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consul/agent/proxycfg/connect_proxy.go
R.B. Boyer f557509e58
xds: allow for peered upstreams to use tagged addresses that are hostnames (#13422) 
Mesh gateways can use hostnames in their tagged addresses (#7999). This is useful
if you were to expose a mesh gateway using a cloud networking load balancer appliance
that gives you a DNS name but no reliable static IPs.

Envoy cannot accept hostnames via EDS and those must be configured using CDS.
There was already logic when configuring gateways in other locations in the code, but
given the illusions in play for peering the downstream of a peered service wasn't aware
that it should be doing that.

Also:
- ensuring that we always try to use wan-like addresses to cross peer boundaries.
2022-06-10 16:11:40 -05:00

455 lines
16 KiB
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package proxycfg
import (
"context"
"fmt"
"strings"
cachetype "github.com/hashicorp/consul/agent/cache-types"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/proto/pbpeering"
)
type handlerConnectProxy struct {
handlerState
}
// initialize sets up the watches needed based on current proxy registration
// state.
func (s *handlerConnectProxy) initialize(ctx context.Context) (ConfigSnapshot, error) {
snap := newConfigSnapshotFromServiceInstance(s.serviceInstance, s.stateConfig)
snap.ConnectProxy.DiscoveryChain = make(map[UpstreamID]*structs.CompiledDiscoveryChain)
snap.ConnectProxy.WatchedDiscoveryChains = make(map[UpstreamID]context.CancelFunc)
snap.ConnectProxy.WatchedUpstreams = make(map[UpstreamID]map[string]context.CancelFunc)
snap.ConnectProxy.WatchedUpstreamEndpoints = make(map[UpstreamID]map[string]structs.CheckServiceNodes)
snap.ConnectProxy.WatchedPeerTrustBundles = make(map[string]context.CancelFunc)
snap.ConnectProxy.PeerTrustBundles = make(map[string]*pbpeering.PeeringTrustBundle)
snap.ConnectProxy.WatchedGateways = make(map[UpstreamID]map[string]context.CancelFunc)
snap.ConnectProxy.WatchedGatewayEndpoints = make(map[UpstreamID]map[string]structs.CheckServiceNodes)
snap.ConnectProxy.WatchedServiceChecks = make(map[structs.ServiceID][]structs.CheckType)
snap.ConnectProxy.PreparedQueryEndpoints = make(map[UpstreamID]structs.CheckServiceNodes)
snap.ConnectProxy.UpstreamConfig = make(map[UpstreamID]*structs.Upstream)
snap.ConnectProxy.PassthroughUpstreams = make(map[UpstreamID]map[string]map[string]struct{})
snap.ConnectProxy.PassthroughIndices = make(map[string]indexedTarget)
snap.ConnectProxy.PeerUpstreamEndpoints = make(map[UpstreamID]structs.CheckServiceNodes)
snap.ConnectProxy.PeerUpstreamEndpointsUseHostnames = make(map[UpstreamID]struct{})
// Watch for root changes
err := s.dataSources.CARoots.Notify(ctx, &structs.DCSpecificRequest{
Datacenter: s.source.Datacenter,
QueryOptions: structs.QueryOptions{Token: s.token},
Source: *s.source,
}, rootsWatchID, s.ch)
if err != nil {
return snap, err
}
err = s.dataSources.TrustBundleList.Notify(ctx, &pbpeering.TrustBundleListByServiceRequest{
// TODO(peering): Pass ACL token
ServiceName: s.proxyCfg.DestinationServiceName,
Namespace: s.proxyID.NamespaceOrDefault(),
Partition: s.proxyID.PartitionOrDefault(),
}, peeringTrustBundlesWatchID, s.ch)
if err != nil {
return snap, err
}
// Watch the leaf cert
err = s.dataSources.LeafCertificate.Notify(ctx, &cachetype.ConnectCALeafRequest{
Datacenter: s.source.Datacenter,
Token: s.token,
Service: s.proxyCfg.DestinationServiceName,
EnterpriseMeta: s.proxyID.EnterpriseMeta,
}, leafWatchID, s.ch)
if err != nil {
return snap, err
}
// Watch for intention updates
err = s.dataSources.Intentions.Notify(ctx, &structs.IntentionQueryRequest{
Datacenter: s.source.Datacenter,
QueryOptions: structs.QueryOptions{Token: s.token},
Match: &structs.IntentionQueryMatch{
Type: structs.IntentionMatchDestination,
Entries: []structs.IntentionMatchEntry{
{
Namespace: s.proxyID.NamespaceOrDefault(),
Partition: s.proxyID.PartitionOrDefault(),
Name: s.proxyCfg.DestinationServiceName,
},
},
},
}, intentionsWatchID, s.ch)
if err != nil {
return snap, err
}
// Get information about the entire service mesh.
err = s.dataSources.ConfigEntry.Notify(ctx, &structs.ConfigEntryQuery{
Kind: structs.MeshConfig,
Name: structs.MeshConfigMesh,
Datacenter: s.source.Datacenter,
QueryOptions: structs.QueryOptions{Token: s.token},
EnterpriseMeta: *structs.DefaultEnterpriseMetaInPartition(s.proxyID.PartitionOrDefault()),
}, meshConfigEntryID, s.ch)
if err != nil {
return snap, err
}
// Watch for service check updates
err = s.dataSources.HTTPChecks.Notify(ctx, &cachetype.ServiceHTTPChecksRequest{
ServiceID: s.proxyCfg.DestinationServiceID,
EnterpriseMeta: s.proxyID.EnterpriseMeta,
}, svcChecksWatchIDPrefix+structs.ServiceIDString(s.proxyCfg.DestinationServiceID, &s.proxyID.EnterpriseMeta), s.ch)
if err != nil {
return snap, err
}
if s.proxyCfg.Mode == structs.ProxyModeTransparent {
// When in transparent proxy we will infer upstreams from intentions with this source
err := s.dataSources.IntentionUpstreams.Notify(ctx, &structs.ServiceSpecificRequest{
Datacenter: s.source.Datacenter,
QueryOptions: structs.QueryOptions{Token: s.token},
ServiceName: s.proxyCfg.DestinationServiceName,
EnterpriseMeta: s.proxyID.EnterpriseMeta,
}, intentionUpstreamsID, s.ch)
if err != nil {
return snap, err
}
}
// Watch for updates to service endpoints for all upstreams
for i := range s.proxyCfg.Upstreams {
u := s.proxyCfg.Upstreams[i]
uid := NewUpstreamID(&u)
// Store defaults keyed under wildcard so they can be applied to centrally configured upstreams
if u.DestinationName == structs.WildcardSpecifier {
snap.ConnectProxy.UpstreamConfig[uid] = &u
continue
}
snap.ConnectProxy.UpstreamConfig[uid] = &u
// This can be true if the upstream is a synthetic entry populated from centralized upstream config.
// Watches should not be created for them.
if u.CentrallyConfigured {
continue
}
dc := s.source.Datacenter
if u.Datacenter != "" {
dc = u.Datacenter
}
if s.proxyCfg.Mode == structs.ProxyModeTransparent && (dc == "" || dc == s.source.Datacenter) {
// In transparent proxy mode, watches for upstreams in the local DC are handled by the IntentionUpstreams watch.
continue
}
// Default the partition and namespace to the namespace of this proxy service.
partition := s.proxyID.PartitionOrDefault()
if u.DestinationPartition != "" {
partition = u.DestinationPartition
}
ns := s.proxyID.NamespaceOrDefault()
if u.DestinationNamespace != "" {
ns = u.DestinationNamespace
}
cfg, err := parseReducedUpstreamConfig(u.Config)
if err != nil {
// Don't hard fail on a config typo, just warn. We'll fall back on
// the plain discovery chain if there is an error so it's safe to
// continue.
s.logger.Warn("failed to parse upstream config",
"upstream", uid.String(),
"error", err,
)
}
switch u.DestinationType {
case structs.UpstreamDestTypePreparedQuery:
err = s.dataSources.PreparedQuery.Notify(ctx, &structs.PreparedQueryExecuteRequest{
Datacenter: dc,
QueryOptions: structs.QueryOptions{Token: s.token, MaxAge: defaultPreparedQueryPollInterval},
QueryIDOrName: u.DestinationName,
Connect: true,
Source: *s.source,
}, "upstream:"+uid.String(), s.ch)
if err != nil {
return snap, err
}
case structs.UpstreamDestTypeService:
fallthrough
case "":
if u.DestinationPeer != "" {
// NOTE: An upstream that points to a peer by definition will
// only ever watch a single catalog query, so a map key of just
// "UID" is sufficient to cover the peer data watches here.
s.logger.Trace("initializing watch of peered upstream", "upstream", uid)
// TODO(peering): We'll need to track a CancelFunc for this
// once the tproxy support lands.
err := s.dataSources.Health.Notify(ctx, &structs.ServiceSpecificRequest{
PeerName: uid.Peer,
Datacenter: dc,
QueryOptions: structs.QueryOptions{
Token: s.token,
},
ServiceName: u.DestinationName,
Connect: true,
// Note that Identifier doesn't type-prefix for service any more as it's
// the default and makes metrics and other things much cleaner. It's
// simpler for us if we have the type to make things unambiguous.
Source: *s.source,
EnterpriseMeta: uid.EnterpriseMeta,
}, upstreamPeerWatchIDPrefix+uid.String(), s.ch)
if err != nil {
return snap, err
}
// Check whether a watch for this peer exists to avoid duplicates.
if _, ok := snap.ConnectProxy.WatchedPeerTrustBundles[uid.Peer]; !ok {
peerCtx, cancel := context.WithCancel(ctx)
if err := s.dataSources.TrustBundle.Notify(peerCtx, &pbpeering.TrustBundleReadRequest{
Name: uid.Peer,
Partition: uid.PartitionOrDefault(),
}, peerTrustBundleIDPrefix+uid.Peer, s.ch); err != nil {
cancel()
return snap, fmt.Errorf("error while watching trust bundle for peer %q: %w", uid.Peer, err)
}
snap.ConnectProxy.WatchedPeerTrustBundles[uid.Peer] = cancel
}
continue
}
err = s.dataSources.CompiledDiscoveryChain.Notify(ctx, &structs.DiscoveryChainRequest{
Datacenter: s.source.Datacenter,
QueryOptions: structs.QueryOptions{Token: s.token},
Name: u.DestinationName,
EvaluateInDatacenter: dc,
EvaluateInNamespace: ns,
EvaluateInPartition: partition,
OverrideMeshGateway: s.proxyCfg.MeshGateway.OverlayWith(u.MeshGateway),
OverrideProtocol: cfg.Protocol,
OverrideConnectTimeout: cfg.ConnectTimeout(),
}, "discovery-chain:"+uid.String(), s.ch)
if err != nil {
return snap, fmt.Errorf("failed to watch discovery chain for %s: %v", uid.String(), err)
}
default:
return snap, fmt.Errorf("unknown upstream type: %q", u.DestinationType)
}
}
return snap, nil
}
func (s *handlerConnectProxy) handleUpdate(ctx context.Context, u UpdateEvent, snap *ConfigSnapshot) error {
if u.Err != nil {
return fmt.Errorf("error filling agent cache: %v", u.Err)
}
switch {
case u.CorrelationID == rootsWatchID:
roots, ok := u.Result.(*structs.IndexedCARoots)
if !ok {
return fmt.Errorf("invalid type for response: %T", u.Result)
}
snap.Roots = roots
case strings.HasPrefix(u.CorrelationID, peerTrustBundleIDPrefix):
resp, ok := u.Result.(*pbpeering.TrustBundleReadResponse)
if !ok {
return fmt.Errorf("invalid type for response: %T", u.Result)
}
peer := strings.TrimPrefix(u.CorrelationID, peerTrustBundleIDPrefix)
if resp.Bundle != nil {
snap.ConnectProxy.PeerTrustBundles[peer] = resp.Bundle
}
case u.CorrelationID == peeringTrustBundlesWatchID:
resp, ok := u.Result.(*pbpeering.TrustBundleListByServiceResponse)
if !ok {
return fmt.Errorf("invalid type for response: %T", u.Result)
}
if len(resp.Bundles) > 0 {
snap.ConnectProxy.PeeringTrustBundles = resp.Bundles
}
snap.ConnectProxy.PeeringTrustBundlesSet = true
case u.CorrelationID == intentionsWatchID:
resp, ok := u.Result.(*structs.IndexedIntentionMatches)
if !ok {
return fmt.Errorf("invalid type for response: %T", u.Result)
}
if len(resp.Matches) > 0 {
// RPC supports matching multiple services at once but we only ever
// query with the one service we represent currently so just pick
// the one result set up.
snap.ConnectProxy.Intentions = resp.Matches[0]
}
snap.ConnectProxy.IntentionsSet = true
case u.CorrelationID == intentionUpstreamsID:
resp, ok := u.Result.(*structs.IndexedServiceList)
if !ok {
return fmt.Errorf("invalid type for response %T", u.Result)
}
seenUpstreams := make(map[UpstreamID]struct{})
for _, svc := range resp.Services {
uid := NewUpstreamIDFromServiceName(svc)
seenUpstreams[uid] = struct{}{}
cfgMap := make(map[string]interface{})
u, ok := snap.ConnectProxy.UpstreamConfig[uid]
if ok {
cfgMap = u.Config
} else {
// Use the centralized upstream defaults if they exist and there isn't specific configuration for this upstream
// This is only relevant to upstreams from intentions because for explicit upstreams the defaulting is handled
// by the ResolveServiceConfig endpoint.
wildcardSID := structs.NewServiceID(structs.WildcardSpecifier, s.proxyID.WithWildcardNamespace())
wildcardUID := NewUpstreamIDFromServiceID(wildcardSID)
defaults, ok := snap.ConnectProxy.UpstreamConfig[wildcardUID]
if ok {
u = defaults
cfgMap = defaults.Config
snap.ConnectProxy.UpstreamConfig[uid] = defaults
}
}
cfg, err := parseReducedUpstreamConfig(cfgMap)
if err != nil {
// Don't hard fail on a config typo, just warn. We'll fall back on
// the plain discovery chain if there is an error so it's safe to
// continue.
s.logger.Warn("failed to parse upstream config",
"upstream", uid,
"error", err,
)
}
meshGateway := s.proxyCfg.MeshGateway
if u != nil {
meshGateway = meshGateway.OverlayWith(u.MeshGateway)
}
watchOpts := discoveryChainWatchOpts{
id: NewUpstreamIDFromServiceName(svc),
name: svc.Name,
namespace: svc.NamespaceOrDefault(),
partition: svc.PartitionOrDefault(),
datacenter: s.source.Datacenter,
cfg: cfg,
meshGateway: meshGateway,
}
up := &handlerUpstreams{handlerState: s.handlerState}
err = up.watchDiscoveryChain(ctx, snap, watchOpts)
if err != nil {
return fmt.Errorf("failed to watch discovery chain for %s: %v", uid, err)
}
}
snap.ConnectProxy.IntentionUpstreams = seenUpstreams
// Clean up data from services that were not in the update
for uid, targets := range snap.ConnectProxy.WatchedUpstreams {
if upstream, ok := snap.ConnectProxy.UpstreamConfig[uid]; ok && upstream.Datacenter != "" && upstream.Datacenter != s.source.Datacenter {
continue
}
if _, ok := seenUpstreams[uid]; !ok {
for _, cancelFn := range targets {
cancelFn()
}
delete(snap.ConnectProxy.WatchedUpstreams, uid)
}
}
for uid := range snap.ConnectProxy.WatchedUpstreamEndpoints {
if upstream, ok := snap.ConnectProxy.UpstreamConfig[uid]; ok && upstream.Datacenter != "" && upstream.Datacenter != s.source.Datacenter {
continue
}
if _, ok := seenUpstreams[uid]; !ok {
delete(snap.ConnectProxy.WatchedUpstreamEndpoints, uid)
}
}
for uid, cancelMap := range snap.ConnectProxy.WatchedGateways {
if upstream, ok := snap.ConnectProxy.UpstreamConfig[uid]; ok && upstream.Datacenter != "" && upstream.Datacenter != s.source.Datacenter {
continue
}
if _, ok := seenUpstreams[uid]; !ok {
for _, cancelFn := range cancelMap {
cancelFn()
}
delete(snap.ConnectProxy.WatchedGateways, uid)
}
}
for uid := range snap.ConnectProxy.WatchedGatewayEndpoints {
if upstream, ok := snap.ConnectProxy.UpstreamConfig[uid]; ok && upstream.Datacenter != "" && upstream.Datacenter != s.source.Datacenter {
continue
}
if _, ok := seenUpstreams[uid]; !ok {
delete(snap.ConnectProxy.WatchedGatewayEndpoints, uid)
}
}
for uid, cancelFn := range snap.ConnectProxy.WatchedDiscoveryChains {
if upstream, ok := snap.ConnectProxy.UpstreamConfig[uid]; ok && upstream.Datacenter != "" && upstream.Datacenter != s.source.Datacenter {
continue
}
if _, ok := seenUpstreams[uid]; !ok {
cancelFn()
delete(snap.ConnectProxy.WatchedDiscoveryChains, uid)
}
}
for uid := range snap.ConnectProxy.PassthroughUpstreams {
if _, ok := seenUpstreams[uid]; !ok {
delete(snap.ConnectProxy.PassthroughUpstreams, uid)
}
}
for addr, indexed := range snap.ConnectProxy.PassthroughIndices {
if _, ok := seenUpstreams[indexed.upstreamID]; !ok {
delete(snap.ConnectProxy.PassthroughIndices, addr)
}
}
// These entries are intentionally handled separately from the WatchedDiscoveryChains above.
// There have been situations where a discovery watch was cancelled, then fired.
// That update event then re-populated the DiscoveryChain map entry, which wouldn't get cleaned up
// since there was no known watch for it.
for uid := range snap.ConnectProxy.DiscoveryChain {
if upstream, ok := snap.ConnectProxy.UpstreamConfig[uid]; ok && upstream.Datacenter != "" && upstream.Datacenter != s.source.Datacenter {
continue
}
if _, ok := seenUpstreams[uid]; !ok {
delete(snap.ConnectProxy.DiscoveryChain, uid)
}
}
case strings.HasPrefix(u.CorrelationID, "upstream:"+preparedQueryIDPrefix):
resp, ok := u.Result.(*structs.PreparedQueryExecuteResponse)
if !ok {
return fmt.Errorf("invalid type for response: %T", u.Result)
}
pq := strings.TrimPrefix(u.CorrelationID, "upstream:")
uid := UpstreamIDFromString(pq)
snap.ConnectProxy.PreparedQueryEndpoints[uid] = resp.Nodes
case strings.HasPrefix(u.CorrelationID, svcChecksWatchIDPrefix):
resp, ok := u.Result.([]structs.CheckType)
if !ok {
return fmt.Errorf("invalid type for service checks response: %T, want: []structs.CheckType", u.Result)
}
svcID := structs.ServiceIDFromString(strings.TrimPrefix(u.CorrelationID, svcChecksWatchIDPrefix))
snap.ConnectProxy.WatchedServiceChecks[svcID] = resp
default:
return (*handlerUpstreams)(s).handleUpdateUpstreams(ctx, u, snap)
}
return nil
}
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