/* Copyright 2021 The Ceph-CSI Authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package rbd import ( "context" "encoding/json" "errors" "fmt" "regexp" "strconv" "strings" "time" "github.com/ceph/ceph-csi/internal/util" "github.com/ceph/ceph-csi/internal/util/log" librbd "github.com/ceph/go-ceph/rbd" "github.com/ceph/go-ceph/rbd/admin" "github.com/csi-addons/spec/lib/go/replication" "google.golang.org/grpc" "google.golang.org/grpc/codes" "google.golang.org/grpc/status" "google.golang.org/protobuf/types/known/timestamppb" ) // imageMirroringMode is used to indicate the mirroring mode for an RBD image. type imageMirroringMode string const ( // imageMirrorModeSnapshot uses snapshots to propagate RBD images between // ceph clusters. imageMirrorModeSnapshot imageMirroringMode = "snapshot" // imageMirrorModeJournal uses journaling to propagate RBD images between // ceph clusters. imageMirrorModeJournal imageMirroringMode = "journal" ) const ( // mirroringMode + key to get the imageMirroringMode from parameters. imageMirroringKey = "mirroringMode" // forceKey + key to get the force option from parameters. forceKey = "force" // schedulingIntervalKey to get the schedulingInterval from the // parameters. // Interval of time between scheduled snapshots. Typically in the form // <num><m,h,d>. schedulingIntervalKey = "schedulingInterval" // schedulingStartTimeKey to get the schedulingStartTime from the // parameters. // (optional) StartTime is the time the snapshot schedule // begins, can be specified using the ISO 8601 time format. schedulingStartTimeKey = "schedulingStartTime" ) // ReplicationServer struct of rbd CSI driver with supported methods of Replication // controller server spec. type ReplicationServer struct { // added UnimplementedControllerServer as a member of // ControllerServer. if replication spec add more RPC services in the proto // file, then we don't need to add all RPC methods leading to forward // compatibility. *replication.UnimplementedControllerServer // Embed ControllerServer as it implements helper functions *ControllerServer } func (rs *ReplicationServer) RegisterService(server grpc.ServiceRegistrar) { replication.RegisterControllerServer(server, rs) } // getForceOption extracts the force option from the GRPC request parameters. // If not set, the default will be set to false. func getForceOption(ctx context.Context, parameters map[string]string) (bool, error) { val, ok := parameters[forceKey] if !ok { log.WarningLog(ctx, "%s is not set in parameters, setting to default (%v)", forceKey, false) return false, nil } force, err := strconv.ParseBool(val) if err != nil { return false, status.Errorf(codes.Internal, err.Error()) } return force, nil } // getMirroringMode gets the mirroring mode from the input GRPC request parameters. // mirroringMode is the key to check the mode in the parameters. func getMirroringMode(ctx context.Context, parameters map[string]string) (librbd.ImageMirrorMode, error) { val, ok := parameters[imageMirroringKey] if !ok { log.WarningLog( ctx, "%s is not set in parameters, setting to mirroringMode to default (%s)", imageMirroringKey, imageMirrorModeSnapshot) return librbd.ImageMirrorModeSnapshot, nil } var mirroringMode librbd.ImageMirrorMode switch imageMirroringMode(val) { case imageMirrorModeSnapshot: mirroringMode = librbd.ImageMirrorModeSnapshot case imageMirrorModeJournal: mirroringMode = librbd.ImageMirrorModeJournal default: return mirroringMode, status.Errorf(codes.InvalidArgument, "%s %s not supported", imageMirroringKey, val) } return mirroringMode, nil } // validateSchedulingDetails gets the mirroring mode and scheduling details from the // input GRPC request parameters and validates the scheduling is only supported // for snapshot mirroring mode. func validateSchedulingDetails(ctx context.Context, parameters map[string]string) error { var err error val := parameters[imageMirroringKey] switch imageMirroringMode(val) { case imageMirrorModeJournal: // journal mirror mode does not require scheduling parameters if _, ok := parameters[schedulingIntervalKey]; ok { log.WarningLog(ctx, "%s parameter cannot be used with %s mirror mode, ignoring it", schedulingIntervalKey, string(imageMirrorModeJournal)) } if _, ok := parameters[schedulingStartTimeKey]; ok { log.WarningLog(ctx, "%s parameter cannot be used with %s mirror mode, ignoring it", schedulingStartTimeKey, string(imageMirrorModeJournal)) } return nil case imageMirrorModeSnapshot: // If mirroring mode is not set in parameters, we are defaulting mirroring // mode to snapshot. Discard empty mirroring mode from validation as it is // an optional parameter. case "": default: return status.Error(codes.InvalidArgument, "scheduling is only supported for snapshot mode") } // validate mandatory interval field interval, ok := parameters[schedulingIntervalKey] if ok && interval == "" { return status.Error(codes.InvalidArgument, "scheduling interval cannot be empty") } adminStartTime := admin.StartTime(parameters[schedulingStartTimeKey]) if !ok { // startTime is alone not supported it has to be present with interval if adminStartTime != "" { return status.Errorf(codes.InvalidArgument, "%q parameter is supported only with %q", schedulingStartTimeKey, schedulingIntervalKey) } } if interval != "" { err = validateSchedulingInterval(interval) if err != nil { return status.Error(codes.InvalidArgument, err.Error()) } } return nil } // getSchedulingDetails returns scheduling interval and scheduling startTime. func getSchedulingDetails(parameters map[string]string) (admin.Interval, admin.StartTime) { return admin.Interval(parameters[schedulingIntervalKey]), admin.StartTime(parameters[schedulingStartTimeKey]) } // validateSchedulingInterval return the interval as it is if its ending with // `m|h|d` or else it will return error. func validateSchedulingInterval(interval string) error { re := regexp.MustCompile(`^\d+[mhd]$`) if re.MatchString(interval) { return nil } return errors.New("interval specified without d, h, m suffix") } // EnableVolumeReplication extracts the RBD volume information from the // volumeID, If the image is present it will enable the mirroring based on the // user provided information. func (rs *ReplicationServer) EnableVolumeReplication(ctx context.Context, req *replication.EnableVolumeReplicationRequest, ) (*replication.EnableVolumeReplicationResponse, error) { volumeID := req.GetVolumeId() if volumeID == "" { return nil, status.Error(codes.InvalidArgument, "empty volume ID in request") } cr, err := util.NewUserCredentials(req.GetSecrets()) if err != nil { return nil, status.Error(codes.Internal, err.Error()) } defer cr.DeleteCredentials() err = validateSchedulingDetails(ctx, req.GetParameters()) if err != nil { return nil, err } if acquired := rs.VolumeLocks.TryAcquire(volumeID); !acquired { log.ErrorLog(ctx, util.VolumeOperationAlreadyExistsFmt, volumeID) return nil, status.Errorf(codes.Aborted, util.VolumeOperationAlreadyExistsFmt, volumeID) } defer rs.VolumeLocks.Release(volumeID) rbdVol, err := GenVolFromVolID(ctx, volumeID, cr, req.GetSecrets()) defer rbdVol.Destroy() if err != nil { switch { case errors.Is(err, ErrImageNotFound): err = status.Errorf(codes.NotFound, "volume %s not found", volumeID) case errors.Is(err, util.ErrPoolNotFound): err = status.Errorf(codes.NotFound, "pool %s not found for %s", rbdVol.Pool, volumeID) default: err = status.Errorf(codes.Internal, err.Error()) } return nil, err } // extract the mirroring mode mirroringMode, err := getMirroringMode(ctx, req.GetParameters()) if err != nil { return nil, err } mirroringInfo, err := rbdVol.getImageMirroringInfo() if err != nil { log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Internal, err.Error()) } if mirroringInfo.State != librbd.MirrorImageEnabled { err = rbdVol.enableImageMirroring(mirroringMode) if err != nil { log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Internal, err.Error()) } } return &replication.EnableVolumeReplicationResponse{}, nil } // DisableVolumeReplication extracts the RBD volume information from the // volumeID, If the image is present and the mirroring is enabled on the RBD // image it will disable the mirroring. func (rs *ReplicationServer) DisableVolumeReplication(ctx context.Context, req *replication.DisableVolumeReplicationRequest, ) (*replication.DisableVolumeReplicationResponse, error) { volumeID := req.GetVolumeId() if volumeID == "" { return nil, status.Error(codes.InvalidArgument, "empty volume ID in request") } cr, err := util.NewUserCredentials(req.GetSecrets()) if err != nil { return nil, status.Error(codes.Internal, err.Error()) } defer cr.DeleteCredentials() if acquired := rs.VolumeLocks.TryAcquire(volumeID); !acquired { log.ErrorLog(ctx, util.VolumeOperationAlreadyExistsFmt, volumeID) return nil, status.Errorf(codes.Aborted, util.VolumeOperationAlreadyExistsFmt, volumeID) } defer rs.VolumeLocks.Release(volumeID) rbdVol, err := GenVolFromVolID(ctx, volumeID, cr, req.GetSecrets()) defer rbdVol.Destroy() if err != nil { switch { case errors.Is(err, ErrImageNotFound): err = status.Errorf(codes.NotFound, "volume %s not found", volumeID) case errors.Is(err, util.ErrPoolNotFound): err = status.Errorf(codes.NotFound, "pool %s not found for %s", rbdVol.Pool, volumeID) default: err = status.Errorf(codes.Internal, err.Error()) } return nil, err } // extract the force option force, err := getForceOption(ctx, req.GetParameters()) if err != nil { return nil, err } mirroringInfo, err := rbdVol.getImageMirroringInfo() if err != nil { log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Internal, err.Error()) } switch mirroringInfo.State { // image is already in disabled state case librbd.MirrorImageDisabled: // image mirroring is still disabling case librbd.MirrorImageDisabling: return nil, status.Errorf(codes.Aborted, "%s is in disabling state", volumeID) case librbd.MirrorImageEnabled: return disableVolumeReplication(rbdVol, mirroringInfo, force) default: return nil, status.Errorf(codes.InvalidArgument, "image is in %s Mode", mirroringInfo.State) } return &replication.DisableVolumeReplicationResponse{}, nil } func disableVolumeReplication(rbdVol *rbdVolume, mirroringInfo *librbd.MirrorImageInfo, force bool, ) (*replication.DisableVolumeReplicationResponse, error) { if !mirroringInfo.Primary { // Return success if the below condition is met // Local image is secondary // Local image is in up+replaying state // If the image is in a secondary and its state is up+replaying means // its a healthy secondary and the image is primary somewhere in the // remote cluster and the local image is getting replayed. Return // success for the Disabling mirroring as we cannot disable mirroring // on the secondary image, when the image on the primary site gets // disabled the image on all the remote (secondary) clusters will get // auto-deleted. This helps in garbage collecting the volume // replication Kubernetes artifacts after failback operation. localStatus, rErr := rbdVol.getLocalState() if rErr != nil { return nil, status.Error(codes.Internal, rErr.Error()) } if localStatus.Up && localStatus.State == librbd.MirrorImageStatusStateReplaying { return &replication.DisableVolumeReplicationResponse{}, nil } return nil, status.Errorf(codes.InvalidArgument, "secondary image status is up=%t and state=%s", localStatus.Up, localStatus.State) } err := rbdVol.disableImageMirroring(force) if err != nil { return nil, status.Error(codes.Internal, err.Error()) } // the image state can be still disabling once we disable the mirroring // check the mirroring is disabled or not mirroringInfo, err = rbdVol.getImageMirroringInfo() if err != nil { return nil, status.Error(codes.Internal, err.Error()) } if mirroringInfo.State == librbd.MirrorImageDisabling { return nil, status.Errorf(codes.Aborted, "%s is in disabling state", rbdVol.VolID) } return &replication.DisableVolumeReplicationResponse{}, nil } // PromoteVolume extracts the RBD volume information from the volumeID, If the // image is present, mirroring is enabled and the image is in demoted state it // will promote the volume as primary. // If the image is already primary it will return success. func (rs *ReplicationServer) PromoteVolume(ctx context.Context, req *replication.PromoteVolumeRequest, ) (*replication.PromoteVolumeResponse, error) { volumeID := req.GetVolumeId() if volumeID == "" { return nil, status.Error(codes.InvalidArgument, "empty volume ID in request") } cr, err := util.NewUserCredentials(req.GetSecrets()) if err != nil { return nil, status.Error(codes.Internal, err.Error()) } defer cr.DeleteCredentials() if acquired := rs.VolumeLocks.TryAcquire(volumeID); !acquired { log.ErrorLog(ctx, util.VolumeOperationAlreadyExistsFmt, volumeID) return nil, status.Errorf(codes.Aborted, util.VolumeOperationAlreadyExistsFmt, volumeID) } defer rs.VolumeLocks.Release(volumeID) rbdVol, err := GenVolFromVolID(ctx, volumeID, cr, req.GetSecrets()) defer rbdVol.Destroy() if err != nil { switch { case errors.Is(err, ErrImageNotFound): err = status.Errorf(codes.NotFound, "volume %s not found", volumeID) case errors.Is(err, util.ErrPoolNotFound): err = status.Errorf(codes.NotFound, "pool %s not found for %s", rbdVol.Pool, volumeID) default: err = status.Errorf(codes.Internal, err.Error()) } return nil, err } mirroringInfo, err := rbdVol.getImageMirroringInfo() if err != nil { log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Internal, err.Error()) } if mirroringInfo.State != librbd.MirrorImageEnabled { return nil, status.Errorf( codes.InvalidArgument, "mirroring is not enabled on %s, image is in %d Mode", rbdVol.VolID, mirroringInfo.State) } // promote secondary to primary if !mirroringInfo.Primary { if req.GetForce() { // workaround for https://github.com/ceph/ceph-csi/issues/2736 // TODO: remove this workaround when the issue is fixed err = rbdVol.forcePromoteImage(cr) } else { err = rbdVol.promoteImage(req.GetForce()) } if err != nil { log.ErrorLog(ctx, err.Error()) // In case of the DR the image on the primary site cannot be // demoted as the cluster is down, during failover the image need // to be force promoted. RBD returns `Device or resource busy` // error message if the image cannot be promoted for above reason. // Return FailedPrecondition so that replication operator can send // request to force promote the image. if strings.Contains(err.Error(), "Device or resource busy") { return nil, status.Error(codes.FailedPrecondition, err.Error()) } return nil, status.Error(codes.Internal, err.Error()) } } interval, startTime := getSchedulingDetails(req.GetParameters()) if interval != admin.NoInterval { err = rbdVol.addSnapshotScheduling(interval, startTime) if err != nil { return nil, err } log.DebugLog( ctx, "Added scheduling at interval %s, start time %s for volume %s", interval, startTime, rbdVol) } return &replication.PromoteVolumeResponse{}, nil } // DemoteVolume extracts the RBD volume information from the // volumeID, If the image is present, mirroring is enabled and the // image is in promoted state it will demote the volume as secondary. // If the image is already secondary it will return success. func (rs *ReplicationServer) DemoteVolume(ctx context.Context, req *replication.DemoteVolumeRequest, ) (*replication.DemoteVolumeResponse, error) { volumeID := req.GetVolumeId() if volumeID == "" { return nil, status.Error(codes.InvalidArgument, "empty volume ID in request") } cr, err := util.NewUserCredentials(req.GetSecrets()) if err != nil { return nil, status.Error(codes.Internal, err.Error()) } defer cr.DeleteCredentials() if acquired := rs.VolumeLocks.TryAcquire(volumeID); !acquired { log.ErrorLog(ctx, util.VolumeOperationAlreadyExistsFmt, volumeID) return nil, status.Errorf(codes.Aborted, util.VolumeOperationAlreadyExistsFmt, volumeID) } defer rs.VolumeLocks.Release(volumeID) rbdVol, err := GenVolFromVolID(ctx, volumeID, cr, req.GetSecrets()) defer rbdVol.Destroy() if err != nil { switch { case errors.Is(err, ErrImageNotFound): err = status.Errorf(codes.NotFound, "volume %s not found", volumeID) case errors.Is(err, util.ErrPoolNotFound): err = status.Errorf(codes.NotFound, "pool %s not found for %s", rbdVol.Pool, volumeID) default: err = status.Errorf(codes.Internal, err.Error()) } return nil, err } mirroringInfo, err := rbdVol.getImageMirroringInfo() if err != nil { log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Internal, err.Error()) } if mirroringInfo.State != librbd.MirrorImageEnabled { return nil, status.Errorf( codes.InvalidArgument, "mirroring is not enabled on %s, image is in %d Mode", rbdVol.VolID, mirroringInfo.State) } // demote image to secondary if mirroringInfo.Primary { err = rbdVol.demoteImage() if err != nil { log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Internal, err.Error()) } } return &replication.DemoteVolumeResponse{}, nil } // checkRemoteSiteStatus checks the state of the remote cluster. // It returns true if the state of the remote cluster is up and unknown. func checkRemoteSiteStatus(ctx context.Context, mirrorStatus *librbd.GlobalMirrorImageStatus) bool { ready := true found := false for _, s := range mirrorStatus.SiteStatuses { log.UsefulLog( ctx, "peer site mirrorUUID=%q, daemon up=%t, mirroring state=%q, description=%q and lastUpdate=%d", s.MirrorUUID, s.Up, s.State, s.Description, s.LastUpdate) if s.MirrorUUID != "" { found = true // If ready is already "false" do not flip it based on another remote peer status if ready && (s.State != librbd.MirrorImageStatusStateUnknown || !s.Up) { ready = false } } } // Return readiness only if at least one remote peer status was processed return found && ready } // ResyncVolume extracts the RBD volume information from the volumeID, If the // image is present, mirroring is enabled and the image is in demoted state. // If yes it will resync the image to correct the split-brain. func (rs *ReplicationServer) ResyncVolume(ctx context.Context, req *replication.ResyncVolumeRequest, ) (*replication.ResyncVolumeResponse, error) { volumeID := req.GetVolumeId() if volumeID == "" { return nil, status.Error(codes.InvalidArgument, "empty volume ID in request") } cr, err := util.NewUserCredentials(req.GetSecrets()) if err != nil { return nil, status.Error(codes.Internal, err.Error()) } defer cr.DeleteCredentials() if acquired := rs.VolumeLocks.TryAcquire(volumeID); !acquired { log.ErrorLog(ctx, util.VolumeOperationAlreadyExistsFmt, volumeID) return nil, status.Errorf(codes.Aborted, util.VolumeOperationAlreadyExistsFmt, volumeID) } defer rs.VolumeLocks.Release(volumeID) rbdVol, err := GenVolFromVolID(ctx, volumeID, cr, req.GetSecrets()) defer rbdVol.Destroy() if err != nil { switch { case errors.Is(err, ErrImageNotFound): err = status.Errorf(codes.NotFound, "volume %s not found", volumeID) case errors.Is(err, util.ErrPoolNotFound): err = status.Errorf(codes.NotFound, "pool %s not found for %s", rbdVol.Pool, volumeID) default: err = status.Errorf(codes.Internal, err.Error()) } return nil, err } mirroringInfo, err := rbdVol.getImageMirroringInfo() if err != nil { // in case of Resync the image will get deleted and gets recreated and // it takes time for this operation. log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Aborted, err.Error()) } if mirroringInfo.State != librbd.MirrorImageEnabled { return nil, status.Error(codes.InvalidArgument, "image mirroring is not enabled") } // return error if the image is still primary if mirroringInfo.Primary { return nil, status.Error(codes.InvalidArgument, "image is in primary state") } mirrorStatus, err := rbdVol.getImageMirroringStatus() if err != nil { // the image gets recreated after issuing resync if errors.Is(err, ErrImageNotFound) { // caller retries till RBD syncs an initial version of the image to // report its status in the resync call. Ideally, this line will not // be executed as the error would get returned due to getImageMirroringInfo // failing to find an image above. return nil, status.Error(codes.Aborted, err.Error()) } log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Internal, err.Error()) } ready := false localStatus, err := mirrorStatus.LocalStatus() if err != nil { log.ErrorLog(ctx, err.Error()) return nil, fmt.Errorf("failed to get local status: %w", err) } // convert the last update time to UTC lastUpdateTime := time.Unix(localStatus.LastUpdate, 0).UTC() log.UsefulLog( ctx, "local status: daemon up=%t, image mirroring state=%q, description=%q and lastUpdate=%s", localStatus.Up, localStatus.State, localStatus.Description, lastUpdateTime) // To recover from split brain (up+error) state the image need to be // demoted and requested for resync on site-a and then the image on site-b // should be demoted. The volume should be marked to ready=true when the // image state on both the clusters are up+unknown because during the last // snapshot syncing the data gets copied first and then image state on the // site-a changes to up+unknown. // If the image state on both the sites are up+unknown consider that // complete data is synced as the last snapshot // gets exchanged between the clusters. if localStatus.State == librbd.MirrorImageStatusStateUnknown && localStatus.Up { ready = checkRemoteSiteStatus(ctx, mirrorStatus) } err = resyncVolume(localStatus, rbdVol, req.Force) if err != nil { log.ErrorLog(ctx, err.Error()) return nil, err } err = checkVolumeResyncStatus(localStatus) if err != nil { return nil, status.Error(codes.Internal, err.Error()) } err = repairResyncedImageID(ctx, rbdVol, ready) if err != nil { return nil, status.Errorf(codes.Internal, "failed to resync Image ID: %s", err.Error()) } resp := &replication.ResyncVolumeResponse{ Ready: ready, } return resp, nil } // GetVolumeReplicationInfo extracts the RBD volume information from the volumeID, If the // image is present, mirroring is enabled and the image is in primary state. func (rs *ReplicationServer) GetVolumeReplicationInfo(ctx context.Context, req *replication.GetVolumeReplicationInfoRequest, ) (*replication.GetVolumeReplicationInfoResponse, error) { volumeID := req.GetVolumeId() if volumeID == "" { return nil, status.Error(codes.InvalidArgument, "empty volume ID in request") } cr, err := util.NewUserCredentials(req.GetSecrets()) if err != nil { return nil, status.Error(codes.Internal, err.Error()) } defer cr.DeleteCredentials() if acquired := rs.VolumeLocks.TryAcquire(volumeID); !acquired { log.ErrorLog(ctx, util.VolumeOperationAlreadyExistsFmt, volumeID) return nil, status.Errorf(codes.Aborted, util.VolumeOperationAlreadyExistsFmt, volumeID) } defer rs.VolumeLocks.Release(volumeID) rbdVol, err := GenVolFromVolID(ctx, volumeID, cr, req.GetSecrets()) defer rbdVol.Destroy() if err != nil { switch { case errors.Is(err, ErrImageNotFound): err = status.Errorf(codes.NotFound, "volume %s not found", volumeID) case errors.Is(err, util.ErrPoolNotFound): err = status.Errorf(codes.NotFound, "pool %s not found for %s", rbdVol.Pool, volumeID) default: err = status.Errorf(codes.Internal, err.Error()) } return nil, err } mirroringInfo, err := rbdVol.getImageMirroringInfo() if err != nil { log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Aborted, err.Error()) } if mirroringInfo.State != librbd.MirrorImageEnabled { return nil, status.Error(codes.InvalidArgument, "image mirroring is not enabled") } // return error if the image is not in primary state if !mirroringInfo.Primary { return nil, status.Error(codes.InvalidArgument, "image is not in primary state") } mirrorStatus, err := rbdVol.getImageMirroringStatus() if err != nil { if errors.Is(err, ErrImageNotFound) { return nil, status.Error(codes.Aborted, err.Error()) } log.ErrorLog(ctx, err.Error()) return nil, status.Error(codes.Internal, err.Error()) } remoteStatus, err := RemoteStatus(mirrorStatus) if err != nil { log.ErrorLog(ctx, err.Error()) return nil, status.Errorf(codes.Internal, "failed to get remote status: %v", err) } description := remoteStatus.Description lastSyncTime, err := getLastSyncTime(description) if err != nil { if errors.Is(err, ErrLastSyncTimeNotFound) { return nil, status.Errorf(codes.NotFound, "failed to get last sync time: %v", err) } log.ErrorLog(ctx, err.Error()) return nil, status.Errorf(codes.Internal, "failed to get last sync time: %v", err) } resp := &replication.GetVolumeReplicationInfoResponse{ LastSyncTime: lastSyncTime, } return resp, nil } // RemoteStatus returns one SiteMirrorImageStatus item from the SiteStatuses // slice that corresponds to the remote site's status. If the remote status // is not found than the error ErrNotExist will be returned. func RemoteStatus(gmis *librbd.GlobalMirrorImageStatus) (librbd.SiteMirrorImageStatus, error) { var ( ss librbd.SiteMirrorImageStatus err error = librbd.ErrNotExist ) for i := range gmis.SiteStatuses { if gmis.SiteStatuses[i].MirrorUUID != "" { ss = gmis.SiteStatuses[i] err = nil break } } return ss, err } // This function gets the local snapshot time from the description // of localStatus and converts it into required type. func getLastSyncTime(description string) (*timestamppb.Timestamp, error) { // Format of the description will be as followed: // description = "replaying,{"bytes_per_second":0.0, // "bytes_per_snapshot":149504.0,"local_snapshot_timestamp":1662655501 // ,"remote_snapshot_timestamp":1662655501}" // In case there is no local snapshot timestamp return an error as the // LastSyncTime is required. if description == "" { return nil, fmt.Errorf("empty description: %w", ErrLastSyncTimeNotFound) } splittedString := strings.SplitN(description, ",", 2) if len(splittedString) == 1 { return nil, fmt.Errorf("no local snapshot timestamp: %w", ErrLastSyncTimeNotFound) } type localStatus struct { LocalSnapshotTime int64 `json:"local_snapshot_timestamp"` } var localSnapTime localStatus err := json.Unmarshal([]byte(splittedString[1]), &localSnapTime) if err != nil { return nil, fmt.Errorf("failed to unmarshal description: %w", err) } // If the json unmarsal is successful but the local snapshot time is 0, we // need to consider it as an error as the LastSyncTime is required. if localSnapTime.LocalSnapshotTime == 0 { return nil, fmt.Errorf("empty local snapshot timestamp: %w", ErrLastSyncTimeNotFound) } lastUpdateTime := time.Unix(localSnapTime.LocalSnapshotTime, 0) lastSyncTime := timestamppb.New(lastUpdateTime) return lastSyncTime, nil } func resyncVolume(localStatus librbd.SiteMirrorImageStatus, rbdVol *rbdVolume, force bool) error { if resyncRequired(localStatus) { // If the force option is not set return the error message to retry // with Force option. if !force { return status.Errorf(codes.FailedPrecondition, "image is in %q state, description (%s). Force resync to recover volume", localStatus.State, localStatus.Description) } err := rbdVol.resyncImage() if err != nil { return status.Error(codes.Internal, err.Error()) } // If we issued a resync, return a non-final error as image needs to be recreated // locally. Caller retries till RBD syncs an initial version of the image to // report its status in the resync request. return status.Error(codes.Unavailable, "awaiting initial resync due to split brain") } return nil } func checkVolumeResyncStatus(localStatus librbd.SiteMirrorImageStatus) error { // we are considering 2 states to check resync started and resync completed // as below. all other states will be considered as an error state so that // cephCSI can return error message and volume replication operator can // mark the VolumeReplication status as not resyncing for the volume. // If the state is Replaying means the resync is going on. // Once the volume on remote cluster is demoted and resync // is completed the image state will be moved to UNKNOWN. // RBD mirror daemon should be always running on the primary cluster. if !localStatus.Up || (localStatus.State != librbd.MirrorImageStatusStateReplaying && localStatus.State != librbd.MirrorImageStatusStateUnknown) { return fmt.Errorf( "not resyncing. Local status: daemon up=%t image is in %q state", localStatus.Up, localStatus.State) } return nil } // resyncRequired returns true if local image is in split-brain state and image // needs resync. func resyncRequired(localStatus librbd.SiteMirrorImageStatus) bool { // resync is required if the image is in error state or the description // contains split-brain message. // In some corner cases like `re-player shutdown` the local image will not // be in an error state. It would be also worth considering the `description` // field to make sure about split-brain. if localStatus.State == librbd.MirrorImageStatusStateError || strings.Contains(localStatus.Description, "split-brain") { return true } return false } // repairResyncedImageID updates the existing image ID with new one. func repairResyncedImageID(ctx context.Context, rv *rbdVolume, ready bool) error { // During resync operation the local image will get deleted and a new // image is recreated by the rbd mirroring. The new image will have a // new image ID. Once resync is completed update the image ID in the OMAP // to get the image removed from the trash during DeleteVolume. // if the image is not completely resynced skip repairing image ID. if !ready { return nil } j, err := volJournal.Connect(rv.Monitors, rv.RadosNamespace, rv.conn.Creds) if err != nil { return err } defer j.Destroy() // reset the image ID which is stored in the existing OMAP return rv.repairImageID(ctx, j, true) }