forked from TrueCloudLab/neoneo-go
e80c60a3b9
We have a number of queues for different purposes: * regular broadcast queue * direct p2p queue * high-priority queue And two basic egress scenarios: * direct p2p messages (replies to requests in Server's handle* methods) * broadcasted messages Low priority broadcasted messages: * transaction inventories * block inventories * notary inventories * non-consensus extensibles High-priority broadcasted messages: * consensus extensibles * getdata transaction requests from consensus process * getaddr requests P2P messages are a bit more complicated, most of the time they use p2p queue, but extensible message requests/replies use HP queue. Server's handle* code is run from Peer's handleIncoming, every peer has this thread that handles incoming messages. When working with the peer it's important to reply to requests and blocking this thread until we send (queue) a reply is fine, if the peer is slow we just won't get anything new from it. The queue used is irrelevant wrt this issue. Broadcasted messages are radically different, we want them to be delivered to many peers, but we don't care about specific ones. If it's delivered to 2/3 of the peers we're fine, if it's delivered to more of them --- it's not an issue. But doing this fairly is not an easy thing, current code tries performing unblocked sends and if this doesn't yield enough results it then blocks (but has a timeout, we can't wait indefinitely). But it does so in sequential manner, once the peer is chosen the code will wait for it (and only it) until timeout happens. What can be done instead is an attempt to push the message to all of the peers simultaneously (or close to that). If they all deliver --- OK, if some block and wait then we can wait until _any_ of them pushes the message through (or global timeout happens, we still can't wait forever). If we have enough deliveries then we can cancel pending ones and it's again not an error if these canceled threads still do their job. This makes the system more dynamic and adds some substantial processing overhead, but it's a networking code, any of this overhead is much lower than the actual packet delivery time. It also allows to spread the load more fairly, if there is any spare queue it'll get the packet and release the broadcaster. On the next broadcast iteration another peer is more likely to be chosen just because it didn't get a message previously (and had some time to deliver already queued messages). It works perfectly in tests, with optimal networking conditions we have much better block times and TPS increases by 5-25%% depending on the scenario. I'd go as far as to say that it fixes the original problem of #2678, because in this particular scenario we have empty queues in ~100% of the cases and this new logic will likely lead to 100% fan out in this case (cancelation just won't happen fast enough). But when the load grows and there is some waiting in the queue it will optimize out the slowest links.
204 lines
5 KiB
Go
204 lines
5 KiB
Go
package network
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import (
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"context"
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"fmt"
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"net"
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"sync"
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"sync/atomic"
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"testing"
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"time"
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"github.com/nspcc-dev/neo-go/internal/fakechain"
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"github.com/nspcc-dev/neo-go/pkg/config"
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"github.com/nspcc-dev/neo-go/pkg/io"
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"github.com/nspcc-dev/neo-go/pkg/network/capability"
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"github.com/nspcc-dev/neo-go/pkg/network/payload"
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"github.com/stretchr/testify/require"
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"go.uber.org/zap/zaptest"
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)
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type testDiscovery struct {
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sync.Mutex
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bad []string
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connected []string
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unregistered []string
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backfill []string
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}
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func newTestDiscovery([]string, time.Duration, Transporter) Discoverer { return new(testDiscovery) }
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func (d *testDiscovery) BackFill(addrs ...string) {
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d.Lock()
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defer d.Unlock()
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d.backfill = append(d.backfill, addrs...)
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}
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func (d *testDiscovery) Close() {}
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func (d *testDiscovery) PoolCount() int { return 0 }
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func (d *testDiscovery) RegisterBadAddr(addr string) {
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d.Lock()
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defer d.Unlock()
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d.bad = append(d.bad, addr)
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}
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func (d *testDiscovery) RegisterGoodAddr(string, capability.Capabilities) {}
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func (d *testDiscovery) RegisterConnectedAddr(addr string) {
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d.Lock()
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defer d.Unlock()
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d.connected = append(d.connected, addr)
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}
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func (d *testDiscovery) UnregisterConnectedAddr(addr string) {
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d.Lock()
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defer d.Unlock()
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d.unregistered = append(d.unregistered, addr)
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}
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func (d *testDiscovery) UnconnectedPeers() []string {
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d.Lock()
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defer d.Unlock()
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return d.unregistered
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}
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func (d *testDiscovery) RequestRemote(n int) {}
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func (d *testDiscovery) BadPeers() []string {
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d.Lock()
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defer d.Unlock()
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return d.bad
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}
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func (d *testDiscovery) GoodPeers() []AddressWithCapabilities { return []AddressWithCapabilities{} }
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var defaultMessageHandler = func(t *testing.T, msg *Message) {}
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type localPeer struct {
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netaddr net.TCPAddr
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server *Server
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version *payload.Version
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lastBlockIndex uint32
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handshaked bool
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isFullNode bool
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t *testing.T
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messageHandler func(t *testing.T, msg *Message)
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pingSent int
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getAddrSent int
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droppedWith atomic.Value
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}
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func newLocalPeer(t *testing.T, s *Server) *localPeer {
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naddr, _ := net.ResolveTCPAddr("tcp", "0.0.0.0:0")
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return &localPeer{
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t: t,
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server: s,
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netaddr: *naddr,
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messageHandler: defaultMessageHandler,
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}
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}
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func (p *localPeer) RemoteAddr() net.Addr {
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return &p.netaddr
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}
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func (p *localPeer) PeerAddr() net.Addr {
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return &p.netaddr
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}
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func (p *localPeer) StartProtocol() {}
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func (p *localPeer) Disconnect(err error) {
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if p.droppedWith.Load() == nil {
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p.droppedWith.Store(err)
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}
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fmt.Println("peer dropped:", err)
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p.server.unregister <- peerDrop{p, err}
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}
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func (p *localPeer) EnqueueMessage(msg *Message) error {
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b, err := msg.Bytes()
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if err != nil {
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return err
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}
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return p.EnqueueHPPacket(b)
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}
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func (p *localPeer) BroadcastPacket(_ context.Context, m []byte) error {
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return p.EnqueueHPPacket(m)
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}
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func (p *localPeer) EnqueueP2PMessage(msg *Message) error {
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return p.EnqueueMessage(msg)
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}
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func (p *localPeer) EnqueueP2PPacket(m []byte) error {
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return p.EnqueueHPPacket(m)
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}
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func (p *localPeer) BroadcastHPPacket(_ context.Context, m []byte) error {
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return p.EnqueueHPPacket(m)
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}
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func (p *localPeer) EnqueueHPPacket(m []byte) error {
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msg := &Message{}
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r := io.NewBinReaderFromBuf(m)
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err := msg.Decode(r)
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if err == nil {
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p.messageHandler(p.t, msg)
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}
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return nil
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}
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func (p *localPeer) Version() *payload.Version {
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return p.version
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}
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func (p *localPeer) LastBlockIndex() uint32 {
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return p.lastBlockIndex
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}
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func (p *localPeer) HandleVersion(v *payload.Version) error {
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p.version = v
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return nil
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}
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func (p *localPeer) SendVersion() error {
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m, err := p.server.getVersionMsg()
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if err != nil {
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return err
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}
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_ = p.EnqueueMessage(m)
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return nil
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}
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func (p *localPeer) SendVersionAck(m *Message) error {
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_ = p.EnqueueMessage(m)
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return nil
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}
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func (p *localPeer) HandleVersionAck() error {
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p.handshaked = true
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return nil
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}
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func (p *localPeer) SendPing(m *Message) error {
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p.pingSent++
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_ = p.EnqueueMessage(m)
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return nil
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}
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func (p *localPeer) HandlePing(ping *payload.Ping) error {
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p.lastBlockIndex = ping.LastBlockIndex
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return nil
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}
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func (p *localPeer) HandlePong(pong *payload.Ping) error {
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p.lastBlockIndex = pong.LastBlockIndex
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p.pingSent--
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return nil
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}
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func (p *localPeer) Handshaked() bool {
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return p.handshaked
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}
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func (p *localPeer) IsFullNode() bool {
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return p.isFullNode
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}
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func (p *localPeer) AddGetAddrSent() {
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p.getAddrSent++
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}
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func (p *localPeer) CanProcessAddr() bool {
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p.getAddrSent--
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return p.getAddrSent >= 0
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}
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func newTestServer(t *testing.T, serverConfig ServerConfig) *Server {
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return newTestServerWithCustomCfg(t, serverConfig, nil)
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}
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func newTestServerWithCustomCfg(t *testing.T, serverConfig ServerConfig, protocolCfg func(*config.ProtocolConfiguration)) *Server {
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s, err := newServerFromConstructors(serverConfig, fakechain.NewFakeChainWithCustomCfg(protocolCfg), new(fakechain.FakeStateSync), zaptest.NewLogger(t),
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newFakeTransp, newTestDiscovery)
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require.NoError(t, err)
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t.Cleanup(s.discovery.Close)
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return s
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}
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