package object import ( "bytes" "context" "github.com/multiformats/go-multiaddr" "github.com/nspcc-dev/neofs-api-go/container" "github.com/nspcc-dev/neofs-api-go/hash" "github.com/nspcc-dev/neofs-api-go/object" "github.com/nspcc-dev/neofs-api-go/service" "github.com/nspcc-dev/neofs-node/internal" "github.com/nspcc-dev/neofs-node/lib/core" "github.com/nspcc-dev/neofs-node/lib/implementations" "github.com/nspcc-dev/neofs-node/lib/localstore" "github.com/nspcc-dev/neofs-node/lib/placement" "github.com/nspcc-dev/neofs-node/lib/transport" "github.com/pkg/errors" "go.uber.org/zap" ) type ( operationExecutor interface { executeOperation(context.Context, transport.MetaInfo, responseItemHandler) error } coreOperationExecutor struct { pre executionParamsComputer fin operationFinalizer loc operationExecutor } operationFinalizer interface { completeExecution(context.Context, operationParams) error } computableParams struct { addr Address stopCount int allowPartialResult bool tryPreviousNetMap bool selfForward bool maxRecycleCount int reqType object.RequestType } responseItemHandler interface { handleItem(interface{}) } operationParams struct { computableParams metaInfo transport.MetaInfo itemHandler responseItemHandler } coreOperationFinalizer struct { curPlacementBuilder placementBuilder prevPlacementBuilder placementBuilder interceptorPreparer interceptorPreparer workerPool WorkerPool traverseExec implementations.ContainerTraverseExecutor resLogger resultLogger log *zap.Logger } localFullObjectReceiver interface { getObject(context.Context, Address) (*Object, error) } localHeadReceiver interface { headObject(context.Context, Address) (*Object, error) } localObjectStorer interface { putObject(context.Context, *Object) error } localQueryImposer interface { imposeQuery(context.Context, CID, []byte, int) ([]Address, error) } localRangeReader interface { getRange(context.Context, Address, Range) ([]byte, error) } localRangeHasher interface { getHashes(context.Context, Address, []Range, []byte) ([]Hash, error) } localStoreExecutor struct { salitor Salitor epochRecv EpochReceiver localStore localstore.Localstore } localOperationExecutor struct { objRecv localFullObjectReceiver headRecv localHeadReceiver objStore localObjectStorer queryImp localQueryImposer rngReader localRangeReader rngHasher localRangeHasher } coreHandler struct { traverser containerTraverser itemHandler responseItemHandler resLogger resultLogger reqType object.RequestType } executionParamsComputer interface { computeParams(*computableParams, transport.MetaInfo) } coreExecParamsComp struct{} resultTracker interface { trackResult(context.Context, resultItems) } interceptorPreparer interface { prepareInterceptor(interceptorItems) (func(context.Context, multiaddr.Multiaddr) bool, error) } interceptorItems struct { selfForward bool handler transport.ResultHandler metaInfo transport.MetaInfo itemHandler responseItemHandler } coreInterceptorPreparer struct { localExec operationExecutor addressStore implementations.AddressStore } resultItems struct { requestType object.RequestType node multiaddr.Multiaddr satisfactory bool } idleResultTracker struct { } resultLogger interface { logErr(object.RequestType, multiaddr.Multiaddr, error) } coreResultLogger struct { mLog map[object.RequestType]struct{} log *zap.Logger } ) const ( errIncompleteOperation = internal.Error("operation is not completed") emRangeReadFail = "could not read %d range data" ) var ( _ resultTracker = (*idleResultTracker)(nil) _ executionParamsComputer = (*coreExecParamsComp)(nil) _ operationFinalizer = (*coreOperationFinalizer)(nil) _ operationExecutor = (*localOperationExecutor)(nil) _ operationExecutor = (*coreOperationExecutor)(nil) _ transport.ResultHandler = (*coreHandler)(nil) _ localFullObjectReceiver = (*localStoreExecutor)(nil) _ localHeadReceiver = (*localStoreExecutor)(nil) _ localObjectStorer = (*localStoreExecutor)(nil) _ localRangeReader = (*localStoreExecutor)(nil) _ localRangeHasher = (*localStoreExecutor)(nil) _ resultLogger = (*coreResultLogger)(nil) ) func (s *coreExecParamsComp) computeParams(p *computableParams, req transport.MetaInfo) { switch p.reqType = req.Type(); p.reqType { case object.RequestPut: if req.GetTTL() < service.NonForwardingTTL { p.stopCount = 1 } else { p.stopCount = int(req.(transport.PutInfo).CopiesNumber()) } p.allowPartialResult = false p.tryPreviousNetMap = false p.selfForward = false p.addr = *req.(transport.PutInfo).GetHead().Address() p.maxRecycleCount = 0 case object.RequestGet: p.stopCount = 1 p.allowPartialResult = false p.tryPreviousNetMap = true p.selfForward = false p.addr = req.(transport.AddressInfo).GetAddress() p.maxRecycleCount = 0 case object.RequestHead: p.stopCount = 1 p.allowPartialResult = false p.tryPreviousNetMap = true p.selfForward = false p.addr = req.(transport.AddressInfo).GetAddress() p.maxRecycleCount = 0 case object.RequestSearch: p.stopCount = -1 // to traverse all possible nodes in current and prev container p.allowPartialResult = true p.tryPreviousNetMap = true p.selfForward = false p.addr = Address{CID: req.(transport.SearchInfo).GetCID()} p.maxRecycleCount = 0 case object.RequestRange: p.stopCount = 1 p.allowPartialResult = false p.tryPreviousNetMap = false p.selfForward = false p.addr = req.(transport.AddressInfo).GetAddress() p.maxRecycleCount = 0 case object.RequestRangeHash: p.stopCount = 1 p.allowPartialResult = false p.tryPreviousNetMap = false p.selfForward = false p.addr = req.(transport.AddressInfo).GetAddress() p.maxRecycleCount = 0 } } func (s idleResultTracker) trackResult(context.Context, resultItems) {} func (s *coreOperationExecutor) executeOperation(ctx context.Context, req transport.MetaInfo, h responseItemHandler) error { // if TTL is zero then execute local operation if req.GetTTL() < service.NonForwardingTTL { return s.loc.executeOperation(ctx, req, h) } p := new(computableParams) s.pre.computeParams(p, req) return s.fin.completeExecution(ctx, operationParams{ computableParams: *p, metaInfo: req, itemHandler: h, }) } func (s *coreOperationFinalizer) completeExecution(ctx context.Context, p operationParams) error { traverser := newContainerTraverser(&traverseParams{ tryPrevNM: p.tryPreviousNetMap, addr: p.addr, curPlacementBuilder: s.curPlacementBuilder, prevPlacementBuilder: s.prevPlacementBuilder, maxRecycleCount: p.maxRecycleCount, stopCount: p.stopCount, }) handler := &coreHandler{ traverser: traverser, itemHandler: p.itemHandler, resLogger: s.resLogger, reqType: p.reqType, } interceptor, err := s.interceptorPreparer.prepareInterceptor(interceptorItems{ selfForward: p.selfForward, handler: handler, metaInfo: p.metaInfo, itemHandler: p.itemHandler, }) if err != nil { return err } ctx, cancel := context.WithCancel(ctx) defer cancel() s.traverseExec.Execute(ctx, implementations.TraverseParams{ TransportInfo: p.metaInfo, Handler: handler, Traverser: traverser, WorkerPool: s.workerPool, ExecutionInterceptor: interceptor, }) switch err := errors.Cause(traverser.Err()); err { case container.ErrNotFound: return &detailedError{ error: errContainerNotFound, d: containerDetails(p.addr.CID, descContainerNotFound), } case placement.ErrEmptyNodes: if !p.allowPartialResult { return errIncompleteOperation } return nil default: if err != nil { s.log.Error("traverse failure", zap.String("error", err.Error()), ) err = errPlacementProblem } else if !p.allowPartialResult && !traverser.finished() { err = errIncompleteOperation } return err } } func (s *coreInterceptorPreparer) prepareInterceptor(p interceptorItems) (func(context.Context, multiaddr.Multiaddr) bool, error) { selfAddr, err := s.addressStore.SelfAddr() if err != nil { return nil, err } return func(ctx context.Context, node multiaddr.Multiaddr) (res bool) { if node.Equal(selfAddr) { p.handler.HandleResult(ctx, selfAddr, nil, s.localExec.executeOperation(ctx, p.metaInfo, p.itemHandler)) return !p.selfForward } return false }, nil } func (s *coreHandler) HandleResult(ctx context.Context, n multiaddr.Multiaddr, r interface{}, e error) { ok := e == nil s.traverser.add(n, ok) if ok && r != nil { s.itemHandler.handleItem(r) } s.resLogger.logErr(s.reqType, n, e) } func (s *coreResultLogger) logErr(t object.RequestType, n multiaddr.Multiaddr, e error) { if e == nil { return } else if _, ok := s.mLog[t]; !ok { return } s.log.Error("object request failure", zap.Stringer("type", t), zap.Stringer("node", n), zap.String("error", e.Error()), ) } func (s *localOperationExecutor) executeOperation(ctx context.Context, req transport.MetaInfo, h responseItemHandler) error { switch req.Type() { case object.RequestPut: obj := req.(transport.PutInfo).GetHead() if err := s.objStore.putObject(ctx, obj); err != nil { return err } h.handleItem(obj.Address()) case object.RequestGet: obj, err := s.objRecv.getObject(ctx, req.(transport.AddressInfo).GetAddress()) if err != nil { return err } h.handleItem(obj) case object.RequestHead: head, err := s.headRecv.headObject(ctx, req.(transport.AddressInfo).GetAddress()) if err != nil { return err } h.handleItem(head) case object.RequestSearch: r := req.(transport.SearchInfo) addrList, err := s.queryImp.imposeQuery(ctx, r.GetCID(), r.GetQuery(), 1) // TODO: add query version to SearchInfo if err != nil { return err } h.handleItem(addrList) case object.RequestRange: r := req.(transport.RangeInfo) rangesData, err := s.rngReader.getRange(ctx, r.GetAddress(), r.GetRange()) if err != nil { return err } h.handleItem(bytes.NewReader(rangesData)) case object.RequestRangeHash: r := req.(transport.RangeHashInfo) rangesHashes, err := s.rngHasher.getHashes(ctx, r.GetAddress(), r.GetRanges(), r.GetSalt()) if err != nil { return err } h.handleItem(rangesHashes) default: return errors.Errorf(pmWrongRequestType, req) } return nil } func (s *localStoreExecutor) getHashes(ctx context.Context, addr Address, ranges []Range, salt []byte) ([]Hash, error) { res := make([]Hash, 0, len(ranges)) for i := range ranges { chunk, err := s.localStore.PRead(ctx, addr, ranges[i]) if err != nil { return nil, errors.Wrapf(err, emRangeReadFail, i+1) } res = append(res, hash.Sum(s.salitor(chunk, salt))) } return res, nil } func (s *localStoreExecutor) getRange(ctx context.Context, addr Address, r Range) ([]byte, error) { return s.localStore.PRead(ctx, addr, r) } func (s *localStoreExecutor) putObject(ctx context.Context, obj *Object) error { ctx = context.WithValue(ctx, localstore.StoreEpochValue, s.epochRecv.Epoch()) switch err := s.localStore.Put(ctx, obj); err { // TODO: add all error cases case nil: return nil default: return errPutLocal } } func (s *localStoreExecutor) headObject(_ context.Context, addr Address) (*Object, error) { m, err := s.localStore.Meta(addr) if err != nil { switch errors.Cause(err) { case core.ErrNotFound: return nil, errIncompleteOperation default: return nil, err } } return m.Object, nil } func (s *localStoreExecutor) getObject(_ context.Context, addr Address) (*Object, error) { obj, err := s.localStore.Get(addr) if err != nil { switch errors.Cause(err) { case core.ErrNotFound: return nil, errIncompleteOperation default: return nil, err } } return obj, nil }