FedP2P/t.go

285 lines
6.9 KiB
Go

package torrent
import (
"strconv"
"strings"
"github.com/anacrolix/chansync/events"
"github.com/anacrolix/missinggo/pubsub"
"github.com/anacrolix/sync"
"github.com/anacrolix/torrent/metainfo"
)
// The Torrent's infohash. This is fixed and cannot change. It uniquely identifies a torrent.
func (t *Torrent) InfoHash() metainfo.Hash {
return t.infoHash
}
// Returns a channel that is closed when the info (.Info()) for the torrent has become available.
func (t *Torrent) GotInfo() events.Done {
return t.gotMetainfoC
}
// Returns the metainfo info dictionary, or nil if it's not yet available.
func (t *Torrent) Info() (info *metainfo.Info) {
t.nameMu.RLock()
info = t.info
t.nameMu.RUnlock()
return
}
// Returns a Reader bound to the torrent's data. All read calls block until the data requested is
// actually available. Note that you probably want to ensure the Torrent Info is available first.
func (t *Torrent) NewReader() Reader {
return t.newReader(0, *t.length)
}
func (t *Torrent) newReader(offset, length int64) Reader {
r := reader{
mu: t.cl.locker(),
t: t,
offset: offset,
length: length,
}
r.readaheadFunc = r.defaultReadaheadFunc
t.addReader(&r)
return &r
}
type PieceStateRuns []PieceStateRun
func (me PieceStateRuns) String() (s string) {
if len(me) > 0 {
var sb strings.Builder
sb.WriteString(me[0].String())
for i := 1; i < len(me); i += 1 {
sb.WriteByte(' ')
sb.WriteString(me[i].String())
}
return sb.String()
}
return
}
// Returns the state of pieces of the torrent. They are grouped into runs of same state. The sum of
// the state run-lengths is the number of pieces in the torrent.
func (t *Torrent) PieceStateRuns() (runs PieceStateRuns) {
t.cl.rLock()
runs = t.pieceStateRuns()
t.cl.rUnlock()
return
}
func (t *Torrent) PieceState(piece pieceIndex) (ps PieceState) {
t.cl.rLock()
ps = t.pieceState(piece)
t.cl.rUnlock()
return
}
// The number of pieces in the torrent. This requires that the info has been
// obtained first.
func (t *Torrent) NumPieces() pieceIndex {
return t.numPieces()
}
// Get missing bytes count for specific piece.
func (t *Torrent) PieceBytesMissing(piece int) int64 {
t.cl.lock()
defer t.cl.unlock()
return int64(t.pieces[piece].bytesLeft())
}
// Drop the torrent from the client, and close it. It's always safe to do
// this. No data corruption can, or should occur to either the torrent's data,
// or connected peers.
func (t *Torrent) Drop() {
var wg sync.WaitGroup
defer wg.Wait()
t.cl.lock()
defer t.cl.unlock()
t.cl.dropTorrent(t.infoHash, &wg)
}
// Number of bytes of the entire torrent we have completed. This is the sum of
// completed pieces, and dirtied chunks of incomplete pieces. Do not use this
// for download rate, as it can go down when pieces are lost or fail checks.
// Sample Torrent.Stats.DataBytesRead for actual file data download rate.
func (t *Torrent) BytesCompleted() int64 {
t.cl.rLock()
defer t.cl.rUnlock()
return t.bytesCompleted()
}
// The subscription emits as (int) the index of pieces as their state changes.
// A state change is when the PieceState for a piece alters in value.
func (t *Torrent) SubscribePieceStateChanges() *pubsub.Subscription {
return t.pieceStateChanges.Subscribe()
}
// Returns true if the torrent is currently being seeded. This occurs when the
// client is willing to upload without wanting anything in return.
func (t *Torrent) Seeding() (ret bool) {
t.cl.lock()
ret = t.seeding()
t.cl.unlock()
return
}
// Clobbers the torrent display name if metainfo is unavailable.
// The display name is used as the torrent name while the metainfo is unavailable.
func (t *Torrent) SetDisplayName(dn string) {
t.nameMu.Lock()
if !t.haveInfo() {
t.displayName = dn
}
t.nameMu.Unlock()
}
// The current working name for the torrent. Either the name in the info dict,
// or a display name given such as by the dn value in a magnet link, or "".
func (t *Torrent) Name() string {
return t.name()
}
// The completed length of all the torrent data, in all its files. This is
// derived from the torrent info, when it is available.
func (t *Torrent) Length() int64 {
return *t.length
}
// Returns a run-time generated metainfo for the torrent that includes the
// info bytes and announce-list as currently known to the client.
func (t *Torrent) Metainfo() metainfo.MetaInfo {
t.cl.lock()
defer t.cl.unlock()
return t.newMetaInfo()
}
func (t *Torrent) addReader(r *reader) {
t.cl.lock()
defer t.cl.unlock()
if t.readers == nil {
t.readers = make(map[*reader]struct{})
}
t.readers[r] = struct{}{}
r.posChanged()
}
func (t *Torrent) deleteReader(r *reader) {
delete(t.readers, r)
t.readersChanged()
}
// Raise the priorities of pieces in the range [begin, end) to at least Normal
// priority. Piece indexes are not the same as bytes. Requires that the info
// has been obtained, see Torrent.Info and Torrent.GotInfo.
func (t *Torrent) DownloadPieces(begin, end pieceIndex) {
t.cl.lock()
t.downloadPiecesLocked(begin, end)
t.cl.unlock()
}
func (t *Torrent) downloadPiecesLocked(begin, end pieceIndex) {
for i := begin; i < end; i++ {
if t.pieces[i].priority.Raise(PiecePriorityNormal) {
t.updatePiecePriority(i)
}
}
}
func (t *Torrent) CancelPieces(begin, end pieceIndex) {
t.cl.lock()
t.cancelPiecesLocked(begin, end)
t.cl.unlock()
}
func (t *Torrent) cancelPiecesLocked(begin, end pieceIndex) {
for i := begin; i < end; i++ {
p := &t.pieces[i]
if p.priority == PiecePriorityNone {
continue
}
p.priority = PiecePriorityNone
t.updatePiecePriority(i)
}
}
func (t *Torrent) initFiles() {
var offset int64
t.files = new([]*File)
for _, fi := range t.info.UpvertedFiles() {
var path []string
if len(fi.PathUTF8) != 0 {
path = fi.PathUTF8
} else {
path = fi.Path
}
dp := t.info.Name
if len(fi.Path) != 0 {
dp = strings.Join(fi.Path, "/")
}
*t.files = append(*t.files, &File{
t,
strings.Join(append([]string{t.info.Name}, path...), "/"),
offset,
fi.Length,
fi,
dp,
PiecePriorityNone,
})
offset += fi.Length
}
}
// Returns handles to the files in the torrent. This requires that the Info is
// available first.
func (t *Torrent) Files() []*File {
return *t.files
}
func (t *Torrent) AddPeers(pp []PeerInfo) (n int) {
t.cl.lock()
n = t.addPeers(pp)
t.cl.unlock()
return
}
// Marks the entire torrent for download. Requires the info first, see
// GotInfo. Sets piece priorities for historical reasons.
func (t *Torrent) DownloadAll() {
t.DownloadPieces(0, t.numPieces())
}
func (t *Torrent) String() string {
s := t.name()
if s == "" {
return t.infoHash.HexString()
} else {
return strconv.Quote(s)
}
}
func (t *Torrent) AddTrackers(announceList [][]string) {
t.cl.lock()
defer t.cl.unlock()
t.addTrackers(announceList)
}
func (t *Torrent) Piece(i pieceIndex) *Piece {
return t.piece(i)
}
func (t *Torrent) PeerConns() []*PeerConn {
t.cl.rLock()
defer t.cl.rUnlock()
ret := make([]*PeerConn, 0, len(t.conns))
for c := range t.conns {
ret = append(ret, c)
}
return ret
}