forked from hashicorp/consul
/
catalog_events.go
807 lines (699 loc) · 25.1 KB
/
catalog_events.go
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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package state
import (
"fmt"
"strings"
memdb "github.com/hashicorp/go-memdb"
"github.com/hernad/consul/acl"
"github.com/hernad/consul/agent/consul/stream"
"github.com/hernad/consul/agent/structs"
"github.com/hernad/consul/proto/private/pbcommon"
"github.com/hernad/consul/proto/private/pbservice"
"github.com/hernad/consul/proto/private/pbsubscribe"
)
// EventSubjectService is a stream.Subject used to route and receive events for
// a specific service.
type EventSubjectService struct {
Key string
EnterpriseMeta acl.EnterpriseMeta
PeerName string
overrideKey string
overrideNamespace string
overridePartition string
}
// EventPayloadCheckServiceNode is used as the Payload for a stream.Event to
// indicates changes to a CheckServiceNode for service health.
//
// The stream.Payload methods implemented by EventPayloadCheckServiceNode are
// do not mutate the payload, making it safe to use in an Event sent to
// stream.EventPublisher.Publish.
type EventPayloadCheckServiceNode struct {
Op pbsubscribe.CatalogOp
Value *structs.CheckServiceNode
// key is used to override the key used to filter the payload. It is set for
// events in the connect topic to specify the name of the underlying service
// when the change event is for a sidecar or gateway.
overrideKey string
overrideNamespace string
overridePartition string
}
func (e EventPayloadCheckServiceNode) HasReadPermission(authz acl.Authorizer) bool {
return e.Value.CanRead(authz) == acl.Allow
}
func (e EventPayloadCheckServiceNode) Subject() stream.Subject {
return EventSubjectService{
Key: e.Value.Service.Service,
EnterpriseMeta: e.Value.Service.EnterpriseMeta,
PeerName: e.Value.Service.PeerName,
overrideKey: e.overrideKey,
overrideNamespace: e.overrideNamespace,
overridePartition: e.overridePartition,
}
}
func (e EventPayloadCheckServiceNode) ToSubscriptionEvent(idx uint64) *pbsubscribe.Event {
return &pbsubscribe.Event{
Index: idx,
Payload: &pbsubscribe.Event_ServiceHealth{
ServiceHealth: &pbsubscribe.ServiceHealthUpdate{
Op: e.Op,
CheckServiceNode: pbservice.NewCheckServiceNodeFromStructs(e.Value),
},
},
}
}
// EventPayloadServiceListUpdate is used as the Payload for a stream.Event when
// services (not service instances) are registered/deregistered. These events
// are used to materialize the list of services in a datacenter.
type EventPayloadServiceListUpdate struct {
Op pbsubscribe.CatalogOp
Name string
EnterpriseMeta acl.EnterpriseMeta
PeerName string
}
func (e *EventPayloadServiceListUpdate) ToSubscriptionEvent(idx uint64) *pbsubscribe.Event {
return &pbsubscribe.Event{
Index: idx,
Payload: &pbsubscribe.Event_Service{
Service: &pbsubscribe.ServiceListUpdate{
Op: e.Op,
Name: e.Name,
EnterpriseMeta: pbcommon.NewEnterpriseMetaFromStructs(e.EnterpriseMeta),
PeerName: e.PeerName,
},
},
}
}
func (e *EventPayloadServiceListUpdate) Subject() stream.Subject { return stream.SubjectNone }
func (e *EventPayloadServiceListUpdate) HasReadPermission(authz acl.Authorizer) bool {
var authzContext acl.AuthorizerContext
e.EnterpriseMeta.FillAuthzContext(&authzContext)
return authz.ServiceRead(e.Name, &authzContext) == acl.Allow
}
// serviceHealthSnapshot returns a stream.SnapshotFunc that provides a snapshot
// of stream.Events that describe the current state of a service health query.
func (s *Store) ServiceHealthSnapshot(req stream.SubscribeRequest, buf stream.SnapshotAppender) (index uint64, err error) {
tx := s.db.ReadTxn()
defer tx.Abort()
connect := req.Topic == EventTopicServiceHealthConnect
subject, ok := req.Subject.(EventSubjectService)
if !ok {
return 0, fmt.Errorf("expected SubscribeRequest.Subject to be a: state.EventSubjectService, was a: %T", req.Subject)
}
idx, nodes, err := checkServiceNodesTxn(tx, nil, subject.Key, connect, &subject.EnterpriseMeta, subject.PeerName)
if err != nil {
return 0, err
}
for i := range nodes {
n := nodes[i]
event := stream.Event{
Index: idx,
Topic: req.Topic,
Payload: EventPayloadCheckServiceNode{
Op: pbsubscribe.CatalogOp_Register,
Value: &n,
},
}
if !connect {
// append each event as a separate item so that they can be serialized
// separately, to prevent the encoding of one massive message.
buf.Append([]stream.Event{event})
continue
}
events, err := connectEventsByServiceKind(tx, event)
if err != nil {
return idx, err
}
buf.Append(events)
}
return idx, err
}
// TODO: this could use NodeServiceQuery
type nodeServiceTuple struct {
Node string
ServiceID string
EntMeta acl.EnterpriseMeta
PeerName string
}
func newNodeServiceTupleFromServiceNode(sn *structs.ServiceNode) nodeServiceTuple {
return nodeServiceTuple{
Node: strings.ToLower(sn.Node),
ServiceID: sn.ServiceID,
EntMeta: sn.EnterpriseMeta,
PeerName: sn.PeerName,
}
}
func newNodeServiceTupleFromServiceHealthCheck(hc *structs.HealthCheck) nodeServiceTuple {
return nodeServiceTuple{
Node: strings.ToLower(hc.Node),
ServiceID: hc.ServiceID,
EntMeta: hc.EnterpriseMeta,
PeerName: hc.PeerName,
}
}
type serviceChange struct {
changeType changeType
change memdb.Change
}
type nodeTuple struct {
Node string
Partition string
PeerName string
}
var serviceChangeIndirect = serviceChange{changeType: changeIndirect}
// ServiceListUpdateEventsFromChanges returns events representing changes to
// the list of services from the given set of state store changes.
func ServiceListUpdateEventsFromChanges(tx ReadTxn, changes Changes) ([]stream.Event, error) {
var events []stream.Event
for _, change := range changes.Changes {
if change.Table != tableKindServiceNames {
continue
}
kindName := changeObject(change).(*KindServiceName)
// TODO(peering): make this peer-aware.
payload := &EventPayloadServiceListUpdate{
Name: kindName.Service.Name,
EnterpriseMeta: kindName.Service.EnterpriseMeta,
}
if change.Deleted() {
payload.Op = pbsubscribe.CatalogOp_Deregister
} else {
payload.Op = pbsubscribe.CatalogOp_Register
}
events = append(events, stream.Event{
Topic: EventTopicServiceList,
Index: changes.Index,
Payload: payload,
})
}
return events, nil
}
// ServiceListSnapshot is a stream.SnapshotFunc that returns a snapshot of
// all service names.
func (s *Store) ServiceListSnapshot(_ stream.SubscribeRequest, buf stream.SnapshotAppender) (uint64, error) {
index, names, err := s.ServiceNamesOfKind(nil, "")
if err != nil {
return 0, err
}
if l := len(names); l > 0 {
events := make([]stream.Event, l)
for idx, name := range names {
events[idx] = stream.Event{
Topic: EventTopicServiceList,
Index: index,
Payload: &EventPayloadServiceListUpdate{
Op: pbsubscribe.CatalogOp_Register,
Name: name.Service.Name,
EnterpriseMeta: name.Service.EnterpriseMeta,
},
}
}
buf.Append(events)
}
return index, nil
}
// ServiceHealthEventsFromChanges returns all the service and Connect health
// events that should be emitted given a set of changes to the state store.
func ServiceHealthEventsFromChanges(tx ReadTxn, changes Changes) ([]stream.Event, error) {
var events []stream.Event
var nodeChanges map[nodeTuple]changeType
var serviceChanges map[nodeServiceTuple]serviceChange
var termGatewayChanges map[structs.ServiceName]map[structs.ServiceName]serviceChange
markNode := func(node nodeTuple, typ changeType) {
if nodeChanges == nil {
nodeChanges = make(map[nodeTuple]changeType)
}
// If the caller has an actual node mutation ensure we store it even if the
// node is already marked. If the caller is just marking the node dirty
// without a node change, don't overwrite any existing node change we know
// about.
if nodeChanges[node] == changeIndirect {
nodeChanges[node] = typ
}
}
markService := func(key nodeServiceTuple, svcChange serviceChange) {
if serviceChanges == nil {
serviceChanges = make(map[nodeServiceTuple]serviceChange)
}
// If the caller has an actual service mutation ensure we store it even if
// the service is already marked. If the caller is just marking the service
// dirty without a service change, don't overwrite any existing service change we
// know about.
if serviceChanges[key].changeType == changeIndirect {
serviceChanges[key] = svcChange
}
}
for _, change := range changes.Changes {
switch change.Table {
case tableNodes:
// Node changed in some way, if it's not a delete, we'll need to
// re-deliver CheckServiceNode results for all services on that node but
// we mark it anyway because if it _is_ a delete then we need to know that
// later to avoid trying to deliver events when node level checks mark the
// node as "changed".
n := changeObject(change).(*structs.Node)
tuple := newNodeTupleFromNode(n)
markNode(tuple, changeTypeFromChange(change))
case tableServices:
sn := changeObject(change).(*structs.ServiceNode)
srvChange := serviceChange{changeType: changeTypeFromChange(change), change: change}
markService(newNodeServiceTupleFromServiceNode(sn), srvChange)
case tableChecks:
// For health we only care about the scope for now to know if it's just
// affecting a single service or every service on a node. There is a
// subtle edge case where the check with same ID changes from being node
// scoped to service scoped or vice versa, in either case we need to treat
// it as affecting all services on the node.
switch {
case change.Updated():
before := change.Before.(*structs.HealthCheck)
after := change.After.(*structs.HealthCheck)
if after.ServiceID == "" || before.ServiceID == "" {
// check before and/or after is node-scoped
nt := newNodeTupleFromHealthCheck(after)
markNode(nt, changeIndirect)
} else {
// Check changed which means we just need to emit for the linked
// service.
markService(newNodeServiceTupleFromServiceHealthCheck(after), serviceChangeIndirect)
// Edge case - if the check with same ID was updated to link to a
// different service ID but the old service with old ID still exists,
// then the old service instance needs updating too as it has one
// fewer checks now.
if before.ServiceID != after.ServiceID {
markService(newNodeServiceTupleFromServiceHealthCheck(before), serviceChangeIndirect)
}
}
case change.Deleted(), change.Created():
obj := changeObject(change).(*structs.HealthCheck)
if obj.ServiceID == "" {
// Node level check
nt := newNodeTupleFromHealthCheck(obj)
markNode(nt, changeIndirect)
} else {
markService(newNodeServiceTupleFromServiceHealthCheck(obj), serviceChangeIndirect)
}
}
case tableGatewayServices:
gs := changeObject(change).(*structs.GatewayService)
if gs.GatewayKind != structs.ServiceKindTerminatingGateway {
continue
}
gsChange := serviceChange{changeType: changeTypeFromChange(change), change: change}
if termGatewayChanges == nil {
termGatewayChanges = make(map[structs.ServiceName]map[structs.ServiceName]serviceChange)
}
_, ok := termGatewayChanges[gs.Gateway]
if !ok {
termGatewayChanges[gs.Gateway] = map[structs.ServiceName]serviceChange{}
}
switch gsChange.changeType {
case changeUpdate:
after := gsChange.change.After.(*structs.GatewayService)
if gsChange.change.Before.(*structs.GatewayService).IsSame(after) {
continue
}
termGatewayChanges[gs.Gateway][gs.Service] = gsChange
case changeDelete, changeCreate:
termGatewayChanges[gs.Gateway][gs.Service] = gsChange
}
}
}
// Now act on those marked nodes/services
for node, changeType := range nodeChanges {
if changeType == changeDelete {
// Node deletions are a no-op here since the state store transaction will
// have also removed all the service instances which will be handled in
// the loop below.
continue
}
// Rebuild events for all services on this node
es, err := newServiceHealthEventsForNode(tx, changes.Index, node.Node,
structs.WildcardEnterpriseMetaInPartition(node.Partition), node.PeerName)
if err != nil {
return nil, err
}
events = append(events, es...)
}
for tuple, srvChange := range serviceChanges {
if srvChange.changeType == changeDelete {
sn := srvChange.change.Before.(*structs.ServiceNode)
e := newServiceHealthEventDeregister(changes.Index, sn)
events = append(events, e)
continue
}
// Check if this was a service mutation that changed it's name which
// requires special handling even if node changed and new events were
// already published.
if srvChange.changeType == changeUpdate {
before := srvChange.change.Before.(*structs.ServiceNode)
after := srvChange.change.After.(*structs.ServiceNode)
if before.ServiceName != after.ServiceName {
// Service was renamed, the code below will ensure the new registrations
// go out to subscribers to the new service name topic key, but we need
// to fix up subscribers that were watching the old name by sending
// deregistrations.
e := newServiceHealthEventDeregister(changes.Index, before)
events = append(events, e)
}
if e, ok := isConnectProxyDestinationServiceChange(changes.Index, before, after); ok {
events = append(events, e)
}
}
if _, ok := nodeChanges[tuple.nodeTuple()]; ok {
// We already rebuilt events for everything on this node, no need to send
// a duplicate.
continue
}
// Build service event and append it
e, err := newServiceHealthEventForService(tx, changes.Index, tuple)
if err != nil {
return nil, err
}
events = append(events, e)
}
for gatewayName, svcChanges := range termGatewayChanges {
for serviceName, gsChange := range svcChanges {
gs := changeObject(gsChange.change).(*structs.GatewayService)
q := Query{
Value: gs.Gateway.Name,
EnterpriseMeta: gatewayName.EnterpriseMeta,
PeerName: structs.TODOPeerKeyword,
}
_, nodes, err := serviceNodesTxn(tx, nil, indexService, q)
if err != nil {
return nil, err
}
// Always send deregister events for deletes/updates.
if gsChange.changeType != changeCreate {
for _, sn := range nodes {
e := newServiceHealthEventDeregister(changes.Index, sn)
e.Topic = EventTopicServiceHealthConnect
payload := e.Payload.(EventPayloadCheckServiceNode)
payload.overrideKey = serviceName.Name
if gatewayName.EnterpriseMeta.NamespaceOrDefault() != serviceName.EnterpriseMeta.NamespaceOrDefault() {
payload.overrideNamespace = serviceName.EnterpriseMeta.NamespaceOrDefault()
}
if gatewayName.EnterpriseMeta.PartitionOrDefault() != serviceName.EnterpriseMeta.PartitionOrDefault() {
payload.overridePartition = serviceName.EnterpriseMeta.PartitionOrDefault()
}
e.Payload = payload
events = append(events, e)
}
}
if gsChange.changeType == changeDelete {
continue
}
// Build service events and append them
for _, sn := range nodes {
tuple := newNodeServiceTupleFromServiceNode(sn)
// If we're already sending an event for the service, don't send another.
if _, ok := serviceChanges[tuple]; ok {
continue
}
e, err := newServiceHealthEventForService(tx, changes.Index, tuple)
if err != nil {
return nil, err
}
e.Topic = EventTopicServiceHealthConnect
payload := e.Payload.(EventPayloadCheckServiceNode)
payload.overrideKey = serviceName.Name
if gatewayName.EnterpriseMeta.NamespaceOrDefault() != serviceName.EnterpriseMeta.NamespaceOrDefault() {
payload.overrideNamespace = serviceName.EnterpriseMeta.NamespaceOrDefault()
}
if gatewayName.EnterpriseMeta.PartitionOrDefault() != serviceName.EnterpriseMeta.PartitionOrDefault() {
payload.overridePartition = serviceName.EnterpriseMeta.PartitionOrDefault()
}
e.Payload = payload
events = append(events, e)
}
}
}
// Duplicate any events that affected connect-enabled instances (proxies or
// native apps) to the relevant Connect topic.
connectEvents, err := serviceHealthToConnectEvents(tx, events...)
if err != nil {
return nil, err
}
events = append(events, connectEvents...)
return events, nil
}
// isConnectProxyDestinationServiceChange handles the case where a Connect proxy changed
// the service it is proxying. We need to issue a de-registration for the old
// service on the Connect topic. We don't actually need to deregister this sidecar
// service though as it still exists and didn't change its name.
func isConnectProxyDestinationServiceChange(idx uint64, before, after *structs.ServiceNode) (stream.Event, bool) {
if before.ServiceKind != structs.ServiceKindConnectProxy ||
before.ServiceProxy.DestinationServiceName == after.ServiceProxy.DestinationServiceName {
return stream.Event{}, false
}
e := newServiceHealthEventDeregister(idx, before)
e.Topic = EventTopicServiceHealthConnect
payload := e.Payload.(EventPayloadCheckServiceNode)
payload.overrideKey = payload.Value.Service.Proxy.DestinationServiceName
e.Payload = payload
return e, true
}
type changeType uint8
const (
// changeIndirect indicates some other object changed which has implications
// for the target object.
changeIndirect changeType = iota
changeDelete
changeCreate
changeUpdate
)
func changeTypeFromChange(change memdb.Change) changeType {
switch {
case change.Deleted():
return changeDelete
case change.Created():
return changeCreate
default:
return changeUpdate
}
}
// serviceHealthToConnectEvents converts already formatted service health
// registration events into the ones needed to publish to the Connect topic.
// This essentially means filtering out any instances that are not Connect
// enabled and so of no interest to those subscribers but also involves
// switching connection details to be the proxy instead of the actual instance
// in case of a sidecar.
func serviceHealthToConnectEvents(
tx ReadTxn,
events ...stream.Event,
) ([]stream.Event, error) {
var result []stream.Event
for _, event := range events {
if event.Topic != EventTopicServiceHealth { // event.Topic == topicServiceHealthConnect
// Skip non-health or any events already emitted to Connect topic
continue
}
connectEvents, err := connectEventsByServiceKind(tx, event)
if err != nil {
return nil, err
}
result = append(result, connectEvents...)
}
return result, nil
}
func connectEventsByServiceKind(tx ReadTxn, origEvent stream.Event) ([]stream.Event, error) {
node := getPayloadCheckServiceNode(origEvent.Payload)
if node.Service == nil {
return nil, nil
}
event := origEvent // shallow copy the event
event.Topic = EventTopicServiceHealthConnect
if node.Service.Connect.Native {
return []stream.Event{event}, nil
}
switch node.Service.Kind {
case structs.ServiceKindConnectProxy:
payload := event.Payload.(EventPayloadCheckServiceNode)
payload.overrideKey = node.Service.Proxy.DestinationServiceName
event.Payload = payload
return []stream.Event{event}, nil
case structs.ServiceKindTerminatingGateway:
var result []stream.Event
// TODO(peering): handle terminating gateways somehow
sn := structs.ServiceName{
Name: node.Service.Service,
EnterpriseMeta: node.Service.EnterpriseMeta,
}
iter, err := tx.Get(tableGatewayServices, indexGateway, sn)
if err != nil {
return nil, err
}
// similar to checkServiceNodesTxn -> serviceGatewayNodes
for obj := iter.Next(); obj != nil; obj = iter.Next() {
result = append(result, copyEventForService(event, obj.(*structs.GatewayService).Service))
}
return result, nil
default:
// All other cases are not relevant to the connect topic
}
return nil, nil
}
func copyEventForService(event stream.Event, service structs.ServiceName) stream.Event {
event.Topic = EventTopicServiceHealthConnect
payload := event.Payload.(EventPayloadCheckServiceNode)
payload.overrideKey = service.Name
if payload.Value.Service.EnterpriseMeta.NamespaceOrDefault() != service.EnterpriseMeta.NamespaceOrDefault() {
payload.overrideNamespace = service.EnterpriseMeta.NamespaceOrDefault()
}
if payload.Value.Service.EnterpriseMeta.PartitionOrDefault() != service.EnterpriseMeta.PartitionOrDefault() {
payload.overridePartition = service.EnterpriseMeta.PartitionOrDefault()
}
event.Payload = payload
return event
}
func getPayloadCheckServiceNode(payload stream.Payload) *structs.CheckServiceNode {
ep, ok := payload.(EventPayloadCheckServiceNode)
if !ok {
return nil
}
return ep.Value
}
// newServiceHealthEventsForNode returns health events for all services on the
// given node. This mirrors some of the the logic in the oddly-named
// parseCheckServiceNodes but is more efficient since we know they are all on
// the same node.
func newServiceHealthEventsForNode(tx ReadTxn, idx uint64, node string, entMeta *acl.EnterpriseMeta, peerName string) ([]stream.Event, error) {
services, err := tx.Get(tableServices, indexNode, Query{
Value: node,
EnterpriseMeta: *entMeta,
PeerName: peerName,
})
if err != nil {
return nil, err
}
n, checksFunc, err := getNodeAndChecks(tx, node, entMeta, peerName)
if err != nil {
return nil, err
}
var events []stream.Event
for service := services.Next(); service != nil; service = services.Next() {
sn := service.(*structs.ServiceNode)
event := newServiceHealthEventRegister(idx, n, sn, checksFunc(sn.ServiceID))
events = append(events, event)
}
return events, nil
}
// getNodeAndNodeChecks returns a the node structure and a function that returns
// the full list of checks for a specific service on that node.
func getNodeAndChecks(tx ReadTxn, node string, entMeta *acl.EnterpriseMeta, peerName string) (*structs.Node, serviceChecksFunc, error) {
// Fetch the node
nodeRaw, err := tx.First(tableNodes, indexID, Query{
Value: node,
EnterpriseMeta: *entMeta,
PeerName: peerName,
})
if err != nil {
return nil, nil, err
}
if nodeRaw == nil {
return nil, nil, ErrMissingNode
}
n := nodeRaw.(*structs.Node)
iter, err := tx.Get(tableChecks, indexNode, Query{
Value: node,
EnterpriseMeta: *entMeta,
PeerName: peerName,
})
if err != nil {
return nil, nil, err
}
var nodeChecks structs.HealthChecks
var svcChecks map[string]structs.HealthChecks
for check := iter.Next(); check != nil; check = iter.Next() {
check := check.(*structs.HealthCheck)
if check.ServiceID == "" {
nodeChecks = append(nodeChecks, check)
} else {
if svcChecks == nil {
svcChecks = make(map[string]structs.HealthChecks)
}
svcChecks[check.ServiceID] = append(svcChecks[check.ServiceID], check)
}
}
serviceChecks := func(serviceID string) structs.HealthChecks {
// Create a new slice so that append does not modify the array backing nodeChecks.
result := make(structs.HealthChecks, 0, len(nodeChecks))
result = append(result, nodeChecks...)
for _, check := range svcChecks[serviceID] {
result = append(result, check)
}
return result
}
return n, serviceChecks, nil
}
type serviceChecksFunc func(serviceID string) structs.HealthChecks
func newServiceHealthEventForService(tx ReadTxn, idx uint64, tuple nodeServiceTuple) (stream.Event, error) {
n, checksFunc, err := getNodeAndChecks(tx, tuple.Node, &tuple.EntMeta, tuple.PeerName)
if err != nil {
return stream.Event{}, err
}
svc, err := tx.Get(tableServices, indexID, NodeServiceQuery{
EnterpriseMeta: tuple.EntMeta,
Node: tuple.Node,
Service: tuple.ServiceID,
PeerName: tuple.PeerName,
})
if err != nil {
return stream.Event{}, err
}
raw := svc.Next()
if raw == nil {
return stream.Event{}, ErrMissingService
}
sn := raw.(*structs.ServiceNode)
return newServiceHealthEventRegister(idx, n, sn, checksFunc(sn.ServiceID)), nil
}
func newServiceHealthEventRegister(
idx uint64,
node *structs.Node,
sn *structs.ServiceNode,
checks structs.HealthChecks,
) stream.Event {
csn := &structs.CheckServiceNode{
Node: node,
Service: sn.ToNodeService(),
Checks: checks,
}
return stream.Event{
Topic: EventTopicServiceHealth,
Index: idx,
Payload: EventPayloadCheckServiceNode{
Op: pbsubscribe.CatalogOp_Register,
Value: csn,
},
}
}
func newServiceHealthEventDeregister(idx uint64, sn *structs.ServiceNode) stream.Event {
// We actually only need the node name populated in the node part as it's only
// used as a key to know which service was deregistered so don't bother looking
// up the node in the DB. Note that while the ServiceNode does have NodeID
// etc. fields, they are never populated in memdb per the comment on that
// struct and only filled in when we return copies of the result to users.
// This is also important because if the service was deleted as part of a
// whole node deregistering then the node record won't actually exist now
// anyway and we'd have to plumb it through from the changeset above.
entMeta := sn.EnterpriseMeta
entMeta.Normalize()
csn := &structs.CheckServiceNode{
Node: &structs.Node{
Node: sn.Node,
Partition: entMeta.PartitionOrEmpty(),
PeerName: sn.PeerName,
},
Service: sn.ToNodeService(),
}
return stream.Event{
Topic: EventTopicServiceHealth,
Index: idx,
Payload: EventPayloadCheckServiceNode{
Op: pbsubscribe.CatalogOp_Deregister,
Value: csn,
},
}
}