package xds import ( "errors" "fmt" "strconv" envoy_cluster_v3 "github.com/envoyproxy/go-control-plane/envoy/config/cluster/v3" envoy_core_v3 "github.com/envoyproxy/go-control-plane/envoy/config/core/v3" envoy_endpoint_v3 "github.com/envoyproxy/go-control-plane/envoy/config/endpoint/v3" "github.com/hashicorp/consul/envoyextensions/xdscommon" "github.com/hashicorp/go-bexpr" "google.golang.org/protobuf/proto" "github.com/hashicorp/consul/agent/connect" "github.com/hashicorp/consul/agent/proxycfg" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/api" ) const ( UnnamedSubset = "" ) // endpointsFromSnapshot returns the xDS API representation of the "endpoints" func (s *ResourceGenerator) endpointsFromSnapshot(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) { if cfgSnap == nil { return nil, errors.New("nil config given") } switch cfgSnap.Kind { case structs.ServiceKindConnectProxy: return s.endpointsFromSnapshotConnectProxy(cfgSnap) case structs.ServiceKindTerminatingGateway: return s.endpointsFromSnapshotTerminatingGateway(cfgSnap) case structs.ServiceKindMeshGateway: return s.endpointsFromSnapshotMeshGateway(cfgSnap) case structs.ServiceKindIngressGateway: return s.endpointsFromSnapshotIngressGateway(cfgSnap) case structs.ServiceKindAPIGateway: // TODO Find a cleaner solution, can't currently pass unexported property types var err error cfgSnap.IngressGateway, err = cfgSnap.APIGateway.ToIngress(cfgSnap.Datacenter) if err != nil { return nil, err } return s.endpointsFromSnapshotIngressGateway(cfgSnap) default: return nil, fmt.Errorf("Invalid service kind: %v", cfgSnap.Kind) } } // endpointsFromSnapshotConnectProxy returns the xDS API representation of the "endpoints" // (upstream instances) in the snapshot. func (s *ResourceGenerator) endpointsFromSnapshotConnectProxy(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) { // TODO: this estimate is wrong resources := make([]proto.Message, 0, len(cfgSnap.ConnectProxy.PreparedQueryEndpoints)+ cfgSnap.ConnectProxy.PeerUpstreamEndpoints.Len()+ len(cfgSnap.ConnectProxy.WatchedUpstreamEndpoints)) // NOTE: Any time we skip a chain below we MUST also skip that discovery chain in clusters.go // so that the sets of endpoints generated matches the sets of clusters. for uid, chain := range cfgSnap.ConnectProxy.DiscoveryChain { upstream, skip := cfgSnap.ConnectProxy.GetUpstream(uid, &cfgSnap.ProxyID.EnterpriseMeta) if skip { // Discovery chain is not associated with a known explicit or implicit upstream so it is skipped. continue } var upstreamConfigMap map[string]interface{} if upstream != nil { upstreamConfigMap = upstream.Config } es, err := s.endpointsFromDiscoveryChain( uid, chain, cfgSnap, cfgSnap.Locality, upstreamConfigMap, cfgSnap.ConnectProxy.WatchedUpstreamEndpoints[uid], cfgSnap.ConnectProxy.WatchedGatewayEndpoints[uid], false, ) if err != nil { return nil, err } resources = append(resources, es...) } // NOTE: Any time we skip an upstream below we MUST also skip that same // upstream in clusters.go so that the sets of endpoints generated matches // the sets of clusters. for _, uid := range cfgSnap.ConnectProxy.PeeredUpstreamIDs() { upstream, skip := cfgSnap.ConnectProxy.GetUpstream(uid, &cfgSnap.ProxyID.EnterpriseMeta) if skip { // Discovery chain is not associated with a known explicit or implicit upstream so it is skipped. continue } tbs, ok := cfgSnap.ConnectProxy.UpstreamPeerTrustBundles.Get(uid.Peer) if !ok { // this should never happen since we loop through upstreams with // set trust bundles return nil, fmt.Errorf("trust bundle not ready for peer %s", uid.Peer) } clusterName := generatePeeredClusterName(uid, tbs) mgwMode := structs.MeshGatewayModeDefault if upstream != nil { mgwMode = upstream.MeshGateway.Mode } loadAssignment, err := s.makeUpstreamLoadAssignmentForPeerService(cfgSnap, clusterName, uid, mgwMode) if err != nil { return nil, err } if loadAssignment != nil { resources = append(resources, loadAssignment) } } // Looping over explicit upstreams is only needed for prepared queries because they do not have discovery chains for _, u := range cfgSnap.Proxy.Upstreams { if u.DestinationType != structs.UpstreamDestTypePreparedQuery { continue } uid := proxycfg.NewUpstreamID(&u) dc := u.Datacenter if dc == "" { dc = cfgSnap.Datacenter } clusterName := connect.UpstreamSNI(&u, "", dc, cfgSnap.Roots.TrustDomain) endpoints, ok := cfgSnap.ConnectProxy.PreparedQueryEndpoints[uid] if ok { la := makeLoadAssignment( clusterName, []loadAssignmentEndpointGroup{ {Endpoints: endpoints}, }, cfgSnap.Locality, ) resources = append(resources, la) } } // Loop over potential destinations in the mesh, then grab the gateway nodes associated with each cfgSnap.ConnectProxy.DestinationsUpstream.ForEachKey(func(uid proxycfg.UpstreamID) bool { svcConfig, ok := cfgSnap.ConnectProxy.DestinationsUpstream.Get(uid) if !ok || svcConfig.Destination == nil { return true } for _, address := range svcConfig.Destination.Addresses { name := clusterNameForDestination(cfgSnap, uid.Name, address, uid.NamespaceOrDefault(), uid.PartitionOrDefault()) endpoints, ok := cfgSnap.ConnectProxy.DestinationGateways.Get(uid) if ok { la := makeLoadAssignment( name, []loadAssignmentEndpointGroup{ {Endpoints: endpoints}, }, proxycfg.GatewayKey{ /*empty so it never matches*/ }, ) resources = append(resources, la) } } return true }) return resources, nil } func (s *ResourceGenerator) filterSubsetEndpoints(subset *structs.ServiceResolverSubset, endpoints structs.CheckServiceNodes) (structs.CheckServiceNodes, error) { // locally execute the subsets filter if subset.Filter != "" { filter, err := bexpr.CreateFilter(subset.Filter, nil, endpoints) if err != nil { return nil, err } raw, err := filter.Execute(endpoints) if err != nil { return nil, err } return raw.(structs.CheckServiceNodes), nil } return endpoints, nil } func (s *ResourceGenerator) endpointsFromSnapshotTerminatingGateway(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) { return s.endpointsFromServicesAndResolvers(cfgSnap, cfgSnap.TerminatingGateway.ServiceGroups, cfgSnap.TerminatingGateway.ServiceResolvers) } func (s *ResourceGenerator) endpointsFromSnapshotMeshGateway(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) { keys := cfgSnap.MeshGateway.GatewayKeys() // Allocation count (this is a lower bound - all subset specific clusters will be appended): // 1 cluster per remote dc/partition // 1 cluster per local service // 1 cluster per unique peer server (control plane traffic) resources := make([]proto.Message, 0, len(keys)+len(cfgSnap.MeshGateway.ServiceGroups)+len(cfgSnap.MeshGateway.PeerServers)) for _, key := range keys { if key.Matches(cfgSnap.Datacenter, cfgSnap.ProxyID.PartitionOrDefault()) { continue // skip local } // Also skip gateways with a hostname as their address. EDS cannot resolve hostnames, // so we provide them through CDS instead. if len(cfgSnap.MeshGateway.HostnameDatacenters[key.String()]) > 0 { continue } endpoints := cfgSnap.GetMeshGatewayEndpoints(key) if len(endpoints) == 0 { s.Logger.Error("skipping mesh gateway endpoints because no definition found", "datacenter", key) continue } { // standard connect clusterName := connect.GatewaySNI(key.Datacenter, key.Partition, cfgSnap.Roots.TrustDomain) la := makeLoadAssignment( clusterName, []loadAssignmentEndpointGroup{ {Endpoints: endpoints}, }, cfgSnap.Locality, ) resources = append(resources, la) } if cfgSnap.ProxyID.InDefaultPartition() && cfgSnap.ServiceMeta[structs.MetaWANFederationKey] == "1" && cfgSnap.ServerSNIFn != nil { clusterName := cfgSnap.ServerSNIFn(key.Datacenter, "") la := makeLoadAssignment( clusterName, []loadAssignmentEndpointGroup{ {Endpoints: endpoints}, }, cfgSnap.Locality, ) resources = append(resources, la) } } // generate endpoints for our servers if WAN federation is enabled if cfgSnap.ProxyID.InDefaultPartition() && cfgSnap.ServiceMeta[structs.MetaWANFederationKey] == "1" && cfgSnap.ServerSNIFn != nil { var allServersLbEndpoints []*envoy_endpoint_v3.LbEndpoint servers, _ := cfgSnap.MeshGateway.WatchedLocalServers.Get(structs.ConsulServiceName) for _, srv := range servers { clusterName := cfgSnap.ServerSNIFn(cfgSnap.Datacenter, srv.Node.Node) _, addr, port := srv.BestAddress(false /*wan*/) lbEndpoint := &envoy_endpoint_v3.LbEndpoint{ HostIdentifier: &envoy_endpoint_v3.LbEndpoint_Endpoint{ Endpoint: &envoy_endpoint_v3.Endpoint{ Address: makeAddress(addr, port), }, }, HealthStatus: envoy_core_v3.HealthStatus_UNKNOWN, } cla := &envoy_endpoint_v3.ClusterLoadAssignment{ ClusterName: clusterName, Endpoints: []*envoy_endpoint_v3.LocalityLbEndpoints{{ LbEndpoints: []*envoy_endpoint_v3.LbEndpoint{lbEndpoint}, }}, } allServersLbEndpoints = append(allServersLbEndpoints, lbEndpoint) resources = append(resources, cla) } // And add one catch all so that remote datacenters can dial ANY server // in this datacenter without knowing its name. resources = append(resources, &envoy_endpoint_v3.ClusterLoadAssignment{ ClusterName: cfgSnap.ServerSNIFn(cfgSnap.Datacenter, ""), Endpoints: []*envoy_endpoint_v3.LocalityLbEndpoints{{ LbEndpoints: allServersLbEndpoints, }}, }) } // Create endpoints for the cluster where local servers will be dialed by peers. // When peering through gateways we load balance across the local servers. They cannot be addressed individually. if cfg := cfgSnap.MeshConfig(); cfg.PeerThroughMeshGateways() { var serverEndpoints []*envoy_endpoint_v3.LbEndpoint servers, _ := cfgSnap.MeshGateway.WatchedLocalServers.Get(structs.ConsulServiceName) for _, srv := range servers { if isReplica := srv.Service.Meta["read_replica"]; isReplica == "true" { // Peering control-plane traffic can only ever be handled by the local leader. // We avoid routing to read replicas since they will never be Raft voters. continue } _, addr, _ := srv.BestAddress(false) portStr, ok := srv.Service.Meta["grpc_tls_port"] if !ok { s.Logger.Warn("peering is enabled but local server %q does not have the required gRPC TLS port configured", "server", srv.Node.Node) continue } port, err := strconv.Atoi(portStr) if err != nil { s.Logger.Error("peering is enabled but local server has invalid gRPC TLS port", "server", srv.Node.Node, "port", portStr, "error", err) continue } serverEndpoints = append(serverEndpoints, &envoy_endpoint_v3.LbEndpoint{ HostIdentifier: &envoy_endpoint_v3.LbEndpoint_Endpoint{ Endpoint: &envoy_endpoint_v3.Endpoint{ Address: makeAddress(addr, port), }, }, }) } if len(serverEndpoints) > 0 { resources = append(resources, &envoy_endpoint_v3.ClusterLoadAssignment{ ClusterName: connect.PeeringServerSAN(cfgSnap.Datacenter, cfgSnap.Roots.TrustDomain), Endpoints: []*envoy_endpoint_v3.LocalityLbEndpoints{{ LbEndpoints: serverEndpoints, }}, }) } } // Generate the endpoints for each service and its subsets e, err := s.endpointsFromServicesAndResolvers(cfgSnap, cfgSnap.MeshGateway.ServiceGroups, cfgSnap.MeshGateway.ServiceResolvers) if err != nil { return nil, err } resources = append(resources, e...) // Generate the endpoints for exported discovery chain targets. e, err = s.makeExportedUpstreamEndpointsForMeshGateway(cfgSnap) if err != nil { return nil, err } resources = append(resources, e...) // generate the outgoing endpoints for imported peer services. e, err = s.makeEndpointsForOutgoingPeeredServices(cfgSnap) if err != nil { return nil, err } resources = append(resources, e...) // Generate the endpoints for peer server control planes. e, err = s.makePeerServerEndpointsForMeshGateway(cfgSnap) if err != nil { return nil, err } resources = append(resources, e...) return resources, nil } func (s *ResourceGenerator) endpointsFromServicesAndResolvers( cfgSnap *proxycfg.ConfigSnapshot, services map[structs.ServiceName]structs.CheckServiceNodes, resolvers map[structs.ServiceName]*structs.ServiceResolverConfigEntry, ) ([]proto.Message, error) { resources := make([]proto.Message, 0, len(services)) // generate the endpoints for the linked service groups for svc, endpoints := range services { // Skip creating endpoints for services that have hostnames as addresses // EDS cannot resolve hostnames so we provide them through CDS instead if cfgSnap.Kind == structs.ServiceKindTerminatingGateway && len(cfgSnap.TerminatingGateway.HostnameServices[svc]) > 0 { continue } clusterEndpoints := make(map[string][]loadAssignmentEndpointGroup) clusterEndpoints[UnnamedSubset] = []loadAssignmentEndpointGroup{{Endpoints: endpoints, OnlyPassing: false}} // Collect all of the loadAssignmentEndpointGroups for the various subsets. We do this before generating // the endpoints for the default/unnamed subset so that we can take into account the DefaultSubset on the // service-resolver which may prevent the default/unnamed cluster from creating endpoints for all service // instances. if resolver, hasResolver := resolvers[svc]; hasResolver { for subsetName, subset := range resolver.Subsets { subsetEndpoints, err := s.filterSubsetEndpoints(&subset, endpoints) if err != nil { return nil, err } groups := []loadAssignmentEndpointGroup{{Endpoints: subsetEndpoints, OnlyPassing: subset.OnlyPassing}} clusterEndpoints[subsetName] = groups // if this subset is the default then override the unnamed subset with this configuration if subsetName == resolver.DefaultSubset { clusterEndpoints[UnnamedSubset] = groups } } } // now generate the load assignment for all subsets for subsetName, groups := range clusterEndpoints { clusterName := connect.ServiceSNI(svc.Name, subsetName, svc.NamespaceOrDefault(), svc.PartitionOrDefault(), cfgSnap.Datacenter, cfgSnap.Roots.TrustDomain) la := makeLoadAssignment( clusterName, groups, cfgSnap.Locality, ) resources = append(resources, la) } } return resources, nil } func (s *ResourceGenerator) makeEndpointsForOutgoingPeeredServices( cfgSnap *proxycfg.ConfigSnapshot, ) ([]proto.Message, error) { var resources []proto.Message // generate the endpoints for the linked service groups for _, serviceGroups := range cfgSnap.MeshGateway.PeeringServices { for sn, serviceGroup := range serviceGroups { if serviceGroup.UseCDS || len(serviceGroup.Nodes) == 0 { continue } node := serviceGroup.Nodes[0] if node.Service == nil { return nil, fmt.Errorf("couldn't get SNI for peered service %s", sn.String()) } // This uses the SNI in the accepting cluster peer so the remote mesh // gateway can distinguish between an exported service as opposed to the // usual mesh gateway route for a service. clusterName := node.Service.Connect.PeerMeta.PrimarySNI() groups := []loadAssignmentEndpointGroup{{Endpoints: serviceGroup.Nodes, OnlyPassing: false}} la := makeLoadAssignment( clusterName, groups, cfgSnap.Locality, ) resources = append(resources, la) } } return resources, nil } func (s *ResourceGenerator) makePeerServerEndpointsForMeshGateway(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) { resources := make([]proto.Message, 0, len(cfgSnap.MeshGateway.PeerServers)) // Peer server names are assumed to already be formatted in SNI notation: // server..peering. for name, servers := range cfgSnap.MeshGateway.PeerServers { if servers.UseCDS || len(servers.Addresses) == 0 { continue } es := make([]*envoy_endpoint_v3.LbEndpoint, 0, len(servers.Addresses)) for _, address := range servers.Addresses { es = append(es, makeEndpoint(address.Address, address.Port)) } cla := &envoy_endpoint_v3.ClusterLoadAssignment{ ClusterName: name, Endpoints: []*envoy_endpoint_v3.LocalityLbEndpoints{ { LbEndpoints: es, }, }, } resources = append(resources, cla) } return resources, nil } func (s *ResourceGenerator) endpointsFromSnapshotIngressGateway(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) { var resources []proto.Message createdClusters := make(map[proxycfg.UpstreamID]bool) for _, upstreams := range cfgSnap.IngressGateway.Upstreams { for _, u := range upstreams { uid := proxycfg.NewUpstreamID(&u) // If we've already created endpoints for this upstream, skip it. Multiple listeners may // reference the same upstream, so we don't need to create duplicate endpoints in that case. if createdClusters[uid] { continue } es, err := s.endpointsFromDiscoveryChain( uid, cfgSnap.IngressGateway.DiscoveryChain[uid], cfgSnap, proxycfg.GatewayKey{Datacenter: cfgSnap.Datacenter, Partition: u.DestinationPartition}, u.Config, cfgSnap.IngressGateway.WatchedUpstreamEndpoints[uid], cfgSnap.IngressGateway.WatchedGatewayEndpoints[uid], false, ) if err != nil { return nil, err } resources = append(resources, es...) createdClusters[uid] = true } } return resources, nil } // used in clusters.go func makeEndpoint(host string, port int) *envoy_endpoint_v3.LbEndpoint { return &envoy_endpoint_v3.LbEndpoint{ HostIdentifier: &envoy_endpoint_v3.LbEndpoint_Endpoint{ Endpoint: &envoy_endpoint_v3.Endpoint{ Address: makeAddress(host, port), }, }, } } func makePipeEndpoint(path string) *envoy_endpoint_v3.LbEndpoint { return &envoy_endpoint_v3.LbEndpoint{ HostIdentifier: &envoy_endpoint_v3.LbEndpoint_Endpoint{ Endpoint: &envoy_endpoint_v3.Endpoint{ Address: makePipeAddress(path, 0), }, }, } } func (s *ResourceGenerator) makeUpstreamLoadAssignmentForPeerService( cfgSnap *proxycfg.ConfigSnapshot, clusterName string, uid proxycfg.UpstreamID, upstreamGatewayMode structs.MeshGatewayMode, ) (*envoy_endpoint_v3.ClusterLoadAssignment, error) { var la *envoy_endpoint_v3.ClusterLoadAssignment upstreamsSnapshot, err := cfgSnap.ToConfigSnapshotUpstreams() if err != nil { return la, err } if upstreamGatewayMode == structs.MeshGatewayModeNone { s.Logger.Warn(fmt.Sprintf("invalid mesh gateway mode 'none', defaulting to 'remote' for %q", uid)) } // If an upstream is configured with local mesh gw mode, we make a load assignment // from the gateway endpoints instead of those of the upstreams. if upstreamGatewayMode == structs.MeshGatewayModeLocal { localGw, ok := cfgSnap.ConnectProxy.WatchedLocalGWEndpoints.Get(cfgSnap.Locality.String()) if !ok { // local GW is not ready; return early return la, nil } la = makeLoadAssignment( clusterName, []loadAssignmentEndpointGroup{ {Endpoints: localGw}, }, cfgSnap.Locality, ) return la, nil } // Also skip peer instances with a hostname as their address. EDS // cannot resolve hostnames, so we provide them through CDS instead. if _, ok := upstreamsSnapshot.PeerUpstreamEndpointsUseHostnames[uid]; ok { return la, nil } endpoints, ok := upstreamsSnapshot.PeerUpstreamEndpoints.Get(uid) if !ok { return nil, nil } la = makeLoadAssignment( clusterName, []loadAssignmentEndpointGroup{ {Endpoints: endpoints}, }, proxycfg.GatewayKey{ /*empty so it never matches*/ }, ) return la, nil } func (s *ResourceGenerator) endpointsFromDiscoveryChain( uid proxycfg.UpstreamID, chain *structs.CompiledDiscoveryChain, cfgSnap *proxycfg.ConfigSnapshot, gatewayKey proxycfg.GatewayKey, upstreamConfigMap map[string]interface{}, upstreamEndpoints map[string]structs.CheckServiceNodes, gatewayEndpoints map[string]structs.CheckServiceNodes, forMeshGateway bool, ) ([]proto.Message, error) { if chain == nil { if forMeshGateway { return nil, fmt.Errorf("missing discovery chain for %s", uid) } return nil, nil } if upstreamConfigMap == nil { upstreamConfigMap = make(map[string]interface{}) // TODO:needed? } upstreamsSnapshot, err := cfgSnap.ToConfigSnapshotUpstreams() // Mesh gateways are exempt because upstreamsSnapshot is only used for // cluster peering targets and transative failover/redirects are unsupported. if err != nil && !forMeshGateway { return nil, err } var resources []proto.Message var escapeHatchCluster *envoy_cluster_v3.Cluster if !forMeshGateway { cfg, err := structs.ParseUpstreamConfigNoDefaults(upstreamConfigMap) if err != nil { // Don't hard fail on a config typo, just warn. The parse func returns // default config if there is an error so it's safe to continue. s.Logger.Warn("failed to parse", "upstream", uid, "error", err) } if cfg.EnvoyClusterJSON != "" { if chain.Default { // If you haven't done anything to setup the discovery chain, then // you can use the envoy_cluster_json escape hatch. escapeHatchCluster, err = makeClusterFromUserConfig(cfg.EnvoyClusterJSON) if err != nil { return resources, nil } } else { s.Logger.Warn("ignoring escape hatch setting, because a discovery chain is configued for", "discovery chain", chain.ServiceName, "upstream", uid, "envoy_cluster_json", chain.ServiceName) } } } mgwMode := structs.MeshGatewayModeDefault if upstream, _ := cfgSnap.ConnectProxy.GetUpstream(uid, &cfgSnap.ProxyID.EnterpriseMeta); upstream != nil { mgwMode = upstream.MeshGateway.Mode } // Find all resolver nodes. for _, node := range chain.Nodes { if node.Type != structs.DiscoveryGraphNodeTypeResolver { continue } primaryTargetID := node.Resolver.Target failover := node.Resolver.Failover var targetsClustersData []targetClusterData var numFailoverTargets int if failover != nil { numFailoverTargets = len(failover.Targets) } if numFailoverTargets > 0 && !forMeshGateway { for _, targetID := range append([]string{primaryTargetID}, failover.Targets...) { targetData, ok := s.getTargetClusterData(upstreamsSnapshot, chain, targetID, forMeshGateway, true) if !ok { continue } if escapeHatchCluster != nil { targetData.clusterName = escapeHatchCluster.Name } targetsClustersData = append(targetsClustersData, targetData) } } else { if td, ok := s.getTargetClusterData(upstreamsSnapshot, chain, primaryTargetID, forMeshGateway, false); ok { if escapeHatchCluster != nil { td.clusterName = escapeHatchCluster.Name } targetsClustersData = append(targetsClustersData, td) } } for _, targetOpt := range targetsClustersData { s.Logger.Debug("generating endpoints for", "cluster", targetOpt.clusterName) targetUID := proxycfg.NewUpstreamIDFromTargetID(targetOpt.targetID) if targetUID.Peer != "" { loadAssignment, err := s.makeUpstreamLoadAssignmentForPeerService(cfgSnap, targetOpt.clusterName, targetUID, mgwMode) if err != nil { return nil, err } if loadAssignment != nil { resources = append(resources, loadAssignment) } continue } endpointGroup, valid := makeLoadAssignmentEndpointGroup( chain.Targets, upstreamEndpoints, gatewayEndpoints, targetOpt.targetID, gatewayKey, forMeshGateway, ) if !valid { continue // skip the cluster if we're still populating the snapshot } la := makeLoadAssignment( targetOpt.clusterName, []loadAssignmentEndpointGroup{endpointGroup}, gatewayKey, ) resources = append(resources, la) } } return resources, nil } func (s *ResourceGenerator) makeExportedUpstreamEndpointsForMeshGateway(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) { var resources []proto.Message populatedExportedClusters := make(map[string]struct{}) // key=clusterName for _, svc := range cfgSnap.MeshGatewayValidExportedServices() { chain := cfgSnap.MeshGateway.DiscoveryChain[svc] chainEndpoints := make(map[string]structs.CheckServiceNodes) for _, target := range chain.Targets { if !cfgSnap.Locality.Matches(target.Datacenter, target.Partition) { s.Logger.Warn("ignoring discovery chain target that crosses a datacenter or partition boundary in a mesh gateway", "target", target, "gatewayLocality", cfgSnap.Locality, ) continue } targetSvc := target.ServiceName() endpoints, ok := cfgSnap.MeshGateway.ServiceGroups[targetSvc] if !ok { continue // ignore; not ready } if target.ServiceSubset == "" { chainEndpoints[target.ID] = endpoints } else { resolver, ok := cfgSnap.MeshGateway.ServiceResolvers[targetSvc] if !ok { continue // ignore; not ready } subset, ok := resolver.Subsets[target.ServiceSubset] if !ok { continue // ignore; not ready } subsetEndpoints, err := s.filterSubsetEndpoints(&subset, endpoints) if err != nil { return nil, err } chainEndpoints[target.ID] = subsetEndpoints } } clusterEndpoints, err := s.endpointsFromDiscoveryChain( proxycfg.NewUpstreamIDFromServiceName(svc), chain, cfgSnap, cfgSnap.Locality, nil, chainEndpoints, nil, true, ) if err != nil { return nil, err } for _, endpoints := range clusterEndpoints { clusterName := xdscommon.GetResourceName(endpoints) if _, ok := populatedExportedClusters[clusterName]; ok { continue } populatedExportedClusters[clusterName] = struct{}{} resources = append(resources, endpoints) } } return resources, nil } type loadAssignmentEndpointGroup struct { Endpoints structs.CheckServiceNodes OnlyPassing bool OverrideHealth envoy_core_v3.HealthStatus } func makeLoadAssignment(clusterName string, endpointGroups []loadAssignmentEndpointGroup, localKey proxycfg.GatewayKey) *envoy_endpoint_v3.ClusterLoadAssignment { cla := &envoy_endpoint_v3.ClusterLoadAssignment{ ClusterName: clusterName, Endpoints: make([]*envoy_endpoint_v3.LocalityLbEndpoints, 0, len(endpointGroups)), } if len(endpointGroups) > 1 { cla.Policy = &envoy_endpoint_v3.ClusterLoadAssignment_Policy{ // We choose such a large value here that the failover math should // in effect not happen until zero instances are healthy. OverprovisioningFactor: makeUint32Value(100000), } } for priority, endpointGroup := range endpointGroups { endpoints := endpointGroup.Endpoints es := make([]*envoy_endpoint_v3.LbEndpoint, 0, len(endpoints)) for _, ep := range endpoints { // TODO (mesh-gateway) - should we respect the translate_wan_addrs configuration here or just always use the wan for cross-dc? _, addr, port := ep.BestAddress(!localKey.Matches(ep.Node.Datacenter, ep.Node.PartitionOrDefault())) healthStatus, weight := calculateEndpointHealthAndWeight(ep, endpointGroup.OnlyPassing) if endpointGroup.OverrideHealth != envoy_core_v3.HealthStatus_UNKNOWN { healthStatus = endpointGroup.OverrideHealth } endpoint := &envoy_endpoint_v3.Endpoint{ Address: makeAddress(addr, port), } es = append(es, &envoy_endpoint_v3.LbEndpoint{ HostIdentifier: &envoy_endpoint_v3.LbEndpoint_Endpoint{ Endpoint: endpoint, }, HealthStatus: healthStatus, LoadBalancingWeight: makeUint32Value(weight), }) } cla.Endpoints = append(cla.Endpoints, &envoy_endpoint_v3.LocalityLbEndpoints{ Priority: uint32(priority), LbEndpoints: es, }) } return cla } func makeLoadAssignmentEndpointGroup( targets map[string]*structs.DiscoveryTarget, targetHealth map[string]structs.CheckServiceNodes, gatewayHealth map[string]structs.CheckServiceNodes, targetID string, localKey proxycfg.GatewayKey, forMeshGateway bool, ) (loadAssignmentEndpointGroup, bool) { realEndpoints, ok := targetHealth[targetID] if !ok { // skip the cluster if we're still populating the snapshot return loadAssignmentEndpointGroup{}, false } target := targets[targetID] var gatewayKey proxycfg.GatewayKey switch target.MeshGateway.Mode { case structs.MeshGatewayModeRemote: gatewayKey.Datacenter = target.Datacenter gatewayKey.Partition = target.Partition case structs.MeshGatewayModeLocal: gatewayKey = localKey } if forMeshGateway || gatewayKey.IsEmpty() || localKey.Matches(target.Datacenter, target.Partition) { // Gateways are not needed if the request isn't for a remote DC or partition. return loadAssignmentEndpointGroup{ Endpoints: realEndpoints, OnlyPassing: target.Subset.OnlyPassing, }, true } // If using a mesh gateway we need to pull those endpoints instead. gatewayEndpoints, ok := gatewayHealth[gatewayKey.String()] if !ok { // skip the cluster if we're still populating the snapshot return loadAssignmentEndpointGroup{}, false } // But we will use the health from the actual backend service. overallHealth := envoy_core_v3.HealthStatus_UNHEALTHY for _, ep := range realEndpoints { health, _ := calculateEndpointHealthAndWeight(ep, target.Subset.OnlyPassing) if health == envoy_core_v3.HealthStatus_HEALTHY { overallHealth = envoy_core_v3.HealthStatus_HEALTHY break } } return loadAssignmentEndpointGroup{ Endpoints: gatewayEndpoints, OverrideHealth: overallHealth, }, true } func calculateEndpointHealthAndWeight( ep structs.CheckServiceNode, onlyPassing bool, ) (envoy_core_v3.HealthStatus, int) { healthStatus := envoy_core_v3.HealthStatus_HEALTHY weight := 1 if ep.Service.Weights != nil { weight = ep.Service.Weights.Passing } for _, chk := range ep.Checks { if chk.Status == api.HealthCritical { healthStatus = envoy_core_v3.HealthStatus_UNHEALTHY } if onlyPassing && chk.Status != api.HealthPassing { healthStatus = envoy_core_v3.HealthStatus_UNHEALTHY } if chk.Status == api.HealthWarning && ep.Service.Weights != nil { weight = ep.Service.Weights.Warning } } // Make weights fit Envoy's limits. A zero weight means that either Warning // (likely) or Passing (weirdly) weight has been set to 0 effectively making // this instance unhealthy and should not be sent traffic. if weight < 1 { healthStatus = envoy_core_v3.HealthStatus_UNHEALTHY weight = 1 } if weight > 128 { weight = 128 } return healthStatus, weight }