mirror of https://github.com/status-im/consul.git
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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}
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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)
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if err != nil {
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return nil, err
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}
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resources = append(resources, e...)
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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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// 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
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// EDS cannot resolve hostnames so we provide them through CDS instead
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if cfgSnap.Kind == structs.ServiceKindTerminatingGateway && len(cfgSnap.TerminatingGateway.HostnameServices[svc]) > 0 {
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continue
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}
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clusterEndpoints := make(map[string][]loadAssignmentEndpointGroup)
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clusterEndpoints[UnnamedSubset] = []loadAssignmentEndpointGroup{{Endpoints: endpoints, OnlyPassing: false}}
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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.
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if resolver, hasResolver := resolvers[svc]; hasResolver {
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for subsetName, subset := range resolver.Subsets {
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subsetEndpoints, err := s.filterSubsetEndpoints(&subset, endpoints)
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if err != nil {
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return nil, err
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}
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groups := []loadAssignmentEndpointGroup{{Endpoints: subsetEndpoints, OnlyPassing: subset.OnlyPassing}}
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clusterEndpoints[subsetName] = groups
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// if this subset is the default then override the unnamed subset with this configuration
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if subsetName == resolver.DefaultSubset {
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clusterEndpoints[UnnamedSubset] = groups
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}
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}
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}
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// now generate the load assignment for all subsets
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for subsetName, groups := range clusterEndpoints {
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clusterName := connect.ServiceSNI(svc.Name, subsetName, svc.NamespaceOrDefault(), svc.PartitionOrDefault(), cfgSnap.Datacenter, cfgSnap.Roots.TrustDomain)
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la := makeLoadAssignment(
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clusterName,
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groups,
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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) endpointsFromSnapshotIngressGateway(cfgSnap *proxycfg.ConfigSnapshot) ([]proto.Message, error) {
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var resources []proto.Message
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createdClusters := make(map[proxycfg.UpstreamID]bool)
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for _, upstreams := range cfgSnap.IngressGateway.Upstreams {
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for _, u := range upstreams {
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uid := proxycfg.NewUpstreamID(&u)
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// If we've already created endpoints for this upstream, skip it. Multiple listeners may
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// reference the same upstream, so we don't need to create duplicate endpoints in that case.
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if createdClusters[uid] {
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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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cfgSnap.IngressGateway.DiscoveryChain[uid],
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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],
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)
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resources = append(resources, es...)
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createdClusters[uid] = true
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}
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}
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return resources, nil
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}
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// used in clusters.go
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func makeEndpoint(host string, port int) *envoy_endpoint_v3.LbEndpoint {
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return &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(host, port),
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},
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},
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}
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}
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func makePipeEndpoint(path string) *envoy_endpoint_v3.LbEndpoint {
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return &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: makePipeAddress(path, 0),
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},
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},
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}
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}
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func (s *ResourceGenerator) endpointsFromDiscoveryChain(
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uid proxycfg.UpstreamID,
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chain *structs.CompiledDiscoveryChain,
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gatewayKey proxycfg.GatewayKey,
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upstream *structs.Upstream,
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upstreamEndpoints map[string]structs.CheckServiceNodes,
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gatewayEndpoints map[string]structs.CheckServiceNodes,
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) []proto.Message {
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var resources []proto.Message
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if chain == nil {
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return resources
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}
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configMap := make(map[string]interface{})
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if upstream != nil {
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configMap = upstream.Config
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}
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cfg, err := structs.ParseUpstreamConfigNoDefaults(configMap)
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if err != nil {
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// Don't hard fail on a config typo, just warn. The parse func returns
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// default config if there is an error so it's safe to continue.
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s.Logger.Warn("failed to parse", "upstream", uid,
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"error", err)
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}
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var escapeHatchCluster *envoy_cluster_v3.Cluster
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if cfg.EnvoyClusterJSON != "" {
|
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if chain.Default {
|
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// If you haven't done anything to setup the discovery chain, then
|
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// you can use the envoy_cluster_json escape hatch.
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escapeHatchCluster, err = makeClusterFromUserConfig(cfg.EnvoyClusterJSON)
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if err != nil {
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return resources
|
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}
|
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} else {
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s.Logger.Warn("ignoring escape hatch setting, because a discovery chain is configued for",
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"discovery chain", chain.ServiceName, "upstream", uid,
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"envoy_cluster_json", chain.ServiceName)
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}
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}
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|
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// Find all resolver nodes.
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for _, node := range chain.Nodes {
|
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if node.Type != structs.DiscoveryGraphNodeTypeResolver {
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continue
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}
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failover := node.Resolver.Failover
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targetID := node.Resolver.Target
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target := chain.Targets[targetID]
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clusterName := CustomizeClusterName(target.Name, chain)
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if escapeHatchCluster != nil {
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clusterName = escapeHatchCluster.Name
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}
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s.Logger.Debug("generating endpoints for", "cluster", clusterName)
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|
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// Determine if we have to generate the entire cluster differently.
|
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failoverThroughMeshGateway := chain.WillFailoverThroughMeshGateway(node)
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|
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if failoverThroughMeshGateway {
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actualTargetID := firstHealthyTarget(
|
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chain.Targets,
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upstreamEndpoints,
|
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targetID,
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failover.Targets,
|
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)
|
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if actualTargetID != targetID {
|
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targetID = actualTargetID
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}
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|
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failover = nil
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}
|
|
|
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primaryGroup, valid := makeLoadAssignmentEndpointGroup(
|
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chain.Targets,
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upstreamEndpoints,
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gatewayEndpoints,
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targetID,
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gatewayKey,
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)
|
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if !valid {
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continue // skip the cluster if we're still populating the snapshot
|
|
}
|
|
|
|
var endpointGroups []loadAssignmentEndpointGroup
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|
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if failover != nil && len(failover.Targets) > 0 {
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endpointGroups = make([]loadAssignmentEndpointGroup, 0, len(failover.Targets)+1)
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endpointGroups = append(endpointGroups, primaryGroup)
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|
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for _, failTargetID := range failover.Targets {
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failoverGroup, valid := makeLoadAssignmentEndpointGroup(
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chain.Targets,
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upstreamEndpoints,
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gatewayEndpoints,
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failTargetID,
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gatewayKey,
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)
|
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if !valid {
|
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continue // skip the failover target if we're still populating the snapshot
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}
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endpointGroups = append(endpointGroups, failoverGroup)
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}
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} else {
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endpointGroups = append(endpointGroups, primaryGroup)
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}
|
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|
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la := makeLoadAssignment(
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clusterName,
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endpointGroups,
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gatewayKey,
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)
|
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resources = append(resources, la)
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}
|
|
|
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return resources
|
|
}
|
|
|
|
type loadAssignmentEndpointGroup struct {
|
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Endpoints structs.CheckServiceNodes
|
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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,
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Endpoints: make([]*envoy_endpoint_v3.LocalityLbEndpoints, 0, len(endpointGroups)),
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}
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|
|
|
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
|
|
}
|