5e4fd8e7db
* swarm/network: Revised depth calculation with tests * swarm/network: WIP remove redundant "full" function * swarm/network: WIP peerpot refactor * swarm/network: Make test methods submethod of peerpot and embed kad * swarm/network: Remove commented out code * swarm/network: Rename health test functions * swarm/network: Too many n's * swarm/network: Change hive Healthy func to accept addresses * swarm/network: Add Healthy proxy method for api in hive * swarm/network: Skip failing test out of scope for PR * swarm/network: Skip all tests dependent on SuggestPeers * swarm/network: Remove commented code and useless kad Pof member * swarm/network: Remove more unused code, add counter on depth test errors * swarm/network: WIP Create Healthy assertion tests * swarm/network: Roll back health related methods receiver change * swarm/network: Hardwire network minproxbinsize in swarm sim * swarm/network: Rework Health test to strict Pending add test for saturation And add test for as many as possible up to saturation * swarm/network: Skip discovery tests (dependent on SuggestPeer) * swarm/network: Remove useless minProxBinSize in stream * swarm/network: Remove unnecessary testing.T param to assert health * swarm/network: Implement t.Helper() in checkHealth * swarm/network: Rename check back to assert now that we have helper magic * swarm/network: Revert WaitTillHealthy change (deferred to nxt PR) * swarm/network: Kademlia tests GotNN => ConnectNN * swarm/network: Renames and comments * swarm/network: Add comments
390 lines
11 KiB
Go
390 lines
11 KiB
Go
// Copyright 2018 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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// +build withserver
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package stream
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import (
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"bytes"
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"context"
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"errors"
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"fmt"
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"io"
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"os"
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"sync"
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"testing"
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"time"
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"github.com/ethereum/go-ethereum/node"
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"github.com/ethereum/go-ethereum/p2p"
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"github.com/ethereum/go-ethereum/p2p/enode"
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"github.com/ethereum/go-ethereum/p2p/protocols"
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"github.com/ethereum/go-ethereum/p2p/simulations"
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"github.com/ethereum/go-ethereum/p2p/simulations/adapters"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/ethereum/go-ethereum/swarm/log"
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"github.com/ethereum/go-ethereum/swarm/network"
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"github.com/ethereum/go-ethereum/swarm/network/simulation"
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"github.com/ethereum/go-ethereum/swarm/state"
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"github.com/ethereum/go-ethereum/swarm/storage"
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)
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/*
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The tests in this file need to be executed with
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-tags=withserver
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Also, they will stall if executed stand-alone, because they wait
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for the visualization frontend to send a POST /runsim message.
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*/
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//setup the sim, evaluate nodeCount and chunkCount and create the sim
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func setupSim(serviceMap map[string]simulation.ServiceFunc) (int, int, *simulation.Simulation) {
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nodeCount := *nodes
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chunkCount := *chunks
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if nodeCount == 0 || chunkCount == 0 {
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nodeCount = 32
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chunkCount = 1
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}
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//setup the simulation with server, which means the sim won't run
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//until it receives a POST /runsim from the frontend
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sim := simulation.New(serviceMap).WithServer(":8888")
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return nodeCount, chunkCount, sim
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}
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//watch for disconnections and wait for healthy
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func watchSim(sim *simulation.Simulation) (context.Context, context.CancelFunc) {
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ctx, cancelSimRun := context.WithTimeout(context.Background(), 1*time.Minute)
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if _, err := sim.WaitTillHealthy(ctx, 2); err != nil {
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panic(err)
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}
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disconnections := sim.PeerEvents(
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context.Background(),
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sim.NodeIDs(),
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simulation.NewPeerEventsFilter().Drop(),
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)
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go func() {
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for d := range disconnections {
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log.Error("peer drop", "node", d.NodeID, "peer", d.PeerID)
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panic("unexpected disconnect")
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cancelSimRun()
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}
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}()
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return ctx, cancelSimRun
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}
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//This test requests bogus hashes into the network
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func TestNonExistingHashesWithServer(t *testing.T) {
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nodeCount, _, sim := setupSim(retrievalSimServiceMap)
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defer sim.Close()
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err := sim.UploadSnapshot(fmt.Sprintf("testing/snapshot_%d.json", nodeCount))
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if err != nil {
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panic(err)
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}
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ctx, cancelSimRun := watchSim(sim)
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defer cancelSimRun()
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//in order to get some meaningful visualization, it is beneficial
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//to define a minimum duration of this test
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testDuration := 20 * time.Second
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result := sim.Run(ctx, func(ctx context.Context, sim *simulation.Simulation) error {
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//check on the node's FileStore (netstore)
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id := sim.Net.GetRandomUpNode().ID()
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item, ok := sim.NodeItem(id, bucketKeyFileStore)
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if !ok {
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t.Fatalf("No filestore")
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}
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fileStore := item.(*storage.FileStore)
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//create a bogus hash
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fakeHash := storage.GenerateRandomChunk(1000).Address()
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//try to retrieve it - will propagate RetrieveRequestMsg into the network
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reader, _ := fileStore.Retrieve(context.TODO(), fakeHash)
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if _, err := reader.Size(ctx, nil); err != nil {
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log.Debug("expected error for non-existing chunk")
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}
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//sleep so that the frontend can have something to display
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time.Sleep(testDuration)
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return nil
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})
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if result.Error != nil {
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sendSimTerminatedEvent(sim)
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t.Fatal(result.Error)
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}
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sendSimTerminatedEvent(sim)
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}
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//send a termination event to the frontend
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func sendSimTerminatedEvent(sim *simulation.Simulation) {
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evt := &simulations.Event{
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Type: EventTypeSimTerminated,
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Control: false,
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}
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sim.Net.Events().Send(evt)
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}
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//This test is the same as the snapshot sync test,
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//but with a HTTP server
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//It also sends some custom events so that the frontend
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//can visualize messages like SendOfferedMsg, WantedHashesMsg, DeliveryMsg
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func TestSnapshotSyncWithServer(t *testing.T) {
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//t.Skip("temporarily disabled as simulations.WaitTillHealthy cannot be trusted")
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//define a wrapper object to be able to pass around data
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wrapper := &netWrapper{}
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nodeCount := *nodes
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chunkCount := *chunks
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if nodeCount == 0 || chunkCount == 0 {
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nodeCount = 32
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chunkCount = 1
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}
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log.Info(fmt.Sprintf("Running the simulation with %d nodes and %d chunks", nodeCount, chunkCount))
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sim := simulation.New(map[string]simulation.ServiceFunc{
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"streamer": func(ctx *adapters.ServiceContext, bucket *sync.Map) (s node.Service, cleanup func(), err error) {
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n := ctx.Config.Node()
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addr := network.NewAddr(n)
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store, datadir, err := createTestLocalStorageForID(n.ID(), addr)
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if err != nil {
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return nil, nil, err
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}
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bucket.Store(bucketKeyStore, store)
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localStore := store.(*storage.LocalStore)
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netStore, err := storage.NewNetStore(localStore, nil)
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if err != nil {
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return nil, nil, err
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}
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kad := network.NewKademlia(addr.Over(), network.NewKadParams())
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delivery := NewDelivery(kad, netStore)
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netStore.NewNetFetcherFunc = network.NewFetcherFactory(dummyRequestFromPeers, true).New
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r := NewRegistry(addr.ID(), delivery, netStore, state.NewInmemoryStore(), &RegistryOptions{
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Retrieval: RetrievalDisabled,
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Syncing: SyncingAutoSubscribe,
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SyncUpdateDelay: 3 * time.Second,
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}, nil)
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tr := &testRegistry{
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Registry: r,
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w: wrapper,
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}
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bucket.Store(bucketKeyRegistry, tr)
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cleanup = func() {
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netStore.Close()
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tr.Close()
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os.RemoveAll(datadir)
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}
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return tr, cleanup, nil
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},
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}).WithServer(":8888") //start with the HTTP server
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nodeCount, chunkCount, sim := setupSim(simServiceMap)
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defer sim.Close()
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log.Info("Initializing test config")
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conf := &synctestConfig{}
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//map of discover ID to indexes of chunks expected at that ID
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conf.idToChunksMap = make(map[enode.ID][]int)
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//map of overlay address to discover ID
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conf.addrToIDMap = make(map[string]enode.ID)
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//array where the generated chunk hashes will be stored
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conf.hashes = make([]storage.Address, 0)
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//pass the network to the wrapper object
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wrapper.setNetwork(sim.Net)
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err := sim.UploadSnapshot(fmt.Sprintf("testing/snapshot_%d.json", nodeCount))
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if err != nil {
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panic(err)
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}
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ctx, cancelSimRun := watchSim(sim)
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defer cancelSimRun()
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//run the sim
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result := runSim(conf, ctx, sim, chunkCount)
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//send terminated event
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evt := &simulations.Event{
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Type: EventTypeSimTerminated,
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Control: false,
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}
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go sim.Net.Events().Send(evt)
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if result.Error != nil {
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panic(result.Error)
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}
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log.Info("Simulation ended")
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}
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//testRegistry embeds registry
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//it allows to replace the protocol run function
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type testRegistry struct {
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*Registry
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w *netWrapper
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}
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//Protocols replaces the protocol's run function
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func (tr *testRegistry) Protocols() []p2p.Protocol {
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regProto := tr.Registry.Protocols()
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//set the `stream` protocol's run function with the testRegistry's one
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regProto[0].Run = tr.runProto
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return regProto
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}
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//runProto is the new overwritten protocol's run function for this test
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func (tr *testRegistry) runProto(p *p2p.Peer, rw p2p.MsgReadWriter) error {
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//create a custom rw message ReadWriter
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testRw := &testMsgReadWriter{
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MsgReadWriter: rw,
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Peer: p,
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w: tr.w,
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Registry: tr.Registry,
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}
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//now run the actual upper layer `Registry`'s protocol function
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return tr.runProtocol(p, testRw)
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}
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//testMsgReadWriter is a custom rw
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//it will allow us to re-use the message twice
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type testMsgReadWriter struct {
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*Registry
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p2p.MsgReadWriter
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*p2p.Peer
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w *netWrapper
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}
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//netWrapper wrapper object so we can pass data around
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type netWrapper struct {
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net *simulations.Network
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}
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//set the network to the wrapper for later use (used inside the custom rw)
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func (w *netWrapper) setNetwork(n *simulations.Network) {
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w.net = n
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}
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//get he network from the wrapper (used inside the custom rw)
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func (w *netWrapper) getNetwork() *simulations.Network {
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return w.net
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}
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// ReadMsg reads a message from the underlying MsgReadWriter and emits a
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// "message received" event
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//we do this because we are interested in the Payload of the message for custom use
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//in this test, but messages can only be consumed once (stream io.Reader)
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func (ev *testMsgReadWriter) ReadMsg() (p2p.Msg, error) {
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//read the message from the underlying rw
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msg, err := ev.MsgReadWriter.ReadMsg()
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if err != nil {
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return msg, err
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}
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//don't do anything with message codes we actually are not needing/reading
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subCodes := []uint64{1, 2, 10}
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found := false
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for _, c := range subCodes {
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if c == msg.Code {
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found = true
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}
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}
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//just return if not a msg code we are interested in
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if !found {
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return msg, nil
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}
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//we use a io.TeeReader so that we can read the message twice
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//the Payload is a io.Reader, so if we read from it, the actual protocol handler
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//cannot access it anymore.
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//But we need that handler to be able to consume the message as normal,
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//as if we would not do anything here with that message
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var buf bytes.Buffer
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tee := io.TeeReader(msg.Payload, &buf)
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mcp := &p2p.Msg{
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Code: msg.Code,
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Size: msg.Size,
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ReceivedAt: msg.ReceivedAt,
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Payload: tee,
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}
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//assign the copy for later use
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msg.Payload = &buf
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//now let's look into the message
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var wmsg protocols.WrappedMsg
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err = mcp.Decode(&wmsg)
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if err != nil {
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log.Error(err.Error())
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return msg, err
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}
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//create a new message from the code
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val, ok := ev.Registry.GetSpec().NewMsg(mcp.Code)
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if !ok {
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return msg, errors.New(fmt.Sprintf("Invalid message code: %v", msg.Code))
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}
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//decode it
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if err := rlp.DecodeBytes(wmsg.Payload, val); err != nil {
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return msg, errors.New(fmt.Sprintf("Decoding error <= %v: %v", msg, err))
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}
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//now for every message type we are interested in, create a custom event and send it
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var evt *simulations.Event
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switch val := val.(type) {
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case *OfferedHashesMsg:
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evt = &simulations.Event{
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Type: EventTypeChunkOffered,
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Node: ev.w.getNetwork().GetNode(ev.ID()),
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Control: false,
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Data: val.Hashes,
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}
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case *WantedHashesMsg:
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evt = &simulations.Event{
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Type: EventTypeChunkWanted,
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Node: ev.w.getNetwork().GetNode(ev.ID()),
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Control: false,
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}
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case *ChunkDeliveryMsgSyncing:
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evt = &simulations.Event{
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Type: EventTypeChunkDelivered,
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Node: ev.w.getNetwork().GetNode(ev.ID()),
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Control: false,
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Data: val.Addr.String(),
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}
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}
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if evt != nil {
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//send custom event to feed; frontend will listen to it and display
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ev.w.getNetwork().Events().Send(evt)
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}
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return msg, nil
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}
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