// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package ecclient import ( "context" "io" "io/ioutil" "sort" "sync" "time" "github.com/zeebo/errs" "go.uber.org/zap" monkit "gopkg.in/spacemonkeygo/monkit.v2" "storj.io/storj/internal/errs2" "storj.io/storj/internal/sync2" "storj.io/storj/pkg/identity" "storj.io/storj/pkg/pb" "storj.io/storj/pkg/ranger" "storj.io/storj/pkg/rpc" "storj.io/storj/pkg/storj" "storj.io/storj/uplink/eestream" "storj.io/storj/uplink/piecestore" ) var mon = monkit.Package() // Client defines an interface for storing erasure coded data to piece store nodes type Client interface { Put(ctx context.Context, limits []*pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey, rs eestream.RedundancyStrategy, data io.Reader, expiration time.Time) (successfulNodes []*pb.Node, successfulHashes []*pb.PieceHash, err error) Get(ctx context.Context, limits []*pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey, es eestream.ErasureScheme, size int64) (ranger.Ranger, error) Delete(ctx context.Context, limits []*pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey) error WithForceErrorDetection(force bool) Client // PutPiece is not intended to be used by normal uplinks directly, but is exported to support storagenode graceful exit transfers. PutPiece(ctx, parent context.Context, limit *pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey, data io.ReadCloser) (hash *pb.PieceHash, id *identity.PeerIdentity, err error) } type dialPiecestoreFunc func(context.Context, *pb.Node) (*piecestore.Client, error) type ecClient struct { log *zap.Logger dialer rpc.Dialer memoryLimit int forceErrorDetection bool } // NewClient from the given identity and max buffer memory func NewClient(log *zap.Logger, dialer rpc.Dialer, memoryLimit int) Client { return &ecClient{ log: log, dialer: dialer, memoryLimit: memoryLimit, } } func (ec *ecClient) WithForceErrorDetection(force bool) Client { ec.forceErrorDetection = force return ec } func (ec *ecClient) dialPiecestore(ctx context.Context, n *pb.Node) (*piecestore.Client, error) { logger := ec.log.Named(n.Id.String()) return piecestore.Dial(ctx, ec.dialer, n, logger, piecestore.DefaultConfig) } func (ec *ecClient) Put(ctx context.Context, limits []*pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey, rs eestream.RedundancyStrategy, data io.Reader, expiration time.Time) (successfulNodes []*pb.Node, successfulHashes []*pb.PieceHash, err error) { defer mon.Task()(&ctx)(&err) pieceCount := len(limits) if pieceCount != rs.TotalCount() { return nil, nil, Error.New("size of limits slice (%d) does not match total count (%d) of erasure scheme", pieceCount, rs.TotalCount()) } nonNilLimits := nonNilCount(limits) if nonNilLimits <= rs.RepairThreshold() && nonNilLimits < rs.OptimalThreshold() { return nil, nil, Error.New("number of non-nil limits (%d) is less than or equal to the repair threshold (%d) of erasure scheme", nonNilLimits, rs.RepairThreshold()) } if !unique(limits) { return nil, nil, Error.New("duplicated nodes are not allowed") } ec.log.Debug("Uploading to storage nodes", zap.Int("Erasure Share Size", rs.ErasureShareSize()), zap.Int("Stripe Size", rs.StripeSize()), zap.Int("Repair Threshold", rs.RepairThreshold()), zap.Int("Optimal Threshold", rs.OptimalThreshold()), ) padded := eestream.PadReader(ioutil.NopCloser(data), rs.StripeSize()) readers, err := eestream.EncodeReader(ctx, ec.log, padded, rs) if err != nil { return nil, nil, err } type info struct { i int err error hash *pb.PieceHash } infos := make(chan info, pieceCount) psCtx, cancel := context.WithCancel(ctx) defer cancel() for i, addressedLimit := range limits { go func(i int, addressedLimit *pb.AddressedOrderLimit) { hash, _, err := ec.PutPiece(psCtx, ctx, addressedLimit, privateKey, readers[i]) infos <- info{i: i, err: err, hash: hash} }(i, addressedLimit) } successfulNodes = make([]*pb.Node, pieceCount) successfulHashes = make([]*pb.PieceHash, pieceCount) var successfulCount, failureCount, cancellationCount int32 for range limits { info := <-infos if limits[info.i] == nil { continue } if info.err != nil { if !errs2.IsCanceled(info.err) { failureCount++ } else { cancellationCount++ } ec.log.Debug("Upload to storage node failed", zap.String("NodeID", limits[info.i].GetLimit().StorageNodeId.String()), zap.Error(info.err), ) continue } successfulNodes[info.i] = &pb.Node{ Id: limits[info.i].GetLimit().StorageNodeId, Address: limits[info.i].GetStorageNodeAddress(), } successfulHashes[info.i] = info.hash successfulCount++ if int(successfulCount) >= rs.OptimalThreshold() { ec.log.Debug("Success threshold reached. Cancelling remaining uploads.", zap.Int("Optimal Threshold", rs.OptimalThreshold()), ) cancel() } } defer func() { select { case <-ctx.Done(): err = Error.New("upload cancelled by user") // TODO: clean up the partially uploaded segment's pieces // ec.Delete(context.Background(), nodes, pieceID, pba.SatelliteId), default: } }() mon.IntVal("put_segment_pieces_total").Observe(int64(pieceCount)) mon.IntVal("put_segment_pieces_optimal").Observe(int64(rs.OptimalThreshold())) mon.IntVal("put_segment_pieces_successful").Observe(int64(successfulCount)) mon.IntVal("put_segment_pieces_failed").Observe(int64(failureCount)) mon.IntVal("put_segment_pieces_canceled").Observe(int64(cancellationCount)) if int(successfulCount) <= rs.RepairThreshold() && int(successfulCount) < rs.OptimalThreshold() { return nil, nil, Error.New("successful puts (%d) less than or equal to repair threshold (%d)", successfulCount, rs.RepairThreshold()) } if int(successfulCount) < rs.OptimalThreshold() { return nil, nil, Error.New("successful puts (%d) less than success threshold (%d)", successfulCount, rs.OptimalThreshold()) } return successfulNodes, successfulHashes, nil } func (ec *ecClient) PutPiece(ctx, parent context.Context, limit *pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey, data io.ReadCloser) (hash *pb.PieceHash, peerID *identity.PeerIdentity, err error) { nodeName := "nil" if limit != nil { nodeName = limit.GetLimit().StorageNodeId.String()[0:8] } defer mon.Task()(&ctx, "node: "+nodeName)(&err) defer func() { err = errs.Combine(err, data.Close()) }() if limit == nil { _, _ = io.Copy(ioutil.Discard, data) return nil, nil, nil } storageNodeID := limit.GetLimit().StorageNodeId pieceID := limit.GetLimit().PieceId ps, err := ec.dialPiecestore(ctx, &pb.Node{ Id: storageNodeID, Address: limit.GetStorageNodeAddress(), }) if err != nil { ec.log.Debug("Failed dialing for putting piece to node", zap.String("PieceID", pieceID.String()), zap.String("NodeID", storageNodeID.String()), zap.Error(err), ) return nil, nil, err } defer func() { err = errs.Combine(err, ps.Close()) }() peerID, err = ps.GetPeerIdentity() if err != nil { ec.log.Debug("Failed getting peer identity from node connection", zap.String("NodeID", storageNodeID.String()), zap.Error(err), ) return nil, nil, err } upload, err := ps.Upload(ctx, limit.GetLimit(), privateKey) if err != nil { ec.log.Debug("Failed requesting upload of pieces to node", zap.String("PieceID", pieceID.String()), zap.String("NodeID", storageNodeID.String()), zap.Error(err), ) return nil, nil, err } defer func() { if err != nil { err = errs.Combine(err, upload.Cancel(ctx)) return } hash, err = upload.Commit(ctx) }() _, err = sync2.Copy(ctx, upload, data) // Canceled context means the piece upload was interrupted by user or due // to slow connection. No error logging for this case. if err != nil { if errs2.IsCanceled(err) { if parent.Err() == context.Canceled { ec.log.Info("Upload to node canceled by user", zap.Stringer("NodeID", storageNodeID)) } else { ec.log.Debug("Node cut from upload due to slow connection", zap.Stringer("NodeID", storageNodeID)) } } else { nodeAddress := "" if limit.GetStorageNodeAddress() != nil { nodeAddress = limit.GetStorageNodeAddress().GetAddress() } ec.log.Debug("Failed uploading piece to node", zap.Stringer("PieceID", pieceID), zap.Stringer("NodeID", storageNodeID), zap.String("Node Address", nodeAddress), zap.Error(err), ) } return nil, nil, err } return nil, peerID, nil } func (ec *ecClient) Get(ctx context.Context, limits []*pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey, es eestream.ErasureScheme, size int64) (rr ranger.Ranger, err error) { defer mon.Task()(&ctx)(&err) if len(limits) != es.TotalCount() { return nil, Error.New("size of limits slice (%d) does not match total count (%d) of erasure scheme", len(limits), es.TotalCount()) } if nonNilCount(limits) < es.RequiredCount() { return nil, Error.New("number of non-nil limits (%d) is less than required count (%d) of erasure scheme", nonNilCount(limits), es.RequiredCount()) } paddedSize := calcPadded(size, es.StripeSize()) pieceSize := paddedSize / int64(es.RequiredCount()) rrs := map[int]ranger.Ranger{} for i, addressedLimit := range limits { if addressedLimit == nil { continue } rrs[i] = &lazyPieceRanger{ dialPiecestore: ec.dialPiecestore, limit: addressedLimit, privateKey: privateKey, size: pieceSize, } } rr, err = eestream.Decode(ec.log, rrs, es, ec.memoryLimit, ec.forceErrorDetection) if err != nil { return nil, Error.Wrap(err) } ranger, err := eestream.Unpad(rr, int(paddedSize-size)) return ranger, Error.Wrap(err) } func (ec *ecClient) Delete(ctx context.Context, limits []*pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey) (err error) { defer mon.Task()(&ctx)(&err) errch := make(chan error, len(limits)) for _, addressedLimit := range limits { if addressedLimit == nil { errch <- nil continue } go func(addressedLimit *pb.AddressedOrderLimit) { limit := addressedLimit.GetLimit() ps, err := ec.dialPiecestore(ctx, &pb.Node{ Id: limit.StorageNodeId, Address: addressedLimit.GetStorageNodeAddress(), }) if err != nil { ec.log.Debug("Failed dialing for deleting piece from node", zap.String("PieceID", limit.PieceId.String()), zap.String("NodeID", limit.StorageNodeId.String()), zap.Error(err), ) errch <- err return } err = ps.Delete(ctx, limit, privateKey) err = errs.Combine(err, ps.Close()) if err != nil { ec.log.Debug("Failed deleting piece from node", zap.String("PieceID", limit.PieceId.String()), zap.String("NodeID", limit.StorageNodeId.String()), zap.Error(err), ) } errch <- err }(addressedLimit) } allerrs := collectErrors(errch, len(limits)) if len(allerrs) > 0 && len(allerrs) == len(limits) { return allerrs[0] } return nil } func collectErrors(errs <-chan error, size int) []error { var result []error for i := 0; i < size; i++ { err := <-errs if err != nil { result = append(result, err) } } return result } func unique(limits []*pb.AddressedOrderLimit) bool { if len(limits) < 2 { return true } ids := make(storj.NodeIDList, len(limits)) for i, addressedLimit := range limits { if addressedLimit != nil { ids[i] = addressedLimit.GetLimit().StorageNodeId } } // sort the ids and check for identical neighbors sort.Sort(ids) // sort.Slice(ids, func(i, k int) bool { return ids[i].Less(ids[k]) }) for i := 1; i < len(ids); i++ { if ids[i] != (storj.NodeID{}) && ids[i] == ids[i-1] { return false } } return true } func calcPadded(size int64, blockSize int) int64 { mod := size % int64(blockSize) if mod == 0 { return size } return size + int64(blockSize) - mod } type lazyPieceRanger struct { dialPiecestore dialPiecestoreFunc limit *pb.AddressedOrderLimit privateKey storj.PiecePrivateKey size int64 } // Size implements Ranger.Size func (lr *lazyPieceRanger) Size() int64 { return lr.size } // Range implements Ranger.Range to be lazily connected func (lr *lazyPieceRanger) Range(ctx context.Context, offset, length int64) (_ io.ReadCloser, err error) { defer mon.Task()(&ctx)(&err) return &lazyPieceReader{ ranger: lr, ctx: ctx, offset: offset, length: length, }, nil } type lazyPieceReader struct { ranger *lazyPieceRanger ctx context.Context offset int64 length int64 mu sync.Mutex isClosed bool piecestore.Downloader client *piecestore.Client } func (lr *lazyPieceReader) Read(data []byte) (_ int, err error) { lr.mu.Lock() defer lr.mu.Unlock() if lr.isClosed { return 0, io.EOF } if lr.Downloader == nil { client, downloader, err := lr.ranger.dial(lr.ctx, lr.offset, lr.length) if err != nil { return 0, err } lr.Downloader = downloader lr.client = client } return lr.Downloader.Read(data) } func (lr *lazyPieceRanger) dial(ctx context.Context, offset, length int64) (_ *piecestore.Client, _ piecestore.Downloader, err error) { defer mon.Task()(&ctx)(&err) ps, err := lr.dialPiecestore(ctx, &pb.Node{ Id: lr.limit.GetLimit().StorageNodeId, Address: lr.limit.GetStorageNodeAddress(), }) if err != nil { return nil, nil, err } download, err := ps.Download(ctx, lr.limit.GetLimit(), lr.privateKey, offset, length) if err != nil { return nil, nil, errs.Combine(err, ps.Close()) } return ps, download, nil } func (lr *lazyPieceReader) Close() (err error) { lr.mu.Lock() defer lr.mu.Unlock() if lr.isClosed { return nil } lr.isClosed = true if lr.Downloader != nil { err = errs.Combine(err, lr.Downloader.Close()) } if lr.client != nil { err = errs.Combine(err, lr.client.Close()) } return err } func nonNilCount(limits []*pb.AddressedOrderLimit) int { total := 0 for _, limit := range limits { if limit != nil { total++ } } return total }