// Copyright 2016 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package les import ( "context" "errors" "flag" "io/ioutil" "math/rand" "os" "sync" "sync/atomic" "testing" "time" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/consensus/ethash" "github.com/ethereum/go-ethereum/eth" "github.com/ethereum/go-ethereum/eth/downloader" "github.com/ethereum/go-ethereum/les/flowcontrol" "github.com/ethereum/go-ethereum/log" "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/p2p/enode" "github.com/ethereum/go-ethereum/p2p/simulations" "github.com/ethereum/go-ethereum/p2p/simulations/adapters" "github.com/ethereum/go-ethereum/rpc" "github.com/mattn/go-colorable" ) /* This test is not meant to be a part of the automatic testing process because it runs for a long time and also requires a large database in order to do a meaningful request performance test. When testServerDataDir is empty, the test is skipped. */ const ( testServerDataDir = "" // should always be empty on the master branch testServerCapacity = 200 testMaxClients = 10 testTolerance = 0.1 minRelCap = 0.2 ) func TestCapacityAPI3(t *testing.T) { testCapacityAPI(t, 3) } func TestCapacityAPI6(t *testing.T) { testCapacityAPI(t, 6) } func TestCapacityAPI10(t *testing.T) { testCapacityAPI(t, 10) } // testCapacityAPI runs an end-to-end simulation test connecting one server with // a given number of clients. It sets different priority capacities to all clients // except a randomly selected one which runs in free client mode. All clients send // similar requests at the maximum allowed rate and the test verifies whether the // ratio of processed requests is close enough to the ratio of assigned capacities. // Running multiple rounds with different settings ensures that changing capacity // while connected and going back and forth between free and priority mode with // the supplied API calls is also thoroughly tested. func testCapacityAPI(t *testing.T, clientCount int) { if testServerDataDir == "" { // Skip test if no data dir specified return } for !testSim(t, 1, clientCount, []string{testServerDataDir}, nil, func(ctx context.Context, net *simulations.Network, servers []*simulations.Node, clients []*simulations.Node) bool { if len(servers) != 1 { t.Fatalf("Invalid number of servers: %d", len(servers)) } server := servers[0] clientRpcClients := make([]*rpc.Client, len(clients)) serverRpcClient, err := server.Client() if err != nil { t.Fatalf("Failed to obtain rpc client: %v", err) } headNum, headHash := getHead(ctx, t, serverRpcClient) totalCap := getTotalCap(ctx, t, serverRpcClient) minCap := getMinCap(ctx, t, serverRpcClient) testCap := totalCap * 3 / 4 t.Logf("Server testCap: %d minCap: %d head number: %d head hash: %064x\n", testCap, minCap, headNum, headHash) reqMinCap := uint64(float64(testCap) * minRelCap / (minRelCap + float64(len(clients)-1))) if minCap > reqMinCap { t.Fatalf("Minimum client capacity (%d) bigger than required minimum for this test (%d)", minCap, reqMinCap) } freeIdx := rand.Intn(len(clients)) freeCap := getFreeCap(ctx, t, serverRpcClient) for i, client := range clients { var err error clientRpcClients[i], err = client.Client() if err != nil { t.Fatalf("Failed to obtain rpc client: %v", err) } t.Log("connecting client", i) if i != freeIdx { setCapacity(ctx, t, serverRpcClient, client.ID(), testCap/uint64(len(clients))) } net.Connect(client.ID(), server.ID()) for { select { case <-ctx.Done(): t.Fatalf("Timeout") default: } num, hash := getHead(ctx, t, clientRpcClients[i]) if num == headNum && hash == headHash { t.Log("client", i, "synced") break } time.Sleep(time.Millisecond * 200) } } var wg sync.WaitGroup stop := make(chan struct{}) reqCount := make([]uint64, len(clientRpcClients)) for i, c := range clientRpcClients { wg.Add(1) i, c := i, c go func() { queue := make(chan struct{}, 100) var count uint64 for { select { case queue <- struct{}{}: select { case <-stop: wg.Done() return case <-ctx.Done(): wg.Done() return default: wg.Add(1) go func() { ok := testRequest(ctx, t, c) wg.Done() <-queue if ok { count++ atomic.StoreUint64(&reqCount[i], count) } }() } case <-stop: wg.Done() return case <-ctx.Done(): wg.Done() return } } }() } processedSince := func(start []uint64) []uint64 { res := make([]uint64, len(reqCount)) for i := range reqCount { res[i] = atomic.LoadUint64(&reqCount[i]) if start != nil { res[i] -= start[i] } } return res } weights := make([]float64, len(clients)) for c := 0; c < 5; c++ { setCapacity(ctx, t, serverRpcClient, clients[freeIdx].ID(), freeCap) freeIdx = rand.Intn(len(clients)) var sum float64 for i := range clients { if i == freeIdx { weights[i] = 0 } else { weights[i] = rand.Float64()*(1-minRelCap) + minRelCap } sum += weights[i] } for i, client := range clients { weights[i] *= float64(testCap-freeCap-100) / sum capacity := uint64(weights[i]) if i != freeIdx && capacity < getCapacity(ctx, t, serverRpcClient, client.ID()) { setCapacity(ctx, t, serverRpcClient, client.ID(), capacity) } } setCapacity(ctx, t, serverRpcClient, clients[freeIdx].ID(), 0) for i, client := range clients { capacity := uint64(weights[i]) if i != freeIdx && capacity > getCapacity(ctx, t, serverRpcClient, client.ID()) { setCapacity(ctx, t, serverRpcClient, client.ID(), capacity) } } weights[freeIdx] = float64(freeCap) for i := range clients { weights[i] /= float64(testCap) } time.Sleep(flowcontrol.DecParamDelay) t.Log("Starting measurement") t.Logf("Relative weights:") for i := range clients { t.Logf(" %f", weights[i]) } t.Log() start := processedSince(nil) for { select { case <-ctx.Done(): t.Fatalf("Timeout") default: } totalCap = getTotalCap(ctx, t, serverRpcClient) if totalCap < testCap { t.Log("Total capacity underrun") close(stop) wg.Wait() return false } processed := processedSince(start) var avg uint64 t.Logf("Processed") for i, p := range processed { t.Logf(" %d", p) processed[i] = uint64(float64(p) / weights[i]) avg += processed[i] } avg /= uint64(len(processed)) if avg >= 10000 { var maxDev float64 for _, p := range processed { dev := float64(int64(p-avg)) / float64(avg) t.Logf(" %7.4f", dev) if dev < 0 { dev = -dev } if dev > maxDev { maxDev = dev } } t.Logf(" max deviation: %f totalCap: %d\n", maxDev, totalCap) if maxDev <= testTolerance { t.Log("success") break } } else { t.Log() } time.Sleep(time.Millisecond * 200) } } close(stop) wg.Wait() for i, count := range reqCount { t.Log("client", i, "processed", count) } return true }) { t.Log("restarting test") } } func getHead(ctx context.Context, t *testing.T, client *rpc.Client) (uint64, common.Hash) { res := make(map[string]interface{}) if err := client.CallContext(ctx, &res, "eth_getBlockByNumber", "latest", false); err != nil { t.Fatalf("Failed to obtain head block: %v", err) } numStr, ok := res["number"].(string) if !ok { t.Fatalf("RPC block number field invalid") } num, err := hexutil.DecodeUint64(numStr) if err != nil { t.Fatalf("Failed to decode RPC block number: %v", err) } hashStr, ok := res["hash"].(string) if !ok { t.Fatalf("RPC block number field invalid") } hash := common.HexToHash(hashStr) return num, hash } func testRequest(ctx context.Context, t *testing.T, client *rpc.Client) bool { //res := make(map[string]interface{}) var res string var addr common.Address rand.Read(addr[:]) c, _ := context.WithTimeout(ctx, time.Second*12) // if err := client.CallContext(ctx, &res, "eth_getProof", addr, nil, "latest"); err != nil { err := client.CallContext(c, &res, "eth_getBalance", addr, "latest") if err != nil { t.Log("request error:", err) } return err == nil } func setCapacity(ctx context.Context, t *testing.T, server *rpc.Client, clientID enode.ID, cap uint64) { if err := server.CallContext(ctx, nil, "les_setClientCapacity", clientID, cap); err != nil { t.Fatalf("Failed to set client capacity: %v", err) } } func getCapacity(ctx context.Context, t *testing.T, server *rpc.Client, clientID enode.ID) uint64 { var s string if err := server.CallContext(ctx, &s, "les_getClientCapacity", clientID); err != nil { t.Fatalf("Failed to get client capacity: %v", err) } cap, err := hexutil.DecodeUint64(s) if err != nil { t.Fatalf("Failed to decode client capacity: %v", err) } return cap } func getTotalCap(ctx context.Context, t *testing.T, server *rpc.Client) uint64 { var s string if err := server.CallContext(ctx, &s, "les_totalCapacity"); err != nil { t.Fatalf("Failed to query total capacity: %v", err) } total, err := hexutil.DecodeUint64(s) if err != nil { t.Fatalf("Failed to decode total capacity: %v", err) } return total } func getMinCap(ctx context.Context, t *testing.T, server *rpc.Client) uint64 { var s string if err := server.CallContext(ctx, &s, "les_minimumCapacity"); err != nil { t.Fatalf("Failed to query minimum capacity: %v", err) } min, err := hexutil.DecodeUint64(s) if err != nil { t.Fatalf("Failed to decode minimum capacity: %v", err) } return min } func getFreeCap(ctx context.Context, t *testing.T, server *rpc.Client) uint64 { var s string if err := server.CallContext(ctx, &s, "les_freeClientCapacity"); err != nil { t.Fatalf("Failed to query free client capacity: %v", err) } free, err := hexutil.DecodeUint64(s) if err != nil { t.Fatalf("Failed to decode free client capacity: %v", err) } return free } func init() { flag.Parse() // register the Delivery service which will run as a devp2p // protocol when using the exec adapter adapters.RegisterServices(services) log.PrintOrigins(true) log.Root().SetHandler(log.LvlFilterHandler(log.Lvl(*loglevel), log.StreamHandler(colorable.NewColorableStderr(), log.TerminalFormat(true)))) } var ( adapter = flag.String("adapter", "exec", "type of simulation: sim|socket|exec|docker") loglevel = flag.Int("loglevel", 0, "verbosity of logs") nodes = flag.Int("nodes", 0, "number of nodes") ) var services = adapters.Services{ "lesclient": newLesClientService, "lesserver": newLesServerService, } func NewNetwork() (*simulations.Network, func(), error) { adapter, adapterTeardown, err := NewAdapter(*adapter, services) if err != nil { return nil, adapterTeardown, err } defaultService := "streamer" net := simulations.NewNetwork(adapter, &simulations.NetworkConfig{ ID: "0", DefaultService: defaultService, }) teardown := func() { adapterTeardown() net.Shutdown() } return net, teardown, nil } func NewAdapter(adapterType string, services adapters.Services) (adapter adapters.NodeAdapter, teardown func(), err error) { teardown = func() {} switch adapterType { case "sim": adapter = adapters.NewSimAdapter(services) // case "socket": // adapter = adapters.NewSocketAdapter(services) case "exec": baseDir, err0 := ioutil.TempDir("", "les-test") if err0 != nil { return nil, teardown, err0 } teardown = func() { os.RemoveAll(baseDir) } adapter = adapters.NewExecAdapter(baseDir) /*case "docker": adapter, err = adapters.NewDockerAdapter() if err != nil { return nil, teardown, err }*/ default: return nil, teardown, errors.New("adapter needs to be one of sim, socket, exec, docker") } return adapter, teardown, nil } func testSim(t *testing.T, serverCount, clientCount int, serverDir, clientDir []string, test func(ctx context.Context, net *simulations.Network, servers []*simulations.Node, clients []*simulations.Node) bool) bool { net, teardown, err := NewNetwork() defer teardown() if err != nil { t.Fatalf("Failed to create network: %v", err) } timeout := 1800 * time.Second ctx, cancel := context.WithTimeout(context.Background(), timeout) defer cancel() servers := make([]*simulations.Node, serverCount) clients := make([]*simulations.Node, clientCount) for i := range clients { clientconf := adapters.RandomNodeConfig() clientconf.Services = []string{"lesclient"} if len(clientDir) == clientCount { clientconf.DataDir = clientDir[i] } client, err := net.NewNodeWithConfig(clientconf) if err != nil { t.Fatalf("Failed to create client: %v", err) } clients[i] = client } for i := range servers { serverconf := adapters.RandomNodeConfig() serverconf.Services = []string{"lesserver"} if len(serverDir) == serverCount { serverconf.DataDir = serverDir[i] } server, err := net.NewNodeWithConfig(serverconf) if err != nil { t.Fatalf("Failed to create server: %v", err) } servers[i] = server } for _, client := range clients { if err := net.Start(client.ID()); err != nil { t.Fatalf("Failed to start client node: %v", err) } } for _, server := range servers { if err := net.Start(server.ID()); err != nil { t.Fatalf("Failed to start server node: %v", err) } } return test(ctx, net, servers, clients) } func newLesClientService(ctx *adapters.ServiceContext) (node.Service, error) { config := eth.DefaultConfig config.SyncMode = downloader.LightSync config.Ethash.PowMode = ethash.ModeFake return New(ctx.NodeContext, &config) } func newLesServerService(ctx *adapters.ServiceContext) (node.Service, error) { config := eth.DefaultConfig config.SyncMode = downloader.FullSync config.LightServ = testServerCapacity config.LightPeers = testMaxClients ethereum, err := eth.New(ctx.NodeContext, &config) if err != nil { return nil, err } server, err := NewLesServer(ethereum, &config) if err != nil { return nil, err } ethereum.AddLesServer(server) return ethereum, nil }