7fba7456ec
Due to timing, a transparent proxy could have two upstreams to dial directly with the same address. For example: - The orders service can dial upstreams shipping and payment directly. - An instance of shipping at address 10.0.0.1 is deregistered. - Payments is scaled up and scheduled to have address 10.0.0.1. - The orders service receives the event for the new payments instance before seeing the deregistration for the shipping instance. At this point two upstreams have the same passthrough address and Envoy will reject the listener configuration. To disambiguate this commit considers the Raft index when storing passthrough addresses. In the example above, 10.0.0.1 would only be associated with the newer payments service instance.
631 lines
20 KiB
Go
631 lines
20 KiB
Go
package xds
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import (
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"errors"
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"fmt"
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envoy_cluster_v3 "github.com/envoyproxy/go-control-plane/envoy/config/cluster/v3"
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envoy_core_v3 "github.com/envoyproxy/go-control-plane/envoy/config/core/v3"
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envoy_endpoint_v3 "github.com/envoyproxy/go-control-plane/envoy/config/endpoint/v3"
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"github.com/golang/protobuf/proto"
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bexpr "github.com/hashicorp/go-bexpr"
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"github.com/hashicorp/consul/agent/connect"
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"github.com/hashicorp/consul/agent/proxycfg"
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"github.com/hashicorp/consul/agent/structs"
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"github.com/hashicorp/consul/api"
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)
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const (
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UnnamedSubset = ""
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)
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// endpointsFromSnapshot returns the xDS API representation of the "endpoints"
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func (s *ResourceGenerator) endpointsFromSnapshot(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) {
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if cfgSnap == nil {
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return nil, errors.New("nil config given")
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}
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switch cfgSnap.Kind {
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case structs.ServiceKindConnectProxy:
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return s.endpointsFromSnapshotConnectProxy(cfgSnap)
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case structs.ServiceKindTerminatingGateway:
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return s.endpointsFromSnapshotTerminatingGateway(cfgSnap)
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case structs.ServiceKindMeshGateway:
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return s.endpointsFromSnapshotMeshGateway(cfgSnap)
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case structs.ServiceKindIngressGateway:
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return s.endpointsFromSnapshotIngressGateway(cfgSnap)
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default:
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return nil, fmt.Errorf("Invalid service kind: %v", cfgSnap.Kind)
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}
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}
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// endpointsFromSnapshotConnectProxy returns the xDS API representation of the "endpoints"
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// (upstream instances) in the snapshot.
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func (s *ResourceGenerator) endpointsFromSnapshotConnectProxy(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) {
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resources := make([]proto.Message, 0,
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len(cfgSnap.ConnectProxy.PreparedQueryEndpoints)+len(cfgSnap.ConnectProxy.WatchedUpstreamEndpoints))
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for uid, chain := range cfgSnap.ConnectProxy.DiscoveryChain {
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upstreamCfg := cfgSnap.ConnectProxy.UpstreamConfig[uid]
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explicit := upstreamCfg.HasLocalPortOrSocket()
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if _, implicit := cfgSnap.ConnectProxy.IntentionUpstreams[uid]; !implicit && !explicit {
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// Discovery chain is not associated with a known explicit or implicit upstream so it is skipped.
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continue
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}
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es := s.endpointsFromDiscoveryChain(
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uid,
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chain,
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cfgSnap.Locality,
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upstreamCfg,
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cfgSnap.ConnectProxy.WatchedUpstreamEndpoints[uid],
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cfgSnap.ConnectProxy.WatchedGatewayEndpoints[uid],
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)
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resources = append(resources, es...)
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}
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// Looping over explicit upstreams is only needed for prepared queries because they do not have discovery chains
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for _, u := range cfgSnap.Proxy.Upstreams {
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if u.DestinationType != structs.UpstreamDestTypePreparedQuery {
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continue
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}
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uid := proxycfg.NewUpstreamID(&u)
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dc := u.Datacenter
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if dc == "" {
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dc = cfgSnap.Datacenter
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}
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clusterName := connect.UpstreamSNI(&u, "", dc, cfgSnap.Roots.TrustDomain)
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endpoints, ok := cfgSnap.ConnectProxy.PreparedQueryEndpoints[uid]
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if ok {
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la := makeLoadAssignment(
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clusterName,
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[]loadAssignmentEndpointGroup{
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{Endpoints: endpoints},
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},
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cfgSnap.Locality,
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)
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resources = append(resources, la)
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}
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}
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return resources, nil
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}
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func (s *ResourceGenerator) filterSubsetEndpoints(subset *structs.ServiceResolverSubset, endpoints structs.CheckServiceNodes) (structs.CheckServiceNodes, error) {
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// locally execute the subsets filter
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if subset.Filter != "" {
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filter, err := bexpr.CreateFilter(subset.Filter, nil, endpoints)
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if err != nil {
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return nil, err
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}
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raw, err := filter.Execute(endpoints)
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if err != nil {
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return nil, err
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}
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return raw.(structs.CheckServiceNodes), nil
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}
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return endpoints, nil
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}
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func (s *ResourceGenerator) endpointsFromSnapshotTerminatingGateway(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) {
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return s.endpointsFromServicesAndResolvers(cfgSnap, cfgSnap.TerminatingGateway.ServiceGroups, cfgSnap.TerminatingGateway.ServiceResolvers)
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}
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func (s *ResourceGenerator) endpointsFromSnapshotMeshGateway(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) {
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keys := cfgSnap.MeshGateway.GatewayKeys()
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resources := make([]proto.Message, 0, len(keys)+len(cfgSnap.MeshGateway.ServiceGroups))
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for _, key := range keys {
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if key.Matches(cfgSnap.Datacenter, cfgSnap.ProxyID.PartitionOrDefault()) {
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continue // skip local
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}
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// Also skip gateways with a hostname as their address. EDS cannot resolve hostnames,
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// so we provide them through CDS instead.
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if len(cfgSnap.MeshGateway.HostnameDatacenters[key.String()]) > 0 {
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continue
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}
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// Mesh gateways in remote DCs are discovered in two ways:
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//
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// 1. Via an Internal.ServiceDump RPC in the remote DC (GatewayGroups).
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// 2. In the federation state that is replicated from the primary DC (FedStateGateways).
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//
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// We determine which set to use based on whichever contains the highest
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// raft ModifyIndex (and is therefore most up-to-date).
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//
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// Previously, GatewayGroups was always given presedence over FedStateGateways
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// but this was problematic when using mesh gateways for WAN federation.
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//
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// Consider the following example:
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//
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// - Primary and Secondary DCs are WAN Federated via local mesh gateways.
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//
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// - Secondary DC's mesh gateway is running on an ephemeral compute instance
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// and is abruptly terminated and rescheduled with a *new IP address*.
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//
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// - Primary DC's mesh gateway is no longer able to connect to the Secondary
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// DC as its proxy is configured with the old IP address. Therefore any RPC
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// from the Primary to the Secondary DC will fail (including the one to
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// discover the gateway's new IP address).
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//
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// - Secondary DC performs its regular anti-entropy of federation state data
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// to the Primary DC (this succeeds as there is still connectivity in this
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// direction).
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//
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// - At this point the Primary DC's mesh gateway should observe the new IP
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// address and reconfigure its proxy, however as we always prioritised
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// GatewayGroups this didn't happen and the connection remained severed.
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maxModifyIndex := func(vals structs.CheckServiceNodes) uint64 {
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var max uint64
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for _, v := range vals {
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if i := v.Service.RaftIndex.ModifyIndex; i > max {
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max = i
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}
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}
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return max
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}
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endpoints := cfgSnap.MeshGateway.GatewayGroups[key.String()]
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fedStateEndpoints := cfgSnap.MeshGateway.FedStateGateways[key.String()]
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if maxModifyIndex(fedStateEndpoints) > maxModifyIndex(endpoints) {
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endpoints = fedStateEndpoints
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}
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if len(endpoints) == 0 {
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s.Logger.Error("skipping mesh gateway endpoints because no definition found", "datacenter", key)
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continue
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}
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{ // standard connect
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clusterName := connect.GatewaySNI(key.Datacenter, key.Partition, cfgSnap.Roots.TrustDomain)
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la := makeLoadAssignment(
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clusterName,
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[]loadAssignmentEndpointGroup{
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{Endpoints: endpoints},
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},
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cfgSnap.Locality,
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)
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resources = append(resources, la)
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}
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if cfgSnap.ProxyID.InDefaultPartition() &&
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cfgSnap.ServiceMeta[structs.MetaWANFederationKey] == "1" &&
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cfgSnap.ServerSNIFn != nil {
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clusterName := cfgSnap.ServerSNIFn(key.Datacenter, "")
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la := makeLoadAssignment(
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clusterName,
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[]loadAssignmentEndpointGroup{
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{Endpoints: endpoints},
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},
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cfgSnap.Locality,
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)
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resources = append(resources, la)
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}
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}
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// generate endpoints for our servers if WAN federation is enabled
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if cfgSnap.ProxyID.InDefaultPartition() &&
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cfgSnap.ServiceMeta[structs.MetaWANFederationKey] == "1" &&
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cfgSnap.ServerSNIFn != nil {
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var allServersLbEndpoints []*envoy_endpoint_v3.LbEndpoint
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for _, srv := range cfgSnap.MeshGateway.ConsulServers {
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clusterName := cfgSnap.ServerSNIFn(cfgSnap.Datacenter, srv.Node.Node)
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_, addr, port := srv.BestAddress(false /*wan*/)
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lbEndpoint := &envoy_endpoint_v3.LbEndpoint{
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HostIdentifier: &envoy_endpoint_v3.LbEndpoint_Endpoint{
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Endpoint: &envoy_endpoint_v3.Endpoint{
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Address: makeAddress(addr, port),
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},
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},
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HealthStatus: envoy_core_v3.HealthStatus_UNKNOWN,
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}
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cla := &envoy_endpoint_v3.ClusterLoadAssignment{
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ClusterName: clusterName,
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Endpoints: []*envoy_endpoint_v3.LocalityLbEndpoints{{
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LbEndpoints: []*envoy_endpoint_v3.LbEndpoint{lbEndpoint},
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}},
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}
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allServersLbEndpoints = append(allServersLbEndpoints, lbEndpoint)
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resources = append(resources, cla)
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}
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// And add one catch all so that remote datacenters can dial ANY server
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// in this datacenter without knowing its name.
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resources = append(resources, &envoy_endpoint_v3.ClusterLoadAssignment{
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ClusterName: cfgSnap.ServerSNIFn(cfgSnap.Datacenter, ""),
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Endpoints: []*envoy_endpoint_v3.LocalityLbEndpoints{{
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|
LbEndpoints: allServersLbEndpoints,
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}},
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})
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}
|
|
|
|
// Generate the endpoints for each service and its subsets
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e, err := s.endpointsFromServicesAndResolvers(cfgSnap, cfgSnap.MeshGateway.ServiceGroups, cfgSnap.MeshGateway.ServiceResolvers)
|
|
if err != nil {
|
|
return nil, err
|
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}
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resources = append(resources, e...)
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|
|
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return resources, nil
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}
|
|
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func (s *ResourceGenerator) endpointsFromServicesAndResolvers(
|
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cfgSnap *proxycfg.ConfigSnapshot,
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services map[structs.ServiceName]structs.CheckServiceNodes,
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resolvers map[structs.ServiceName]*structs.ServiceResolverConfigEntry,
|
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) ([]proto.Message, error) {
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resources := make([]proto.Message, 0, len(services))
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|
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// generate the endpoints for the linked service groups
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for svc, endpoints := range services {
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// 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 {
|
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continue
|
|
}
|
|
|
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clusterEndpoints := make(map[string][]loadAssignmentEndpointGroup)
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clusterEndpoints[UnnamedSubset] = []loadAssignmentEndpointGroup{{Endpoints: endpoints, OnlyPassing: false}}
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|
|
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// Collect all of the loadAssignmentEndpointGroups for the various subsets. We do this before generating
|
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// the endpoints for the default/unnamed subset so that we can take into account the DefaultSubset on the
|
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// service-resolver which may prevent the default/unnamed cluster from creating endpoints for all service
|
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// instances.
|
|
if resolver, hasResolver := resolvers[svc]; hasResolver {
|
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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,
|
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cfgSnap.Locality,
|
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)
|
|
resources = append(resources, la)
|
|
}
|
|
}
|
|
|
|
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 := s.endpointsFromDiscoveryChain(
|
|
uid,
|
|
cfgSnap.IngressGateway.DiscoveryChain[uid],
|
|
proxycfg.GatewayKey{Datacenter: cfgSnap.Datacenter, Partition: u.DestinationPartition},
|
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&u,
|
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cfgSnap.IngressGateway.WatchedUpstreamEndpoints[uid],
|
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cfgSnap.IngressGateway.WatchedGatewayEndpoints[uid],
|
|
)
|
|
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) endpointsFromDiscoveryChain(
|
|
uid proxycfg.UpstreamID,
|
|
chain *structs.CompiledDiscoveryChain,
|
|
gatewayKey proxycfg.GatewayKey,
|
|
upstream *structs.Upstream,
|
|
upstreamEndpoints map[string]structs.CheckServiceNodes,
|
|
gatewayEndpoints map[string]structs.CheckServiceNodes,
|
|
) []proto.Message {
|
|
var resources []proto.Message
|
|
|
|
if chain == nil {
|
|
return resources
|
|
}
|
|
|
|
configMap := make(map[string]interface{})
|
|
if upstream != nil {
|
|
configMap = upstream.Config
|
|
}
|
|
cfg, err := structs.ParseUpstreamConfigNoDefaults(configMap)
|
|
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)
|
|
}
|
|
|
|
var escapeHatchCluster *envoy_cluster_v3.Cluster
|
|
if cfg.EnvoyClusterJSON != "" {
|
|
if chain.IsDefault() {
|
|
// 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
|
|
}
|
|
} 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)
|
|
}
|
|
}
|
|
|
|
// Find all resolver nodes.
|
|
for _, node := range chain.Nodes {
|
|
if node.Type != structs.DiscoveryGraphNodeTypeResolver {
|
|
continue
|
|
}
|
|
failover := node.Resolver.Failover
|
|
targetID := node.Resolver.Target
|
|
|
|
target := chain.Targets[targetID]
|
|
|
|
clusterName := CustomizeClusterName(target.Name, chain)
|
|
if escapeHatchCluster != nil {
|
|
clusterName = escapeHatchCluster.Name
|
|
}
|
|
s.Logger.Debug("generating endpoints for", "cluster", clusterName)
|
|
|
|
// Determine if we have to generate the entire cluster differently.
|
|
failoverThroughMeshGateway := chain.WillFailoverThroughMeshGateway(node)
|
|
|
|
if failoverThroughMeshGateway {
|
|
actualTargetID := firstHealthyTarget(
|
|
chain.Targets,
|
|
upstreamEndpoints,
|
|
targetID,
|
|
failover.Targets,
|
|
)
|
|
if actualTargetID != targetID {
|
|
targetID = actualTargetID
|
|
}
|
|
|
|
failover = nil
|
|
}
|
|
|
|
primaryGroup, valid := makeLoadAssignmentEndpointGroup(
|
|
chain.Targets,
|
|
upstreamEndpoints,
|
|
gatewayEndpoints,
|
|
targetID,
|
|
gatewayKey,
|
|
)
|
|
if !valid {
|
|
continue // skip the cluster if we're still populating the snapshot
|
|
}
|
|
|
|
var endpointGroups []loadAssignmentEndpointGroup
|
|
|
|
if failover != nil && len(failover.Targets) > 0 {
|
|
endpointGroups = make([]loadAssignmentEndpointGroup, 0, len(failover.Targets)+1)
|
|
|
|
endpointGroups = append(endpointGroups, primaryGroup)
|
|
|
|
for _, failTargetID := range failover.Targets {
|
|
failoverGroup, valid := makeLoadAssignmentEndpointGroup(
|
|
chain.Targets,
|
|
upstreamEndpoints,
|
|
gatewayEndpoints,
|
|
failTargetID,
|
|
gatewayKey,
|
|
)
|
|
if !valid {
|
|
continue // skip the failover target if we're still populating the snapshot
|
|
}
|
|
endpointGroups = append(endpointGroups, failoverGroup)
|
|
}
|
|
} else {
|
|
endpointGroups = append(endpointGroups, primaryGroup)
|
|
}
|
|
|
|
la := makeLoadAssignment(
|
|
clusterName,
|
|
endpointGroups,
|
|
gatewayKey,
|
|
)
|
|
resources = append(resources, la)
|
|
}
|
|
|
|
return resources
|
|
}
|
|
|
|
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
|
|
}
|
|
|
|
es = append(es, &envoy_endpoint_v3.LbEndpoint{
|
|
HostIdentifier: &envoy_endpoint_v3.LbEndpoint_Endpoint{
|
|
Endpoint: &envoy_endpoint_v3.Endpoint{
|
|
Address: makeAddress(addr, port),
|
|
},
|
|
},
|
|
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,
|
|
) (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 gatewayKey.IsEmpty() || (structs.EqualPartitions(localKey.Partition, target.Partition) && localKey.Datacenter == target.Datacenter) {
|
|
// 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
|
|
}
|