eth/handler, broadcast: optimize tx broadcast mechanism (#22176)
This PR optimizes the broadcast loop. Instead of iterating twice through a given set of transactions to weed out which peers have and which do not have a tx, to send/announce transactions, we do it only once.
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@ -456,44 +456,51 @@ func (h *handler) BroadcastBlock(block *types.Block, propagate bool) {
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}
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}
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// BroadcastTransactions will propagate a batch of transactions to all peers which are not known to
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// BroadcastTransactions will propagate a batch of transactions
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// - To a square root of all peers
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// - And, separately, as announcements to all peers which are not known to
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// already have the given transaction.
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func (h *handler) BroadcastTransactions(txs types.Transactions, propagate bool) {
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func (h *handler) BroadcastTransactions(txs types.Transactions) {
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var (
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txset = make(map[*ethPeer][]common.Hash)
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annos = make(map[*ethPeer][]common.Hash)
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annoCount int // Count of announcements made
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annoPeers int
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directCount int // Count of the txs sent directly to peers
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directPeers int // Count of the peers that were sent transactions directly
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txset = make(map[*ethPeer][]common.Hash) // Set peer->hash to transfer directly
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annos = make(map[*ethPeer][]common.Hash) // Set peer->hash to announce
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)
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// Broadcast transactions to a batch of peers not knowing about it
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if propagate {
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for _, tx := range txs {
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peers := h.peers.peersWithoutTransaction(tx.Hash())
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// Send the block to a subset of our peers
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transfer := peers[:int(math.Sqrt(float64(len(peers))))]
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for _, peer := range transfer {
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txset[peer] = append(txset[peer], tx.Hash())
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}
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log.Trace("Broadcast transaction", "hash", tx.Hash(), "recipients", len(transfer))
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}
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for peer, hashes := range txset {
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peer.AsyncSendTransactions(hashes)
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}
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return
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}
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// Otherwise only broadcast the announcement to peers
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for _, tx := range txs {
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peers := h.peers.peersWithoutTransaction(tx.Hash())
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for _, peer := range peers {
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// Send the tx unconditionally to a subset of our peers
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numDirect := int(math.Sqrt(float64(len(peers))))
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for _, peer := range peers[:numDirect] {
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txset[peer] = append(txset[peer], tx.Hash())
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}
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// For the remaining peers, send announcement only
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for _, peer := range peers[numDirect:] {
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annos[peer] = append(annos[peer], tx.Hash())
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}
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}
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for peer, hashes := range txset {
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directPeers++
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directCount += len(hashes)
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peer.AsyncSendTransactions(hashes)
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}
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for peer, hashes := range annos {
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annoPeers++
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annoCount += len(hashes)
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if peer.Version() >= eth.ETH65 {
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peer.AsyncSendPooledTransactionHashes(hashes)
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} else {
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peer.AsyncSendTransactions(hashes)
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}
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}
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log.Debug("Transaction broadcast", "txs", len(txs),
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"announce packs", annoPeers, "announced hashes", annoCount,
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"tx packs", directPeers, "broadcast txs", directCount)
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}
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// minedBroadcastLoop sends mined blocks to connected peers.
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@ -511,13 +518,10 @@ func (h *handler) minedBroadcastLoop() {
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// txBroadcastLoop announces new transactions to connected peers.
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func (h *handler) txBroadcastLoop() {
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defer h.wg.Done()
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for {
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select {
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case event := <-h.txsCh:
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h.BroadcastTransactions(event.Txs, true) // First propagate transactions to peers
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h.BroadcastTransactions(event.Txs, false) // Only then announce to the rest
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h.BroadcastTransactions(event.Txs)
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case <-h.txsSub.Err():
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return
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}
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@ -142,18 +142,18 @@ func (p *Peer) announceTransactions() {
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if done == nil && len(queue) > 0 {
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// Pile transaction hashes until we reach our allowed network limit
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var (
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hashes []common.Hash
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count int
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pending []common.Hash
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size common.StorageSize
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)
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for i := 0; i < len(queue) && size < maxTxPacketSize; i++ {
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if p.txpool.Get(queue[i]) != nil {
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pending = append(pending, queue[i])
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for count = 0; count < len(queue) && size < maxTxPacketSize; count++ {
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if p.txpool.Get(queue[count]) != nil {
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pending = append(pending, queue[count])
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size += common.HashLength
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}
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hashes = append(hashes, queue[i])
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}
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queue = queue[:copy(queue, queue[len(hashes):])]
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// Shift and trim queue
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queue = queue[:copy(queue, queue[count:])]
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// If there's anything available to transfer, fire up an async writer
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if len(pending) > 0 {
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