FedP2P/client.go

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/*
Package torrent implements a torrent client.
Simple example:
c := &Client{}
c.Start()
defer c.Stop()
if err := c.AddTorrent(externalMetaInfoPackageSux); err != nil {
return fmt.Errors("error adding torrent: %s", err)
}
c.WaitAll()
log.Print("erhmahgerd, torrent downloaded")
*/
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package torrent
import (
"bufio"
"container/list"
"crypto/rand"
"encoding"
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"errors"
"fmt"
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"io"
"log"
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mathRand "math/rand"
"net"
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"os"
"sync"
"syscall"
"time"
metainfo "github.com/nsf/libtorgo/torrent"
"bitbucket.org/anacrolix/go.torrent/peer_protocol"
"bitbucket.org/anacrolix/go.torrent/tracker"
_ "bitbucket.org/anacrolix/go.torrent/tracker/udp"
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)
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// Currently doesn't really queue, but should in the future.
func (cl *Client) queuePieceCheck(t *torrent, pieceIndex peer_protocol.Integer) {
piece := t.Pieces[pieceIndex]
if piece.QueuedForHash {
return
}
piece.QueuedForHash = true
go cl.verifyPiece(t, pieceIndex)
}
// Queues the torrent data for the given region for download. The beginning of
// the region is given highest priority to allow a subsequent read at the same
// offset to return data ASAP.
func (me *Client) PrioritizeDataRegion(ih InfoHash, off, len_ int64) error {
me.mu.Lock()
defer me.mu.Unlock()
t := me.torrent(ih)
if t == nil {
return errors.New("no such active torrent")
}
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newPriorities := make([]request, 0, (len_+chunkSize-1)/chunkSize)
for len_ > 0 {
req, ok := t.offsetRequest(off)
if !ok {
return errors.New("bad offset")
}
reqOff := t.requestOffset(req)
// Gain the alignment adjustment.
len_ += off - reqOff
// Lose the length of this block.
len_ -= int64(req.Length)
off = reqOff + int64(req.Length)
if !t.wantPiece(int(req.Index)) {
continue
}
newPriorities = append(newPriorities, req)
}
if len(newPriorities) == 0 {
return nil
}
t.Priorities.PushFront(newPriorities[0])
for _, req := range newPriorities[1:] {
t.Priorities.PushBack(req)
}
for _, cn := range t.Conns {
me.replenishConnRequests(t, cn)
}
return nil
}
type dataSpec struct {
InfoHash
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request
}
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type Client struct {
DataDir string
HalfOpenLimit int
PeerId [20]byte
Listener net.Listener
DisableTrackers bool
DownloadStrategy DownloadStrategy
mu sync.Mutex
event sync.Cond
quit chan struct{}
halfOpen int
torrents map[InfoHash]*torrent
dataWaiter chan struct{}
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}
// Read torrent data at the given offset. Returns ErrDataNotReady if the data
// isn't available.
func (cl *Client) TorrentReadAt(ih InfoHash, off int64, p []byte) (n int, err error) {
cl.mu.Lock()
defer cl.mu.Unlock()
t := cl.torrent(ih)
if t == nil {
err = errors.New("unknown torrent")
return
}
index := peer_protocol.Integer(off / t.MetaInfo.PieceLength)
// Reading outside the bounds of a file is an error.
if index < 0 {
err = os.ErrInvalid
return
}
if int(index) >= len(t.Pieces) {
err = io.EOF
return
}
piece := t.Pieces[index]
if !piece.EverHashed {
cl.queuePieceCheck(t, index)
}
if piece.Hashing {
err = ErrDataNotReady
return
}
pieceOff := peer_protocol.Integer(off % int64(t.PieceLength(0)))
high := int(t.PieceLength(index) - pieceOff)
if high < len(p) {
p = p[:high]
}
for cs, _ := range piece.PendingChunkSpecs {
chunkOff := int64(pieceOff) - int64(cs.Begin)
if chunkOff >= int64(t.PieceLength(index)) {
panic(chunkOff)
}
if 0 <= chunkOff && chunkOff < int64(cs.Length) {
// read begins in a pending chunk
err = ErrDataNotReady
return
}
// pending chunk caps available data
if chunkOff < 0 && int64(len(p)) > -chunkOff {
p = p[:-chunkOff]
}
}
return t.Data.ReadAt(p, off)
}
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// Starts the client. Defaults are applied. The client will begin accepting
// connections and tracking.
func (c *Client) Start() {
c.event.L = &c.mu
c.torrents = make(map[InfoHash]*torrent)
if c.HalfOpenLimit == 0 {
c.HalfOpenLimit = 10
}
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o := copy(c.PeerId[:], BEP20)
_, err := rand.Read(c.PeerId[o:])
if err != nil {
panic("error generating peer id")
}
c.quit = make(chan struct{})
if c.DownloadStrategy == nil {
c.DownloadStrategy = DefaultDownloadStrategy{}
}
if c.Listener != nil {
go c.acceptConnections()
}
}
func (cl *Client) stopped() bool {
select {
case <-cl.quit:
return true
default:
return false
}
}
// Stops the client. All connections to peers are closed and all activity will
// come to a halt.
func (me *Client) Stop() {
me.mu.Lock()
close(me.quit)
me.event.Broadcast()
for _, t := range me.torrents {
for _, c := range t.Conns {
c.Close()
}
}
me.mu.Unlock()
}
func (cl *Client) acceptConnections() {
for {
conn, err := cl.Listener.Accept()
select {
case <-cl.quit:
return
default:
}
if err != nil {
log.Print(err)
return
}
go func() {
if err := cl.runConnection(conn, nil); err != nil {
log.Print(err)
}
}()
}
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}
func (me *Client) torrent(ih InfoHash) *torrent {
for _, t := range me.torrents {
if t.InfoHash == ih {
return t
}
}
return nil
}
func (me *Client) initiateConn(peer Peer, torrent *torrent) {
if peer.Id == me.PeerId {
return
}
me.halfOpen++
go func() {
addr := &net.TCPAddr{
IP: peer.IP,
Port: peer.Port,
}
conn, err := net.DialTimeout(addr.Network(), addr.String(), dialTimeout)
go func() {
me.mu.Lock()
defer me.mu.Unlock()
if me.halfOpen == 0 {
panic("assert")
}
me.halfOpen--
me.openNewConns()
}()
if netOpErr, ok := err.(*net.OpError); ok {
if netOpErr.Timeout() {
return
}
switch netOpErr.Err {
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case syscall.ECONNREFUSED, syscall.EHOSTUNREACH:
return
}
}
if err != nil {
log.Printf("error connecting to peer: %s %#v", err, err)
return
}
log.Printf("connected to %s", conn.RemoteAddr())
err = me.runConnection(conn, torrent)
if err != nil {
log.Print(err)
}
}()
}
func (me *Client) runConnection(sock net.Conn, torrent *torrent) (err error) {
conn := &connection{
Socket: sock,
Choked: true,
PeerChoked: true,
write: make(chan []byte),
post: make(chan encoding.BinaryMarshaler),
}
defer func() {
// There's a lock and deferred unlock later in this function. The
// client will not be locked when this deferred is invoked.
me.mu.Lock()
defer me.mu.Unlock()
conn.Close()
}()
go conn.writer()
go conn.writeOptimizer()
conn.post <- peer_protocol.Bytes(peer_protocol.Protocol)
conn.post <- peer_protocol.Bytes("\x00\x00\x00\x00\x00\x00\x00\x00")
if torrent != nil {
conn.post <- peer_protocol.Bytes(torrent.InfoHash[:])
conn.post <- peer_protocol.Bytes(me.PeerId[:])
}
var b [28]byte
_, err = io.ReadFull(conn.Socket, b[:])
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if err == io.EOF {
return nil
}
if err != nil {
err = fmt.Errorf("when reading protocol and extensions: %s", err)
return
}
if string(b[:20]) != peer_protocol.Protocol {
err = fmt.Errorf("wrong protocol: %#v", string(b[:20]))
return
}
if 8 != copy(conn.PeerExtensions[:], b[20:]) {
panic("wtf")
}
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// log.Printf("peer extensions: %#v", string(conn.PeerExtensions[:]))
var infoHash [20]byte
_, err = io.ReadFull(conn.Socket, infoHash[:])
if err != nil {
return fmt.Errorf("reading peer info hash: %s", err)
}
_, err = io.ReadFull(conn.Socket, conn.PeerId[:])
if err != nil {
return fmt.Errorf("reading peer id: %s", err)
}
if torrent == nil {
torrent = me.torrent(infoHash)
if torrent == nil {
return
}
conn.post <- peer_protocol.Bytes(torrent.InfoHash[:])
conn.post <- peer_protocol.Bytes(me.PeerId[:])
}
me.mu.Lock()
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defer me.mu.Unlock()
if !me.addConnection(torrent, conn) {
return
}
if torrent.haveAnyPieces() {
conn.Post(peer_protocol.Message{
Type: peer_protocol.Bitfield,
Bitfield: torrent.bitfield(),
})
}
err = me.connectionLoop(torrent, conn)
if err != nil {
err = fmt.Errorf("during Connection loop: %s", err)
}
me.dropConnection(torrent, conn)
return
}
func (me *Client) peerGotPiece(torrent *torrent, conn *connection, piece int) {
if conn.PeerPieces == nil {
conn.PeerPieces = make([]bool, len(torrent.Pieces))
}
conn.PeerPieces[piece] = true
if torrent.wantPiece(piece) {
me.replenishConnRequests(torrent, conn)
}
}
func (me *Client) peerUnchoked(torrent *torrent, conn *connection) {
me.replenishConnRequests(torrent, conn)
}
func (me *Client) connectionLoop(torrent *torrent, conn *connection) error {
decoder := peer_protocol.Decoder{
R: bufio.NewReader(conn.Socket),
MaxLength: 256 * 1024,
}
for {
me.mu.Unlock()
// TODO: Can this be allocated on the stack?
msg := new(peer_protocol.Message)
err := decoder.Decode(msg)
me.mu.Lock()
if err != nil {
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if me.stopped() || err == io.EOF {
return nil
}
return err
}
if msg.Keepalive {
continue
}
switch msg.Type {
case peer_protocol.Choke:
conn.PeerChoked = true
conn.Requests = nil
case peer_protocol.Unchoke:
conn.PeerChoked = false
me.peerUnchoked(torrent, conn)
case peer_protocol.Interested:
conn.PeerInterested = true
// TODO: This should be done from a dedicated unchoking routine.
conn.Unchoke()
case peer_protocol.NotInterested:
conn.PeerInterested = false
case peer_protocol.Have:
me.peerGotPiece(torrent, conn, int(msg.Index))
case peer_protocol.Request:
if conn.PeerRequests == nil {
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conn.PeerRequests = make(map[request]struct{}, maxRequests)
}
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request := newRequest(msg.Index, msg.Begin, msg.Length)
conn.PeerRequests[request] = struct{}{}
// TODO: Requests should be satisfied from a dedicated upload routine.
p := make([]byte, msg.Length)
n, err := torrent.Data.ReadAt(p, int64(torrent.PieceLength(0))*int64(msg.Index)+int64(msg.Begin))
if err != nil {
return fmt.Errorf("reading torrent data to serve request %s: %s", request, err)
}
if n != int(msg.Length) {
return fmt.Errorf("bad request: %s", msg)
}
conn.Post(peer_protocol.Message{
Type: peer_protocol.Piece,
Index: msg.Index,
Begin: msg.Begin,
Piece: p,
})
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case peer_protocol.Cancel:
req := newRequest(msg.Index, msg.Begin, msg.Length)
if !conn.PeerCancel(req) {
log.Printf("received unexpected cancel: %v", req)
}
case peer_protocol.Bitfield:
if len(msg.Bitfield) < len(torrent.Pieces) {
err = errors.New("received invalid bitfield")
break
}
if conn.PeerPieces != nil {
err = errors.New("received unexpected bitfield")
break
}
conn.PeerPieces = msg.Bitfield[:len(torrent.Pieces)]
for index, has := range conn.PeerPieces {
if has {
me.peerGotPiece(torrent, conn, index)
}
}
case peer_protocol.Piece:
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request_ := request{msg.Index, chunkSpec{msg.Begin, peer_protocol.Integer(len(msg.Piece))}}
if _, ok := conn.Requests[request_]; !ok {
err = fmt.Errorf("unexpected piece: %s", request_)
break
}
delete(conn.Requests, request_)
err = me.downloadedChunk(torrent, msg)
default:
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err = fmt.Errorf("received unknown message type: %#v", msg.Type)
}
if err != nil {
return err
}
me.replenishConnRequests(torrent, conn)
}
}
func (me *Client) dropConnection(torrent *torrent, conn *connection) {
conn.Socket.Close()
for i0, c := range torrent.Conns {
if c != conn {
continue
}
i1 := len(torrent.Conns) - 1
if i0 != i1 {
torrent.Conns[i0] = torrent.Conns[i1]
}
torrent.Conns = torrent.Conns[:i1]
return
}
panic("no such Connection")
}
func (me *Client) addConnection(t *torrent, c *connection) bool {
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for _, c0 := range t.Conns {
if c.PeerId == c0.PeerId {
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// Already connected to a client with that ID.
return false
}
}
t.Conns = append(t.Conns, c)
return true
}
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func (me *Client) openNewConns() {
for _, t := range me.torrents {
for len(t.Peers) != 0 {
if me.halfOpen >= me.HalfOpenLimit {
return
}
p := t.Peers[0]
t.Peers = t.Peers[1:]
me.initiateConn(p, t)
}
}
}
// Adds peers to the swarm for the torrent corresponding to infoHash.
func (me *Client) AddPeers(infoHash InfoHash, peers []Peer) error {
me.mu.Lock()
t := me.torrent(infoHash)
if t == nil {
return errors.New("no such torrent")
}
t.Peers = append(t.Peers, peers...)
me.openNewConns()
me.mu.Unlock()
return nil
}
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// Prepare a Torrent without any attachment to a Client. That means we can
// initialize fields all fields that don't require the Client without locking
// it.
func newTorrent(metaInfo *metainfo.MetaInfo, dataDir string) (t *torrent, err error) {
t = &torrent{
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InfoHash: BytesInfoHash(metaInfo.InfoHash),
MetaInfo: metaInfo,
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}
t.Data, err = mmapTorrentData(metaInfo, dataDir)
if err != nil {
return
}
for offset := 0; offset < len(metaInfo.Pieces); offset += pieceHash.Size() {
hash := metaInfo.Pieces[offset : offset+pieceHash.Size()]
if len(hash) != pieceHash.Size() {
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err = errors.New("bad piece hash in metainfo")
return
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}
piece := &piece{}
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copyHashSum(piece.Hash[:], hash)
t.Pieces = append(t.Pieces, piece)
t.pendAllChunkSpecs(peer_protocol.Integer(len(t.Pieces) - 1))
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}
t.Trackers = make([][]tracker.Client, len(metaInfo.AnnounceList))
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for tierIndex := range metaInfo.AnnounceList {
tier := t.Trackers[tierIndex]
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for _, url := range metaInfo.AnnounceList[tierIndex] {
tr, err := tracker.New(url)
if err != nil {
log.Print(err)
continue
}
tier = append(tier, tr)
}
// The trackers within each tier must be shuffled before use.
// http://stackoverflow.com/a/12267471/149482
// http://www.bittorrent.org/beps/bep_0012.html#order-of-processing
for i := range tier {
j := mathRand.Intn(i + 1)
tier[i], tier[j] = tier[j], tier[i]
}
t.Trackers[tierIndex] = tier
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}
return
}
// Adds the torrent to the client.
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func (me *Client) AddTorrent(metaInfo *metainfo.MetaInfo) error {
torrent, err := newTorrent(metaInfo, me.DataDir)
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if err != nil {
return err
}
me.mu.Lock()
defer me.mu.Unlock()
if _, ok := me.torrents[torrent.InfoHash]; ok {
return torrent.Close()
}
me.torrents[torrent.InfoHash] = torrent
if !me.DisableTrackers {
go me.announceTorrent(torrent)
}
torrent.Priorities = list.New()
// Queue all pieces for hashing. This is done sequentially to avoid
// spamming goroutines.
for _, p := range torrent.Pieces {
p.QueuedForHash = true
}
go func() {
for i := range torrent.Pieces {
me.verifyPiece(torrent, peer_protocol.Integer(i))
}
}()
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return nil
}
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func (cl *Client) listenerAnnouncePort() (port int16) {
l := cl.Listener
if l == nil {
return
}
addr := l.Addr()
switch data := addr.(type) {
case *net.TCPAddr:
return int16(data.Port)
case *net.UDPAddr:
return int16(data.Port)
default:
log.Printf("unknown listener addr type: %T", addr)
}
return
}
func (cl *Client) announceTorrent(t *torrent) {
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req := tracker.AnnounceRequest{
Event: tracker.Started,
NumWant: -1,
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Port: cl.listenerAnnouncePort(),
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}
req.PeerId = cl.PeerId
req.InfoHash = t.InfoHash
newAnnounce:
for {
for _, tier := range t.Trackers {
for trIndex, tr := range tier {
if err := tr.Connect(); err != nil {
log.Print(err)
continue
}
resp, err := tr.Announce(&req)
if err != nil {
log.Print(err)
continue
}
var peers []Peer
for _, peer := range resp.Peers {
peers = append(peers, Peer{
IP: peer.IP,
Port: peer.Port,
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})
}
if err := cl.AddPeers(t.InfoHash, peers); err != nil {
log.Print(err)
return
}
log.Printf("%s: %d new peers from %s", t, len(peers), tr)
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tier[0], tier[trIndex] = tier[trIndex], tier[0]
time.Sleep(time.Second * time.Duration(resp.Interval))
continue newAnnounce
}
}
time.Sleep(time.Second)
}
}
func (cl *Client) allTorrentsCompleted() bool {
for _, t := range cl.torrents {
if !t.haveAllPieces() {
return false
}
}
return true
}
// Returns true when all torrents are completely downloaded and false if the
// client is stopped.
func (me *Client) WaitAll() bool {
me.mu.Lock()
defer me.mu.Unlock()
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for !me.allTorrentsCompleted() {
if me.stopped() {
return false
}
me.event.Wait()
}
return true
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}
type DownloadStrategy interface {
FillRequests(t *torrent, c *connection)
}
type DefaultDownloadStrategy struct{}
func (DefaultDownloadStrategy) FillRequests(torrent *torrent, conn *connection) {
requestHeatMap := torrent.requestHeat()
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addRequest := func(req request) (again bool) {
piece := torrent.Pieces[req.Index]
if piece.Hashing {
// We can't be sure we want this.
return true
}
if piece.Complete() {
// We already have this.
return true
}
if requestHeatMap[req] > 0 {
// We've already requested this.
return true
}
return conn.Request(req)
}
// First request prioritized chunks.
for e := torrent.Priorities.Front(); e != nil; e = e.Next() {
if !addRequest(e.Value.(request)) {
return
}
}
// Then finish off incomplete pieces in order of bytes remaining.
for _, index := range torrent.piecesByPendingBytes() {
for chunkSpec := range torrent.Pieces[index].PendingChunkSpecs {
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if !addRequest(request{index, chunkSpec}) {
return
}
}
}
}
type ResponsiveDownloadStrategy struct{}
func (ResponsiveDownloadStrategy) FillRequests(t *torrent, c *connection) {
for e := t.Priorities.Front(); e != nil; e = e.Next() {
if !c.Request(e.Value.(request)) {
break
}
}
}
func (me *Client) replenishConnRequests(t *torrent, c *connection) {
me.DownloadStrategy.FillRequests(t, c)
if len(c.Requests) == 0 {
c.SetInterested(false)
}
}
func (me *Client) downloadedChunk(t *torrent, c *connection, msg *peer_protocol.Message) error {
req := newRequest(msg.Index, msg.Begin, peer_protocol.Integer(len(msg.Piece)))
// Request has been satisfied.
delete(c.Requests, req)
defer me.replenishConnRequests(t, c)
// Do we actually want this chunk?
if _, ok := t.Pieces[req.Index].PendingChunkSpecs[req.chunkSpec]; !ok {
return nil
}
// Write the chunk out.
err := t.WriteChunk(int(msg.Index), int64(msg.Begin), msg.Piece)
if err != nil {
return err
}
me.dataReady(dataSpec{t.InfoHash, req})
// Cancel pending requests for this chunk.
for _, c := range t.Conns {
if c.Cancel(req) {
me.replenishConnRequests(t, c)
}
}
// Record that we have the chunk.
delete(t.Pieces[req.Index].PendingChunkSpecs, req.chunkSpec)
if len(t.Pieces[req.Index].PendingChunkSpecs) == 0 {
me.queuePieceCheck(t, req.Index)
}
// Unprioritize the chunk.
var next *list.Element
for e := t.Priorities.Front(); e != nil; e = next {
next = e.Next()
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if e.Value.(request) == req {
t.Priorities.Remove(e)
}
}
return nil
}
func (cl *Client) dataReady(ds dataSpec) {
if cl.dataWaiter != nil {
close(cl.dataWaiter)
}
cl.dataWaiter = nil
}
// Returns a channel that is closed when new data has become available in the
// client.
func (me *Client) DataWaiter() <-chan struct{} {
me.mu.Lock()
defer me.mu.Unlock()
if me.dataWaiter == nil {
me.dataWaiter = make(chan struct{})
}
return me.dataWaiter
}
func (me *Client) pieceHashed(t *torrent, piece peer_protocol.Integer, correct bool) {
p := t.Pieces[piece]
p.EverHashed = true
if correct {
p.PendingChunkSpecs = nil
log.Printf("%s: got piece %d, (%d/%d)", t, piece, t.NumPiecesCompleted(), t.NumPieces())
var next *list.Element
for e := t.Priorities.Front(); e != nil; e = next {
next = e.Next()
if e.Value.(request).Index == piece {
t.Priorities.Remove(e)
}
}
me.dataReady(dataSpec{
t.InfoHash,
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request{
peer_protocol.Integer(piece),
chunkSpec{0, peer_protocol.Integer(t.PieceLength(piece))},
},
})
} else {
if len(p.PendingChunkSpecs) == 0 {
t.pendAllChunkSpecs(piece)
}
}
for _, conn := range t.Conns {
if correct {
conn.Post(peer_protocol.Message{
Type: peer_protocol.Have,
Index: peer_protocol.Integer(piece),
})
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// TODO: Cancel requests for this piece.
} else {
if conn.PeerHasPiece(piece) {
me.replenishConnRequests(t, conn)
}
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}
}
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me.event.Broadcast()
}
func (cl *Client) verifyPiece(t *torrent, index peer_protocol.Integer) {
cl.mu.Lock()
p := t.Pieces[index]
for p.Hashing {
cl.event.Wait()
}
p.Hashing = true
p.QueuedForHash = false
cl.mu.Unlock()
sum := t.HashPiece(index)
cl.mu.Lock()
p.Hashing = false
cl.pieceHashed(t, index, sum == p.Hash)
cl.mu.Unlock()
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}
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func (me *Client) Torrents() (ret []*torrent) {
me.mu.Lock()
for _, t := range me.torrents {
ret = append(ret, t)
}
me.mu.Unlock()
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return
}