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storj/private/testblobs/bad.go
Isaac Hess 7d1e28ea30 storagenode: Include trash space when calculating space used 
This commit adds functionality to include the space used in the trash
directory when calculating available space on the node.

It also includes this trash value in the space used cache, with methods
to keep the cache up-to-date as files are trashed, restored, and
emptied.

As part of the commit, the RestoreTrash and EmptyTrash methods have
slightly changed signatures. RestoreTrash now also returns the keys that
were restored, while EmptyTrash also returns the total disk space
recovered. Each of these changes makes it possible to keep the cache
up-to-date and know how much space is being used/recovered.

Also changed is the signature of PieceStoreAccess.ContentSize method.
Previously this method returns only the content size of the blob,
removing the size of any header data. This method has been renamed
`Size` and returns both the full disk size and content size of the blob.
This allows us to only stat the file once, and in some instances (i.e.
cache) knowing the full file size is useful.

Note: This commit simply adds the trash size data to the piece size data
we were already collecting. The piece size data is not accurate for all
use-cases (e.g. because it does not contain piece header data); however,
this commit does not fix that problem. Now that the ContentSize (Size)
method returns the full size of the file, it should be easier to fix
this problem in a future commit.

Change-Id: I4a6cae09e262c8452a618116d1dc66b687f59f85
2019-12-23 19:07:03 -07:00

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// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package testblobs
import (
"context"
"time"
"go.uber.org/zap"
"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 error
blobs storage.Blobs
log *zap.Logger
}
// 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,
}
}
// 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 bad.err != nil {
return nil, bad.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 bad.err != nil {
return bad.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 bad.err != nil {
return nil, bad.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 bad.err != nil {
return nil, bad.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 bad.err != nil {
return bad.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 bad.err != nil {
return nil, bad.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 bad.err != nil {
return 0, nil, bad.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 bad.err != nil {
return bad.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 bad.err != nil {
return bad.err
}
return bad.blobs.DeleteWithStorageFormat(ctx, ref, formatVer)
}
// Stat looks up disk metadata on the blob file.
func (bad *BadBlobs) Stat(ctx context.Context, ref storage.BlobRef) (storage.BlobInfo, error) {
if bad.err != nil {
return nil, bad.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 bad.err != nil {
return nil, bad.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 bad.err != nil {
return bad.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 bad.err != nil {
return make([][]byte, 0), bad.err
}
return bad.blobs.ListNamespaces(ctx)
}
// FreeSpace return how much free space left for writing.
func (bad *BadBlobs) FreeSpace() (int64, error) {
if bad.err != nil {
return 0, bad.err
}
return bad.blobs.FreeSpace()
}
// SpaceUsedForBlobs adds up how much is used in all namespaces.
func (bad *BadBlobs) SpaceUsedForBlobs(ctx context.Context) (int64, error) {
if bad.err != nil {
return 0, bad.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 bad.err != nil {
return 0, bad.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 bad.err != nil {
return 0, bad.err
}
return bad.blobs.SpaceUsedForTrash(ctx)
}
// SetError configures the blob store to return a specific error for all operations.
func (bad *BadBlobs) SetError(err error) {
bad.err = err
}
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