package policer import ( "context" "encoding/hex" "errors" "fmt" "git.frostfs.info/TrueCloudLab/frostfs-node/internal/logs" objectcore "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/core/object" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/services/replicator" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/client" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/netmap" objectSDK "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object/erasurecode" oid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object/id" "go.uber.org/zap" "golang.org/x/sync/errgroup" ) var errNoECinfoReturnded = errors.New("no EC info returned") type ecChunkProcessResult struct { validPlacement bool removeLocal bool } var errInvalidECPlacement = errors.New("invalid EC placement: EC placement must have one placement vector with at least one node") func (p *Policer) processECContainerObject(ctx context.Context, objInfo objectcore.Info, policy netmap.PlacementPolicy) error { if objInfo.ECInfo == nil { return p.processECContainerRepObject(ctx, objInfo, policy) } return p.processECContainerECObject(ctx, objInfo, policy) } // processECContainerRepObject processes non erasure coded objects in EC container: tombstones, locks and linking objects. // All of them must be stored on all of the container nodes. func (p *Policer) processECContainerRepObject(ctx context.Context, objInfo objectcore.Info, policy netmap.PlacementPolicy) error { objID := objInfo.Address.Object() nn, err := p.placementBuilder.BuildPlacement(objInfo.Address.Container(), &objID, policy) if err != nil { return fmt.Errorf("%s: %w", logs.PolicerCouldNotBuildPlacementVectorForObject, err) } if len(nn) != 1 || len(nn[0]) == 0 { return errInvalidECPlacement } c := &placementRequirements{} checkedNodes := newNodeCache() select { case <-ctx.Done(): return ctx.Err() default: } p.processRepNodes(ctx, c, objInfo, nn[0], uint32(len(nn[0])), checkedNodes) if !c.needLocalCopy && c.removeLocalCopy { p.log.Info(logs.PolicerRedundantLocalObjectCopyDetected, zap.Stringer("object", objInfo.Address), ) p.cbRedundantCopy(ctx, objInfo.Address) } return nil } func (p *Policer) processECContainerECObject(ctx context.Context, objInfo objectcore.Info, policy netmap.PlacementPolicy) error { nn, err := p.placementBuilder.BuildPlacement(objInfo.Address.Container(), &objInfo.ECInfo.ParentID, policy) if err != nil { return fmt.Errorf("%s: %w", logs.PolicerCouldNotBuildPlacementVectorForObject, err) } if len(nn) != 1 || len(nn[0]) == 0 { return errInvalidECPlacement } select { case <-ctx.Done(): return ctx.Err() default: } res := p.processECChunk(ctx, objInfo, nn[0]) if !res.validPlacement { // drop local chunk only if all required chunks are in place res.removeLocal = res.removeLocal && p.pullRequiredECChunks(ctx, objInfo, nn[0]) } p.adjustECPlacement(ctx, objInfo, nn[0], policy) if res.removeLocal { p.log.Info(logs.PolicerRedundantLocalObjectCopyDetected, zap.Stringer("object", objInfo.Address)) p.cbRedundantCopy(ctx, objInfo.Address) } return nil } // processECChunk replicates EC chunk if needed. func (p *Policer) processECChunk(ctx context.Context, objInfo objectcore.Info, nodes []netmap.NodeInfo) ecChunkProcessResult { var removeLocalChunk bool requiredNode := nodes[int(objInfo.ECInfo.Index)%(len(nodes))] if p.cfg.netmapKeys.IsLocalKey(requiredNode.PublicKey()) { // current node is required node, we are happy return ecChunkProcessResult{ validPlacement: true, } } if requiredNode.Status().IsMaintenance() { // consider maintenance mode has object, but do not drop local copy p.log.Debug(logs.PolicerConsiderNodeUnderMaintenanceAsOK, zap.String("node", netmap.StringifyPublicKey(requiredNode))) return ecChunkProcessResult{} } callCtx, cancel := context.WithTimeout(ctx, p.headTimeout) _, err := p.remoteHeader(callCtx, requiredNode, objInfo.Address, false) cancel() if err == nil { removeLocalChunk = true } else if client.IsErrObjectNotFound(err) { p.log.Debug(logs.PolicerShortageOfObjectCopiesDetected, zap.Stringer("object", objInfo.Address), zap.Uint32("shortage", 1)) task := replicator.Task{ NumCopies: 1, Addr: objInfo.Address, Nodes: []netmap.NodeInfo{requiredNode}, } p.replicator.HandleReplicationTask(ctx, task, newNodeCache()) } else if client.IsErrNodeUnderMaintenance(err) { // consider maintenance mode has object, but do not drop local copy p.log.Debug(logs.PolicerConsiderNodeUnderMaintenanceAsOK, zap.String("node", netmap.StringifyPublicKey(requiredNode))) } else { p.log.Error(logs.PolicerReceiveObjectHeaderToCheckPolicyCompliance, zap.Stringer("object", objInfo.Address), zap.String("error", err.Error())) } return ecChunkProcessResult{ removeLocal: removeLocalChunk, } } func (p *Policer) pullRequiredECChunks(ctx context.Context, objInfo objectcore.Info, nodes []netmap.NodeInfo) bool { var parentAddress oid.Address parentAddress.SetContainer(objInfo.Address.Container()) parentAddress.SetObject(objInfo.ECInfo.ParentID) requiredChunkIndexes := p.collectRequiredECChunks(nodes, objInfo) if len(requiredChunkIndexes) == 0 { p.log.Info(logs.PolicerNodeIsNotECObjectNode, zap.Stringer("object", objInfo.ECInfo.ParentID)) return true } err := p.resolveLocalECChunks(ctx, parentAddress, requiredChunkIndexes) if err != nil { p.log.Error(logs.PolicerFailedToGetLocalECChunks, zap.Error(err), zap.Stringer("object", parentAddress)) return false } if len(requiredChunkIndexes) == 0 { return true } indexToObjectID := make(map[uint32]oid.ID) success := p.resolveRemoteECChunks(ctx, parentAddress, nodes, requiredChunkIndexes, indexToObjectID) if !success { return false } for index, candidates := range requiredChunkIndexes { var addr oid.Address addr.SetContainer(objInfo.Address.Container()) addr.SetObject(indexToObjectID[index]) p.replicator.HandlePullTask(ctx, replicator.Task{ Addr: addr, Nodes: candidates, }) } // there was some missing chunks, it's not ok return false } func (p *Policer) collectRequiredECChunks(nodes []netmap.NodeInfo, objInfo objectcore.Info) map[uint32][]netmap.NodeInfo { requiredChunkIndexes := make(map[uint32][]netmap.NodeInfo) for i, n := range nodes { if uint32(i) == objInfo.ECInfo.Total { break } if p.cfg.netmapKeys.IsLocalKey(n.PublicKey()) { requiredChunkIndexes[uint32(i)] = []netmap.NodeInfo{} } } return requiredChunkIndexes } func (p *Policer) resolveLocalECChunks(ctx context.Context, parentAddress oid.Address, required map[uint32][]netmap.NodeInfo) error { _, err := p.localHeader(ctx, parentAddress) var eiErr *objectSDK.ECInfoError if err == nil { // should not be happen return errNoECinfoReturnded } if !errors.As(err, &eiErr) { return err } for _, ch := range eiErr.ECInfo().Chunks { delete(required, ch.Index) } return nil } func (p *Policer) resolveRemoteECChunks(ctx context.Context, parentAddress oid.Address, nodes []netmap.NodeInfo, required map[uint32][]netmap.NodeInfo, indexToObjectID map[uint32]oid.ID) bool { var eiErr *objectSDK.ECInfoError for _, n := range nodes { if p.cfg.netmapKeys.IsLocalKey(n.PublicKey()) { continue } _, err := p.remoteHeader(ctx, n, parentAddress, true) if !errors.As(err, &eiErr) { continue } for _, ch := range eiErr.ECInfo().Chunks { if candidates, ok := required[ch.Index]; ok { candidates = append(candidates, n) required[ch.Index] = candidates var chunkID oid.ID if err := chunkID.ReadFromV2(ch.ID); err != nil { p.log.Error(logs.PolicerFailedToDecodeECChunkID, zap.Error(err), zap.Stringer("object", parentAddress)) return false } if existed, ok := indexToObjectID[ch.Index]; ok && existed != chunkID { p.log.Error(logs.PolicerDifferentObjectIDForTheSameECChunk, zap.Stringer("first", existed), zap.Stringer("second", chunkID), zap.Stringer("object", parentAddress), zap.Uint32("index", ch.Index)) return false } indexToObjectID[ch.Index] = chunkID } } } for index, candidates := range required { if len(candidates) == 0 { p.log.Error(logs.PolicerMissingECChunk, zap.Stringer("object", parentAddress), zap.Uint32("index", index)) return false } } return true } func (p *Policer) adjustECPlacement(ctx context.Context, objInfo objectcore.Info, nodes []netmap.NodeInfo, policy netmap.PlacementPolicy) { var parentAddress oid.Address parentAddress.SetContainer(objInfo.Address.Container()) parentAddress.SetObject(objInfo.ECInfo.ParentID) var eiErr *objectSDK.ECInfoError resolved := make(map[uint32][]netmap.NodeInfo) chunkIDs := make(map[uint32]oid.ID) restore := true // do not restore EC chunks if some node returned error for idx, n := range nodes { if uint32(idx) >= objInfo.ECInfo.Total && uint32(len(resolved)) == objInfo.ECInfo.Total { return } var err error if p.cfg.netmapKeys.IsLocalKey(n.PublicKey()) { _, err = p.localHeader(ctx, parentAddress) } else { _, err = p.remoteHeader(ctx, n, parentAddress, true) } if errors.As(err, &eiErr) { for _, ch := range eiErr.ECInfo().Chunks { resolved[ch.Index] = append(resolved[ch.Index], n) var ecInfoChunkID oid.ID if err := ecInfoChunkID.ReadFromV2(ch.ID); err != nil { p.log.Error(logs.PolicerFailedToDecodeECChunkID, zap.Error(err), zap.Stringer("object", parentAddress)) return } if chunkID, exist := chunkIDs[ch.Index]; exist && chunkID != ecInfoChunkID { p.log.Error(logs.PolicerDifferentObjectIDForTheSameECChunk, zap.Stringer("first", chunkID), zap.Stringer("second", ecInfoChunkID), zap.Stringer("object", parentAddress), zap.Uint32("index", ch.Index)) return } chunkIDs[ch.Index] = ecInfoChunkID } } else if !p.cfg.netmapKeys.IsLocalKey(n.PublicKey()) && uint32(idx) < objInfo.ECInfo.Total { p.log.Warn(logs.PolicerCouldNotGetObjectFromNodeMoving, zap.String("node", hex.EncodeToString(n.PublicKey())), zap.Stringer("object", parentAddress), zap.Error(err)) p.replicator.HandleReplicationTask(ctx, replicator.Task{ NumCopies: 1, Addr: objInfo.Address, Nodes: []netmap.NodeInfo{n}, }, newNodeCache()) restore = false } } if !restore || uint32(len(resolved)) == objInfo.ECInfo.Total { return } if objInfo.ECInfo.Total-uint32(len(resolved)) > policy.ReplicaDescriptor(0).GetECParityCount() { var found []uint32 for i := range resolved { found = append(found, i) } p.log.Error(logs.PolicerCouldNotRestoreObjectNotEnoughChunks, zap.Stringer("object", parentAddress), zap.Uint32s("found_chunks", found)) return } p.restoreECObject(ctx, objInfo, parentAddress, nodes, resolved, chunkIDs, policy) } func (p *Policer) restoreECObject(ctx context.Context, objInfo objectcore.Info, parentAddress oid.Address, nodes []netmap.NodeInfo, existedChunks map[uint32][]netmap.NodeInfo, chunkIDs map[uint32]oid.ID, policy netmap.PlacementPolicy) { c, err := erasurecode.NewConstructor(int(policy.ReplicaDescriptor(0).GetECDataCount()), int(policy.ReplicaDescriptor(0).GetECParityCount())) if err != nil { p.log.Error(logs.PolicerFailedToRestoreObject, zap.Stringer("object", parentAddress), zap.Error(err)) return } parts := p.collectExistedChunks(ctx, objInfo, existedChunks, parentAddress, chunkIDs) if parts == nil { return } key, err := p.keyStorage.GetKey(nil) if err != nil { p.log.Error(logs.PolicerFailedToRestoreObject, zap.Stringer("object", parentAddress), zap.Error(err)) return } required := make([]bool, len(parts)) for i, p := range parts { if p == nil { required[i] = true } } if err := c.ReconstructParts(parts, required, key); err != nil { p.log.Error(logs.PolicerFailedToRestoreObject, zap.Stringer("object", parentAddress), zap.Error(err)) return } for idx, part := range parts { if _, exists := existedChunks[uint32(idx)]; exists { continue } var addr oid.Address addr.SetContainer(parentAddress.Container()) pID, _ := part.ID() addr.SetObject(pID) targetNode := nodes[idx%len(nodes)] if p.cfg.netmapKeys.IsLocalKey(targetNode.PublicKey()) { p.replicator.HandleLocalPutTask(ctx, replicator.Task{ Addr: addr, Obj: part, }) } else { p.replicator.HandleReplicationTask(ctx, replicator.Task{ NumCopies: 1, Addr: addr, Nodes: []netmap.NodeInfo{targetNode}, Obj: part, }, newNodeCache()) } } } func (p *Policer) collectExistedChunks(ctx context.Context, objInfo objectcore.Info, existedChunks map[uint32][]netmap.NodeInfo, parentAddress oid.Address, chunkIDs map[uint32]oid.ID) []*objectSDK.Object { parts := make([]*objectSDK.Object, objInfo.ECInfo.Total) errGroup, egCtx := errgroup.WithContext(ctx) for idx, nodes := range existedChunks { errGroup.Go(func() error { var objID oid.Address objID.SetContainer(parentAddress.Container()) objID.SetObject(chunkIDs[idx]) var obj *objectSDK.Object var err error for _, node := range nodes { if p.cfg.netmapKeys.IsLocalKey(node.PublicKey()) { obj, err = p.localObject(egCtx, objID) } else { obj, err = p.remoteObject(egCtx, node, objID) } if err == nil { break } p.log.Warn(logs.PolicerCouldNotGetChunk, zap.Stringer("object", parentAddress), zap.Stringer("chunkID", objID), zap.Error(err), zap.String("node", hex.EncodeToString(node.PublicKey()))) } if obj != nil { parts[idx] = obj } return nil }) } if err := errGroup.Wait(); err != nil { p.log.Error(logs.PolicerCouldNotGetChunks, zap.Stringer("object", parentAddress), zap.Error(err)) return nil } return parts }