package p2p import ( "container/heap" "sort" "strconv" "time" "github.com/gogo/protobuf/proto" tmsync "github.com/tendermint/tendermint/internal/libs/sync" "github.com/tendermint/tendermint/libs/log" ) // pqEnvelope defines a wrapper around an Envelope with priority to be inserted // into a priority queue used for Envelope scheduling. type pqEnvelope struct { envelope Envelope priority uint size uint timestamp time.Time index int } // priorityQueue defines a type alias for a priority queue implementation. type priorityQueue []*pqEnvelope func (pq priorityQueue) get(i int) *pqEnvelope { return pq[i] } func (pq priorityQueue) Len() int { return len(pq) } func (pq priorityQueue) Less(i, j int) bool { // if both elements have the same priority, prioritize based on most recent if pq[i].priority == pq[j].priority { return pq[i].timestamp.After(pq[j].timestamp) } // otherwise, pick the pqEnvelope with the higher priority return pq[i].priority > pq[j].priority } func (pq priorityQueue) Swap(i, j int) { pq[i], pq[j] = pq[j], pq[i] pq[i].index = i pq[j].index = j } func (pq *priorityQueue) Push(x interface{}) { n := len(*pq) pqEnv := x.(*pqEnvelope) pqEnv.index = n *pq = append(*pq, pqEnv) } func (pq *priorityQueue) Pop() interface{} { old := *pq n := len(old) pqEnv := old[n-1] old[n-1] = nil pqEnv.index = -1 *pq = old[:n-1] return pqEnv } // Assert the priority queue scheduler implements the queue interface at // compile-time. var _ queue = (*pqScheduler)(nil) type pqScheduler struct { logger log.Logger metrics *Metrics size uint sizes map[uint]uint // cumulative priority sizes pq *priorityQueue chDescs []ChannelDescriptor capacity uint chPriorities map[ChannelID]uint enqueueCh chan Envelope dequeueCh chan Envelope closer *tmsync.Closer done *tmsync.Closer } func newPQScheduler( logger log.Logger, m *Metrics, chDescs []ChannelDescriptor, enqueueBuf, dequeueBuf, capacity uint, ) *pqScheduler { // copy each ChannelDescriptor and sort them by ascending channel priority chDescsCopy := make([]ChannelDescriptor, len(chDescs)) copy(chDescsCopy, chDescs) sort.Slice(chDescsCopy, func(i, j int) bool { return chDescsCopy[i].Priority < chDescsCopy[j].Priority }) var ( chPriorities = make(map[ChannelID]uint) sizes = make(map[uint]uint) ) for _, chDesc := range chDescsCopy { chID := ChannelID(chDesc.ID) chPriorities[chID] = uint(chDesc.Priority) sizes[uint(chDesc.Priority)] = 0 } pq := make(priorityQueue, 0) heap.Init(&pq) return &pqScheduler{ logger: logger.With("router", "scheduler"), metrics: m, chDescs: chDescsCopy, capacity: capacity, chPriorities: chPriorities, pq: &pq, sizes: sizes, enqueueCh: make(chan Envelope, enqueueBuf), dequeueCh: make(chan Envelope, dequeueBuf), closer: tmsync.NewCloser(), done: tmsync.NewCloser(), } } func (s *pqScheduler) enqueue() chan<- Envelope { return s.enqueueCh } func (s *pqScheduler) dequeue() <-chan Envelope { return s.dequeueCh } func (s *pqScheduler) close() { s.closer.Close() <-s.done.Done() } func (s *pqScheduler) closed() <-chan struct{} { return s.closer.Done() } // start starts non-blocking process that starts the priority queue scheduler. func (s *pqScheduler) start() { go s.process() } // process starts a block process where we listen for Envelopes to enqueue. If // there is sufficient capacity, it will be enqueued into the priority queue, // otherwise, we attempt to dequeue enough elements from the priority queue to // make room for the incoming Envelope by dropping lower priority elements. If // there isn't sufficient capacity at lower priorities for the incoming Envelope, // it is dropped. // // After we attempt to enqueue the incoming Envelope, if the priority queue is // non-empty, we pop the top Envelope and send it on the dequeueCh. func (s *pqScheduler) process() { defer s.done.Close() for { select { case e := <-s.enqueueCh: chIDStr := strconv.Itoa(int(e.channelID)) pqEnv := &pqEnvelope{ envelope: e, size: uint(proto.Size(e.Message)), priority: s.chPriorities[e.channelID], timestamp: time.Now().UTC(), } s.metrics.PeerPendingSendBytes.With("peer_id", string(pqEnv.envelope.To)).Add(float64(pqEnv.size)) // enqueue // Check if we have sufficient capacity to simply enqueue the incoming // Envelope. if s.size+pqEnv.size <= s.capacity { // enqueue the incoming Envelope s.push(pqEnv) } else { // There is not sufficient capacity to simply enqueue the incoming // Envelope. So we have to attempt to make room for it by dropping lower // priority Envelopes or drop the incoming Envelope otherwise. // The cumulative size of all enqueue envelopes at the incoming envelope's // priority or lower. total := s.sizes[pqEnv.priority] if total >= pqEnv.size { // There is room for the incoming Envelope, so we drop as many lower // priority Envelopes as we need to. var ( canEnqueue bool tmpSize = s.size i = s.pq.Len() - 1 ) // Drop lower priority Envelopes until sufficient capacity exists for // the incoming Envelope for i >= 0 && !canEnqueue { pqEnvTmp := s.pq.get(i) if pqEnvTmp.priority < pqEnv.priority { if tmpSize+pqEnv.size <= s.capacity { canEnqueue = true } else { pqEnvTmpChIDStr := strconv.Itoa(int(pqEnvTmp.envelope.channelID)) s.metrics.PeerQueueDroppedMsgs.With("ch_id", pqEnvTmpChIDStr).Add(1) s.logger.Debug( "dropped envelope", "ch_id", pqEnvTmpChIDStr, "priority", pqEnvTmp.priority, "msg_size", pqEnvTmp.size, "capacity", s.capacity, ) // dequeue/drop from the priority queue heap.Remove(s.pq, pqEnvTmp.index) // update the size tracker tmpSize -= pqEnvTmp.size // start from the end again i = s.pq.Len() - 1 } } else { i-- } } // enqueue the incoming Envelope s.push(pqEnv) } else { // There is not sufficient capacity to drop lower priority Envelopes, // so we drop the incoming Envelope. s.metrics.PeerQueueDroppedMsgs.With("ch_id", chIDStr).Add(1) s.logger.Debug( "dropped envelope", "ch_id", chIDStr, "priority", pqEnv.priority, "msg_size", pqEnv.size, "capacity", s.capacity, ) } } // dequeue for s.pq.Len() > 0 { pqEnv = heap.Pop(s.pq).(*pqEnvelope) s.size -= pqEnv.size // deduct the Envelope size from all the relevant cumulative sizes for i := 0; i < len(s.chDescs) && pqEnv.priority <= uint(s.chDescs[i].Priority); i++ { s.sizes[uint(s.chDescs[i].Priority)] -= pqEnv.size } s.metrics.PeerSendBytesTotal.With( "chID", chIDStr, "peer_id", string(pqEnv.envelope.To), "message_type", s.metrics.ValueToMetricLabel(pqEnv.envelope.Message)).Add(float64(pqEnv.size)) select { case s.dequeueCh <- pqEnv.envelope: case <-s.closer.Done(): return } } case <-s.closer.Done(): return } } } func (s *pqScheduler) push(pqEnv *pqEnvelope) { chIDStr := strconv.Itoa(int(pqEnv.envelope.channelID)) // enqueue the incoming Envelope heap.Push(s.pq, pqEnv) s.size += pqEnv.size s.metrics.PeerQueueMsgSize.With("ch_id", chIDStr).Add(float64(pqEnv.size)) // Update the cumulative sizes by adding the Envelope's size to every // priority less than or equal to it. for i := 0; i < len(s.chDescs) && pqEnv.priority <= uint(s.chDescs[i].Priority); i++ { s.sizes[uint(s.chDescs[i].Priority)] += pqEnv.size } }