autopilot/agent_test: add TestAgentQuitWhenPendingConns
TestAgentQuitWhenPendingConns tests that we are able to stop the autopilot agent even though there are pending connections to nodes.
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@ -1546,3 +1546,156 @@ func TestAgentSkipPendingConns(t *testing.T) {
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t.Fatalf("agent should have attempted connection")
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}
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}
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// TestAgentQuitWhenPendingConns tests that we are able to stop the autopilot
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// agent even though there are pending connections to nodes.
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func TestAgentQuitWhenPendingConns(t *testing.T) {
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t.Parallel()
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// First, we'll create all the dependencies that we'll need in order to
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// create the autopilot agent.
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self, err := randKey()
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if err != nil {
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t.Fatalf("unable to generate key: %v", err)
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}
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quit := make(chan struct{})
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defer close(quit)
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heuristic := &mockHeuristic{
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nodeScoresArgs: make(chan directiveArg),
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nodeScoresResps: make(chan map[NodeID]*NodeScore),
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quit: quit,
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}
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constraints := &mockConstraints{
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moreChansResps: make(chan moreChansResp),
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quit: quit,
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}
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chanController := &mockChanController{
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openChanSignals: make(chan openChanIntent),
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}
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memGraph, _, _ := newMemChanGraph()
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// The wallet will start with 6 BTC available.
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const walletBalance = btcutil.SatoshiPerBitcoin * 6
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connect := make(chan chan error)
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// With the dependencies we created, we can now create the initial
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// agent itself.
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testCfg := Config{
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Self: self,
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Heuristic: heuristic,
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ChanController: chanController,
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WalletBalance: func() (btcutil.Amount, error) {
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return walletBalance, nil
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},
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ConnectToPeer: func(*btcec.PublicKey, []net.Addr) (bool, error) {
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errChan := make(chan error)
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select {
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case connect <- errChan:
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case <-quit:
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return false, errors.New("quit")
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}
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select {
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case err := <-errChan:
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return false, err
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case <-quit:
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return false, errors.New("quit")
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}
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},
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DisconnectPeer: func(*btcec.PublicKey) error {
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return nil
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},
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Graph: memGraph,
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Constraints: constraints,
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}
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initialChans := []Channel{}
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agent, err := New(testCfg, initialChans)
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if err != nil {
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t.Fatalf("unable to create agent: %v", err)
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}
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// To ensure the heuristic doesn't block on quitting the agent, we'll
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// use the agent's quit chan to signal when it should also stop.
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heuristic.quit = agent.quit
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// With the autopilot agent and all its dependencies we'll start the
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// primary controller goroutine.
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if err := agent.Start(); err != nil {
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t.Fatalf("unable to start agent: %v", err)
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}
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defer agent.Stop()
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// We'll only return a single directive for a pre-chosen node.
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nodeKey, err := memGraph.addRandNode()
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if err != nil {
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t.Fatalf("unable to generate key: %v", err)
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}
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nodeID := NewNodeID(nodeKey)
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nodeDirective := &NodeScore{
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NodeID: nodeID,
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Score: 0.5,
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}
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// We'll send an initial "yes" response to advance the agent past its
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// initial check. This will cause it to try to get directives from the
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// graph.
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select {
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case constraints.moreChansResps <- moreChansResp{
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numMore: 1,
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amt: walletBalance,
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}:
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case <-time.After(time.Second * 10):
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t.Fatalf("heuristic wasn't queried in time")
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}
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// Check the args.
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select {
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case req := <-heuristic.nodeScoresArgs:
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if len(req.nodes) != 1 {
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t.Fatalf("expected %v nodes, instead "+
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"had %v", 1, len(req.nodes))
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}
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if _, ok := req.nodes[nodeID]; !ok {
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t.Fatalf("node not included in arguments")
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}
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case <-time.After(time.Second * 10):
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t.Fatalf("select wasn't queried in time")
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}
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// Respond with a scored directive.
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select {
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case heuristic.nodeScoresResps <- map[NodeID]*NodeScore{
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NewNodeID(nodeKey): nodeDirective,
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}:
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case <-time.After(time.Second * 10):
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t.Fatalf("heuristic wasn't queried in time")
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}
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// The agent should attempt connection to the node.
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select {
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case <-connect:
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case <-time.After(time.Second * 10):
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t.Fatalf("agent did not attempt connection")
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}
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// Make sure that we are able to stop the agent, even though there is a
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// pending connection.
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stopped := make(chan error)
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go func() {
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stopped <- agent.Stop()
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}()
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select {
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case err := <-stopped:
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if err != nil {
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t.Fatalf("error stopping agent: %v", err)
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}
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case <-time.After(2 * time.Second):
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t.Fatalf("unable to stop agent")
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}
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}
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