done with roaring.BitSliceIndexing.
t.iterPeers(func(peer *Peer) {
})
// Add half-open peers to the list
- for _, peer := range t.halfOpen {
- ks = append(ks, peer)
+ for _, attempts := range t.halfOpen {
+ for _, peer := range attempts {
+ ks = append(ks, *peer)
+ }
}
// Add active peers to the list
for _, f := range t.info.UpvertedFiles() {
l += f.Length
}
- t.length = &l
+ t._length = Some(l)
}
// TODO: This shouldn't fail for storage reasons. Instead we should handle storage failure
func (t *Torrent) onSetInfo() {
t.pieceRequestOrder = rand.Perm(t.numPieces())
t.initPieceRequestOrder()
- MakeSliceWithLength(&t.requestState, t.numChunks())
MakeSliceWithLength(&t.requestPieceStates, t.numPieces())
for i := range t.pieces {
p := &t.pieces[i]
t.cl.event.Broadcast()
close(t.gotMetainfoC)
t.updateWantPeersEvent()
+ t.requestState = make(map[RequestIndex]requestState)
t.tryCreateMorePieceHashers()
t.iterPeers(func(p *Peer) {
p.onGotInfo(t.info)
return
}
if uint32(size) > maxMetadataSize {
- return errors.New("bad size")
+ return log.WithLevel(log.Warning, errors.New("bad size"))
}
if len(t.metadataBytes) == size {
return
fmt.Fprintf(w, "DHT Announces: %d\n", t.numDHTAnnounces)
- spew.NewDefaultConfig()
- spew.Fdump(w, t.statsLocked())
-
- peers := t.peersAsSlice()
- sort.Slice(peers, func(_i, _j int) bool {
- i := peers[_i]
- j := peers[_j]
- if less, ok := multiless.New().EagerSameLess(
- i.downloadRate() == j.downloadRate(), i.downloadRate() < j.downloadRate(),
- ).LessOk(); ok {
- return less
- }
- return worseConn(i, j)
+ dumpStats(w, t.statsLocked())
+
+ fmt.Fprintf(w, "webseeds:\n")
+ t.writePeerStatuses(w, maps.Values(t.webSeeds))
+
+ peerConns := maps.Keys(t.conns)
+ // Peers without priorities first, then those with. I'm undecided about how to order peers
+ // without priorities.
+ sort.Slice(peerConns, func(li, ri int) bool {
+ l := peerConns[li]
+ r := peerConns[ri]
+ ml := multiless.New()
+ lpp := g.ResultFromTuple(l.peerPriority()).ToOption()
+ rpp := g.ResultFromTuple(r.peerPriority()).ToOption()
+ ml = ml.Bool(lpp.Ok, rpp.Ok)
+ ml = ml.Uint32(rpp.Value, lpp.Value)
+ return ml.Less()
})
- for i, c := range peers {
- fmt.Fprintf(w, "%2d. ", i+1)
- c.writeStatus(w, t)
+
+ fmt.Fprintf(w, "%v peer conns:\n", len(peerConns))
+ t.writePeerStatuses(w, g.SliceMap(peerConns, func(pc *PeerConn) *Peer {
+ return &pc.Peer
+ }))
+}
+
+func (t *Torrent) writePeerStatuses(w io.Writer, peers []*Peer) {
+ var buf bytes.Buffer
+ for _, c := range peers {
+ fmt.Fprintf(w, "- ")
+ buf.Reset()
+ c.writeStatus(&buf)
+ w.Write(bytes.TrimRight(
+ bytes.ReplaceAll(buf.Bytes(), []byte("\n"), []byte("\n ")),
+ " "))
}
}
}
}
-// Get bytes left
+// Returns a count of bytes that are not complete in storage, and not pending being written to
+// storage. This value is from the perspective of the download manager, and may not agree with the
+// actual state in storage. If you want read data synchronously you should use a Reader. See
+// https://github.com/anacrolix/torrent/issues/828.
func (t *Torrent) BytesMissing() (n int64) {
t.cl.rLock()
n = t.bytesMissingLocked()
err = errors.New("already closed")
return
}
+ for _, f := range t.onClose {
+ f()
+ }
if t.storage != nil {
wg.Add(1)
go func() {
if t.storage != nil {
t.deletePieceRequestOrder()
}
+ t.assertAllPiecesRelativeAvailabilityZero()
+ t.pex.Reset()
+ t.cl.event.Broadcast()
+ t.pieceStateChanges.Close()
+ t.updateWantPeersEvent()
+ return
+}
+
+func (t *Torrent) assertAllPiecesRelativeAvailabilityZero() {
for i := range t.pieces {
p := t.piece(i)
if p.relativeAvailability != 0 {
panic(fmt.Sprintf("piece %v has relative availability %v", i, p.relativeAvailability))
}
}
- t.pex.Reset()
- t.cl.event.Broadcast()
- t.pieceStateChanges.Close()
- t.updateWantPeersEvent()
- return
}
func (t *Torrent) requestOffset(r Request) int64 {
- return torrentRequestOffset(*t.length, int64(t.usualPieceSize()), r)
+ return torrentRequestOffset(t.length(), int64(t.usualPieceSize()), r)
}
// Return the request that would include the given offset into the torrent data. Returns !ok if
// there is no such request.
func (t *Torrent) offsetRequest(off int64) (req Request, ok bool) {
- return torrentOffsetRequest(*t.length, t.info.PieceLength, int64(t.chunkSize), off)
+ return torrentOffsetRequest(t.length(), t.info.PieceLength, int64(t.chunkSize), off)
}
func (t *Torrent) writeChunk(piece int, begin int64, data []byte) (err error) {
return 0
}
if piece == t.numPieces()-1 {
- ret := pp.Integer(*t.length % t.info.PieceLength)
+ ret := pp.Integer(t.length() % t.info.PieceLength)
if ret != 0 {
return ret
}
func (t *Torrent) maybeDropMutuallyCompletePeer(
// I'm not sure about taking peer here, not all peer implementations actually drop. Maybe that's
// okay?
- p *Peer,
+ p *PeerConn,
) {
if !t.cl.config.DropMutuallyCompletePeers {
return
if p.useful() {
return
}
- t.logger.WithDefaultLevel(log.Debug).Printf("dropping %v, which is mutually complete", p)
+ p.logger.Levelf(log.Debug, "is mutually complete; dropping")
p.drop()
}
}
}
-// The worst connection is one that hasn't been sent, or sent anything useful for the longest. A bad
-// connection is one that usually sends us unwanted pieces, or has been in the worse half of the
-// established connections for more than a minute. This is O(n log n). If there was a way to not
-// consider the position of a conn relative to the total number, it could be reduced to O(n).
-func (t *Torrent) worstBadConn() (ret *PeerConn) {
- wcs := worseConnSlice{conns: t.appendUnclosedConns(getPeerConnSlice(len(t.conns)))}
- defer peerConnSlices.Put(wcs.conns)
- wcs.initKeys()
+// Calls the given function with a slice of unclosed conns. It uses a pool to reduce allocations as
+// this is a frequent occurrence.
+func (t *Torrent) withUnclosedConns(f func([]*PeerConn)) {
+ sl := t.appendUnclosedConns(getPeerConnSlice(len(t.conns)))
+ f(sl)
+ peerConnSlices.Put(sl)
+}
+
+func (t *Torrent) worstBadConnFromSlice(opts worseConnLensOpts, sl []*PeerConn) *PeerConn {
+ wcs := worseConnSlice{conns: sl}
+ wcs.initKeys(opts)
heap.Init(&wcs)
for wcs.Len() != 0 {
c := heap.Pop(&wcs).(*PeerConn)
+ if opts.incomingIsBad && !c.outgoing {
+ return c
+ }
+ if opts.outgoingIsBad && c.outgoing {
+ return c
+ }
if c._stats.ChunksReadWasted.Int64() >= 6 && c._stats.ChunksReadWasted.Int64() > c._stats.ChunksReadUseful.Int64() {
return c
}
return nil
}
+// The worst connection is one that hasn't been sent, or sent anything useful for the longest. A bad
+// connection is one that usually sends us unwanted pieces, or has been in the worse half of the
+// established connections for more than a minute. This is O(n log n). If there was a way to not
+// consider the position of a conn relative to the total number, it could be reduced to O(n).
+func (t *Torrent) worstBadConn(opts worseConnLensOpts) (ret *PeerConn) {
+ t.withUnclosedConns(func(ucs []*PeerConn) {
+ ret = t.worstBadConnFromSlice(opts, ucs)
+ })
+ return
+}
+
type PieceStateChange struct {
Index int
PieceState
// Returns the range of pieces [begin, end) that contains the extent of bytes.
func (t *Torrent) byteRegionPieces(off, size int64) (begin, end pieceIndex) {
- if off >= *t.length {
+ if off >= t.length() {
return
}
if off < 0 {
return
}
+func (t *Torrent) numOutgoingConns() (ret int) {
+ for c := range t.conns {
+ if c.outgoing {
+ ret++
+ }
+ }
+ return
+}
+
func (t *Torrent) maxHalfOpen() int {
// Note that if we somehow exceed the maximum established conns, we want
// the negative value to have an effect.
extraIncoming := int64(t.numReceivedConns() - t.maxEstablishedConns/2)
// We want to allow some experimentation with new peers, and to try to
// upset an oversupply of received connections.
- return int(min(max(5, extraIncoming)+establishedHeadroom, int64(t.cl.config.HalfOpenConnsPerTorrent)))
+ return int(min(
+ max(5, extraIncoming)+establishedHeadroom,
+ int64(t.cl.config.HalfOpenConnsPerTorrent),
+ ))
}
func (t *Torrent) openNewConns() (initiated int) {
defer t.updateWantPeersEvent()
for t.peers.Len() != 0 {
- if !t.wantConns() {
+ if !t.wantOutgoingConns() {
return
}
if len(t.halfOpen) >= t.maxHalfOpen() {
return
}
p := t.peers.PopMax()
- t.initiateConn(p)
+ opts := outgoingConnOpts{
+ peerInfo: p,
+ t: t,
+ requireRendezvous: false,
+ skipHolepunchRendezvous: false,
+ receivedHolepunchConnect: false,
+ HeaderObfuscationPolicy: t.cl.config.HeaderObfuscationPolicy,
+ }
+ initiateConn(opts, false)
initiated++
}
return
if !t.haveInfo() {
return 0
}
- return *t.length - t.bytesLeft()
+ return t.length() - t.bytesLeft()
}
func (t *Torrent) SetInfoBytes(b []byte) (err error) {
}
func (t *Torrent) assertPendingRequests() {
- if !check {
+ if !check.Enabled {
return
}
// var actual pendingRequests
if t.peers.Len() > t.cl.config.TorrentPeersLowWater {
return false
}
- return t.wantConns()
+ return t.wantOutgoingConns()
}
func (t *Torrent) updateWantPeersEvent() {
DataChannelContext: dcc,
}
peerRemoteAddr := netConn.RemoteAddr()
+ //t.logger.Levelf(log.Critical, "onWebRtcConn remote addr: %v", peerRemoteAddr)
if t.cl.badPeerAddr(peerRemoteAddr) {
return
}
+ localAddrIpPort := missinggo.IpPortFromNetAddr(netConn.LocalAddr())
pc, err := t.cl.initiateProtocolHandshakes(
context.Background(),
netConn,
t,
- dcc.LocalOffered,
false,
- netConn.RemoteAddr(),
- webrtcNetwork,
- fmt.Sprintf("webrtc offer_id %x: %v", dcc.OfferId, regularNetConnPeerConnConnString(netConn)),
+ newConnectionOpts{
+ outgoing: dcc.LocalOffered,
+ remoteAddr: peerRemoteAddr,
+ localPublicAddr: localAddrIpPort,
+ network: webrtcNetwork,
+ connString: fmt.Sprintf("webrtc offer_id %x: %v", dcc.OfferId, regularNetConnPeerConnConnString(netConn)),
+ },
)
if err != nil {
t.logger.WithDefaultLevel(log.Error).Printf("error in handshaking webrtc connection: %v", err)
defer t.cl.unlock()
err = t.cl.runHandshookConn(pc, t)
if err != nil {
- t.logger.WithDefaultLevel(log.Critical).Printf("error running handshook webrtc conn: %v", err)
+ t.logger.WithDefaultLevel(log.Debug).Printf("error running handshook webrtc conn: %v", err)
}
}
func (t *Torrent) logRunHandshookConn(pc *PeerConn, logAll bool, level log.Level) {
err := t.cl.runHandshookConn(pc, t)
if err != nil || logAll {
- t.logger.WithDefaultLevel(level).Printf("error running handshook conn: %v", err)
+ t.logger.WithDefaultLevel(level).Levelf(log.ErrorLevel(err), "error running handshook conn: %v", err)
}
}
}
func (t *Torrent) startWebsocketAnnouncer(u url.URL) torrentTrackerAnnouncer {
- wtc, release := t.cl.websocketTrackers.Get(u.String())
- go func() {
- <-t.closed.Done()
- release()
- }()
+ wtc, release := t.cl.websocketTrackers.Get(u.String(), t.infoHash)
+ // This needs to run before the Torrent is dropped from the Client, to prevent a new webtorrent.TrackerClient for
+ // the same info hash before the old one is cleaned up.
+ t.onClose = append(t.onClose, release)
wst := websocketTrackerStatus{u, wtc}
go func() {
err := wtc.Announce(tracker.Started, t.infoHash)
}
u, err := url.Parse(_url)
if err != nil {
- // URLs with a leading '*' appear to be a uTorrent convention to
- // disable trackers.
+ // URLs with a leading '*' appear to be a uTorrent convention to disable trackers.
if _url[0] != '*' {
- log.Str("error parsing tracker url").AddValues("url", _url).Log(t.logger)
+ t.logger.Levelf(log.Warning, "error parsing tracker url: %v", err)
}
return
}
Event: event,
NumWant: func() int32 {
if t.wantPeers() && len(t.cl.dialers) > 0 {
- return -1
+ return 200 // Win has UDP packet limit. See: https://github.com/anacrolix/torrent/issues/764
} else {
return 0
}
// We're also announcing ourselves as a listener, so we don't just want peer addresses.
// TODO: We can include the announce_peer step depending on whether we can receive
// inbound connections. We should probably only announce once every 15 mins too.
- if !t.wantConns() {
+ if !t.wantAnyConns() {
goto wait
}
// TODO: Determine if there's a listener on the port we're announcing.
}
}
if len(t.conns) >= t.maxEstablishedConns {
- c := t.worstBadConn()
+ numOutgoing := t.numOutgoingConns()
+ numIncoming := len(t.conns) - numOutgoing
+ c := t.worstBadConn(worseConnLensOpts{
+ // We've already established that we have too many connections at this point, so we just
+ // need to match what kind we have too many of vs. what we're trying to add now.
+ incomingIsBad: (numIncoming-numOutgoing > 1) && c.outgoing,
+ outgoingIsBad: (numOutgoing-numIncoming > 1) && !c.outgoing,
+ })
if c == nil {
- return errors.New("don't want conns")
+ return errors.New("don't want conn")
}
c.close()
t.deletePeerConn(c)
panic(len(t.conns))
}
t.conns[c] = struct{}{}
+ t.cl.event.Broadcast()
+ // We'll never receive the "p" extended handshake parameter.
if !t.cl.config.DisablePEX && !c.PeerExtensionBytes.SupportsExtended() {
- t.pex.Add(c) // as no further extended handshake expected
+ t.pex.Add(c)
}
return nil
}
-func (t *Torrent) wantConns() bool {
+func (t *Torrent) newConnsAllowed() bool {
if !t.networkingEnabled.Bool() {
return false
}
if !t.needData() && (!t.seeding() || !t.haveAnyPieces()) {
return false
}
- return len(t.conns) < t.maxEstablishedConns || t.worstBadConn() != nil
+ return true
+}
+
+func (t *Torrent) wantAnyConns() bool {
+ if !t.networkingEnabled.Bool() {
+ return false
+ }
+ if t.closed.IsSet() {
+ return false
+ }
+ if !t.needData() && (!t.seeding() || !t.haveAnyPieces()) {
+ return false
+ }
+ return len(t.conns) < t.maxEstablishedConns
+}
+
+func (t *Torrent) wantOutgoingConns() bool {
+ if !t.newConnsAllowed() {
+ return false
+ }
+ if len(t.conns) < t.maxEstablishedConns {
+ return true
+ }
+ numIncomingConns := len(t.conns) - t.numOutgoingConns()
+ return t.worstBadConn(worseConnLensOpts{
+ incomingIsBad: numIncomingConns-t.numOutgoingConns() > 1,
+ outgoingIsBad: false,
+ }) != nil
+}
+
+func (t *Torrent) wantIncomingConns() bool {
+ if !t.newConnsAllowed() {
+ return false
+ }
+ if len(t.conns) < t.maxEstablishedConns {
+ return true
+ }
+ numIncomingConns := len(t.conns) - t.numOutgoingConns()
+ return t.worstBadConn(worseConnLensOpts{
+ incomingIsBad: false,
+ outgoingIsBad: t.numOutgoingConns()-numIncomingConns > 1,
+ }) != nil
}
func (t *Torrent) SetMaxEstablishedConns(max int) (oldMax int) {
return true
}),
}
- wcs.initKeys()
+ wcs.initKeys(worseConnLensOpts{})
heap.Init(&wcs)
for len(t.conns) > t.maxEstablishedConns && wcs.Len() > 0 {
t.dropConnection(heap.Pop(&wcs).(*PeerConn))
c._stats.incrementPiecesDirtiedGood()
}
t.clearPieceTouchers(piece)
+ hasDirty := p.hasDirtyChunks()
t.cl.unlock()
+ if hasDirty {
+ p.Flush() // You can be synchronous here!
+ }
err := p.Storage().MarkComplete()
if err != nil {
t.logger.Printf("%T: error marking piece complete %d: %s", t.storage, piece, err)
if len(bannableTouchers) >= 1 {
c := bannableTouchers[0]
if len(bannableTouchers) != 1 {
- t.logger.Levelf(log.Warning, "would have banned %v for touching piece %v after failed piece check", c.remoteIp(), piece)
+ t.logger.Levelf(log.Debug, "would have banned %v for touching piece %v after failed piece check", c.remoteIp(), piece)
} else {
// Turns out it's still useful to ban peers like this because if there's only a
// single peer for a piece, and we never progress that piece to completion, we
t.piece(piece).readerCond.Broadcast()
for conn := range t.conns {
conn.have(piece)
- t.maybeDropMutuallyCompletePeer(&conn.Peer)
+ t.maybeDropMutuallyCompletePeer(conn)
}
}
t.iterPeers(func(p *Peer) {
remoteIp := p.remoteIp()
if remoteIp == nil {
- if p.bannableAddr.Ok() {
+ if p.bannableAddr.Ok {
t.logger.WithDefaultLevel(log.Debug).Printf("can't get remote ip for peer %v", p)
}
return
}
}
-// Start the process of connecting to the given peer for the given torrent if appropriate.
-func (t *Torrent) initiateConn(peer PeerInfo) {
+func (t *Torrent) connectingToPeerAddr(addrStr string) bool {
+ return len(t.halfOpen[addrStr]) != 0
+}
+
+func (t *Torrent) hasPeerConnForAddr(x PeerRemoteAddr) bool {
+ addrStr := x.String()
+ for c := range t.conns {
+ ra := c.RemoteAddr
+ if ra.String() == addrStr {
+ return true
+ }
+ }
+ return false
+}
+
+func (t *Torrent) getHalfOpenPath(
+ addrStr string,
+ attemptKey outgoingConnAttemptKey,
+) nestedmaps.Path[*PeerInfo] {
+ return nestedmaps.Next(nestedmaps.Next(nestedmaps.Begin(&t.halfOpen), addrStr), attemptKey)
+}
+
+func (t *Torrent) addHalfOpen(addrStr string, attemptKey *PeerInfo) {
+ path := t.getHalfOpenPath(addrStr, attemptKey)
+ if path.Exists() {
+ panic("should be unique")
+ }
+ path.Set(attemptKey)
+ t.cl.numHalfOpen++
+}
+
+// Start the process of connecting to the given peer for the given torrent if appropriate. I'm not
+// sure all the PeerInfo fields are being used.
+func initiateConn(
+ opts outgoingConnOpts,
+ ignoreLimits bool,
+) {
+ t := opts.t
+ peer := opts.peerInfo
if peer.Id == t.cl.peerID {
return
}
return
}
addr := peer.Addr
- if t.addrActive(addr.String()) {
+ addrStr := addr.String()
+ if !ignoreLimits {
+ if t.connectingToPeerAddr(addrStr) {
+ return
+ }
+ }
+ if t.hasPeerConnForAddr(addr) {
return
}
- t.cl.numHalfOpen++
- t.halfOpen[addr.String()] = peer
- go t.cl.outgoingConnection(t, addr, peer.Source, peer.Trusted)
+ attemptKey := &peer
+ t.addHalfOpen(addrStr, attemptKey)
+ go t.cl.outgoingConnection(
+ opts,
+ attemptKey,
+ )
}
// Adds a trusted, pending peer for each of the given Client's addresses. Typically used in tests to
// connection.
func (t *Torrent) allStats(f func(*ConnStats)) {
f(&t.stats)
- f(&t.cl.stats)
+ f(&t.cl.connStats)
}
func (t *Torrent) hashingPiece(i pieceIndex) bool {
},
},
activeRequests: make(map[Request]webseed.Request, maxRequests),
- maxRequests: maxRequests,
}
ws.peer.initRequestState()
for _, opt := range opts {
}
// TODO: This is a check that an old invariant holds. It can be removed after some testing.
//delete(t.pendingRequests, r)
- var zeroRequestState requestState
- if t.requestState[r] != zeroRequestState {
+ if _, ok := t.requestState[r]; ok {
panic("expected request state to be gone")
}
return p
peer *Peer
when time.Time
}
+
+// Returns an error if a received chunk is out of bounds in someway.
+func (t *Torrent) checkValidReceiveChunk(r Request) error {
+ if !t.haveInfo() {
+ return errors.New("torrent missing info")
+ }
+ if int(r.Index) >= t.numPieces() {
+ return fmt.Errorf("chunk index %v, torrent num pieces %v", r.Index, t.numPieces())
+ }
+ pieceLength := t.pieceLength(pieceIndex(r.Index))
+ if r.Begin >= pieceLength {
+ return fmt.Errorf("chunk begins beyond end of piece (%v >= %v)", r.Begin, pieceLength)
+ }
+ // We could check chunk lengths here, but chunk request size is not changed often, and tricky
+ // for peers to manipulate as they need to send potentially large buffers to begin with. There
+ // should be considerable checks elsewhere for this case due to the network overhead. We should
+ // catch most of the overflow manipulation stuff by checking index and begin above.
+ return nil
+}
+
+func (t *Torrent) peerConnsWithDialAddrPort(target netip.AddrPort) (ret []*PeerConn) {
+ for pc := range t.conns {
+ dialAddr, err := pc.remoteDialAddrPort()
+ if err != nil {
+ continue
+ }
+ if dialAddr != target {
+ continue
+ }
+ ret = append(ret, pc)
+ }
+ return
+}
+
+func wrapUtHolepunchMsgForPeerConn(
+ recipient *PeerConn,
+ msg utHolepunch.Msg,
+) pp.Message {
+ extendedPayload, err := msg.MarshalBinary()
+ if err != nil {
+ panic(err)
+ }
+ return pp.Message{
+ Type: pp.Extended,
+ ExtendedID: MapMustGet(recipient.PeerExtensionIDs, utHolepunch.ExtensionName),
+ ExtendedPayload: extendedPayload,
+ }
+}
+
+func sendUtHolepunchMsg(
+ pc *PeerConn,
+ msgType utHolepunch.MsgType,
+ addrPort netip.AddrPort,
+ errCode utHolepunch.ErrCode,
+) {
+ holepunchMsg := utHolepunch.Msg{
+ MsgType: msgType,
+ AddrPort: addrPort,
+ ErrCode: errCode,
+ }
+ incHolepunchMessagesSent(holepunchMsg)
+ ppMsg := wrapUtHolepunchMsgForPeerConn(pc, holepunchMsg)
+ pc.write(ppMsg)
+}
+
+func incHolepunchMessages(msg utHolepunch.Msg, verb string) {
+ torrent.Add(
+ fmt.Sprintf(
+ "holepunch %v %v messages %v",
+ msg.MsgType,
+ addrPortProtocolStr(msg.AddrPort),
+ verb,
+ ),
+ 1,
+ )
+}
+
+func incHolepunchMessagesReceived(msg utHolepunch.Msg) {
+ incHolepunchMessages(msg, "received")
+}
+
+func incHolepunchMessagesSent(msg utHolepunch.Msg) {
+ incHolepunchMessages(msg, "sent")
+}
+
+func (t *Torrent) handleReceivedUtHolepunchMsg(msg utHolepunch.Msg, sender *PeerConn) error {
+ incHolepunchMessagesReceived(msg)
+ switch msg.MsgType {
+ case utHolepunch.Rendezvous:
+ t.logger.Printf("got holepunch rendezvous request for %v from %p", msg.AddrPort, sender)
+ sendMsg := sendUtHolepunchMsg
+ senderAddrPort, err := sender.remoteDialAddrPort()
+ if err != nil {
+ sender.logger.Levelf(
+ log.Warning,
+ "error getting ut_holepunch rendezvous sender's dial address: %v",
+ err,
+ )
+ // There's no better error code. The sender's address itself is invalid. I don't see
+ // this error message being appropriate anywhere else anyway.
+ sendMsg(sender, utHolepunch.Error, msg.AddrPort, utHolepunch.NoSuchPeer)
+ }
+ targets := t.peerConnsWithDialAddrPort(msg.AddrPort)
+ if len(targets) == 0 {
+ sendMsg(sender, utHolepunch.Error, msg.AddrPort, utHolepunch.NotConnected)
+ return nil
+ }
+ for _, pc := range targets {
+ if !pc.supportsExtension(utHolepunch.ExtensionName) {
+ sendMsg(sender, utHolepunch.Error, msg.AddrPort, utHolepunch.NoSupport)
+ continue
+ }
+ sendMsg(sender, utHolepunch.Connect, msg.AddrPort, 0)
+ sendMsg(pc, utHolepunch.Connect, senderAddrPort, 0)
+ }
+ return nil
+ case utHolepunch.Connect:
+ holepunchAddr := msg.AddrPort
+ t.logger.Printf("got holepunch connect request for %v from %p", holepunchAddr, sender)
+ if g.MapContains(t.cl.undialableWithoutHolepunch, holepunchAddr) {
+ setAdd(&t.cl.undialableWithoutHolepunchDialedAfterHolepunchConnect, holepunchAddr)
+ if g.MapContains(t.cl.accepted, holepunchAddr) {
+ setAdd(&t.cl.probablyOnlyConnectedDueToHolepunch, holepunchAddr)
+ }
+ }
+ opts := outgoingConnOpts{
+ peerInfo: PeerInfo{
+ Addr: msg.AddrPort,
+ Source: PeerSourceUtHolepunch,
+ PexPeerFlags: sender.pex.remoteLiveConns[msg.AddrPort].UnwrapOrZeroValue(),
+ },
+ t: t,
+ // Don't attempt to start our own rendezvous if we fail to connect.
+ skipHolepunchRendezvous: true,
+ receivedHolepunchConnect: true,
+ // Assume that the other end initiated the rendezvous, and will use our preferred
+ // encryption. So we will act normally.
+ HeaderObfuscationPolicy: t.cl.config.HeaderObfuscationPolicy,
+ }
+ initiateConn(opts, true)
+ return nil
+ case utHolepunch.Error:
+ torrent.Add("holepunch error messages received", 1)
+ t.logger.Levelf(log.Debug, "received ut_holepunch error message from %v: %v", sender, msg.ErrCode)
+ return nil
+ default:
+ return fmt.Errorf("unhandled msg type %v", msg.MsgType)
+ }
+}
+
+func addrPortProtocolStr(addrPort netip.AddrPort) string {
+ addr := addrPort.Addr()
+ switch {
+ case addr.Is4():
+ return "ipv4"
+ case addr.Is6():
+ return "ipv6"
+ default:
+ panic(addrPort)
+ }
+}
+
+func (t *Torrent) trySendHolepunchRendezvous(addrPort netip.AddrPort) error {
+ rzsSent := 0
+ for pc := range t.conns {
+ if !pc.supportsExtension(utHolepunch.ExtensionName) {
+ continue
+ }
+ if pc.supportsExtension(pp.ExtensionNamePex) {
+ if !g.MapContains(pc.pex.remoteLiveConns, addrPort) {
+ continue
+ }
+ }
+ t.logger.Levelf(log.Debug, "sent ut_holepunch rendezvous message to %v for %v", pc, addrPort)
+ sendUtHolepunchMsg(pc, utHolepunch.Rendezvous, addrPort, 0)
+ rzsSent++
+ }
+ if rzsSent == 0 {
+ return errors.New("no eligible relays")
+ }
+ return nil
+}
+
+func (t *Torrent) numHalfOpenAttempts() (num int) {
+ for _, attempts := range t.halfOpen {
+ num += len(attempts)
+ }
+ return
+}
+
+func (t *Torrent) getDialTimeoutUnlocked() time.Duration {
+ cl := t.cl
+ cl.rLock()
+ defer cl.rUnlock()
+ return t.dialTimeout()
+}