package torrent import ( "math" "sync" "time" "github.com/anacrolix/missinggo/v2/bitmap" "github.com/anacrolix/missinggo/v2/prioritybitmap" pp "github.com/anacrolix/torrent/peer_protocol" ) type requestStrategyPiece interface { numChunks() pp.Integer dirtyChunks() bitmap.Bitmap chunkIndexRequest(i pp.Integer) request } type requestStrategyTorrent interface { numConns() int numReaders() int numPieces() int readerPiecePriorities() (now, readahead bitmap.Bitmap) ignorePieces() bitmap.Bitmap pendingPieces() *prioritybitmap.PriorityBitmap } type requestStrategyConnection interface { torrent() requestStrategyTorrent peerPieces() bitmap.Bitmap pieceRequestOrder() *prioritybitmap.PriorityBitmap fastest() bool stats() *ConnStats totalExpectingTime() time.Duration peerMaxRequests() int chunksReceivedWhileExpecting() int64 } type requestStrategy interface { iterPendingPieces(requestStrategyConnection, func(pieceIndex) bool) bool iterUndirtiedChunks(requestStrategyPiece, func(chunkSpec) bool) bool nominalMaxRequests(requestStrategyConnection) int shouldRequestWithoutBias(requestStrategyConnection) bool piecePriority(requestStrategyConnection, pieceIndex, piecePriority, int) int hooks() requestStrategyHooks } type requestStrategyHooks struct { sentRequest func(request) deletedRequest func(request) } type requestStrategyCallbacks interface { requestTimedOut(request) } // Favour higher priority pieces with some fuzzing to reduce overlaps and wastage across // connections. type requestStrategyFuzzing struct { requestStrategyDefaults } // The fastest connection downloads strictly in order of priority, while all others adhere to their // piece inclinations. type requestStrategyFastest struct { requestStrategyDefaults } func newRequestStrategyMaker(rs requestStrategy) requestStrategyMaker { return func(requestStrategyCallbacks, sync.Locker) requestStrategy { return rs } } func RequestStrategyFastest() requestStrategyMaker { return newRequestStrategyMaker(requestStrategyFastest{}) } func RequestStrategyFuzzing() requestStrategyMaker { return newRequestStrategyMaker(requestStrategyFuzzing{}) } func (requestStrategyFastest) shouldRequestWithoutBias(cn requestStrategyConnection) bool { if cn.torrent().numReaders() == 0 { return false } if cn.torrent().numConns() == 1 { return true } if cn.fastest() { return true } return false } // Requests are strictly by piece priority, and not duplicated until duplicateRequestTimeout is // reached. type requestStrategyDuplicateRequestTimeout struct { requestStrategyDefaults // How long to avoid duplicating a pending request. duplicateRequestTimeout time.Duration callbacks requestStrategyCallbacks // The last time we requested a chunk. Deleting the request from any connection will clear this // value. lastRequested map[request]*time.Timer // The lock to take when running a request timeout handler. timeoutLocker sync.Locker } // Generates a request strategy instance for a given torrent. callbacks are probably specific to the torrent. type requestStrategyMaker func(callbacks requestStrategyCallbacks, clientLocker sync.Locker) requestStrategy func RequestStrategyDuplicateRequestTimeout(duplicateRequestTimeout time.Duration) requestStrategyMaker { return func(callbacks requestStrategyCallbacks, clientLocker sync.Locker) requestStrategy { return requestStrategyDuplicateRequestTimeout{ duplicateRequestTimeout: duplicateRequestTimeout, callbacks: callbacks, lastRequested: make(map[request]*time.Timer), timeoutLocker: clientLocker, } } } func (rs requestStrategyDuplicateRequestTimeout) hooks() requestStrategyHooks { return requestStrategyHooks{ deletedRequest: func(r request) { if t, ok := rs.lastRequested[r]; ok { t.Stop() delete(rs.lastRequested, r) } }, sentRequest: rs.onSentRequest, } } func (rs requestStrategyDuplicateRequestTimeout) iterUndirtiedChunks(p requestStrategyPiece, f func(chunkSpec) bool) bool { for i := pp.Integer(0); i < pp.Integer(p.numChunks()); i++ { if p.dirtyChunks().Get(bitmap.BitIndex(i)) { continue } r := p.chunkIndexRequest(i) if rs.wouldDuplicateRecent(r) { continue } if !f(r.chunkSpec) { return false } } return true } func (requestStrategyFuzzing) piecePriority(cn requestStrategyConnection, piece pieceIndex, tpp piecePriority, prio int) int { switch tpp { case PiecePriorityNormal: case PiecePriorityReadahead: prio -= int(cn.torrent().numPieces()) case PiecePriorityNext, PiecePriorityNow: prio -= 2 * int(cn.torrent().numPieces()) default: panic(tpp) } prio += int(piece / 3) return prio } func (requestStrategyDuplicateRequestTimeout) iterPendingPieces(cn requestStrategyConnection, f func(pieceIndex) bool) bool { return iterUnbiasedPieceRequestOrder(cn, f) } func defaultIterPendingPieces(rs requestStrategy, cn requestStrategyConnection, f func(pieceIndex) bool) bool { if rs.shouldRequestWithoutBias(cn) { return iterUnbiasedPieceRequestOrder(cn, f) } else { return cn.pieceRequestOrder().IterTyped(func(i int) bool { return f(pieceIndex(i)) }) } } func (rs requestStrategyFuzzing) iterPendingPieces(cn requestStrategyConnection, cb func(pieceIndex) bool) bool { return defaultIterPendingPieces(rs, cn, cb) } func (rs requestStrategyFastest) iterPendingPieces(cn requestStrategyConnection, cb func(pieceIndex) bool) bool { return defaultIterPendingPieces(rs, cn, cb) } func (rs requestStrategyDuplicateRequestTimeout) onSentRequest(r request) { rs.lastRequested[r] = time.AfterFunc(rs.duplicateRequestTimeout, func() { rs.timeoutLocker.Lock() delete(rs.lastRequested, r) rs.timeoutLocker.Unlock() rs.callbacks.requestTimedOut(r) }) } // The actual value to use as the maximum outbound requests. func (rs requestStrategyDuplicateRequestTimeout) nominalMaxRequests(cn requestStrategyConnection) (ret int) { expectingTime := int64(cn.totalExpectingTime()) if expectingTime == 0 { expectingTime = math.MaxInt64 } else { expectingTime *= 2 } return int(clamp( 1, int64(cn.peerMaxRequests()), max( // It makes sense to always pipeline at least one connection, since latency must be // non-zero. 2, // Request only as many as we expect to receive in the duplicateRequestTimeout // window. We are trying to avoid having to duplicate requests. cn.chunksReceivedWhileExpecting()*int64(rs.duplicateRequestTimeout)/expectingTime, ), )) } func (rs requestStrategyDuplicateRequestTimeout) wouldDuplicateRecent(r request) bool { // This piece has been requested on another connection, and the duplicate request timer is still // running. _, ok := rs.lastRequested[r] return ok }