package xds import ( "errors" "sync/atomic" "testing" "time" envoy_discovery_v3 "github.com/envoyproxy/go-control-plane/envoy/service/discovery/v3" "github.com/golang/protobuf/proto" "github.com/stretchr/testify/require" rpcstatus "google.golang.org/genproto/googleapis/rpc/status" "google.golang.org/grpc/codes" "google.golang.org/grpc/status" "github.com/hashicorp/consul/acl" "github.com/hashicorp/consul/agent/proxycfg" "github.com/hashicorp/consul/agent/structs" ) // NOTE: For these tests, prefer not using xDS protobuf "factory" methods if // possible to avoid using them to test themselves. // // Stick to very straightforward stuff in xds_protocol_helpers_test.go. func TestServer_DeltaAggregatedResources_v3_BasicProtocol_TCP(t *testing.T) { aclResolve := func(id string) (acl.Authorizer, error) { // Allow all return acl.RootAuthorizer("manage"), nil } scenario := newTestServerDeltaScenario(t, aclResolve, "web-sidecar-proxy", "", 0) mgr, errCh, envoy := scenario.mgr, scenario.errCh, scenario.envoy sid := structs.NewServiceID("web-sidecar-proxy", nil) // Register the proxy to create state needed to Watch() on mgr.RegisterProxy(t, sid) var snap *proxycfg.ConfigSnapshot runStep(t, "initial setup", func(t *testing.T) { snap = newTestSnapshot(t, nil, "") // Send initial cluster discover. We'll assume we are testing a partial // reconnect and include some initial resource versions that will be // cleaned up. envoy.SendDeltaReq(t, ClusterType, &envoy_discovery_v3.DeltaDiscoveryRequest{ InitialResourceVersions: mustMakeVersionMap(t, makeTestCluster(t, snap, "tcp:geo-cache"), ), }) // Check no response sent yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) requireProtocolVersionGauge(t, scenario, "v3", 1) // Deliver a new snapshot (tcp with one tcp upstream) mgr.DeliverConfig(t, sid, snap) }) runStep(t, "first sync", func(t *testing.T) { assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ClusterType, Nonce: hexString(1), Resources: makeTestResources(t, makeTestCluster(t, snap, "tcp:local_app"), makeTestCluster(t, snap, "tcp:db"), // SAME_AS_INITIAL_VERSION: makeTestCluster(t, snap, "tcp:geo-cache"), ), }) // Envoy then tries to discover endpoints for those clusters. envoy.SendDeltaReq(t, EndpointType, &envoy_discovery_v3.DeltaDiscoveryRequest{ // We'll assume we are testing a partial "reconnect" InitialResourceVersions: mustMakeVersionMap(t, makeTestEndpoints(t, snap, "tcp:geo-cache"), ), ResourceNamesSubscribe: []string{ "db.default.dc1.internal.11111111-2222-3333-4444-555555555555.consul", // "geo-cache.default.dc1.query.11111111-2222-3333-4444-555555555555.consul", // // Include "fake-endpoints" here to test subscribing to an unknown // thing and have consul tell us there's no data for it. "fake-endpoints", }, }) // It also (in parallel) issues the cluster ACK envoy.SendDeltaReqACK(t, ClusterType, 1) // We should get a response immediately since the config is already present in // the server for endpoints. Note that this should not be racy if the server // is behaving well since the Cluster send above should be blocked until we // deliver a new config version. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(2), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "tcp:db"), // SAME_AS_INITIAL_VERSION: makeTestEndpoints(t, snap, "tcp:geo-cache"), ), }) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // Envoy now sends listener request envoy.SendDeltaReq(t, ListenerType, nil) // It also (in parallel) issues the endpoint ACK envoy.SendDeltaReqACK(t, EndpointType, 2) // And should get a response immediately. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ListenerType, Nonce: hexString(3), Resources: makeTestResources(t, makeTestListener(t, snap, "tcp:public_listener"), makeTestListener(t, snap, "tcp:db"), makeTestListener(t, snap, "tcp:geo-cache"), ), }) // cleanup unused resources now that we've created/updated relevant things assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(4), RemovedResources: []string{ "fake-endpoints", // correcting the errant subscription }, }) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // ACKs the listener envoy.SendDeltaReqACK(t, ListenerType, 3) // ACK the endpoint removal envoy.SendDeltaReqACK(t, EndpointType, 4) // If we re-subscribe to something even if there are no changes we get a // fresh copy. envoy.SendDeltaReq(t, EndpointType, &envoy_discovery_v3.DeltaDiscoveryRequest{ ResourceNamesSubscribe: []string{ "geo-cache.default.dc1.query.11111111-2222-3333-4444-555555555555.consul", }, }) assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(5), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "tcp:geo-cache"), ), }) envoy.SendDeltaReqACK(t, EndpointType, 5) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) deleteAllButOneEndpoint := func(snap *proxycfg.ConfigSnapshot, svc, targetID string) { snap.ConnectProxy.ConfigSnapshotUpstreams.WatchedUpstreamEndpoints[svc][targetID] = snap.ConnectProxy.ConfigSnapshotUpstreams.WatchedUpstreamEndpoints[svc][targetID][0:1] } runStep(t, "avoid sending config for unsubscribed resource", func(t *testing.T) { envoy.SendDeltaReq(t, EndpointType, &envoy_discovery_v3.DeltaDiscoveryRequest{ ResourceNamesUnsubscribe: []string{ "db.default.dc1.internal.11111111-2222-3333-4444-555555555555.consul", }, }) assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // now reconfigure the snapshot and JUST edit the endpoints to strike one of the two current endpoints for DB snap = newTestSnapshot(t, snap, "") deleteAllButOneEndpoint(snap, "db", "db.default.dc1") mgr.DeliverConfig(t, sid, snap) // We never send an EDS reply about this change. assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) runStep(t, "restore endpoint subscription", func(t *testing.T) { // Fix the snapshot snap = newTestSnapshot(t, snap, "") mgr.DeliverConfig(t, sid, snap) // We never send an EDS reply about this change. assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // and fix the subscription envoy.SendDeltaReq(t, EndpointType, &envoy_discovery_v3.DeltaDiscoveryRequest{ ResourceNamesSubscribe: []string{ "db.default.dc1.internal.11111111-2222-3333-4444-555555555555.consul", }, }) assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(6), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "tcp:db"), ), }) envoy.SendDeltaReqACK(t, EndpointType, 6) assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) runStep(t, "simulate envoy NACKing an endpoint update", func(t *testing.T) { // Trigger only an EDS update. snap = newTestSnapshot(t, snap, "") deleteAllButOneEndpoint(snap, "db", "db.default.dc1") mgr.DeliverConfig(t, sid, snap) // Send envoy an EDS update. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(7), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "tcp:db[0]"), ), }) envoy.SendDeltaReqNACK(t, EndpointType, 7, &rpcstatus.Status{}) // Send it again. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(8), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "tcp:db[0]"), ), }) envoy.SendDeltaReqACK(t, EndpointType, 8) assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) // NOTE: this has to be the last subtest since it kills the stream runStep(t, "simulate an envoy error sending an update to envoy", func(t *testing.T) { // Force sends to fail envoy.SetSendErr(errors.New("test error")) // Trigger only an EDS update (flipping BACK to 2 endpoints in the LBassignment) snap = newTestSnapshot(t, snap, "") mgr.DeliverConfig(t, sid, snap) // We never send any replies about this change because we died. assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) envoy.Close() select { case err := <-errCh: // Envoy died. expect := status.Errorf(codes.Unavailable, "failed to send upsert reply for type %q: test error", EndpointType) require.EqualError(t, err, expect.Error()) case <-time.After(50 * time.Millisecond): t.Fatalf("timed out waiting for handler to finish") } } func TestServer_DeltaAggregatedResources_v3_BasicProtocol_HTTP2(t *testing.T) { aclResolve := func(id string) (acl.Authorizer, error) { // Allow all return acl.RootAuthorizer("manage"), nil } scenario := newTestServerDeltaScenario(t, aclResolve, "web-sidecar-proxy", "", 0) mgr, errCh, envoy := scenario.mgr, scenario.errCh, scenario.envoy sid := structs.NewServiceID("web-sidecar-proxy", nil) // Register the proxy to create state needed to Watch() on mgr.RegisterProxy(t, sid) // Send initial cluster discover (empty payload) envoy.SendDeltaReq(t, ClusterType, nil) // Check no response sent yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // Deliver a new snapshot (tcp with one http upstream) snap := newTestSnapshot(t, nil, "http2", &structs.ServiceConfigEntry{ Kind: structs.ServiceDefaults, Name: "db", Protocol: "http2", }) mgr.DeliverConfig(t, sid, snap) runStep(t, "no-rds", func(t *testing.T) { assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ClusterType, Nonce: hexString(1), Resources: makeTestResources(t, makeTestCluster(t, snap, "tcp:local_app"), makeTestCluster(t, snap, "http2:db"), makeTestCluster(t, snap, "tcp:geo-cache"), ), }) // Envoy then tries to discover endpoints for those clusters. envoy.SendDeltaReq(t, EndpointType, &envoy_discovery_v3.DeltaDiscoveryRequest{ ResourceNamesSubscribe: []string{ "db.default.dc1.internal.11111111-2222-3333-4444-555555555555.consul", "geo-cache.default.dc1.query.11111111-2222-3333-4444-555555555555.consul", }, }) // It also (in parallel) issues the cluster ACK envoy.SendDeltaReqACK(t, ClusterType, 1) // We should get a response immediately since the config is already present in // the server for endpoints. Note that this should not be racy if the server // is behaving well since the Cluster send above should be blocked until we // deliver a new config version. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(2), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "http2:db"), makeTestEndpoints(t, snap, "tcp:geo-cache"), ), }) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // Envoy now sends listener request envoy.SendDeltaReq(t, ListenerType, nil) // It also (in parallel) issues the endpoint ACK envoy.SendDeltaReqACK(t, EndpointType, 2) // And should get a response immediately. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ListenerType, Nonce: hexString(3), Resources: makeTestResources(t, makeTestListener(t, snap, "tcp:public_listener"), makeTestListener(t, snap, "http2:db"), makeTestListener(t, snap, "tcp:geo-cache"), ), }) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // ACKs the listener envoy.SendDeltaReqACK(t, ListenerType, 3) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) // -- reconfigure with a no-op discovery chain snap = newTestSnapshot(t, snap, "http2", &structs.ServiceConfigEntry{ Kind: structs.ServiceDefaults, Name: "db", Protocol: "http2", }, &structs.ServiceRouterConfigEntry{ Kind: structs.ServiceRouter, Name: "db", Routes: nil, }) mgr.DeliverConfig(t, sid, snap) runStep(t, "with-rds", func(t *testing.T) { // Just the "db" listener sees a change assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ListenerType, Nonce: hexString(4), Resources: makeTestResources(t, makeTestListener(t, snap, "http2:db:rds"), ), }) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // Envoy now sends routes request envoy.SendDeltaReq(t, RouteType, &envoy_discovery_v3.DeltaDiscoveryRequest{ ResourceNamesSubscribe: []string{ "db", }, }) // ACKs the listener envoy.SendDeltaReqACK(t, ListenerType, 4) // And should get a response immediately. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: RouteType, Nonce: hexString(5), Resources: makeTestResources(t, makeTestRoute(t, "http2:db"), ), }) envoy.SendDeltaReqACK(t, RouteType, 5) assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) envoy.Close() select { case err := <-errCh: require.NoError(t, err) case <-time.After(50 * time.Millisecond): t.Fatalf("timed out waiting for handler to finish") } } func TestServer_DeltaAggregatedResources_v3_BasicProtocol_TCP_clusterChangesImpactEndpoints(t *testing.T) { aclResolve := func(id string) (acl.Authorizer, error) { // Allow all return acl.RootAuthorizer("manage"), nil } scenario := newTestServerDeltaScenario(t, aclResolve, "web-sidecar-proxy", "", 0) mgr, errCh, envoy := scenario.mgr, scenario.errCh, scenario.envoy sid := structs.NewServiceID("web-sidecar-proxy", nil) // Register the proxy to create state needed to Watch() on mgr.RegisterProxy(t, sid) var snap *proxycfg.ConfigSnapshot runStep(t, "get into initial state", func(t *testing.T) { snap = newTestSnapshot(t, nil, "") // Send initial cluster discover. envoy.SendDeltaReq(t, ClusterType, &envoy_discovery_v3.DeltaDiscoveryRequest{}) // Check no response sent yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) requireProtocolVersionGauge(t, scenario, "v3", 1) // Deliver a new snapshot (tcp with one tcp upstream) mgr.DeliverConfig(t, sid, snap) assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ClusterType, Nonce: hexString(1), Resources: makeTestResources(t, makeTestCluster(t, snap, "tcp:local_app"), makeTestCluster(t, snap, "tcp:db"), makeTestCluster(t, snap, "tcp:geo-cache"), ), }) // Envoy then tries to discover endpoints for those clusters. envoy.SendDeltaReq(t, EndpointType, &envoy_discovery_v3.DeltaDiscoveryRequest{ ResourceNamesSubscribe: []string{ "db.default.dc1.internal.11111111-2222-3333-4444-555555555555.consul", "geo-cache.default.dc1.query.11111111-2222-3333-4444-555555555555.consul", }, }) // It also (in parallel) issues the cluster ACK envoy.SendDeltaReqACK(t, ClusterType, 1) // We should get a response immediately since the config is already present in // the server for endpoints. Note that this should not be racy if the server // is behaving well since the Cluster send above should be blocked until we // deliver a new config version. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(2), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "tcp:db"), makeTestEndpoints(t, snap, "tcp:geo-cache"), ), }) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // Envoy now sends listener request envoy.SendDeltaReq(t, ListenerType, nil) // It also (in parallel) issues the endpoint ACK envoy.SendDeltaReqACK(t, EndpointType, 2) // And should get a response immediately. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ListenerType, Nonce: hexString(3), Resources: makeTestResources(t, makeTestListener(t, snap, "tcp:public_listener"), makeTestListener(t, snap, "tcp:db"), makeTestListener(t, snap, "tcp:geo-cache"), ), }) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // ACKs the listener envoy.SendDeltaReqACK(t, ListenerType, 3) }) runStep(t, "trigger cluster update needing implicit endpoint replacements", func(t *testing.T) { // Update the snapshot in a way that causes a single cluster update. snap = newTestSnapshot(t, snap, "", &structs.ServiceResolverConfigEntry{ Kind: structs.ServiceResolver, Name: "db", ConnectTimeout: 1337 * time.Second, }) mgr.DeliverConfig(t, sid, snap) // The cluster is updated assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ClusterType, Nonce: hexString(4), Resources: makeTestResources(t, // SAME makeTestCluster(t, snap, "tcp:local_app"), makeTestCluster(t, snap, "tcp:db:timeout"), // SAME makeTestCluster(t, snap, "tcp:geo-cache"), ), }) envoy.SendDeltaReqACK(t, ClusterType, 4) // And we re-send the endpoints for the updated cluster after getting the // ACK for the cluster. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(5), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "tcp:db"), // SAME makeTestEndpoints(t, snap, "tcp:geo-cache"), ), }) envoy.SendDeltaReqACK(t, EndpointType, 5) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) envoy.Close() select { case err := <-errCh: require.NoError(t, err) case <-time.After(50 * time.Millisecond): t.Fatalf("timed out waiting for handler to finish") } } func TestServer_DeltaAggregatedResources_v3_BasicProtocol_HTTP2_RDS_listenerChangesImpactRoutes(t *testing.T) { aclResolve := func(id string) (acl.Authorizer, error) { // Allow all return acl.RootAuthorizer("manage"), nil } scenario := newTestServerDeltaScenario(t, aclResolve, "web-sidecar-proxy", "", 0) mgr, errCh, envoy := scenario.mgr, scenario.errCh, scenario.envoy sid := structs.NewServiceID("web-sidecar-proxy", nil) // Register the proxy to create state needed to Watch() on mgr.RegisterProxy(t, sid) var snap *proxycfg.ConfigSnapshot runStep(t, "get into initial state", func(t *testing.T) { // Send initial cluster discover (empty payload) envoy.SendDeltaReq(t, ClusterType, nil) // Check no response sent yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // Deliver a new snapshot (tcp with one http upstream with no-op disco chain) snap = newTestSnapshot(t, nil, "http2", &structs.ServiceConfigEntry{ Kind: structs.ServiceDefaults, Name: "db", Protocol: "http2", }, &structs.ServiceRouterConfigEntry{ Kind: structs.ServiceRouter, Name: "db", Routes: nil, }) mgr.DeliverConfig(t, sid, snap) assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ClusterType, Nonce: hexString(1), Resources: makeTestResources(t, makeTestCluster(t, snap, "tcp:local_app"), makeTestCluster(t, snap, "http2:db"), makeTestCluster(t, snap, "tcp:geo-cache"), ), }) // Envoy then tries to discover endpoints for those clusters. envoy.SendDeltaReq(t, EndpointType, &envoy_discovery_v3.DeltaDiscoveryRequest{ ResourceNamesSubscribe: []string{ "db.default.dc1.internal.11111111-2222-3333-4444-555555555555.consul", "geo-cache.default.dc1.query.11111111-2222-3333-4444-555555555555.consul", }, }) // It also (in parallel) issues the cluster ACK envoy.SendDeltaReqACK(t, ClusterType, 1) // We should get a response immediately since the config is already present in // the server for endpoints. Note that this should not be racy if the server // is behaving well since the Cluster send above should be blocked until we // deliver a new config version. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(2), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "http2:db"), makeTestEndpoints(t, snap, "tcp:geo-cache"), ), }) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // Envoy now sends listener request envoy.SendDeltaReq(t, ListenerType, nil) // It also (in parallel) issues the endpoint ACK envoy.SendDeltaReqACK(t, EndpointType, 2) // And should get a response immediately. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ListenerType, Nonce: hexString(3), Resources: makeTestResources(t, makeTestListener(t, snap, "tcp:public_listener"), makeTestListener(t, snap, "http2:db:rds"), makeTestListener(t, snap, "tcp:geo-cache"), ), }) // And no other response yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // Envoy now sends routes request envoy.SendDeltaReq(t, RouteType, &envoy_discovery_v3.DeltaDiscoveryRequest{ ResourceNamesSubscribe: []string{ "db", }, }) // ACKs the listener envoy.SendDeltaReqACK(t, ListenerType, 3) // And should get a response immediately. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: RouteType, Nonce: hexString(4), Resources: makeTestResources(t, makeTestRoute(t, "http2:db"), ), }) envoy.SendDeltaReqACK(t, RouteType, 4) assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) runStep(t, "trigger listener update needing implicit route replacements", func(t *testing.T) { // Update the snapshot in a way that causes a single listener update. // // Downgrade from http2 to http snap = newTestSnapshot(t, snap, "http", &structs.ServiceConfigEntry{ Kind: structs.ServiceDefaults, Name: "db", Protocol: "http", }, &structs.ServiceRouterConfigEntry{ Kind: structs.ServiceRouter, Name: "db", Routes: nil, }) mgr.DeliverConfig(t, sid, snap) // db cluster is refreshed (unrelated to the test scenario other than it's required) assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ClusterType, Nonce: hexString(5), Resources: makeTestResources(t, makeTestCluster(t, snap, "http:db"), ), }) // the listener is updated assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ListenerType, Nonce: hexString(6), Resources: makeTestResources(t, makeTestListener(t, snap, "http:db:rds"), ), }) envoy.SendDeltaReqACK(t, ClusterType, 5) // ACKs the listener envoy.SendDeltaReqACK(t, ListenerType, 6) // The behaviors of Cluster updates triggering re-sends of Endpoint updates // tested in TestServer_DeltaAggregatedResources_v3_BasicProtocol_TCP_clusterChangesImpactEndpoints // triggers here. It is not explicitly under test, but we have to get past // this exchange to get to the part we care about. assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: EndpointType, Nonce: hexString(7), Resources: makeTestResources(t, makeTestEndpoints(t, snap, "http:db"), ), }) envoy.SendDeltaReqACK(t, EndpointType, 7) // THE ACTUAL THING WE CARE ABOUT: replaced route config assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: RouteType, Nonce: hexString(8), Resources: makeTestResources(t, makeTestRoute(t, "http2:db"), ), }) envoy.SendDeltaReqACK(t, RouteType, 8) assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) }) envoy.Close() select { case err := <-errCh: require.NoError(t, err) case <-time.After(50 * time.Millisecond): t.Fatalf("timed out waiting for handler to finish") } } func TestServer_DeltaAggregatedResources_v3_ACLEnforcement(t *testing.T) { tests := []struct { name string defaultDeny bool acl string token string wantDenied bool cfgSnap *proxycfg.ConfigSnapshot }{ // Note that although we've stubbed actual ACL checks in the testManager // ConnectAuthorize mock, by asserting against specific reason strings here // even in the happy case which can't match the default one returned by the // mock we are implicitly validating that the implementation used the // correct token from the context. { name: "no ACLs configured", defaultDeny: false, wantDenied: false, }, { name: "default deny, no token", defaultDeny: true, wantDenied: true, }, { name: "default deny, write token", defaultDeny: true, acl: `service "web" { policy = "write" }`, token: "service-write-on-web", wantDenied: false, }, { name: "default deny, read token", defaultDeny: true, acl: `service "web" { policy = "read" }`, token: "service-write-on-web", wantDenied: true, }, { name: "default deny, write token on different service", defaultDeny: true, acl: `service "not-web" { policy = "write" }`, token: "service-write-on-not-web", wantDenied: true, }, { name: "ingress default deny, write token on different service", defaultDeny: true, acl: `service "not-ingress" { policy = "write" }`, token: "service-write-on-not-ingress", wantDenied: true, cfgSnap: proxycfg.TestConfigSnapshotIngressGateway(t), }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { aclResolve := func(id string) (acl.Authorizer, error) { if !tt.defaultDeny { // Allow all return acl.RootAuthorizer("allow"), nil } if tt.acl == "" { // No token and defaultDeny is denied return acl.RootAuthorizer("deny"), nil } // Ensure the correct token was passed require.Equal(t, tt.token, id) // Parse the ACL and enforce it policy, err := acl.NewPolicyFromSource("", 0, tt.acl, acl.SyntaxLegacy, nil, nil) require.NoError(t, err) return acl.NewPolicyAuthorizerWithDefaults(acl.RootAuthorizer("deny"), []*acl.Policy{policy}, nil) } scenario := newTestServerDeltaScenario(t, aclResolve, "web-sidecar-proxy", tt.token, 0) mgr, errCh, envoy := scenario.mgr, scenario.errCh, scenario.envoy sid := structs.NewServiceID("web-sidecar-proxy", nil) // Register the proxy to create state needed to Watch() on mgr.RegisterProxy(t, sid) // Deliver a new snapshot snap := tt.cfgSnap if snap == nil { snap = newTestSnapshot(t, nil, "") } mgr.DeliverConfig(t, sid, snap) // Send initial listener discover, in real life Envoy always sends cluster // first but it doesn't really matter and listener has a response that // includes the token in the ext rbac filter so lets us test more stuff. envoy.SendDeltaReq(t, ListenerType, nil) if !tt.wantDenied { assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ListenerType, Nonce: hexString(1), Resources: makeTestResources(t, makeTestListener(t, snap, "tcp:public_listener"), makeTestListener(t, snap, "tcp:db"), makeTestListener(t, snap, "tcp:geo-cache"), ), }) // Close the client stream since all is well. We _don't_ do this in the // expected error case because we want to verify the error closes the // stream from server side. envoy.Close() } select { case err := <-errCh: if tt.wantDenied { require.Error(t, err) require.Contains(t, err.Error(), "permission denied") mgr.AssertWatchCancelled(t, sid) } else { require.NoError(t, err) } case <-time.After(50 * time.Millisecond): t.Fatalf("timed out waiting for handler to finish") } }) } } func TestServer_DeltaAggregatedResources_v3_ACLTokenDeleted_StreamTerminatedDuringDiscoveryRequest(t *testing.T) { if testing.Short() { t.Skip("too slow for testing.Short") } aclRules := `service "web" { policy = "write" }` token := "service-write-on-web" policy, err := acl.NewPolicyFromSource("", 0, aclRules, acl.SyntaxLegacy, nil, nil) require.NoError(t, err) var validToken atomic.Value validToken.Store(token) aclResolve := func(id string) (acl.Authorizer, error) { if token := validToken.Load(); token == nil || id != token.(string) { return nil, acl.ErrNotFound } return acl.NewPolicyAuthorizerWithDefaults(acl.RootAuthorizer("deny"), []*acl.Policy{policy}, nil) } scenario := newTestServerDeltaScenario(t, aclResolve, "web-sidecar-proxy", token, 100*time.Millisecond, // Make this short. ) mgr, errCh, envoy := scenario.mgr, scenario.errCh, scenario.envoy getError := func() (gotErr error, ok bool) { select { case err := <-errCh: return err, true default: return nil, false } } sid := structs.NewServiceID("web-sidecar-proxy", nil) // Register the proxy to create state needed to Watch() on mgr.RegisterProxy(t, sid) // Send initial cluster discover (OK) envoy.SendDeltaReq(t, ClusterType, nil) { err, ok := getError() require.NoError(t, err) require.False(t, ok) } // Check no response sent yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) { err, ok := getError() require.NoError(t, err) require.False(t, ok) } // Deliver a new snapshot snap := newTestSnapshot(t, nil, "") mgr.DeliverConfig(t, sid, snap) assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ClusterType, Nonce: hexString(1), Resources: makeTestResources(t, makeTestCluster(t, snap, "tcp:local_app"), makeTestCluster(t, snap, "tcp:db"), makeTestCluster(t, snap, "tcp:geo-cache"), ), }) // It also (in parallel) issues the next cluster request (which acts as an ACK // of the version we sent) envoy.SendDeltaReq(t, ClusterType, nil) // Check no response sent yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) { err, ok := getError() require.NoError(t, err) require.False(t, ok) } // Now nuke the ACL token while there's no activity. validToken.Store("") select { case err := <-errCh: require.Error(t, err) gerr, ok := status.FromError(err) require.Truef(t, ok, "not a grpc status error: type='%T' value=%v", err, err) require.Equal(t, codes.Unauthenticated, gerr.Code()) require.Equal(t, "unauthenticated: ACL not found", gerr.Message()) mgr.AssertWatchCancelled(t, sid) case <-time.After(200 * time.Millisecond): t.Fatalf("timed out waiting for handler to finish") } } func TestServer_DeltaAggregatedResources_v3_ACLTokenDeleted_StreamTerminatedInBackground(t *testing.T) { if testing.Short() { t.Skip("too slow for testing.Short") } aclRules := `service "web" { policy = "write" }` token := "service-write-on-web" policy, err := acl.NewPolicyFromSource("", 0, aclRules, acl.SyntaxLegacy, nil, nil) require.NoError(t, err) var validToken atomic.Value validToken.Store(token) aclResolve := func(id string) (acl.Authorizer, error) { if token := validToken.Load(); token == nil || id != token.(string) { return nil, acl.ErrNotFound } return acl.NewPolicyAuthorizerWithDefaults(acl.RootAuthorizer("deny"), []*acl.Policy{policy}, nil) } scenario := newTestServerDeltaScenario(t, aclResolve, "web-sidecar-proxy", token, 100*time.Millisecond, // Make this short. ) mgr, errCh, envoy := scenario.mgr, scenario.errCh, scenario.envoy getError := func() (gotErr error, ok bool) { select { case err := <-errCh: return err, true default: return nil, false } } sid := structs.NewServiceID("web-sidecar-proxy", nil) // Register the proxy to create state needed to Watch() on mgr.RegisterProxy(t, sid) // Send initial cluster discover (OK) envoy.SendDeltaReq(t, ClusterType, nil) { err, ok := getError() require.NoError(t, err) require.False(t, ok) } // Check no response sent yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) { err, ok := getError() require.NoError(t, err) require.False(t, ok) } // Deliver a new snapshot snap := newTestSnapshot(t, nil, "") mgr.DeliverConfig(t, sid, snap) assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ClusterType, Nonce: hexString(1), Resources: makeTestResources(t, makeTestCluster(t, snap, "tcp:local_app"), makeTestCluster(t, snap, "tcp:db"), makeTestCluster(t, snap, "tcp:geo-cache"), ), }) // It also (in parallel) issues the next cluster request (which acts as an ACK // of the version we sent) envoy.SendDeltaReq(t, ClusterType, nil) // Check no response sent yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) { err, ok := getError() require.NoError(t, err) require.False(t, ok) } // Now nuke the ACL token while there's no activity. validToken.Store("") select { case err := <-errCh: require.Error(t, err) gerr, ok := status.FromError(err) require.Truef(t, ok, "not a grpc status error: type='%T' value=%v", err, err) require.Equal(t, codes.Unauthenticated, gerr.Code()) require.Equal(t, "unauthenticated: ACL not found", gerr.Message()) mgr.AssertWatchCancelled(t, sid) case <-time.After(200 * time.Millisecond): t.Fatalf("timed out waiting for handler to finish") } } func TestServer_DeltaAggregatedResources_v3_IngressEmptyResponse(t *testing.T) { aclResolve := func(id string) (acl.Authorizer, error) { // Allow all return acl.RootAuthorizer("manage"), nil } scenario := newTestServerDeltaScenario(t, aclResolve, "ingress-gateway", "", 0) mgr, errCh, envoy := scenario.mgr, scenario.errCh, scenario.envoy sid := structs.NewServiceID("ingress-gateway", nil) // Register the proxy to create state needed to Watch() on mgr.RegisterProxy(t, sid) // Send initial cluster discover envoy.SendDeltaReq(t, ClusterType, nil) // Check no response sent yet assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // Deliver a new snapshot with no services snap := proxycfg.TestConfigSnapshotIngressGatewayNoServices(t) mgr.DeliverConfig(t, sid, snap) // REQ: clusters envoy.SendDeltaReq(t, ClusterType, nil) // RESP: clustesr assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ClusterType, Nonce: hexString(1), }) assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) // ACK: clusters envoy.SendDeltaReqACK(t, ClusterType, 1) // REQ: listeners envoy.SendDeltaReq(t, ListenerType, nil) // RESP: listeners assertDeltaResponseSent(t, envoy.deltaStream.sendCh, &envoy_discovery_v3.DeltaDiscoveryResponse{ TypeUrl: ListenerType, Nonce: hexString(2), }) assertDeltaChanBlocked(t, envoy.deltaStream.sendCh) envoy.Close() select { case err := <-errCh: require.NoError(t, err) case <-time.After(50 * time.Millisecond): t.Fatalf("timed out waiting for handler to finish") } } func assertDeltaChanBlocked(t *testing.T, ch chan *envoy_discovery_v3.DeltaDiscoveryResponse) { t.Helper() select { case r := <-ch: t.Fatalf("chan should block but received: %v", r) case <-time.After(10 * time.Millisecond): return } } func assertDeltaResponseSent(t *testing.T, ch chan *envoy_discovery_v3.DeltaDiscoveryResponse, want *envoy_discovery_v3.DeltaDiscoveryResponse) { t.Helper() select { case got := <-ch: assertDeltaResponse(t, got, want) case <-time.After(50 * time.Millisecond): t.Fatalf("no response received after 50ms") } } // assertDeltaResponse is a helper to test a envoy.DeltaDiscoveryResponse matches the // expected value. We use JSON during comparison here because the responses use protobuf // Any type which includes binary protobuf encoding. func assertDeltaResponse(t *testing.T, got, want *envoy_discovery_v3.DeltaDiscoveryResponse) { t.Helper() gotJSON := protoToSortedJSON(t, got) wantJSON := protoToSortedJSON(t, want) require.JSONEqf(t, wantJSON, gotJSON, "got:\n%s", gotJSON) } func mustMakeVersionMap(t *testing.T, resources ...proto.Message) map[string]string { m := make(map[string]string) for _, res := range resources { name := getResourceName(res) m[name] = mustHashResource(t, res) } return m }