// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package testblobs import ( "context" "sync" "time" "go.uber.org/zap" "storj.io/common/storj" "storj.io/storj/storage" "storj.io/storj/storagenode" ) // BadDB implements bad storage node DB. type BadDB struct { storagenode.DB blobs *BadBlobs log *zap.Logger } // NewBadDB creates a new bad storage node DB. // Use SetError to manually configure the error returned by all piece operations. func NewBadDB(log *zap.Logger, db storagenode.DB) *BadDB { return &BadDB{ DB: db, blobs: newBadBlobs(log, db.Pieces()), log: log, } } // Pieces returns the blob store. func (bad *BadDB) Pieces() storage.Blobs { return bad.blobs } // SetError sets an error to be returned for all piece operations. func (bad *BadDB) SetError(err error) { bad.blobs.SetError(err) } // BadBlobs implements a bad blob store. type BadBlobs struct { err lockedErr blobs storage.Blobs log *zap.Logger } type lockedErr struct { mu sync.Mutex err error } // Err returns the error. func (m *lockedErr) Err() error { m.mu.Lock() defer m.mu.Unlock() return m.err } // Set sets the error. func (m *lockedErr) Set(err error) { m.mu.Lock() defer m.mu.Unlock() m.err = err } // newBadBlobs creates a new bad blob store wrapping the provided blobs. // Use SetError to manually configure the error returned by all operations. func newBadBlobs(log *zap.Logger, blobs storage.Blobs) *BadBlobs { return &BadBlobs{ log: log, blobs: blobs, } } // SetError configures the blob store to return a specific error for all operations. func (bad *BadBlobs) SetError(err error) { bad.err.Set(err) } // Create creates a new blob that can be written optionally takes a size // argument for performance improvements, -1 is unknown size. func (bad *BadBlobs) Create(ctx context.Context, ref storage.BlobRef, size int64) (storage.BlobWriter, error) { if err := bad.err.Err(); err != nil { return nil, err } return bad.blobs.Create(ctx, ref, size) } // Close closes the blob store and any resources associated with it. func (bad *BadBlobs) Close() error { if err := bad.err.Err(); err != nil { return err } return bad.blobs.Close() } // Open opens a reader with the specified namespace and key. func (bad *BadBlobs) Open(ctx context.Context, ref storage.BlobRef) (storage.BlobReader, error) { if err := bad.err.Err(); err != nil { return nil, err } return bad.blobs.Open(ctx, ref) } // OpenWithStorageFormat opens a reader for the already-located blob, avoiding the potential need // to check multiple storage formats to find the blob. func (bad *BadBlobs) OpenWithStorageFormat(ctx context.Context, ref storage.BlobRef, formatVer storage.FormatVersion) (storage.BlobReader, error) { if err := bad.err.Err(); err != nil { return nil, err } return bad.blobs.OpenWithStorageFormat(ctx, ref, formatVer) } // Trash deletes the blob with the namespace and key. func (bad *BadBlobs) Trash(ctx context.Context, ref storage.BlobRef) error { if err := bad.err.Err(); err != nil { return err } return bad.blobs.Trash(ctx, ref) } // RestoreTrash restores all files in the trash. func (bad *BadBlobs) RestoreTrash(ctx context.Context, namespace []byte) ([][]byte, error) { if err := bad.err.Err(); err != nil { return nil, err } return bad.blobs.RestoreTrash(ctx, namespace) } // EmptyTrash empties the trash. func (bad *BadBlobs) EmptyTrash(ctx context.Context, namespace []byte, trashedBefore time.Time) (int64, [][]byte, error) { if err := bad.err.Err(); err != nil { return 0, nil, err } return bad.blobs.EmptyTrash(ctx, namespace, trashedBefore) } // Delete deletes the blob with the namespace and key. func (bad *BadBlobs) Delete(ctx context.Context, ref storage.BlobRef) error { if err := bad.err.Err(); err != nil { return err } return bad.blobs.Delete(ctx, ref) } // DeleteWithStorageFormat deletes the blob with the namespace, key, and format version. func (bad *BadBlobs) DeleteWithStorageFormat(ctx context.Context, ref storage.BlobRef, formatVer storage.FormatVersion) error { if err := bad.err.Err(); err != nil { return err } return bad.blobs.DeleteWithStorageFormat(ctx, ref, formatVer) } // DeleteNamespace deletes blobs of specific satellite, used after successful GE only. func (bad *BadBlobs) DeleteNamespace(ctx context.Context, ref []byte) (err error) { if err := bad.err.Err(); err != nil { return err } return bad.blobs.DeleteNamespace(ctx, ref) } // Stat looks up disk metadata on the blob file. func (bad *BadBlobs) Stat(ctx context.Context, ref storage.BlobRef) (storage.BlobInfo, error) { if err := bad.err.Err(); err != nil { return nil, err } return bad.blobs.Stat(ctx, ref) } // StatWithStorageFormat looks up disk metadata for the blob file with the given storage format // version. This avoids the potential need to check multiple storage formats for the blob // when the format is already known. func (bad *BadBlobs) StatWithStorageFormat(ctx context.Context, ref storage.BlobRef, formatVer storage.FormatVersion) (storage.BlobInfo, error) { if err := bad.err.Err(); err != nil { return nil, err } return bad.blobs.StatWithStorageFormat(ctx, ref, formatVer) } // WalkNamespace executes walkFunc for each locally stored blob in the given namespace. // If walkFunc returns a non-nil error, WalkNamespace will stop iterating and return the // error immediately. func (bad *BadBlobs) WalkNamespace(ctx context.Context, namespace []byte, walkFunc func(storage.BlobInfo) error) error { if err := bad.err.Err(); err != nil { return err } return bad.blobs.WalkNamespace(ctx, namespace, walkFunc) } // ListNamespaces returns all namespaces that might be storing data. func (bad *BadBlobs) ListNamespaces(ctx context.Context) ([][]byte, error) { if err := bad.err.Err(); err != nil { return make([][]byte, 0), err } return bad.blobs.ListNamespaces(ctx) } // FreeSpace return how much free space left for writing. func (bad *BadBlobs) FreeSpace(ctx context.Context) (int64, error) { if err := bad.err.Err(); err != nil { return 0, err } return bad.blobs.FreeSpace(ctx) } // CheckWritability tests writability of the storage directory by creating and deleting a file. func (bad *BadBlobs) CheckWritability(ctx context.Context) error { if err := bad.err.Err(); err != nil { return err } return bad.blobs.CheckWritability(ctx) } // SpaceUsedForBlobs adds up how much is used in all namespaces. func (bad *BadBlobs) SpaceUsedForBlobs(ctx context.Context) (int64, error) { if err := bad.err.Err(); err != nil { return 0, err } return bad.blobs.SpaceUsedForBlobs(ctx) } // SpaceUsedForBlobsInNamespace adds up how much is used in the given namespace. func (bad *BadBlobs) SpaceUsedForBlobsInNamespace(ctx context.Context, namespace []byte) (int64, error) { if err := bad.err.Err(); err != nil { return 0, err } return bad.blobs.SpaceUsedForBlobsInNamespace(ctx, namespace) } // SpaceUsedForTrash adds up how much is used in all namespaces. func (bad *BadBlobs) SpaceUsedForTrash(ctx context.Context) (int64, error) { if err := bad.err.Err(); err != nil { return 0, err } return bad.blobs.SpaceUsedForTrash(ctx) } // CreateVerificationFile creates a file to be used for storage directory verification. func (bad *BadBlobs) CreateVerificationFile(ctx context.Context, id storj.NodeID) error { if err := bad.err.Err(); err != nil { return err } return bad.blobs.CreateVerificationFile(ctx, id) } // VerifyStorageDir verifies that the storage directory is correct by checking for the existence and validity // of the verification file. func (bad *BadBlobs) VerifyStorageDir(ctx context.Context, id storj.NodeID) error { if err := bad.err.Err(); err != nil { return err } return bad.blobs.VerifyStorageDir(ctx, id) }