package main import ( "context" "crypto/rand" "errors" "fmt" "math" "time" rpchttp "github.com/tendermint/tendermint/rpc/client/http" e2e "github.com/tendermint/tendermint/test/e2e/pkg" "github.com/tendermint/tendermint/types" ) // Load generates transactions against the network until the given context is // canceled. A multiplier of great than one can be supplied if load needs to // be generated beyond a minimum amount. func Load(ctx context.Context, testnet *e2e.Testnet, multiplier int) error { // Since transactions are executed across all nodes in the network, we need // to reduce transaction load for larger networks to avoid using too much // CPU. This gives high-throughput small networks and low-throughput large ones. // This also limits the number of TCP connections, since each worker has // a connection to all nodes. concurrency := 64 / len(testnet.Nodes) if concurrency == 0 { concurrency = 1 } initialTimeout := 1 * time.Minute stallTimeout := 30 * time.Second chTx := make(chan types.Tx) chSuccess := make(chan types.Tx) ctx, cancel := context.WithCancel(ctx) defer cancel() // Spawn job generator and processors. logger.Info(fmt.Sprintf("Starting transaction load (%v workers)...", concurrency)) started := time.Now() go loadGenerate(ctx, chTx) for w := 0; w < concurrency*multiplier; w++ { go loadProcess(ctx, testnet, chTx, chSuccess) } // Monitor successful transactions, and abort on stalls. success := 0 timeout := initialTimeout for { select { case <-chSuccess: success++ timeout = stallTimeout case <-time.After(timeout): return fmt.Errorf("unable to submit transactions for %v", timeout) case <-ctx.Done(): if success == 0 { return errors.New("failed to submit any transactions") } logger.Info(fmt.Sprintf("Ending transaction load after %v txs (%.1f tx/s)...", success, float64(success)/time.Since(started).Seconds())) return nil } } } // loadGenerate generates jobs until the context is canceled func loadGenerate(ctx context.Context, chTx chan<- types.Tx) { for i := 0; i < math.MaxInt64; i++ { // We keep generating the same 1000 keys over and over, with different values. // This gives a reasonable load without putting too much data in the app. id := i % 1000 bz := make([]byte, 2048) // 4kb hex-encoded _, err := rand.Read(bz) if err != nil { panic(fmt.Sprintf("Failed to read random bytes: %v", err)) } tx := types.Tx(fmt.Sprintf("load-%X=%x", id, bz)) select { case chTx <- tx: time.Sleep(10 * time.Millisecond) case <-ctx.Done(): close(chTx) return } } } // loadProcess processes transactions func loadProcess(ctx context.Context, testnet *e2e.Testnet, chTx <-chan types.Tx, chSuccess chan<- types.Tx) { // Each worker gets its own client to each node, which allows for some // concurrency while still bounding it. clients := map[string]*rpchttp.HTTP{} var err error for tx := range chTx { node := testnet.RandomNode() client, ok := clients[node.Name] if !ok { client, err = node.Client() if err != nil { continue } clients[node.Name] = client } if _, err = client.BroadcastTxCommit(ctx, tx); err != nil { continue } chSuccess <- tx } }