// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information package retain_test import ( "context" "testing" "time" "github.com/stretchr/testify/require" "go.uber.org/zap/zaptest" "golang.org/x/sync/errgroup" "storj.io/storj/internal/errs2" "storj.io/storj/internal/testcontext" "storj.io/storj/internal/testidentity" "storj.io/storj/internal/testrand" "storj.io/storj/pkg/bloomfilter" "storj.io/storj/pkg/pb" "storj.io/storj/pkg/signing" "storj.io/storj/pkg/storj" "storj.io/storj/storagenode" "storj.io/storj/storagenode/pieces" "storj.io/storj/storagenode/retain" "storj.io/storj/storagenode/storagenodedb/storagenodedbtest" ) func TestRetainPieces(t *testing.T) { storagenodedbtest.Run(t, func(t *testing.T, db storagenode.DB) { ctx := testcontext.New(t) defer ctx.Cleanup() store := pieces.NewStore(zaptest.NewLogger(t), db.Pieces(), db.V0PieceInfo(), db.PieceExpirationDB(), db.PieceSpaceUsedDB()) testStore := pieces.StoreForTest{Store: store} const numPieces = 1000 const numPiecesToKeep = 990 // pieces from numPiecesToKeep + numOldPieces to numPieces will // have a recent timestamp and thus should not be deleted const numOldPieces = 5 // for this test, we set the false positive rate very low, so we can test which pieces should be deleted with precision filter := bloomfilter.NewOptimal(numPieces, 0.000000001) pieceIDs := generateTestIDs(numPieces) satellite0 := testidentity.MustPregeneratedSignedIdentity(0, storj.LatestIDVersion()) satellite1 := testidentity.MustPregeneratedSignedIdentity(2, storj.LatestIDVersion()) uplink := testidentity.MustPregeneratedSignedIdentity(3, storj.LatestIDVersion()) recentTime := time.Now() oldTime := recentTime.Add(-time.Duration(48) * time.Hour) // keep pieceIDs[0 : numPiecesToKeep] (old + in filter) // delete pieceIDs[numPiecesToKeep : numPiecesToKeep+numOldPieces] (old + not in filter) // keep pieceIDs[numPiecesToKeep+numOldPieces : numPieces] (recent + not in filter) var pieceCreation time.Time // add all pieces to the node pieces info DB - but only count piece ids in filter for index, id := range pieceIDs { if index < numPiecesToKeep { filter.Add(id) } if index < numPiecesToKeep+numOldPieces { pieceCreation = oldTime } else { pieceCreation = recentTime } piecehash0, err := signing.SignPieceHash(ctx, signing.SignerFromFullIdentity(uplink), &pb.PieceHash{ PieceId: id, Hash: []byte{0, 2, 3, 4, 5}, }) require.NoError(t, err) piecehash1, err := signing.SignPieceHash(ctx, signing.SignerFromFullIdentity(uplink), &pb.PieceHash{ PieceId: id, Hash: []byte{0, 2, 3, 4, 5}, }) require.NoError(t, err) pieceinfo0 := pieces.Info{ SatelliteID: satellite0.ID, PieceSize: 4, PieceID: id, PieceCreation: pieceCreation, UplinkPieceHash: piecehash0, OrderLimit: &pb.OrderLimit{}, } pieceinfo1 := pieces.Info{ SatelliteID: satellite1.ID, PieceSize: 4, PieceID: id, PieceCreation: pieceCreation, UplinkPieceHash: piecehash1, OrderLimit: &pb.OrderLimit{}, } v0db := testStore.GetV0PieceInfoDBForTest() err = v0db.Add(ctx, &pieceinfo0) require.NoError(t, err) err = v0db.Add(ctx, &pieceinfo1) require.NoError(t, err) } retainEnabled := retain.NewService(zaptest.NewLogger(t), store, retain.Config{ Status: retain.Enabled, Concurrency: 1, MaxTimeSkew: 0, }) retainDisabled := retain.NewService(zaptest.NewLogger(t), store, retain.Config{ Status: retain.Disabled, Concurrency: 1, MaxTimeSkew: 0, }) retainDebug := retain.NewService(zaptest.NewLogger(t), store, retain.Config{ Status: retain.Debug, Concurrency: 1, MaxTimeSkew: 0, }) // start the retain services runCtx, cancel := context.WithCancel(ctx) defer cancel() var group errgroup.Group group.Go(func() error { return retainEnabled.Run(runCtx) }) group.Go(func() error { return retainDisabled.Run(runCtx) }) group.Go(func() error { return retainDebug.Run(runCtx) }) // expect that disabled and debug endpoints do not delete any pieces req := retain.Request{ SatelliteID: satellite0.ID, CreatedBefore: recentTime, Filter: filter, } queued := retainDisabled.Queue(req) require.True(t, queued) retainDisabled.TestWaitUntilEmpty() queued = retainDebug.Queue(req) require.True(t, queued) retainDebug.TestWaitUntilEmpty() satellite1Pieces, err := getAllPieceIDs(ctx, store, satellite1.ID, recentTime.Add(5*time.Second)) require.NoError(t, err) require.Equal(t, numPieces, len(satellite1Pieces)) satellite0Pieces, err := getAllPieceIDs(ctx, store, satellite0.ID, recentTime.Add(5*time.Second)) require.NoError(t, err) require.Equal(t, numPieces, len(satellite0Pieces)) // expect that enabled endpoint deletes the correct pieces queued = retainEnabled.Queue(req) require.True(t, queued) retainEnabled.TestWaitUntilEmpty() // check we have deleted nothing for satellite1 satellite1Pieces, err = getAllPieceIDs(ctx, store, satellite1.ID, recentTime.Add(5*time.Second)) require.NoError(t, err) require.Equal(t, numPieces, len(satellite1Pieces)) // check we did not delete recent pieces or retained pieces for satellite0 // also check that we deleted the correct pieces for satellite0 satellite0Pieces, err = getAllPieceIDs(ctx, store, satellite0.ID, recentTime.Add(5*time.Second)) require.NoError(t, err) require.Equal(t, numPieces-numOldPieces, len(satellite0Pieces)) for _, id := range pieceIDs[:numPiecesToKeep] { require.Contains(t, satellite0Pieces, id, "piece should not have been deleted (not in bloom filter)") } for _, id := range pieceIDs[numPiecesToKeep+numOldPieces:] { require.Contains(t, satellite0Pieces, id, "piece should not have been deleted (recent piece)") } for _, id := range pieceIDs[numPiecesToKeep : numPiecesToKeep+numOldPieces] { require.NotContains(t, satellite0Pieces, id, "piece should have been deleted") } // shut down retain services cancel() err = group.Wait() require.True(t, errs2.IsCanceled(err)) }) } func getAllPieceIDs(ctx context.Context, store *pieces.Store, satellite storj.NodeID, createdBefore time.Time) (pieceIDs []storj.PieceID, err error) { err = store.WalkSatellitePieces(ctx, satellite, func(pieceAccess pieces.StoredPieceAccess) error { mTime, err := pieceAccess.CreationTime(ctx) if err != nil { return err } if !mTime.Before(createdBefore) { return nil } pieceIDs = append(pieceIDs, pieceAccess.PieceID()) return nil }) return pieceIDs, err } // generateTestIDs generates n piece ids func generateTestIDs(n int) []storj.PieceID { ids := make([]storj.PieceID, n) for i := range ids { ids[i] = testrand.PieceID() } return ids }