267506bb20
metabase has become a central concept and it's more suitable for it to be directly nested under satellite rather than being part of metainfo. metainfo is going to be the "endpoint" logic for handling requests. Change-Id: I53770d6761ac1e9a1283b5aa68f471b21e784198
462 lines
12 KiB
Go
462 lines
12 KiB
Go
// Copyright (C) 2021 Storj Labs, Inc.
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// See LICENSE for copying information.
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package metabase_test
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import (
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"bytes"
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"sort"
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"strings"
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"testing"
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"time"
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"storj.io/common/storj"
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"storj.io/common/testcontext"
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"storj.io/common/testrand"
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"storj.io/common/uuid"
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"storj.io/storj/satellite/metabase"
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)
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func TestIterateLoopObjects(t *testing.T) {
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All(t, func(ctx *testcontext.Context, t *testing.T, db *metabase.DB) {
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t.Run("Limit is negative", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: -1,
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},
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ErrClass: &metabase.ErrInvalidRequest,
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ErrText: "BatchSize is negative",
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}.Check(ctx, t, db)
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Verify{}.Check(ctx, t, db)
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})
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t.Run("no data", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 0,
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},
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Result: nil,
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}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 10,
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},
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Result: nil,
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}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 10,
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AsOfSystemTime: time.Now(),
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},
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Result: nil,
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}.Check(ctx, t, db)
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Verify{}.Check(ctx, t, db)
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})
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t.Run("pending and committed", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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pending := randObjectStream()
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committed := randObjectStream()
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committed.ProjectID = pending.ProjectID
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committed.BucketName = pending.BucketName + "z"
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BeginObjectExactVersion{
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Opts: metabase.BeginObjectExactVersion{
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ObjectStream: pending,
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Encryption: defaultTestEncryption,
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},
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Version: 1,
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}.Check(ctx, t, db)
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encryptedMetadata := testrand.Bytes(1024)
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encryptedMetadataNonce := testrand.Nonce()
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encryptedMetadataKey := testrand.Bytes(265)
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BeginObjectExactVersion{
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Opts: metabase.BeginObjectExactVersion{
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ObjectStream: committed,
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Encryption: defaultTestEncryption,
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},
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Version: 1,
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}.Check(ctx, t, db)
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CommitObject{
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Opts: metabase.CommitObject{
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ObjectStream: committed,
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EncryptedMetadataNonce: encryptedMetadataNonce[:],
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EncryptedMetadata: encryptedMetadata,
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EncryptedMetadataEncryptedKey: encryptedMetadataKey,
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},
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}.Check(ctx, t, db)
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createdAt := time.Now()
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expected := []metabase.LoopObjectEntry{
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{
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ObjectStream: pending,
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CreatedAt: createdAt,
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},
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{
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ObjectStream: committed,
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EncryptedMetadataSize: len(encryptedMetadata),
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CreatedAt: createdAt,
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},
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}
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 1,
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},
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Result: expected,
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}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 1,
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AsOfSystemTime: time.Now(),
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},
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Result: expected,
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}.Check(ctx, t, db)
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})
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t.Run("less objects than limit", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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numberOfObjects := 3
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limit := 10
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expected := make([]metabase.LoopObjectEntry, numberOfObjects)
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objects := createObjects(ctx, t, db, numberOfObjects, uuid.UUID{1}, "mybucket")
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for i, obj := range objects {
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expected[i] = loopObjectEntryFromRaw(obj)
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}
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: limit,
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},
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Result: expected,
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}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: limit,
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AsOfSystemTime: time.Now(),
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},
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Result: expected,
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}.Check(ctx, t, db)
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Verify{Objects: objects}.Check(ctx, t, db)
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})
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t.Run("more objects than limit", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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numberOfObjects := 10
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limit := 3
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expected := make([]metabase.LoopObjectEntry, numberOfObjects)
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objects := createObjects(ctx, t, db, numberOfObjects, uuid.UUID{1}, "mybucket")
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for i, obj := range objects {
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expected[i] = loopObjectEntryFromRaw(obj)
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}
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: limit,
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},
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Result: expected,
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}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: limit,
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AsOfSystemTime: time.Now(),
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},
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Result: expected,
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}.Check(ctx, t, db)
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Verify{Objects: objects}.Check(ctx, t, db)
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})
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t.Run("recursive", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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projectID, bucketName := uuid.UUID{1}, "bucky"
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objects := createFullObjectsWithKeys(ctx, t, db, projectID, bucketName, []metabase.ObjectKey{
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"a",
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"b/1",
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"b/2",
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"b/3",
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"c",
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"c/",
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"c//",
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"c/1",
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"g",
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})
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expected := []metabase.LoopObjectEntry{
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objects["a"],
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objects["b/1"],
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objects["b/2"],
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objects["b/3"],
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objects["c"],
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objects["c/"],
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objects["c//"],
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objects["c/1"],
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objects["g"],
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}
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 3,
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},
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Result: expected,
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}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 3,
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AsOfSystemTime: time.Now(),
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},
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Result: expected,
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}.Check(ctx, t, db)
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})
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t.Run("multiple projects", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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projects := []uuid.UUID{}
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for i := 0; i < 10; i++ {
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p := testrand.UUID()
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p[0] = byte(i)
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projects = append(projects, p)
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}
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bucketNames := strings.Split("abcde", "")
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expected := make([]metabase.LoopObjectEntry, 0, len(projects)*len(bucketNames))
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for _, projectID := range projects {
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for _, bucketName := range bucketNames {
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rawObjects := createObjects(ctx, t, db, 1, projectID, bucketName)
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for _, obj := range rawObjects {
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expected = append(expected, loopObjectEntryFromRaw(obj))
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}
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}
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}
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 3,
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},
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Result: expected,
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}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 3,
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AsOfSystemTime: time.Now(),
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},
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Result: expected,
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}.Check(ctx, t, db)
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})
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t.Run("multiple projects", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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projects := []uuid.UUID{}
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for i := 0; i < 10; i++ {
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p := testrand.UUID()
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p[0] = byte(i)
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projects = append(projects, p)
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}
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bucketNames := strings.Split("abcde", "")
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expected := make([]metabase.LoopObjectEntry, 0, len(projects)*len(bucketNames))
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for _, projectID := range projects {
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for _, bucketName := range bucketNames {
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obj := randObjectStream()
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obj.ProjectID = projectID
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obj.BucketName = bucketName
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for version := 1; version < 4; version++ {
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obj.Version = metabase.Version(version)
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rawObject := createObject(ctx, t, db, obj, 0)
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expected = append(expected, loopObjectEntryFromRaw(metabase.RawObject(rawObject)))
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}
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}
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}
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 2,
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},
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Result: expected,
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}.Check(ctx, t, db)
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IterateLoopObjects{
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Opts: metabase.IterateLoopObjects{
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BatchSize: 2,
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AsOfSystemTime: time.Now(),
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},
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Result: expected,
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}.Check(ctx, t, db)
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})
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})
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}
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func TestIterateLoopStreams(t *testing.T) {
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All(t, func(ctx *testcontext.Context, t *testing.T, db *metabase.DB) {
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t.Run("StreamIDs list is empty", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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IterateLoopStreams{
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Opts: metabase.IterateLoopStreams{},
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Result: map[uuid.UUID][]metabase.LoopSegmentEntry{},
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ErrClass: &metabase.ErrInvalidRequest,
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ErrText: "StreamIDs list is empty",
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}.Check(ctx, t, db)
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Verify{}.Check(ctx, t, db)
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})
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t.Run("StreamIDs list contains empty ID", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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IterateLoopStreams{
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Opts: metabase.IterateLoopStreams{
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StreamIDs: []uuid.UUID{{}},
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},
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Result: map[uuid.UUID][]metabase.LoopSegmentEntry{},
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ErrClass: &metabase.ErrInvalidRequest,
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ErrText: "StreamID missing: index 0",
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}.Check(ctx, t, db)
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Verify{}.Check(ctx, t, db)
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})
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t.Run("List objects segments", func(t *testing.T) {
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defer DeleteAll{}.Check(ctx, t, db)
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now := time.Now()
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expectedObject00 := createObject(ctx, t, db, randObjectStream(), 0)
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expectedObject01 := createObject(ctx, t, db, randObjectStream(), 1)
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expectedObject02 := createObject(ctx, t, db, randObjectStream(), 5)
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expectedObject03 := createObject(ctx, t, db, randObjectStream(), 3)
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expectedRawSegments := []metabase.RawSegment{}
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objects := []metabase.Object{
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expectedObject00,
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expectedObject01,
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expectedObject02,
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expectedObject03,
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}
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sort.Slice(objects, func(i, j int) bool {
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return bytes.Compare(objects[i].StreamID[:], objects[j].StreamID[:]) < 0
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})
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expectedMap := make(map[uuid.UUID][]metabase.LoopSegmentEntry)
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for _, object := range objects {
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var expectedSegments []metabase.LoopSegmentEntry
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for i := 0; i < int(object.SegmentCount); i++ {
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segment := metabase.LoopSegmentEntry{
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StreamID: object.StreamID,
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Position: metabase.SegmentPosition{
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Index: uint32(i),
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},
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CreatedAt: &now,
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RootPieceID: storj.PieceID{1},
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EncryptedSize: 1024,
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Pieces: metabase.Pieces{{Number: 0, StorageNode: storj.NodeID{2}}},
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Redundancy: defaultTestRedundancy,
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}
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expectedSegments = append(expectedSegments, segment)
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expectedRawSegments = append(expectedRawSegments, metabase.RawSegment{
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StreamID: segment.StreamID,
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Position: segment.Position,
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CreatedAt: &now,
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EncryptedSize: segment.EncryptedSize,
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Pieces: segment.Pieces,
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Redundancy: segment.Redundancy,
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RootPieceID: segment.RootPieceID,
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PlainSize: 512,
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PlainOffset: int64(i * 512),
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EncryptedKey: []byte{3},
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EncryptedKeyNonce: []byte{4},
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EncryptedETag: []byte{5},
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})
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}
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expectedMap[object.StreamID] = expectedSegments
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}
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IterateLoopStreams{
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Opts: metabase.IterateLoopStreams{
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StreamIDs: []uuid.UUID{
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expectedObject00.StreamID,
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expectedObject01.StreamID,
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expectedObject02.StreamID,
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expectedObject03.StreamID,
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},
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AsOfSystemTime: time.Now(),
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},
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Result: expectedMap,
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}.Check(ctx, t, db)
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IterateLoopStreams{
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Opts: metabase.IterateLoopStreams{
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StreamIDs: []uuid.UUID{
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expectedObject00.StreamID,
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expectedObject01.StreamID,
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expectedObject02.StreamID,
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expectedObject03.StreamID,
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},
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},
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Result: expectedMap,
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}.Check(ctx, t, db)
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Verify{
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Objects: []metabase.RawObject{
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metabase.RawObject(expectedObject00),
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metabase.RawObject(expectedObject01),
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metabase.RawObject(expectedObject02),
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metabase.RawObject(expectedObject03),
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},
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Segments: expectedRawSegments,
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}.Check(ctx, t, db)
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})
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})
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}
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func createFullObjectsWithKeys(ctx *testcontext.Context, t *testing.T, db *metabase.DB, projectID uuid.UUID, bucketName string, keys []metabase.ObjectKey) map[metabase.ObjectKey]metabase.LoopObjectEntry {
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objects := make(map[metabase.ObjectKey]metabase.LoopObjectEntry, len(keys))
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for _, key := range keys {
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obj := randObjectStream()
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obj.ProjectID = projectID
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obj.BucketName = bucketName
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obj.ObjectKey = key
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createObject(ctx, t, db, obj, 0)
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objects[key] = metabase.LoopObjectEntry{
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ObjectStream: obj,
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CreatedAt: time.Now(),
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}
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}
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return objects
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}
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func loopObjectEntryFromRaw(m metabase.RawObject) metabase.LoopObjectEntry {
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return metabase.LoopObjectEntry{
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ObjectStream: m.ObjectStream,
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ExpiresAt: m.ExpiresAt,
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SegmentCount: m.SegmentCount,
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CreatedAt: m.CreatedAt,
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}
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}
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