mirror of https://github.com/status-im/consul.git
480 lines
16 KiB
Go
480 lines
16 KiB
Go
package peering
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import (
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"errors"
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"fmt"
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"strings"
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"github.com/golang/protobuf/proto"
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"github.com/golang/protobuf/ptypes"
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"github.com/hashicorp/consul/types"
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"github.com/hashicorp/go-hclog"
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"google.golang.org/genproto/googleapis/rpc/code"
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"google.golang.org/protobuf/types/known/anypb"
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"github.com/hashicorp/consul/agent/cache"
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"github.com/hashicorp/consul/agent/structs"
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"github.com/hashicorp/consul/proto/pbpeering"
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"github.com/hashicorp/consul/proto/pbservice"
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"github.com/hashicorp/consul/proto/pbstatus"
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)
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/*
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TODO(peering):
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At the start of each peering stream establishment (not initiation, but the
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thing that reconnects) we need to do a little bit of light differential
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snapshot correction to initially synchronize the local state store.
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Then if we ever fail to apply a replication message we should either tear
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down the entire connection (and thus force a resync on reconnect) or
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request a resync operation.
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*/
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// makeServiceResponse handles preparing exported service instance updates to the peer cluster.
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// Each cache.UpdateEvent will contain all instances for a service name.
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// If there are no instances in the event, we consider that to be a de-registration.
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func makeServiceResponse(
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logger hclog.Logger,
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update cache.UpdateEvent,
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) *pbpeering.ReplicationMessage {
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any, csn, err := marshalToProtoAny[*pbservice.IndexedCheckServiceNodes](update.Result)
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if err != nil {
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// Log the error and skip this response to avoid locking up peering due to a bad update event.
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logger.Error("failed to marshal", "error", err)
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return nil
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}
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serviceName := strings.TrimPrefix(update.CorrelationID, subExportedService)
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// If no nodes are present then it's due to one of:
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// 1. The service is newly registered or exported and yielded a transient empty update.
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// 2. All instances of the service were de-registered.
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// 3. The service was un-exported.
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//
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// We don't distinguish when these three things occurred, but it's safe to send a DELETE Op in all cases, so we do that.
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// Case #1 is a no-op for the importing peer.
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if len(csn.Nodes) == 0 {
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resp := &pbpeering.ReplicationMessage{
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Payload: &pbpeering.ReplicationMessage_Response_{
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Response: &pbpeering.ReplicationMessage_Response{
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ResourceURL: pbpeering.TypeURLService,
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// TODO(peering): Nonce management
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Nonce: "",
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ResourceID: serviceName,
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Operation: pbpeering.ReplicationMessage_Response_DELETE,
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},
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},
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}
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return resp
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}
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// If there are nodes in the response, we push them as an UPSERT operation.
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resp := &pbpeering.ReplicationMessage{
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Payload: &pbpeering.ReplicationMessage_Response_{
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Response: &pbpeering.ReplicationMessage_Response{
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ResourceURL: pbpeering.TypeURLService,
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// TODO(peering): Nonce management
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Nonce: "",
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ResourceID: serviceName,
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Operation: pbpeering.ReplicationMessage_Response_UPSERT,
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Resource: any,
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},
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},
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}
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return resp
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}
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func makeCARootsResponse(
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logger hclog.Logger,
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update cache.UpdateEvent,
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) *pbpeering.ReplicationMessage {
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any, _, err := marshalToProtoAny[*pbpeering.PeeringTrustBundle](update.Result)
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if err != nil {
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// Log the error and skip this response to avoid locking up peering due to a bad update event.
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logger.Error("failed to marshal", "error", err)
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return nil
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}
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resp := &pbpeering.ReplicationMessage{
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Payload: &pbpeering.ReplicationMessage_Response_{
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Response: &pbpeering.ReplicationMessage_Response{
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ResourceURL: pbpeering.TypeURLRoots,
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// TODO(peering): Nonce management
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Nonce: "",
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ResourceID: "roots",
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Operation: pbpeering.ReplicationMessage_Response_UPSERT,
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Resource: any,
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},
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},
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}
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return resp
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}
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// marshalToProtoAny takes any input and returns:
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// the protobuf.Any type, the asserted T type, and any errors
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// during marshalling or type assertion.
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// `in` MUST be of type T or it returns an error.
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func marshalToProtoAny[T proto.Message](in any) (*anypb.Any, T, error) {
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typ, ok := in.(T)
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if !ok {
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var outType T
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return nil, typ, fmt.Errorf("input type is not %T: %T", outType, in)
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}
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any, err := ptypes.MarshalAny(typ)
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if err != nil {
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return nil, typ, err
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}
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return any, typ, nil
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}
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func (s *Service) processResponse(
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peerName string,
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partition string,
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resp *pbpeering.ReplicationMessage_Response,
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) (*pbpeering.ReplicationMessage, error) {
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if !pbpeering.KnownTypeURL(resp.ResourceURL) {
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err := fmt.Errorf("received response for unknown resource type %q", resp.ResourceURL)
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return makeReply(
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resp.ResourceURL,
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resp.Nonce,
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code.Code_INVALID_ARGUMENT,
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err.Error(),
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), err
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}
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switch resp.Operation {
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case pbpeering.ReplicationMessage_Response_UPSERT:
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if resp.Resource == nil {
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err := fmt.Errorf("received upsert response with no content")
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return makeReply(
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resp.ResourceURL,
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resp.Nonce,
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code.Code_INVALID_ARGUMENT,
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err.Error(),
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), err
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}
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if err := s.handleUpsert(peerName, partition, resp.ResourceURL, resp.ResourceID, resp.Resource); err != nil {
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return makeReply(
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resp.ResourceURL,
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resp.Nonce,
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code.Code_INTERNAL,
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fmt.Sprintf("upsert error, ResourceURL: %q, ResourceID: %q: %v", resp.ResourceURL, resp.ResourceID, err),
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), fmt.Errorf("upsert error: %w", err)
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}
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return makeReply(resp.ResourceURL, resp.Nonce, code.Code_OK, ""), nil
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case pbpeering.ReplicationMessage_Response_DELETE:
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if err := s.handleDelete(peerName, partition, resp.ResourceURL, resp.ResourceID); err != nil {
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return makeReply(
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resp.ResourceURL,
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resp.Nonce,
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code.Code_INTERNAL,
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fmt.Sprintf("delete error, ResourceURL: %q, ResourceID: %q: %v", resp.ResourceURL, resp.ResourceID, err),
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), fmt.Errorf("delete error: %w", err)
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}
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return makeReply(resp.ResourceURL, resp.Nonce, code.Code_OK, ""), nil
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default:
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var errMsg string
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if op := pbpeering.ReplicationMessage_Response_Operation_name[int32(resp.Operation)]; op != "" {
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errMsg = fmt.Sprintf("unsupported operation: %q", op)
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} else {
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errMsg = fmt.Sprintf("unsupported operation: %d", resp.Operation)
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}
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return makeReply(
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resp.ResourceURL,
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resp.Nonce,
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code.Code_INVALID_ARGUMENT,
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errMsg,
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), errors.New(errMsg)
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}
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}
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func (s *Service) handleUpsert(
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peerName string,
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partition string,
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resourceURL string,
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resourceID string,
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resource *anypb.Any,
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) error {
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switch resourceURL {
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case pbpeering.TypeURLService:
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sn := structs.ServiceNameFromString(resourceID)
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sn.OverridePartition(partition)
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csn := &pbservice.IndexedCheckServiceNodes{}
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if err := ptypes.UnmarshalAny(resource, csn); err != nil {
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return fmt.Errorf("failed to unmarshal resource: %w", err)
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}
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return s.handleUpdateService(peerName, partition, sn, csn)
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case pbpeering.TypeURLRoots:
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roots := &pbpeering.PeeringTrustBundle{}
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if err := ptypes.UnmarshalAny(resource, roots); err != nil {
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return fmt.Errorf("failed to unmarshal resource: %w", err)
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}
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return s.handleUpsertRoots(peerName, partition, roots)
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default:
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return fmt.Errorf("unexpected resourceURL: %s", resourceURL)
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}
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}
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// handleUpdateService handles both deletion and upsert events for a service.
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// On an UPSERT event:
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// - All nodes, services, checks in the input pbNodes are re-applied through Raft.
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// - Any nodes, services, or checks in the catalog that were not in the input pbNodes get deleted.
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//
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// On a DELETE event:
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// - A reconciliation against nil or empty input pbNodes leads to deleting all stored catalog resources
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// associated with the service name.
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func (s *Service) handleUpdateService(
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peerName string,
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partition string,
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sn structs.ServiceName,
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pbNodes *pbservice.IndexedCheckServiceNodes,
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) error {
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// Capture instances in the state store for reconciliation later.
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_, storedInstances, err := s.Backend.Store().CheckServiceNodes(nil, sn.Name, &sn.EnterpriseMeta, peerName)
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if err != nil {
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return fmt.Errorf("failed to read imported services: %w", err)
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}
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structsNodes, err := pbNodes.CheckServiceNodesToStruct()
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if err != nil {
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return fmt.Errorf("failed to convert protobuf instances to structs: %w", err)
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}
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// Normalize the data into a convenient form for operation.
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snap := newHealthSnapshot(structsNodes, partition, peerName)
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for _, nodeSnap := range snap.Nodes {
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// First register the node
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req := nodeSnap.Node.ToRegisterRequest()
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if err := s.Backend.Apply().CatalogRegister(&req); err != nil {
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return fmt.Errorf("failed to register node: %w", err)
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}
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// Then register all services on that node
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for _, svcSnap := range nodeSnap.Services {
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req.Service = svcSnap.Service
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if err := s.Backend.Apply().CatalogRegister(&req); err != nil {
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return fmt.Errorf("failed to register service: %w", err)
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}
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}
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req.Service = nil
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// Then register all checks on that node
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var chks structs.HealthChecks
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for _, svcSnap := range nodeSnap.Services {
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for _, c := range svcSnap.Checks {
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chks = append(chks, c)
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}
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}
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req.Checks = chks
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if err := s.Backend.Apply().CatalogRegister(&req); err != nil {
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return fmt.Errorf("failed to register check: %w", err)
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}
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}
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//
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// Now that the data received has been stored in the state store, the rest of this
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// function is responsible for cleaning up data in the catalog that wasn't in the snapshot.
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//
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// nodeCheckTuple uniquely identifies a node check in the catalog.
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// The partition is not needed because we are only operating on one partition's catalog.
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type nodeCheckTuple struct {
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checkID types.CheckID
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node string
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}
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var (
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// unusedNodes tracks node names that were not present in the latest response.
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// Missing nodes are not assumed to be deleted because there may be other service names
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// registered on them.
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// Inside we also track a map of node checks associated with the node.
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unusedNodes = make(map[string]struct{})
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// deletedNodeChecks tracks node checks that were not present in the latest response.
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// A single node check will be attached to all service instances of a node, so this
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// deduplication prevents issuing multiple deregistrations for a single check.
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deletedNodeChecks = make(map[nodeCheckTuple]struct{})
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)
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for _, csn := range storedInstances {
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if _, ok := snap.Nodes[csn.Node.ID]; !ok {
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unusedNodes[string(csn.Node.ID)] = struct{}{}
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// Since the node is not in the snapshot we can know the associated service
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// instance is not in the snapshot either, since a service instance can't
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// exist without a node.
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// This will also delete all service checks.
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err := s.Backend.Apply().CatalogDeregister(&structs.DeregisterRequest{
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Node: csn.Node.Node,
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ServiceID: csn.Service.ID,
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EnterpriseMeta: csn.Service.EnterpriseMeta,
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PeerName: peerName,
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})
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if err != nil {
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return fmt.Errorf("failed to deregister service %q: %w", csn.Service.CompoundServiceID(), err)
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}
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// We can't know if a node check was deleted from the exporting cluster
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// (but not the node itself) if the node wasn't in the snapshot,
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// so we do not loop over checks here.
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// If the unusedNode gets deleted below that will also delete node checks.
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continue
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}
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// Delete the service instance if not in the snapshot.
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sid := csn.Service.CompoundServiceID()
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if _, ok := snap.Nodes[csn.Node.ID].Services[sid]; !ok {
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err := s.Backend.Apply().CatalogDeregister(&structs.DeregisterRequest{
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Node: csn.Node.Node,
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ServiceID: csn.Service.ID,
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EnterpriseMeta: csn.Service.EnterpriseMeta,
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PeerName: peerName,
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})
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if err != nil {
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ident := fmt.Sprintf("partition:%s/peer:%s/node:%s/ns:%s/service_id:%s",
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csn.Service.PartitionOrDefault(), peerName, csn.Node.Node, csn.Service.NamespaceOrDefault(), csn.Service.ID)
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return fmt.Errorf("failed to deregister service %q: %w", ident, err)
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}
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// When a service is deleted all associated checks also get deleted as a side effect.
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continue
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}
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// Reconcile checks.
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for _, chk := range csn.Checks {
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if _, ok := snap.Nodes[csn.Node.ID].Services[sid].Checks[chk.CheckID]; !ok {
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// Checks without a ServiceID are node checks.
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// If the node exists but the check does not then the check was deleted.
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if chk.ServiceID == "" {
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// Deduplicate node checks to avoid deregistering a check multiple times.
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tuple := nodeCheckTuple{
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checkID: chk.CheckID,
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node: chk.Node,
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}
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deletedNodeChecks[tuple] = struct{}{}
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continue
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}
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// If the check isn't a node check then it's a service check.
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// Service checks that were not present can be deleted immediately because
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// checks for a given service ID will only be attached to a single CheckServiceNode.
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err := s.Backend.Apply().CatalogDeregister(&structs.DeregisterRequest{
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Node: chk.Node,
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CheckID: chk.CheckID,
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EnterpriseMeta: chk.EnterpriseMeta,
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PeerName: peerName,
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})
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if err != nil {
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ident := fmt.Sprintf("partition:%s/peer:%s/node:%s/ns:%s/check_id:%s",
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chk.PartitionOrDefault(), peerName, chk.Node, chk.NamespaceOrDefault(), chk.CheckID)
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return fmt.Errorf("failed to deregister check %q: %w", ident, err)
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}
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}
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}
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}
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// Delete all deduplicated node checks.
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for chk := range deletedNodeChecks {
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nodeMeta := structs.NodeEnterpriseMetaInPartition(sn.PartitionOrDefault())
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err := s.Backend.Apply().CatalogDeregister(&structs.DeregisterRequest{
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Node: chk.node,
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CheckID: chk.checkID,
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EnterpriseMeta: *nodeMeta,
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PeerName: peerName,
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})
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if err != nil {
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ident := fmt.Sprintf("partition:%s/peer:%s/node:%s/check_id:%s", nodeMeta.PartitionOrDefault(), peerName, chk.node, chk.checkID)
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return fmt.Errorf("failed to deregister node check %q: %w", ident, err)
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}
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}
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// Delete any nodes that do not have any other services registered on them.
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for node := range unusedNodes {
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nodeMeta := structs.NodeEnterpriseMetaInPartition(sn.PartitionOrDefault())
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_, ns, err := s.Backend.Store().NodeServices(nil, node, nodeMeta, peerName)
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if err != nil {
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return fmt.Errorf("failed to query services on node: %w", err)
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}
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if ns != nil && len(ns.Services) >= 1 {
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// At least one service is still registered on this node, so we keep it.
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continue
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}
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// All services on the node were deleted, so the node is also cleaned up.
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err = s.Backend.Apply().CatalogDeregister(&structs.DeregisterRequest{
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Node: node,
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PeerName: peerName,
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EnterpriseMeta: *nodeMeta,
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})
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if err != nil {
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ident := fmt.Sprintf("partition:%s/peer:%s/node:%s", nodeMeta.PartitionOrDefault(), peerName, node)
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return fmt.Errorf("failed to deregister node %q: %w", ident, err)
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}
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}
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return nil
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}
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func (s *Service) handleUpsertRoots(
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peerName string,
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partition string,
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trustBundle *pbpeering.PeeringTrustBundle,
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) error {
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// We override the partition and peer name so that the trust bundle gets stored
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// in the importing partition with a reference to the peer it was imported from.
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trustBundle.Partition = partition
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trustBundle.PeerName = peerName
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req := &pbpeering.PeeringTrustBundleWriteRequest{
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PeeringTrustBundle: trustBundle,
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}
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return s.Backend.Apply().PeeringTrustBundleWrite(req)
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}
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func (s *Service) handleDelete(
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peerName string,
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partition string,
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resourceURL string,
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resourceID string,
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) error {
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switch resourceURL {
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case pbpeering.TypeURLService:
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sn := structs.ServiceNameFromString(resourceID)
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sn.OverridePartition(partition)
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return s.handleUpdateService(peerName, partition, sn, nil)
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default:
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return fmt.Errorf("unexpected resourceURL: %s", resourceURL)
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}
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}
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func makeReply(resourceURL, nonce string, errCode code.Code, errMsg string) *pbpeering.ReplicationMessage {
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var rpcErr *pbstatus.Status
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if errCode != code.Code_OK || errMsg != "" {
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rpcErr = &pbstatus.Status{
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Code: int32(errCode),
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Message: errMsg,
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}
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}
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// TODO: shouldn't this be response?
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return &pbpeering.ReplicationMessage{
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Payload: &pbpeering.ReplicationMessage_Request_{
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Request: &pbpeering.ReplicationMessage_Request{
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ResourceURL: resourceURL,
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Nonce: nonce,
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Error: rpcErr,
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},
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},
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}
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}
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