package p2ptest
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import (
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"math/rand"
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"testing"
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"time"
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"github.com/gogo/protobuf/proto"
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"github.com/stretchr/testify/require"
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dbm "github.com/tendermint/tm-db"
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"github.com/tendermint/tendermint/crypto"
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"github.com/tendermint/tendermint/crypto/ed25519"
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"github.com/tendermint/tendermint/libs/log"
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"github.com/tendermint/tendermint/p2p"
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)
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// Network sets up an in-memory network that can be used for high-level P2P
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// testing. It creates an arbitrary number of nodes that are connected to each
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// other, and can open channels across all nodes with custom reactors.
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type Network struct {
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Nodes map[p2p.NodeID]*Node
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logger log.Logger
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memoryNetwork *p2p.MemoryNetwork
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}
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// NetworkOptions is an argument structure to parameterize the
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// MakeNetwork function.
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type NetworkOptions struct {
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NumNodes int
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BufferSize int
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}
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func (opts *NetworkOptions) setDefaults() {
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if opts.BufferSize == 0 {
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opts.BufferSize = 1
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}
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}
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// MakeNetwork creates a test network with the given number of nodes and
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// connects them to each other.
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func MakeNetwork(t *testing.T, opts NetworkOptions) *Network {
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opts.setDefaults()
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logger := log.TestingLogger()
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network := &Network{
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Nodes: map[p2p.NodeID]*Node{},
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logger: logger,
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memoryNetwork: p2p.NewMemoryNetwork(logger, opts.BufferSize),
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}
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for i := 0; i < opts.NumNodes; i++ {
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node := network.MakeNode(t)
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network.Nodes[node.NodeID] = node
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}
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return network
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}
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// Start starts the network by setting up a list of node addresses to dial in
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// addition to creating a peer update subscription for each node. Finally, all
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// nodes are connected to each other.
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func (n *Network) Start(t *testing.T) {
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// Set up a list of node addresses to dial, and a peer update subscription
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// for each node.
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dialQueue := []p2p.NodeAddress{}
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subs := map[p2p.NodeID]*p2p.PeerUpdates{}
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for _, node := range n.Nodes {
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dialQueue = append(dialQueue, node.NodeAddress)
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subs[node.NodeID] = node.PeerManager.Subscribe()
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defer subs[node.NodeID].Close()
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}
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// For each node, dial the nodes that it still doesn't have a connection to
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// (either inbound or outbound), and wait for both sides to confirm the
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// connection via the subscriptions.
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for i, sourceAddress := range dialQueue {
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sourceNode := n.Nodes[sourceAddress.NodeID]
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sourceSub := subs[sourceAddress.NodeID]
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for _, targetAddress := range dialQueue[i+1:] { // nodes <i already connected
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targetNode := n.Nodes[targetAddress.NodeID]
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targetSub := subs[targetAddress.NodeID]
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require.NoError(t, sourceNode.PeerManager.Add(targetAddress))
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select {
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case peerUpdate := <-sourceSub.Updates():
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require.Equal(t, p2p.PeerUpdate{
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NodeID: targetNode.NodeID,
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Status: p2p.PeerStatusUp,
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}, peerUpdate)
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case <-time.After(time.Second):
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require.Fail(t, "timed out waiting for peer", "%v dialing %v",
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sourceNode.NodeID, targetNode.NodeID)
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}
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select {
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case peerUpdate := <-targetSub.Updates():
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require.Equal(t, p2p.PeerUpdate{
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NodeID: sourceNode.NodeID,
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Status: p2p.PeerStatusUp,
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}, peerUpdate)
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case <-time.After(time.Second):
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require.Fail(t, "timed out waiting for peer", "%v accepting %v",
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targetNode.NodeID, sourceNode.NodeID)
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}
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// Add the address to the target as well, so it's able to dial the
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// source back if that's even necessary.
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require.NoError(t, targetNode.PeerManager.Add(sourceAddress))
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}
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}
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}
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// NodeIDs returns the network's node IDs.
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func (n *Network) NodeIDs() []p2p.NodeID {
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ids := []p2p.NodeID{}
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for id := range n.Nodes {
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ids = append(ids, id)
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}
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return ids
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}
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// MakeChannels makes a channel on all nodes and returns them, automatically
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// doing error checks and cleanups.
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func (n *Network) MakeChannels(
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t *testing.T,
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chID p2p.ChannelID,
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messageType proto.Message,
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size int,
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) map[p2p.NodeID]*p2p.Channel {
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channels := map[p2p.NodeID]*p2p.Channel{}
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for _, node := range n.Nodes {
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channels[node.NodeID] = node.MakeChannel(t, chID, messageType, size)
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}
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return channels
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}
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// MakeChannelsNoCleanup makes a channel on all nodes and returns them,
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// automatically doing error checks. The caller must ensure proper cleanup of
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// all the channels.
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func (n *Network) MakeChannelsNoCleanup(
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t *testing.T,
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chID p2p.ChannelID,
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messageType proto.Message,
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size int,
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) map[p2p.NodeID]*p2p.Channel {
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channels := map[p2p.NodeID]*p2p.Channel{}
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for _, node := range n.Nodes {
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channels[node.NodeID] = node.MakeChannelNoCleanup(t, chID, messageType, size)
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}
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return channels
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}
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// RandomNode returns a random node.
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func (n *Network) RandomNode() *Node {
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nodes := make([]*Node, 0, len(n.Nodes))
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for _, node := range n.Nodes {
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nodes = append(nodes, node)
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}
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return nodes[rand.Intn(len(nodes))] // nolint:gosec
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}
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// Peers returns a node's peers (i.e. everyone except itself).
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func (n *Network) Peers(id p2p.NodeID) []*Node {
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peers := make([]*Node, 0, len(n.Nodes)-1)
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for _, peer := range n.Nodes {
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if peer.NodeID != id {
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peers = append(peers, peer)
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}
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}
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return peers
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}
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// Remove removes a node from the network, stopping it and waiting for all other
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// nodes to pick up the disconnection.
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func (n *Network) Remove(t *testing.T, id p2p.NodeID) {
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require.Contains(t, n.Nodes, id)
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node := n.Nodes[id]
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delete(n.Nodes, id)
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subs := []*p2p.PeerUpdates{}
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for _, peer := range n.Nodes {
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sub := peer.PeerManager.Subscribe()
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defer sub.Close()
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subs = append(subs, sub)
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}
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require.NoError(t, node.Transport.Close())
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if node.Router.IsRunning() {
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require.NoError(t, node.Router.Stop())
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}
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node.PeerManager.Close()
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for _, sub := range subs {
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RequireUpdate(t, sub, p2p.PeerUpdate{
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NodeID: node.NodeID,
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Status: p2p.PeerStatusDown,
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})
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}
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}
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// Node is a node in a Network, with a Router and a PeerManager.
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type Node struct {
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NodeID p2p.NodeID
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NodeInfo p2p.NodeInfo
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NodeAddress p2p.NodeAddress
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PrivKey crypto.PrivKey
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Router *p2p.Router
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PeerManager *p2p.PeerManager
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Transport *p2p.MemoryTransport
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}
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// MakeNode creates a new Node configured for the network with a
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// running peer manager, but does not add it to the existing
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// network. Callers are responsible for updating peering relationships.
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func (n *Network) MakeNode(t *testing.T) *Node {
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privKey := ed25519.GenPrivKey()
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nodeID := p2p.NodeIDFromPubKey(privKey.PubKey())
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nodeInfo := p2p.NodeInfo{
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NodeID: nodeID,
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ListenAddr: "0.0.0.0:0", // FIXME: We have to fake this for now.
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Moniker: string(nodeID),
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}
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transport := n.memoryNetwork.CreateTransport(nodeID)
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require.Len(t, transport.Endpoints(), 1, "transport not listening on 1 endpoint")
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peerManager, err := p2p.NewPeerManager(nodeID, dbm.NewMemDB(), p2p.PeerManagerOptions{
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MinRetryTime: 10 * time.Millisecond,
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MaxRetryTime: 100 * time.Millisecond,
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RetryTimeJitter: time.Millisecond,
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})
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require.NoError(t, err)
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router, err := p2p.NewRouter(
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n.logger,
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p2p.NopMetrics(),
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nodeInfo,
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privKey,
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peerManager,
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[]p2p.Transport{transport},
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p2p.RouterOptions{},
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)
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require.NoError(t, err)
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require.NoError(t, router.Start())
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t.Cleanup(func() {
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if router.IsRunning() {
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require.NoError(t, router.Stop())
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}
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peerManager.Close()
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require.NoError(t, transport.Close())
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})
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return &Node{
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NodeID: nodeID,
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NodeInfo: nodeInfo,
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NodeAddress: transport.Endpoints()[0].NodeAddress(nodeID),
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PrivKey: privKey,
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Router: router,
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PeerManager: peerManager,
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Transport: transport,
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}
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}
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// MakeChannel opens a channel, with automatic error handling and cleanup. On
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// test cleanup, it also checks that the channel is empty, to make sure
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// all expected messages have been asserted.
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func (n *Node) MakeChannel(t *testing.T, chID p2p.ChannelID, messageType proto.Message, size int) *p2p.Channel {
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channel, err := n.Router.OpenChannel(chID, messageType, size)
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require.NoError(t, err)
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t.Cleanup(func() {
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RequireEmpty(t, channel)
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channel.Close()
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})
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return channel
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}
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// MakeChannelNoCleanup opens a channel, with automatic error handling. The
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// caller must ensure proper cleanup of the channel.
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func (n *Node) MakeChannelNoCleanup(
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t *testing.T,
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chID p2p.ChannelID,
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messageType proto.Message,
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size int,
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) *p2p.Channel {
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channel, err := n.Router.OpenChannel(chID, messageType, size)
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require.NoError(t, err)
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return channel
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}
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// MakePeerUpdates opens a peer update subscription, with automatic cleanup.
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// It checks that all updates have been consumed during cleanup.
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func (n *Node) MakePeerUpdates(t *testing.T) *p2p.PeerUpdates {
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sub := n.PeerManager.Subscribe()
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t.Cleanup(func() {
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RequireNoUpdates(t, sub)
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sub.Close()
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})
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return sub
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}
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