// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package tally_test import ( "fmt" "testing" "time" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "storj.io/common/encryption" "storj.io/common/memory" "storj.io/common/storj" "storj.io/common/testcontext" "storj.io/common/testrand" "storj.io/common/uuid" "storj.io/storj/private/testplanet" "storj.io/storj/private/teststorj" "storj.io/storj/satellite/accounting" "storj.io/storj/satellite/accounting/tally" "storj.io/storj/satellite/metabase" ) func TestDeleteTalliesBefore(t *testing.T) { tests := []struct { eraseBefore time.Time expectedRaws int }{ { eraseBefore: time.Now(), expectedRaws: 1, }, { eraseBefore: time.Now().Add(24 * time.Hour), expectedRaws: 0, }, } for _, tt := range tests { test := tt testplanet.Run(t, testplanet.Config{ SatelliteCount: 1, StorageNodeCount: 0, UplinkCount: 0, }, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) { id := teststorj.NodeIDFromBytes([]byte{}) nodeData := make(map[storj.NodeID]float64) nodeData[id] = float64(1000) err := planet.Satellites[0].DB.StoragenodeAccounting().SaveTallies(ctx, time.Now(), nodeData) require.NoError(t, err) err = planet.Satellites[0].DB.StoragenodeAccounting().DeleteTalliesBefore(ctx, test.eraseBefore) require.NoError(t, err) raws, err := planet.Satellites[0].DB.StoragenodeAccounting().GetTallies(ctx) require.NoError(t, err) assert.Len(t, raws, test.expectedRaws) }) } } func TestOnlyInline(t *testing.T) { testplanet.Run(t, testplanet.Config{ SatelliteCount: 1, StorageNodeCount: 6, UplinkCount: 1, }, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) { planet.Satellites[0].Accounting.Tally.Loop.Pause() uplink := planet.Uplinks[0] // Setup: create data for the uplink to upload expectedData := testrand.Bytes(1 * memory.KiB) // Setup: get the expected size of the data that will be stored in pointer // Since the data is small enough to be stored inline, when it is encrypted, we only // add 16 bytes of encryption authentication overhead. No encryption block // padding will be added since we are not chunking data that we store inline. const encryptionAuthOverhead = 16 // bytes expectedTotalBytes := len(expectedData) + encryptionAuthOverhead // Setup: The data in this tally should match the pointer that the uplink.upload created expectedBucketName := "testbucket" expectedTally := &accounting.BucketTally{ BucketLocation: metabase.BucketLocation{ ProjectID: uplink.Projects[0].ID, BucketName: expectedBucketName, }, ObjectCount: 1, InlineSegments: 1, InlineBytes: int64(expectedTotalBytes), MetadataSize: 0, } // Execute test: upload a file, then calculate at rest data err := uplink.Upload(ctx, planet.Satellites[0], expectedBucketName, "test/path", expectedData) assert.NoError(t, err) // run multiple times to ensure we add tallies for i := 0; i < 2; i++ { obs := tally.NewObserver(planet.Satellites[0].Log.Named("observer"), time.Now()) err := planet.Satellites[0].Metainfo.Loop.Join(ctx, obs) require.NoError(t, err) now := time.Now().Add(time.Duration(i) * time.Second) err = planet.Satellites[0].DB.ProjectAccounting().SaveTallies(ctx, now, obs.Bucket) require.NoError(t, err) assert.Equal(t, 1, len(obs.Bucket)) for _, actualTally := range obs.Bucket { // checking the exact metadata size is brittle, instead, verify that it's not zero assert.NotZero(t, actualTally.MetadataSize) actualTally.MetadataSize = expectedTally.MetadataSize assert.Equal(t, expectedTally, actualTally) } } }) } func TestCalculateNodeAtRestData(t *testing.T) { testplanet.Run(t, testplanet.Config{ SatelliteCount: 1, StorageNodeCount: 6, UplinkCount: 1, }, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) { tallySvc := planet.Satellites[0].Accounting.Tally tallySvc.Loop.Pause() uplink := planet.Uplinks[0] // Setup: create 50KiB of data for the uplink to upload expectedData := testrand.Bytes(50 * memory.KiB) // TODO uplink currently hardcode block size so we need to use the same value in test encryptionParameters := storj.EncryptionParameters{ CipherSuite: storj.EncAESGCM, BlockSize: 29 * 256 * memory.B.Int32(), } expectedTotalBytes, err := encryption.CalcEncryptedSize(int64(len(expectedData)), encryptionParameters) require.NoError(t, err) // Execute test: upload a file, then calculate at rest data expectedBucketName := "testbucket" err = uplink.Upload(ctx, planet.Satellites[0], expectedBucketName, "test/path", expectedData) require.NoError(t, err) obs := tally.NewObserver(planet.Satellites[0].Log.Named("observer"), time.Now()) err = planet.Satellites[0].Metainfo.Loop.Join(ctx, obs) require.NoError(t, err) // Confirm the correct number of shares were stored rs := satelliteRS(t, planet.Satellites[0]) if !correctRedundencyScheme(len(obs.Node), rs) { t.Fatalf("expected between: %d and %d, actual: %d", rs.RepairShares, rs.TotalShares, len(obs.Node)) } // Confirm the correct number of bytes were stored on each node for _, actualTotalBytes := range obs.Node { assert.Equal(t, expectedTotalBytes, int64(actualTotalBytes)) } }) } func TestCalculateBucketAtRestData(t *testing.T) { testplanet.Run(t, testplanet.Config{ SatelliteCount: 1, StorageNodeCount: 4, UplinkCount: 2, Reconfigure: testplanet.Reconfigure{ Satellite: testplanet.Combine( testplanet.ReconfigureRS(2, 3, 4, 4), testplanet.MaxSegmentSize(20*memory.KiB), ), }, }, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) { satellite := planet.Satellites[0] err := planet.Uplinks[0].Upload(ctx, satellite, "alpha", "inline", make([]byte, 10*memory.KiB)) require.NoError(t, err) err = planet.Uplinks[0].Upload(ctx, satellite, "alpha", "remote", make([]byte, 30*memory.KiB)) require.NoError(t, err) err = planet.Uplinks[0].Upload(ctx, satellite, "beta", "remote", make([]byte, 30*memory.KiB)) require.NoError(t, err) err = planet.Uplinks[1].Upload(ctx, satellite, "alpha", "remote", make([]byte, 30*memory.KiB)) require.NoError(t, err) objects, err := satellite.Metainfo.Metabase.TestingAllObjects(ctx) require.NoError(t, err) segments, err := satellite.Metainfo.Metabase.TestingAllSegments(ctx) require.NoError(t, err) expectedTotal := map[metabase.BucketLocation]*accounting.BucketTally{} ensure := func(loc metabase.BucketLocation) *accounting.BucketTally { if t, ok := expectedTotal[loc]; ok { return t } t := &accounting.BucketTally{BucketLocation: loc} expectedTotal[loc] = t return t } streamLocation := map[uuid.UUID]metabase.BucketLocation{} for _, object := range objects { loc := object.Location().Bucket() streamLocation[object.StreamID] = loc t := ensure(loc) t.ObjectCount++ t.MetadataSize += int64(len(object.EncryptedMetadata)) } for _, segment := range segments { loc := streamLocation[segment.StreamID] t := ensure(loc) if len(segment.Pieces) > 0 { t.RemoteSegments++ t.RemoteBytes += int64(segment.EncryptedSize) } else { t.InlineSegments++ t.InlineBytes += int64(segment.EncryptedSize) } } require.Len(t, expectedTotal, 3) obs := tally.NewObserver(satellite.Log.Named("observer"), time.Now()) err = satellite.Metainfo.Loop.Join(ctx, obs) require.NoError(t, err) require.Equal(t, expectedTotal, obs.Bucket) }) } func TestTallyIgnoresExpiredPointers(t *testing.T) { testplanet.Run(t, testplanet.Config{ SatelliteCount: 1, StorageNodeCount: 6, UplinkCount: 1, }, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) { satellite := planet.Satellites[0] now := time.Now() err := planet.Uplinks[0].UploadWithExpiration(ctx, planet.Satellites[0], "bucket", "path", []byte{1}, now.Add(12*time.Hour)) require.NoError(t, err) obs := tally.NewObserver(satellite.Log.Named("observer"), now.Add(24*time.Hour)) err = satellite.Metainfo.Loop.Join(ctx, obs) require.NoError(t, err) // there should be no observed buckets because all of the pointers are expired require.Equal(t, obs.Bucket, map[metabase.BucketLocation]*accounting.BucketTally{}) }) } func TestTallyLiveAccounting(t *testing.T) { testplanet.Run(t, testplanet.Config{ SatelliteCount: 1, StorageNodeCount: 6, UplinkCount: 1, }, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) { tally := planet.Satellites[0].Accounting.Tally projectID := planet.Uplinks[0].Projects[0].ID tally.Loop.Pause() expectedData := testrand.Bytes(5 * memory.MB) err := planet.Uplinks[0].Upload(ctx, planet.Satellites[0], "testbucket", "test/path", expectedData) require.NoError(t, err) segments, err := planet.Satellites[0].Metainfo.Metabase.TestingAllSegments(ctx) require.NoError(t, err) require.Len(t, segments, 1) segmentSize := int64(segments[0].EncryptedSize) tally.Loop.TriggerWait() expectedSize := segmentSize total, err := planet.Satellites[0].Accounting.ProjectUsage.GetProjectStorageTotals(ctx, projectID) require.NoError(t, err) require.Equal(t, expectedSize, total) for i := 0; i < 5; i++ { err := planet.Uplinks[0].Upload(ctx, planet.Satellites[0], "testbucket", fmt.Sprintf("test/path/%d", i), expectedData) require.NoError(t, err) tally.Loop.TriggerWait() expectedSize += segmentSize total, err := planet.Satellites[0].Accounting.ProjectUsage.GetProjectStorageTotals(ctx, projectID) require.NoError(t, err) require.Equal(t, expectedSize, total) } }) } func TestTallyEmptyProjectUpdatesLiveAccounting(t *testing.T) { testplanet.Run(t, testplanet.Config{ SatelliteCount: 1, StorageNodeCount: 6, UplinkCount: 2, }, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) { planet.Satellites[0].Accounting.Tally.Loop.Pause() project1 := planet.Uplinks[1].Projects[0].ID data := testrand.Bytes(1 * memory.MB) // we need an extra bucket with data for this test. If no buckets are found at all, // the update block is skipped in tally err := planet.Uplinks[0].Upload(ctx, planet.Satellites[0], "bucket", "test", data) require.NoError(t, err) err = planet.Uplinks[1].Upload(ctx, planet.Satellites[0], "bucket", "test", data) require.NoError(t, err) planet.Satellites[0].Accounting.Tally.Loop.TriggerWait() planet.Satellites[0].Accounting.Tally.Loop.Pause() total, err := planet.Satellites[0].Accounting.ProjectUsage.GetProjectStorageTotals(ctx, project1) require.NoError(t, err) require.True(t, total >= int64(len(data))) err = planet.Uplinks[1].DeleteObject(ctx, planet.Satellites[0], "bucket", "test") require.NoError(t, err) planet.Satellites[0].Accounting.Tally.Loop.TriggerWait() p1Total, err := planet.Satellites[0].Accounting.ProjectUsage.GetProjectStorageTotals(ctx, project1) require.NoError(t, err) require.Zero(t, p1Total) }) } func correctRedundencyScheme(shareCount int, uplinkRS storj.RedundancyScheme) bool { // The shareCount should be a value between RequiredShares and TotalShares where // RequiredShares is the min number of shares required to recover a segment and // TotalShares is the number of shares to encode return int(uplinkRS.RepairShares) <= shareCount && shareCount <= int(uplinkRS.TotalShares) } func satelliteRS(t *testing.T, satellite *testplanet.Satellite) storj.RedundancyScheme { rs := satellite.Config.Metainfo.RS return storj.RedundancyScheme{ RequiredShares: int16(rs.Min), RepairShares: int16(rs.Repair), OptimalShares: int16(rs.Success), TotalShares: int16(rs.Total), ShareSize: rs.ErasureShareSize.Int32(), } }