package torrent import ( "math/rand" "sync" pp "github.com/anacrolix/torrent/peer_protocol" ) // Piece priority describes the importance of obtaining a particular piece. type piecePriority byte const ( PiecePriorityNone piecePriority = iota // Not wanted. PiecePriorityNormal // Wanted. PiecePriorityReadahead // May be required soon. PiecePriorityNext // Succeeds a piece where a read occurred. PiecePriorityNow // A read occurred in this piece. ) type piece struct { // The completed piece SHA1 hash, from the metainfo "pieces" field. Hash pieceSum // Chunks we don't have. The offset and length can be determined by the // request chunkSize in use. PendingChunkSpecs []bool Hashing bool QueuedForHash bool EverHashed bool Event sync.Cond Priority piecePriority pendingWrites sync.WaitGroup } func (p *piece) pendingChunk(cs chunkSpec, chunkSize pp.Integer) bool { if p.PendingChunkSpecs == nil { return false } return p.PendingChunkSpecs[chunkIndex(cs, chunkSize)] } func (p *piece) numPendingChunks() (ret int) { for _, pending := range p.PendingChunkSpecs { if pending { ret++ } } return } func (p *piece) unpendChunkIndex(i int) { if p.PendingChunkSpecs == nil { return } p.PendingChunkSpecs[i] = false } func chunkIndexSpec(index int, pieceLength, chunkSize pp.Integer) chunkSpec { ret := chunkSpec{pp.Integer(index) * chunkSize, chunkSize} if ret.Begin+ret.Length > pieceLength { ret.Length = pieceLength - ret.Begin } return ret } func (p *piece) shuffledPendingChunkSpecs(pieceLength, chunkSize pp.Integer) (css []chunkSpec) { if p.numPendingChunks() == 0 { return } css = make([]chunkSpec, 0, p.numPendingChunks()) for i, pending := range p.PendingChunkSpecs { if pending { css = append(css, chunkIndexSpec(i, pieceLength, chunkSize)) } } if len(css) <= 1 { return } for i := range css { j := rand.Intn(i + 1) css[i], css[j] = css[j], css[i] } return }