- package pex_test
-
- import (
- "context"
- "strings"
- "testing"
- "time"
-
- "github.com/stretchr/testify/require"
- dbm "github.com/tendermint/tm-db"
-
- "github.com/tendermint/tendermint/crypto/ed25519"
- "github.com/tendermint/tendermint/internal/p2p"
- "github.com/tendermint/tendermint/internal/p2p/p2ptest"
- "github.com/tendermint/tendermint/internal/p2p/pex"
- "github.com/tendermint/tendermint/libs/log"
- p2pproto "github.com/tendermint/tendermint/proto/tendermint/p2p"
- "github.com/tendermint/tendermint/types"
- )
-
- const (
- checkFrequency = 500 * time.Millisecond
- defaultBufferSize = 2
- shortWait = 10 * time.Second
- longWait = 60 * time.Second
-
- firstNode = 0
- secondNode = 1
- thirdNode = 2
- )
-
- func TestReactorBasic(t *testing.T) {
- ctx, cancel := context.WithCancel(context.Background())
- defer cancel()
- // start a network with one mock reactor and one "real" reactor
- testNet := setupNetwork(ctx, t, testOptions{
- MockNodes: 1,
- TotalNodes: 2,
- })
- testNet.connectAll(t)
- testNet.start(ctx, t)
-
- // assert that the mock node receives a request from the real node
- testNet.listenForRequest(t, secondNode, firstNode, shortWait)
-
- // assert that when a mock node sends a request it receives a response (and
- // the correct one)
- testNet.sendRequest(t, firstNode, secondNode)
- testNet.listenForResponse(t, secondNode, firstNode, shortWait, []p2pproto.PexAddress(nil))
- }
-
- func TestReactorConnectFullNetwork(t *testing.T) {
- ctx, cancel := context.WithCancel(context.Background())
- defer cancel()
-
- testNet := setupNetwork(ctx, t, testOptions{
- TotalNodes: 4,
- })
-
- // make every node be only connected with one other node (it actually ends up
- // being two because of two way connections but oh well)
- testNet.connectN(t, 1)
- testNet.start(ctx, t)
-
- // assert that all nodes add each other in the network
- for idx := 0; idx < len(testNet.nodes); idx++ {
- testNet.requireNumberOfPeers(t, idx, len(testNet.nodes)-1, longWait)
- }
- }
-
- func TestReactorSendsRequestsTooOften(t *testing.T) {
- ctx, cancel := context.WithCancel(context.Background())
- defer cancel()
-
- r := setupSingle(ctx, t)
-
- badNode := newNodeID(t, "b")
-
- r.pexInCh <- p2p.Envelope{
- From: badNode,
- Message: &p2pproto.PexRequest{},
- }
-
- resp := <-r.pexOutCh
- msg, ok := resp.Message.(*p2pproto.PexResponse)
- require.True(t, ok)
- require.Empty(t, msg.Addresses)
-
- r.pexInCh <- p2p.Envelope{
- From: badNode,
- Message: &p2pproto.PexRequest{},
- }
-
- peerErr := <-r.pexErrCh
- require.Error(t, peerErr.Err)
- require.Empty(t, r.pexOutCh)
- require.Contains(t, peerErr.Err.Error(), "peer sent a request too close after a prior one")
- require.Equal(t, badNode, peerErr.NodeID)
- }
-
- func TestReactorSendsResponseWithoutRequest(t *testing.T) {
- ctx, cancel := context.WithCancel(context.Background())
- defer cancel()
-
- testNet := setupNetwork(ctx, t, testOptions{
- MockNodes: 1,
- TotalNodes: 3,
- })
- testNet.connectAll(t)
- testNet.start(ctx, t)
-
- // firstNode sends the secondNode an unrequested response
- // NOTE: secondNode will send a request by default during startup so we send
- // two responses to counter that.
- testNet.sendResponse(t, firstNode, secondNode, []int{thirdNode})
- testNet.sendResponse(t, firstNode, secondNode, []int{thirdNode})
-
- // secondNode should evict the firstNode
- testNet.listenForPeerUpdate(t, secondNode, firstNode, p2p.PeerStatusDown, shortWait)
- }
-
- func TestReactorNeverSendsTooManyPeers(t *testing.T) {
- ctx, cancel := context.WithCancel(context.Background())
- defer cancel()
-
- testNet := setupNetwork(ctx, t, testOptions{
- MockNodes: 1,
- TotalNodes: 2,
- })
- testNet.connectAll(t)
- testNet.start(ctx, t)
-
- testNet.addNodes(ctx, t, 110)
- nodes := make([]int, 110)
- for i := 0; i < len(nodes); i++ {
- nodes[i] = i + 2
- }
- testNet.addAddresses(t, secondNode, nodes)
-
- // first we check that even although we have 110 peers, honest pex reactors
- // only send 100 (test if secondNode sends firstNode 100 addresses)
- testNet.pingAndlistenForNAddresses(t, secondNode, firstNode, shortWait, 100)
- }
-
- func TestReactorErrorsOnReceivingTooManyPeers(t *testing.T) {
- ctx, cancel := context.WithCancel(context.Background())
- defer cancel()
-
- r := setupSingle(ctx, t)
- peer := p2p.NodeAddress{Protocol: p2p.MemoryProtocol, NodeID: randomNodeID(t)}
- added, err := r.manager.Add(peer)
- require.NoError(t, err)
- require.True(t, added)
-
- addresses := make([]p2pproto.PexAddress, 101)
- for i := 0; i < len(addresses); i++ {
- nodeAddress := p2p.NodeAddress{Protocol: p2p.MemoryProtocol, NodeID: randomNodeID(t)}
- addresses[i] = p2pproto.PexAddress{
- URL: nodeAddress.String(),
- }
- }
-
- r.peerCh <- p2p.PeerUpdate{
- NodeID: peer.NodeID,
- Status: p2p.PeerStatusUp,
- }
-
- select {
- // wait for a request and then send a response with too many addresses
- case req := <-r.pexOutCh:
- if _, ok := req.Message.(*p2pproto.PexRequest); !ok {
- t.Fatal("expected v2 pex request")
- }
- r.pexInCh <- p2p.Envelope{
- From: peer.NodeID,
- Message: &p2pproto.PexResponse{
- Addresses: addresses,
- },
- }
-
- case <-time.After(10 * time.Second):
- t.Fatal("pex failed to send a request within 10 seconds")
- }
-
- peerErr := <-r.pexErrCh
- require.Error(t, peerErr.Err)
- require.Empty(t, r.pexOutCh)
- require.Contains(t, peerErr.Err.Error(), "peer sent too many addresses")
- require.Equal(t, peer.NodeID, peerErr.NodeID)
- }
-
- func TestReactorSmallPeerStoreInALargeNetwork(t *testing.T) {
- ctx, cancel := context.WithCancel(context.Background())
- defer cancel()
-
- testNet := setupNetwork(ctx, t, testOptions{
- TotalNodes: 8,
- MaxPeers: 4,
- MaxConnected: 3,
- BufferSize: 8,
- })
- testNet.connectN(t, 1)
- testNet.start(ctx, t)
-
- // test that all nodes reach full capacity
- for _, nodeID := range testNet.nodes {
- require.Eventually(t, func() bool {
- // nolint:scopelint
- return testNet.network.Nodes[nodeID].PeerManager.PeerRatio() >= 0.9
- }, longWait, checkFrequency)
- }
- }
-
- func TestReactorLargePeerStoreInASmallNetwork(t *testing.T) {
- ctx, cancel := context.WithCancel(context.Background())
- defer cancel()
-
- testNet := setupNetwork(ctx, t, testOptions{
- TotalNodes: 3,
- MaxPeers: 25,
- MaxConnected: 25,
- BufferSize: 5,
- })
- testNet.connectN(t, 1)
- testNet.start(ctx, t)
-
- // assert that all nodes add each other in the network
- for idx := 0; idx < len(testNet.nodes); idx++ {
- testNet.requireNumberOfPeers(t, idx, len(testNet.nodes)-1, longWait)
- }
- }
-
- func TestReactorWithNetworkGrowth(t *testing.T) {
- ctx, cancel := context.WithCancel(context.Background())
- defer cancel()
-
- testNet := setupNetwork(ctx, t, testOptions{
- TotalNodes: 5,
- BufferSize: 5,
- })
- testNet.connectAll(t)
- testNet.start(ctx, t)
-
- // assert that all nodes add each other in the network
- for idx := 0; idx < len(testNet.nodes); idx++ {
- testNet.requireNumberOfPeers(t, idx, len(testNet.nodes)-1, shortWait)
- }
-
- // now we inject 10 more nodes
- testNet.addNodes(ctx, t, 10)
- for i := 5; i < testNet.total; i++ {
- node := testNet.nodes[i]
- require.NoError(t, testNet.reactors[node].Start(ctx))
- require.True(t, testNet.reactors[node].IsRunning())
- // we connect all new nodes to a single entry point and check that the
- // node can distribute the addresses to all the others
- testNet.connectPeers(t, 0, i)
- }
- require.Len(t, testNet.reactors, 15)
-
- // assert that all nodes add each other in the network
- for idx := 0; idx < len(testNet.nodes); idx++ {
- testNet.requireNumberOfPeers(t, idx, len(testNet.nodes)-1, longWait)
- }
- }
-
- type singleTestReactor struct {
- reactor *pex.Reactor
- pexInCh chan p2p.Envelope
- pexOutCh chan p2p.Envelope
- pexErrCh chan p2p.PeerError
- pexCh *p2p.Channel
- peerCh chan p2p.PeerUpdate
- manager *p2p.PeerManager
- }
-
- func setupSingle(ctx context.Context, t *testing.T) *singleTestReactor {
- t.Helper()
- nodeID := newNodeID(t, "a")
- chBuf := 2
- pexInCh := make(chan p2p.Envelope, chBuf)
- pexOutCh := make(chan p2p.Envelope, chBuf)
- pexErrCh := make(chan p2p.PeerError, chBuf)
- pexCh := p2p.NewChannel(
- p2p.ChannelID(pex.PexChannel),
- new(p2pproto.PexMessage),
- pexInCh,
- pexOutCh,
- pexErrCh,
- )
-
- peerCh := make(chan p2p.PeerUpdate, chBuf)
- peerUpdates := p2p.NewPeerUpdates(peerCh, chBuf)
- peerManager, err := p2p.NewPeerManager(nodeID, dbm.NewMemDB(), p2p.PeerManagerOptions{})
- require.NoError(t, err)
-
- reactor := pex.NewReactor(log.TestingLogger(), peerManager, pexCh, peerUpdates)
- require.NoError(t, reactor.Start(ctx))
- t.Cleanup(func() {
- pexCh.Close()
- peerUpdates.Close()
- reactor.Wait()
- })
-
- return &singleTestReactor{
- reactor: reactor,
- pexInCh: pexInCh,
- pexOutCh: pexOutCh,
- pexErrCh: pexErrCh,
- pexCh: pexCh,
- peerCh: peerCh,
- manager: peerManager,
- }
- }
-
- type reactorTestSuite struct {
- network *p2ptest.Network
- logger log.Logger
-
- reactors map[types.NodeID]*pex.Reactor
- pexChannels map[types.NodeID]*p2p.Channel
-
- peerChans map[types.NodeID]chan p2p.PeerUpdate
- peerUpdates map[types.NodeID]*p2p.PeerUpdates
-
- nodes []types.NodeID
- mocks []types.NodeID
- total int
- opts testOptions
- }
-
- type testOptions struct {
- MockNodes int
- TotalNodes int
- BufferSize int
- MaxPeers uint16
- MaxConnected uint16
- }
-
- // setup setups a test suite with a network of nodes. Mocknodes represent the
- // hollow nodes that the test can listen and send on
- func setupNetwork(ctx context.Context, t *testing.T, opts testOptions) *reactorTestSuite {
- t.Helper()
-
- require.Greater(t, opts.TotalNodes, opts.MockNodes)
- if opts.BufferSize == 0 {
- opts.BufferSize = defaultBufferSize
- }
- networkOpts := p2ptest.NetworkOptions{
- NumNodes: opts.TotalNodes,
- BufferSize: opts.BufferSize,
- NodeOpts: p2ptest.NodeOptions{
- MaxPeers: opts.MaxPeers,
- MaxConnected: opts.MaxConnected,
- },
- }
- chBuf := opts.BufferSize
- realNodes := opts.TotalNodes - opts.MockNodes
-
- rts := &reactorTestSuite{
- logger: log.TestingLogger().With("testCase", t.Name()),
- network: p2ptest.MakeNetwork(ctx, t, networkOpts),
- reactors: make(map[types.NodeID]*pex.Reactor, realNodes),
- pexChannels: make(map[types.NodeID]*p2p.Channel, opts.TotalNodes),
- peerChans: make(map[types.NodeID]chan p2p.PeerUpdate, opts.TotalNodes),
- peerUpdates: make(map[types.NodeID]*p2p.PeerUpdates, opts.TotalNodes),
- total: opts.TotalNodes,
- opts: opts,
- }
-
- // NOTE: we don't assert that the channels get drained after stopping the
- // reactor
- rts.pexChannels = rts.network.MakeChannelsNoCleanup(t, pex.ChannelDescriptor())
-
- idx := 0
- for nodeID := range rts.network.Nodes {
- rts.peerChans[nodeID] = make(chan p2p.PeerUpdate, chBuf)
- rts.peerUpdates[nodeID] = p2p.NewPeerUpdates(rts.peerChans[nodeID], chBuf)
- rts.network.Nodes[nodeID].PeerManager.Register(rts.peerUpdates[nodeID])
-
- // the first nodes in the array are always mock nodes
- if idx < opts.MockNodes {
- rts.mocks = append(rts.mocks, nodeID)
- } else {
- rts.reactors[nodeID] = pex.NewReactor(
- rts.logger.With("nodeID", nodeID),
- rts.network.Nodes[nodeID].PeerManager,
- rts.pexChannels[nodeID],
- rts.peerUpdates[nodeID],
- )
- }
- rts.nodes = append(rts.nodes, nodeID)
-
- idx++
- }
-
- require.Len(t, rts.reactors, realNodes)
-
- t.Cleanup(func() {
- for nodeID, reactor := range rts.reactors {
- if reactor.IsRunning() {
- reactor.Wait()
- require.False(t, reactor.IsRunning())
- }
- rts.pexChannels[nodeID].Close()
- rts.peerUpdates[nodeID].Close()
- }
- for _, nodeID := range rts.mocks {
- rts.pexChannels[nodeID].Close()
- rts.peerUpdates[nodeID].Close()
- }
- })
-
- return rts
- }
-
- // starts up the pex reactors for each node
- func (r *reactorTestSuite) start(ctx context.Context, t *testing.T) {
- t.Helper()
-
- for _, reactor := range r.reactors {
- require.NoError(t, reactor.Start(ctx))
- require.True(t, reactor.IsRunning())
- }
- }
-
- func (r *reactorTestSuite) addNodes(ctx context.Context, t *testing.T, nodes int) {
- t.Helper()
-
- for i := 0; i < nodes; i++ {
- node := r.network.MakeNode(ctx, t, p2ptest.NodeOptions{
- MaxPeers: r.opts.MaxPeers,
- MaxConnected: r.opts.MaxConnected,
- })
- r.network.Nodes[node.NodeID] = node
- nodeID := node.NodeID
- r.pexChannels[nodeID] = node.MakeChannelNoCleanup(t, pex.ChannelDescriptor())
- r.peerChans[nodeID] = make(chan p2p.PeerUpdate, r.opts.BufferSize)
- r.peerUpdates[nodeID] = p2p.NewPeerUpdates(r.peerChans[nodeID], r.opts.BufferSize)
- r.network.Nodes[nodeID].PeerManager.Register(r.peerUpdates[nodeID])
- r.reactors[nodeID] = pex.NewReactor(
- r.logger.With("nodeID", nodeID),
- r.network.Nodes[nodeID].PeerManager,
- r.pexChannels[nodeID],
- r.peerUpdates[nodeID],
- )
- r.nodes = append(r.nodes, nodeID)
- r.total++
- }
- }
-
- func (r *reactorTestSuite) listenFor(
- t *testing.T,
- node types.NodeID,
- conditional func(msg p2p.Envelope) bool,
- assertion func(t *testing.T, msg p2p.Envelope) bool,
- waitPeriod time.Duration,
- ) {
- timesUp := time.After(waitPeriod)
- for {
- select {
- case envelope := <-r.pexChannels[node].In:
- if conditional(envelope) && assertion(t, envelope) {
- return
- }
- case <-timesUp:
- require.Fail(t, "timed out waiting for message",
- "node=%v, waitPeriod=%s", node, waitPeriod)
- }
- }
- }
-
- func (r *reactorTestSuite) listenForRequest(t *testing.T, fromNode, toNode int, waitPeriod time.Duration) {
- r.logger.Info("Listening for request", "from", fromNode, "to", toNode)
- to, from := r.checkNodePair(t, toNode, fromNode)
- conditional := func(msg p2p.Envelope) bool {
- _, ok := msg.Message.(*p2pproto.PexRequest)
- return ok && msg.From == from
- }
- assertion := func(t *testing.T, msg p2p.Envelope) bool {
- require.Equal(t, &p2pproto.PexRequest{}, msg.Message)
- return true
- }
- r.listenFor(t, to, conditional, assertion, waitPeriod)
- }
-
- func (r *reactorTestSuite) pingAndlistenForNAddresses(
- t *testing.T,
- fromNode, toNode int,
- waitPeriod time.Duration,
- addresses int,
- ) {
- r.logger.Info("Listening for addresses", "from", fromNode, "to", toNode)
- to, from := r.checkNodePair(t, toNode, fromNode)
- conditional := func(msg p2p.Envelope) bool {
- _, ok := msg.Message.(*p2pproto.PexResponse)
- return ok && msg.From == from
- }
- assertion := func(t *testing.T, msg p2p.Envelope) bool {
- m, ok := msg.Message.(*p2pproto.PexResponse)
- if !ok {
- require.Fail(t, "expected pex response v2")
- return true
- }
- // assert the same amount of addresses
- if len(m.Addresses) == addresses {
- return true
- }
- // if we didn't get the right length, we wait and send the
- // request again
- time.Sleep(300 * time.Millisecond)
- r.sendRequest(t, toNode, fromNode)
- return false
- }
- r.sendRequest(t, toNode, fromNode)
- r.listenFor(t, to, conditional, assertion, waitPeriod)
- }
-
- func (r *reactorTestSuite) listenForResponse(
- t *testing.T,
- fromNode, toNode int,
- waitPeriod time.Duration,
- addresses []p2pproto.PexAddress,
- ) {
- r.logger.Info("Listening for response", "from", fromNode, "to", toNode)
- to, from := r.checkNodePair(t, toNode, fromNode)
- conditional := func(msg p2p.Envelope) bool {
- _, ok := msg.Message.(*p2pproto.PexResponse)
- r.logger.Info("message", msg, "ok", ok)
- return ok && msg.From == from
- }
- assertion := func(t *testing.T, msg p2p.Envelope) bool {
- require.Equal(t, &p2pproto.PexResponse{Addresses: addresses}, msg.Message)
- return true
- }
- r.listenFor(t, to, conditional, assertion, waitPeriod)
- }
-
- func (r *reactorTestSuite) listenForPeerUpdate(
- t *testing.T,
- onNode, withNode int,
- status p2p.PeerStatus,
- waitPeriod time.Duration,
- ) {
- on, with := r.checkNodePair(t, onNode, withNode)
- sub := r.network.Nodes[on].PeerManager.Subscribe()
- defer sub.Close()
- timesUp := time.After(waitPeriod)
- for {
- select {
- case peerUpdate := <-sub.Updates():
- if peerUpdate.NodeID == with {
- require.Equal(t, status, peerUpdate.Status)
- return
- }
-
- case <-timesUp:
- require.Fail(t, "timed out waiting for peer status", "%v with status %v",
- with, status)
- return
- }
- }
- }
-
- func (r *reactorTestSuite) getAddressesFor(nodes []int) []p2pproto.PexAddress {
- addresses := make([]p2pproto.PexAddress, len(nodes))
- for idx, node := range nodes {
- nodeID := r.nodes[node]
- addresses[idx] = p2pproto.PexAddress{
- URL: r.network.Nodes[nodeID].NodeAddress.String(),
- }
- }
- return addresses
- }
-
- func (r *reactorTestSuite) sendRequest(t *testing.T, fromNode, toNode int) {
- to, from := r.checkNodePair(t, toNode, fromNode)
- r.pexChannels[from].Out <- p2p.Envelope{
- To: to,
- Message: &p2pproto.PexRequest{},
- }
- }
-
- func (r *reactorTestSuite) sendResponse(
- t *testing.T,
- fromNode, toNode int,
- withNodes []int,
- ) {
- from, to := r.checkNodePair(t, fromNode, toNode)
- addrs := r.getAddressesFor(withNodes)
- r.pexChannels[from].Out <- p2p.Envelope{
- To: to,
- Message: &p2pproto.PexResponse{
- Addresses: addrs,
- },
- }
- }
-
- func (r *reactorTestSuite) requireNumberOfPeers(
- t *testing.T,
- nodeIndex, numPeers int,
- waitPeriod time.Duration,
- ) {
- t.Helper()
- require.Eventuallyf(t, func() bool {
- actualNumPeers := len(r.network.Nodes[r.nodes[nodeIndex]].PeerManager.Peers())
- return actualNumPeers >= numPeers
- }, waitPeriod, checkFrequency, "peer failed to connect with the asserted amount of peers "+
- "index=%d, node=%q, waitPeriod=%s expected=%d actual=%d",
- nodeIndex, r.nodes[nodeIndex], waitPeriod, numPeers,
- len(r.network.Nodes[r.nodes[nodeIndex]].PeerManager.Peers()),
- )
- }
-
- func (r *reactorTestSuite) connectAll(t *testing.T) {
- r.connectN(t, r.total-1)
- }
-
- // connects all nodes with n other nodes
- func (r *reactorTestSuite) connectN(t *testing.T, n int) {
- if n >= r.total {
- require.Fail(t, "connectN: n must be less than the size of the network - 1")
- }
-
- for i := 0; i < r.total; i++ {
- for j := 0; j < n; j++ {
- r.connectPeers(t, i, (i+j+1)%r.total)
- }
- }
- }
-
- // connects node1 to node2
- func (r *reactorTestSuite) connectPeers(t *testing.T, sourceNode, targetNode int) {
- t.Helper()
- node1, node2 := r.checkNodePair(t, sourceNode, targetNode)
- r.logger.Info("connecting peers", "sourceNode", sourceNode, "targetNode", targetNode)
-
- n1 := r.network.Nodes[node1]
- if n1 == nil {
- require.Fail(t, "connectPeers: source node %v is not part of the testnet", node1)
- return
- }
-
- n2 := r.network.Nodes[node2]
- if n2 == nil {
- require.Fail(t, "connectPeers: target node %v is not part of the testnet", node2)
- return
- }
-
- sourceSub := n1.PeerManager.Subscribe()
- defer sourceSub.Close()
- targetSub := n2.PeerManager.Subscribe()
- defer targetSub.Close()
-
- sourceAddress := n1.NodeAddress
- r.logger.Debug("source address", "address", sourceAddress)
- targetAddress := n2.NodeAddress
- r.logger.Debug("target address", "address", targetAddress)
-
- added, err := n1.PeerManager.Add(targetAddress)
- require.NoError(t, err)
-
- if !added {
- r.logger.Debug("nodes already know about one another",
- "sourceNode", sourceNode, "targetNode", targetNode)
- return
- }
-
- select {
- case peerUpdate := <-targetSub.Updates():
- require.Equal(t, p2p.PeerUpdate{
- NodeID: node1,
- Status: p2p.PeerStatusUp,
- }, peerUpdate)
- r.logger.Debug("target connected with source")
- case <-time.After(2 * time.Second):
- require.Fail(t, "timed out waiting for peer", "%v accepting %v",
- targetNode, sourceNode)
- }
-
- select {
- case peerUpdate := <-sourceSub.Updates():
- require.Equal(t, p2p.PeerUpdate{
- NodeID: node2,
- Status: p2p.PeerStatusUp,
- }, peerUpdate)
- r.logger.Debug("source connected with target")
- case <-time.After(2 * time.Second):
- require.Fail(t, "timed out waiting for peer", "%v dialing %v",
- sourceNode, targetNode)
- }
-
- added, err = n2.PeerManager.Add(sourceAddress)
- require.NoError(t, err)
- require.True(t, added)
- }
-
- func (r *reactorTestSuite) checkNodePair(t *testing.T, first, second int) (types.NodeID, types.NodeID) {
- require.NotEqual(t, first, second)
- require.Less(t, first, r.total)
- require.Less(t, second, r.total)
- return r.nodes[first], r.nodes[second]
- }
-
- func (r *reactorTestSuite) addAddresses(t *testing.T, node int, addrs []int) {
- peerManager := r.network.Nodes[r.nodes[node]].PeerManager
- for _, addr := range addrs {
- require.Less(t, addr, r.total)
- address := r.network.Nodes[r.nodes[addr]].NodeAddress
- added, err := peerManager.Add(address)
- require.NoError(t, err)
- require.True(t, added)
- }
- }
-
- func newNodeID(t *testing.T, id string) types.NodeID {
- nodeID, err := types.NewNodeID(strings.Repeat(id, 2*types.NodeIDByteLength))
- require.NoError(t, err)
- return nodeID
- }
-
- func randomNodeID(t *testing.T) types.NodeID {
- return types.NodeIDFromPubKey(ed25519.GenPrivKey().PubKey())
- }
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