package serverdiscovery import ( "context" "errors" "io" "testing" "time" mock "github.com/stretchr/testify/mock" "github.com/stretchr/testify/require" "google.golang.org/grpc/codes" "google.golang.org/grpc/status" acl "github.com/hashicorp/consul/acl" resolver "github.com/hashicorp/consul/acl/resolver" "github.com/hashicorp/consul/agent/consul/autopilotevents" "github.com/hashicorp/consul/agent/consul/stream" external "github.com/hashicorp/consul/agent/grpc-external" "github.com/hashicorp/consul/agent/grpc-external/testutils" "github.com/hashicorp/consul/proto-public/pbserverdiscovery" "github.com/hashicorp/consul/proto/prototest" "github.com/hashicorp/consul/sdk/testutil" ) const testACLToken = "eb61f1ed-65a4-4da6-8d3d-0564bd16c965" func TestWatchServers_StreamLifeCycle(t *testing.T) { // The flow for this test is roughly: // // 1. Open a WatchServers stream // 2. Observe the snapshot message is sent back through // the stream. // 3. Publish an event that changes to 2 servers. // 4. See the corresponding message sent back through the stream. // 5. Send a NewCloseSubscriptionEvent for the token secret. // 6. See that a new snapshot is taken and the corresponding message // gets sent back. If there were multiple subscribers for the topic // then this should not happen. However with the current EventPublisher // implementation, whenever the last subscriber for a topic has its // subscription closed then the publisher will delete the whole topic // buffer. When that happens, resubscribing will see no snapshot // cache, or latest event in the buffer and force creating a new snapshot. // 7. Publish another event to move to 3 servers. // 8. Ensure that the message gets sent through the stream. Also // this will validate that no other 1 or 2 server event is // seen after stream reinitialization. srv1 := autopilotevents.ReadyServerInfo{ ID: "9aeb73f6-e83e-43c1-bdc9-ca5e43efe3e4", Address: "198.18.0.1", Version: "1.12.0", } srv2 := autopilotevents.ReadyServerInfo{ ID: "eec8721f-c42b-48da-a5a5-07565158015e", Address: "198.18.0.2", Version: "1.12.3", } srv3 := autopilotevents.ReadyServerInfo{ ID: "256796f2-3a38-4f80-8cef-375c3cb3aa1f", Address: "198.18.0.3", Version: "1.12.3", } oneServerEventPayload := autopilotevents.EventPayloadReadyServers{srv1} twoServerEventPayload := autopilotevents.EventPayloadReadyServers{srv1, srv2} threeServerEventPayload := autopilotevents.EventPayloadReadyServers{srv1, srv2, srv3} oneServerResponse := &pbserverdiscovery.WatchServersResponse{ Servers: []*pbserverdiscovery.Server{ { Id: srv1.ID, Address: srv1.Address, Version: srv1.Version, }, }, } twoServerResponse := &pbserverdiscovery.WatchServersResponse{ Servers: []*pbserverdiscovery.Server{ { Id: srv1.ID, Address: srv1.Address, Version: srv1.Version, }, { Id: srv2.ID, Address: srv2.Address, Version: srv2.Version, }, }, } threeServerResponse := &pbserverdiscovery.WatchServersResponse{ Servers: []*pbserverdiscovery.Server{ { Id: srv1.ID, Address: srv1.Address, Version: srv1.Version, }, { Id: srv2.ID, Address: srv2.Address, Version: srv2.Version, }, { Id: srv3.ID, Address: srv3.Address, Version: srv3.Version, }, }, } // setup the event publisher and snapshot handler handler, publisher := setupPublisher(t) // we only expect this to be called once. For the rest of the // test we ought to be able to resume the stream. handler.expect(testACLToken, 0, 1, oneServerEventPayload) handler.expect(testACLToken, 2, 3, twoServerEventPayload) // setup the mock ACLResolver and its expectations // 2 times authorization should succeed and the third should fail. resolver := newMockACLResolver(t) resolver.On("ResolveTokenAndDefaultMeta", testACLToken, mock.Anything, mock.Anything). Return(testutils.TestAuthorizerServiceWriteAny(t), nil).Twice() // add the token to the requests context ctx := external.ContextWithToken(context.Background(), testACLToken) // setup the server server := NewServer(Config{ Publisher: publisher, Logger: testutil.Logger(t), ACLResolver: resolver, }) // Run the server and get a test client for it client := testClient(t, server) // 1. Open the WatchServers stream serverStream, err := client.WatchServers(ctx, &pbserverdiscovery.WatchServersRequest{Wan: false}) require.NoError(t, err) rspCh := handleReadyServersStream(t, serverStream) // 2. Observe the snapshot message is sent back through the stream. rsp := mustGetServers(t, rspCh) require.NotNil(t, rsp) prototest.AssertDeepEqual(t, oneServerResponse, rsp) // 3. Publish an event that changes to 2 servers. publisher.Publish([]stream.Event{ { Topic: autopilotevents.EventTopicReadyServers, Index: 2, Payload: twoServerEventPayload, }, }) // 4. See the corresponding message sent back through the stream. rsp = mustGetServers(t, rspCh) require.NotNil(t, rsp) prototest.AssertDeepEqual(t, twoServerResponse, rsp) // 5. Send a NewCloseSubscriptionEvent for the token secret. publisher.Publish([]stream.Event{ stream.NewCloseSubscriptionEvent([]string{testACLToken}), }) // 6. Observe another snapshot message rsp = mustGetServers(t, rspCh) require.NotNil(t, rsp) prototest.AssertDeepEqual(t, twoServerResponse, rsp) // 7. Publish another event to move to 3 servers. publisher.Publish([]stream.Event{ { Topic: autopilotevents.EventTopicReadyServers, Index: 4, Payload: threeServerEventPayload, }, }) // 8. Ensure that the message gets sent through the stream. Also // this will validate that no other 1 or 2 server event is // seen after stream reinitialization. rsp = mustGetServers(t, rspCh) require.NotNil(t, rsp) prototest.AssertDeepEqual(t, threeServerResponse, rsp) } func TestWatchServers_ACLToken_PermissionDenied(t *testing.T) { // setup the event publisher and snapshot handler _, publisher := setupPublisher(t) resolver := newMockACLResolver(t) resolver.On("ResolveTokenAndDefaultMeta", testACLToken, mock.Anything, mock.Anything). Return(testutils.TestAuthorizerDenyAll(t), nil).Once() // add the token to the requests context ctx := external.ContextWithToken(context.Background(), testACLToken) // setup the server server := NewServer(Config{ Publisher: publisher, Logger: testutil.Logger(t), ACLResolver: resolver, }) // Run the server and get a test client for it client := testClient(t, server) // 1. Open the WatchServers stream serverStream, err := client.WatchServers(ctx, &pbserverdiscovery.WatchServersRequest{Wan: false}) require.NoError(t, err) rspCh := handleReadyServersStream(t, serverStream) // Expect to get an Unauthenticated error immediately. err = mustGetError(t, rspCh) require.Equal(t, codes.PermissionDenied.String(), status.Code(err).String()) } func TestWatchServers_ACLToken_Unauthenticated(t *testing.T) { // setup the event publisher and snapshot handler _, publisher := setupPublisher(t) aclResolver := newMockACLResolver(t) aclResolver.On("ResolveTokenAndDefaultMeta", testACLToken, mock.Anything, mock.Anything). Return(resolver.Result{}, acl.ErrNotFound).Once() // add the token to the requests context ctx := external.ContextWithToken(context.Background(), testACLToken) // setup the server server := NewServer(Config{ Publisher: publisher, Logger: testutil.Logger(t), ACLResolver: aclResolver, }) // Run the server and get a test client for it client := testClient(t, server) // 1. Open the WatchServers stream serverStream, err := client.WatchServers(ctx, &pbserverdiscovery.WatchServersRequest{Wan: false}) require.NoError(t, err) rspCh := handleReadyServersStream(t, serverStream) // Expect to get an Unauthenticated error immediately. err = mustGetError(t, rspCh) require.Equal(t, codes.Unauthenticated.String(), status.Code(err).String()) } func handleReadyServersStream(t *testing.T, stream pbserverdiscovery.ServerDiscoveryService_WatchServersClient) <-chan serversOrError { t.Helper() rspCh := make(chan serversOrError) go func() { for { rsp, err := stream.Recv() if errors.Is(err, io.EOF) || errors.Is(err, context.Canceled) || errors.Is(err, context.DeadlineExceeded) { return } rspCh <- serversOrError{ rsp: rsp, err: err, } } }() return rspCh } func mustGetServers(t *testing.T, ch <-chan serversOrError) *pbserverdiscovery.WatchServersResponse { t.Helper() select { case rsp := <-ch: require.NoError(t, rsp.err) return rsp.rsp case <-time.After(1 * time.Second): t.Fatal("timeout waiting for WatchServersResponse") return nil } } func mustGetError(t *testing.T, ch <-chan serversOrError) error { t.Helper() select { case rsp := <-ch: require.Error(t, rsp.err) return rsp.err case <-time.After(1 * time.Second): t.Fatal("timeout waiting for WatchServersResponse") return nil } } type serversOrError struct { rsp *pbserverdiscovery.WatchServersResponse err error }