package queue import ( "container/heap" "math/big" "sync" peer "github.com/jbenet/go-ipfs/p2p/peer" ks "github.com/jbenet/go-ipfs/routing/keyspace" u "github.com/jbenet/go-ipfs/util" ) // peerMetric tracks a peer and its distance to something else. type peerMetric struct { // the peer peer peer.ID // big.Int for XOR metric metric *big.Int } // peerMetricHeap implements a heap of peerDistances type peerMetricHeap []*peerMetric func (ph peerMetricHeap) Len() int { return len(ph) } func (ph peerMetricHeap) Less(i, j int) bool { return -1 == ph[i].metric.Cmp(ph[j].metric) } func (ph peerMetricHeap) Swap(i, j int) { ph[i], ph[j] = ph[j], ph[i] } func (ph *peerMetricHeap) Push(x interface{}) { item := x.(*peerMetric) *ph = append(*ph, item) } func (ph *peerMetricHeap) Pop() interface{} { old := *ph n := len(old) item := old[n-1] *ph = old[0 : n-1] return item } // distancePQ implements heap.Interface and PeerQueue type distancePQ struct { // from is the Key this PQ measures against from ks.Key // heap is a heap of peerDistance items heap peerMetricHeap sync.RWMutex } func (pq *distancePQ) Len() int { pq.Lock() defer pq.Unlock() return len(pq.heap) } func (pq *distancePQ) Enqueue(p peer.ID) { pq.Lock() defer pq.Unlock() distance := ks.XORKeySpace.Key([]byte(p)).Distance(pq.from) heap.Push(&pq.heap, &peerMetric{ peer: p, metric: distance, }) } func (pq *distancePQ) Dequeue() peer.ID { pq.Lock() defer pq.Unlock() if len(pq.heap) < 1 { panic("called Dequeue on an empty PeerQueue") // will panic internally anyway, but we can help debug here } o := heap.Pop(&pq.heap) p := o.(*peerMetric) return p.peer } // NewXORDistancePQ returns a PeerQueue which maintains its peers sorted // in terms of their distances to each other in an XORKeySpace (i.e. using // XOR as a metric of distance). func NewXORDistancePQ(fromKey u.Key) PeerQueue { return &distancePQ{ from: ks.XORKeySpace.Key([]byte(fromKey)), heap: peerMetricHeap{}, } }