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// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package main
import (
"bytes"
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"context"
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"encoding/base64"
"encoding/csv"
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"fmt"
"math"
"math/rand"
"os"
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"strconv"
"strings"
"testing"
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"time"
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"github.com/stretchr/testify/assert"
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"github.com/stretchr/testify/require"
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"storj.io/common/pb"
"storj.io/common/storj"
"storj.io/common/testcontext"
"storj.io/common/testrand"
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"storj.io/common/uuid"
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"storj.io/storj/satellite/metainfo"
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"storj.io/storj/storage"
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"storj.io/storj/storage/teststore"
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)
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func TestMain ( m * testing . M ) {
rand . Seed ( time . Now ( ) . UnixNano ( ) )
os . Exit ( m . Run ( ) )
}
func TestObserver_processSegment ( t * testing . T ) {
t . Run ( "valid objects of different projects" , func ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
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obsvr := & observer { objects : make ( bucketsObjects ) }
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testdata1 := generateTestdataObjects ( ctx , t , false , false )
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// Call processSegment with testadata objects of the first project
for _ , objSeg := range testdata1 . objSegments {
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err := obsvr . processSegment ( ctx , objSeg . path , objSeg . pointer )
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require . NoError ( t , err )
}
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testdata2 := generateTestdataObjects ( ctx , t , false , false )
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// Call processSegment with testadata objects of the second project
for _ , objSeg := range testdata2 . objSegments {
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err := obsvr . processSegment ( ctx , objSeg . path , objSeg . pointer )
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require . NoError ( t , err )
}
// Inspect observer internal state to assert that it only has the state
// related to the second project
assertObserver ( t , obsvr , testdata2 )
// Assert that objserver keep track global stats of all the segments which
// have received through processSegment calls
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assert . Equal ( t , testdata1 . expectedInlineSegments + testdata2 . expectedInlineSegments ,
obsvr . inlineSegments , "inlineSegments" )
assert . Equal ( t , testdata1 . expectedInlineSegments + testdata2 . expectedInlineSegments ,
obsvr . lastInlineSegments , "lastInlineSegments" )
assert . Equal ( t , testdata1 . expectedRemoteSegments + testdata2 . expectedRemoteSegments ,
obsvr . remoteSegments , "remoteSegments" )
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} )
t . Run ( "object without last segment" , func ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
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var testdata = generateTestdataObjects ( ctx , t , true , false )
var obsvr = & observer { objects : make ( bucketsObjects ) }
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// Call processSegment with the testdata
for _ , objSeg := range testdata . objSegments {
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err := obsvr . processSegment ( ctx , objSeg . path , objSeg . pointer )
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require . NoError ( t , err )
}
// Assert observer internal state
assertObserver ( t , obsvr , testdata )
// Assert observer global stats
assert . Equal ( t , testdata . expectedInlineSegments , obsvr . inlineSegments , "inlineSegments" )
assert . Equal ( t , testdata . expectedInlineSegments , obsvr . lastInlineSegments , "lastInlineSegments" )
assert . Equal ( t , testdata . expectedRemoteSegments , obsvr . remoteSegments , "remoteSegments" )
} )
t . Run ( "object with 65 segments without expected number of segments" , func ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
var (
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bucketName = "test-bucket"
projectID = testrand . UUID ( )
numSegments = 65
obsvr = observer { objects : make ( bucketsObjects ) }
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objPath , objSegmentsRefs = createNewObjectSegments (
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ctx , t , numSegments , & projectID , bucketName , false , false ,
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)
)
for _ , objSeg := range objSegmentsRefs {
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err := obsvr . processSegment ( ctx , objSeg . path , objSeg . pointer )
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require . NoError ( t , err )
}
// Assert observer internal state
assert . Equal ( t , projectID . String ( ) , obsvr . lastProjectID , "lastProjectID" )
assert . Equal ( t , 1 , len ( obsvr . objects ) , "objects number" )
if assert . Contains ( t , obsvr . objects , bucketName , "bucket in objects map" ) {
if assert . Equal ( t , 1 , len ( obsvr . objects [ bucketName ] ) , "objects in object map" ) {
if assert . Contains ( t , obsvr . objects [ bucketName ] , objPath , "path in bucket objects map" ) {
obj := obsvr . objects [ bucketName ] [ objPath ]
assert . Zero ( t , obj . expectedNumberOfSegments , "Object.expectedNumSegments" )
assert . True ( t , obj . hasLastSegment , "Object.hasLastSegment" )
assert . False ( t , obj . skip , "Object.skip" )
}
}
}
// Assert observer global stats
assert . Zero ( t , obsvr . inlineSegments , "inlineSegments" )
assert . Zero ( t , obsvr . lastInlineSegments , "lastInlineSegments" )
assert . Equal ( t , numSegments , obsvr . remoteSegments , "remoteSegments" )
} )
t . Run ( "object with 65 segments with expected number of segments" , func ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
var (
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bucketName = "test-bucket"
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projectID = testrand . UUID ( )
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numSegments = 65
obsvr = observer {
objects : make ( bucketsObjects ) ,
}
objPath , objSegmentsRefs = createNewObjectSegments (
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ctx , t , numSegments , & projectID , bucketName , false , true ,
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)
)
for _ , objSeg := range objSegmentsRefs {
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err := obsvr . processSegment ( ctx , objSeg . path , objSeg . pointer )
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require . NoError ( t , err )
}
// Assert observer internal state
assert . Equal ( t , projectID . String ( ) , obsvr . lastProjectID , "lastProjectID" )
assert . Equal ( t , 1 , len ( obsvr . objects ) , "objects number" )
if assert . Contains ( t , obsvr . objects , bucketName , "bucket in objects map" ) {
if assert . Equal ( t , 1 , len ( obsvr . objects [ bucketName ] ) , "objects in object map" ) {
if assert . Contains ( t , obsvr . objects [ bucketName ] , objPath , "path in bucket objects map" ) {
obj := obsvr . objects [ bucketName ] [ objPath ]
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assert . Equal ( t , numSegments , obj . expectedNumberOfSegments , "Object.expectedNumSegments" )
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assert . True ( t , obj . hasLastSegment , "Object.hasLastSegment" )
assert . False ( t , obj . skip , "Object.skip" )
}
}
}
// Assert observer global stats
assert . Zero ( t , obsvr . inlineSegments , "inlineSegments" )
assert . Zero ( t , obsvr . lastInlineSegments , "lastInlineSegments" )
assert . Equal ( t , numSegments , obsvr . remoteSegments , "remoteSegments" )
} )
t . Run ( "objects with at least one has more than 65 segments" , func ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
var (
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testdata = generateTestdataObjects ( ctx , t , false , true )
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obsvr = & observer {
objects : make ( bucketsObjects ) ,
}
)
for _ , objSeg := range testdata . objSegments {
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err := obsvr . processSegment ( ctx , objSeg . path , objSeg . pointer )
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require . NoError ( t , err )
}
// Assert observer internal state
assertObserver ( t , obsvr , testdata )
// Assert observer global stats
assert . Equal ( t , testdata . expectedInlineSegments , obsvr . inlineSegments , "inlineSegments" )
assert . Equal ( t , testdata . expectedInlineSegments , obsvr . lastInlineSegments , "lastInlineSegments" )
assert . Equal ( t , testdata . expectedRemoteSegments , obsvr . remoteSegments , "remoteSegments" )
} )
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t . Run ( "object with one segment before from" , func ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
var (
to = time . Now ( )
from = to . Add ( - time . Hour )
bucketName = "test-bucket"
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projectID = testrand . UUID ( )
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obsvr = observer {
objects : make ( bucketsObjects ) ,
from : & from ,
to : & to ,
}
objPath , objSegmentsRefs = createNewObjectSegments ( ctx , t , 1 , & projectID , bucketName , false , true )
)
objSegmentsRefs [ 0 ] . pointer . CreationDate = from . Add ( - time . Second )
err := obsvr . processSegment ( ctx , objSegmentsRefs [ 0 ] . path , objSegmentsRefs [ 0 ] . pointer )
require . NoError ( t , err )
// Assert observer internal state
assert . Equal ( t , projectID . String ( ) , obsvr . lastProjectID , "lastProjectID" )
assert . Equal ( t , 1 , len ( obsvr . objects ) , "objects number" )
require . Contains ( t , obsvr . objects , bucketName , "bucket in objects map" )
require . Equal ( t , 1 , len ( obsvr . objects [ bucketName ] ) , "objects in object map" )
require . Contains ( t , obsvr . objects [ bucketName ] , objPath , "path in bucket objects map" )
obj := obsvr . objects [ bucketName ] [ objPath ]
assert . True ( t , obj . skip , "Object.skip" )
// Assert observer global stats
assert . Zero ( t , obsvr . inlineSegments , "inlineSegments" )
assert . Zero ( t , obsvr . lastInlineSegments , "lastInlineSegments" )
assert . Equal ( t , 1 , obsvr . remoteSegments , "remoteSegments" )
} )
t . Run ( "objects where one has segments before from" , func ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
var (
to = time . Now ( ) . Add ( time . Hour )
from = to . Add ( - 2 * time . Hour )
diffFromTo = to . Sub ( from )
bucketName = "test-bucket"
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projectID = testrand . UUID ( )
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numSegmentsObjOutDateRange = rand . Intn ( 50 ) + 15
numSegmentsBeforeDate = rand . Intn ( numSegmentsObjOutDateRange - 1 ) + 1
obsvr = observer {
objects : make ( bucketsObjects ) ,
from : & from ,
to : & to ,
}
)
pathObjOutDateRange , objSegmentsRefs := createNewObjectSegments (
ctx , t , numSegmentsObjOutDateRange , & projectID , bucketName , true , false ,
)
for i := 0 ; i < numSegmentsObjOutDateRange ; i ++ {
if i < numSegmentsBeforeDate {
// Assign a creation date before the from
decrement := - time . Duration ( rand . Int63n ( math . MaxInt64 - 1 ) + 1 )
creationDate := from . Add ( decrement )
objSegmentsRefs [ i ] . pointer . CreationDate = creationDate
continue
}
// Assign a creation date between from and to (both included)
increment := time . Duration ( rand . Int63n ( int64 ( diffFromTo ) + 1 ) )
objSegmentsRefs [ i ] . pointer . CreationDate = from . Add ( increment )
}
numSegmentsObjInDateRange := rand . Intn ( 50 ) + 15
var pathObjInDateRange storj . Path
{ // Object with all the segments with creation date between the from/to range
var otherObjSegments [ ] segmentRef
pathObjInDateRange , otherObjSegments = createNewObjectSegments (
ctx , t , numSegmentsObjInDateRange , & projectID , bucketName , true , false ,
)
objSegmentsRefs = append ( objSegmentsRefs , otherObjSegments ... )
}
totalSegments := len ( objSegmentsRefs )
rand . Shuffle ( totalSegments , func ( i , j int ) {
objSegmentsRefs [ i ] , objSegmentsRefs [ j ] = objSegmentsRefs [ j ] , objSegmentsRefs [ i ]
} )
for _ , objSeg := range objSegmentsRefs {
err := obsvr . processSegment ( ctx , objSeg . path , objSeg . pointer )
require . NoError ( t , err )
}
// Assert observer internal state
assert . Equal ( t , projectID . String ( ) , obsvr . lastProjectID , "lastProjectID" )
assert . Equal ( t , 1 , len ( obsvr . objects ) , "objects number" )
require . Contains ( t , obsvr . objects , bucketName , "bucket in objects map" )
require . Equal ( t , 2 , len ( obsvr . objects [ bucketName ] ) , "objects in object map" )
require . Contains ( t , obsvr . objects [ bucketName ] , pathObjOutDateRange , "path in bucket objects map" )
obj := obsvr . objects [ bucketName ] [ pathObjOutDateRange ]
assert . Zero ( t , obj . expectedNumberOfSegments , "Object.expectedNumSegments" )
assert . True ( t , obj . hasLastSegment , "Object.hasLastSegment" )
assert . True ( t , obj . skip , "Object.skip" )
require . Contains ( t , obsvr . objects [ bucketName ] , pathObjInDateRange , "path in bucket objects map" )
obj = obsvr . objects [ bucketName ] [ pathObjInDateRange ]
assert . Zero ( t , obj . expectedNumberOfSegments , "Object.expectedNumSegments" )
assert . True ( t , obj . hasLastSegment , "Object.hasLastSegment" )
assert . False ( t , obj . skip , "Object.skip" )
// Assert observer global stats
assert . Equal ( t , 2 , obsvr . inlineSegments , "inlineSegments" )
assert . Equal ( t , 2 , obsvr . lastInlineSegments , "lastInlineSegments" )
assert . Equal ( t , totalSegments - 2 , obsvr . remoteSegments , "remoteSegments" )
} )
t . Run ( "object with one segment after to" , func ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
var (
to = time . Now ( )
from = to . Add ( - time . Hour )
bucketName = "test-bucket"
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projectID = testrand . UUID ( )
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obsvr = observer {
objects : make ( bucketsObjects ) ,
from : & from ,
to : & to ,
}
objPath , objSegmentsRefs = createNewObjectSegments ( ctx , t , 1 , & projectID , bucketName , false , true )
)
objSegmentsRefs [ 0 ] . pointer . CreationDate = to . Add ( time . Second )
err := obsvr . processSegment ( ctx , objSegmentsRefs [ 0 ] . path , objSegmentsRefs [ 0 ] . pointer )
require . NoError ( t , err )
// Assert observer internal state
assert . Equal ( t , projectID . String ( ) , obsvr . lastProjectID , "lastProjectID" )
assert . Equal ( t , 1 , len ( obsvr . objects ) , "objects number" )
require . Contains ( t , obsvr . objects , bucketName , "bucket in objects map" )
require . Equal ( t , 1 , len ( obsvr . objects [ bucketName ] ) , "objects in object map" )
require . Contains ( t , obsvr . objects [ bucketName ] , objPath , "path in bucket objects map" )
obj := obsvr . objects [ bucketName ] [ objPath ]
assert . True ( t , obj . skip , "Object.skip" )
// Assert observer global stats
assert . Zero ( t , obsvr . inlineSegments , "inlineSegments" )
assert . Zero ( t , obsvr . lastInlineSegments , "lastInlineSegments" )
assert . Equal ( t , 1 , obsvr . remoteSegments , "remoteSegments" )
} )
t . Run ( "objects where one has segments after to" , func ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
var (
to = time . Now ( ) . Add ( time . Hour )
from = to . Add ( - 2 * time . Hour )
diffFromTo = to . Sub ( from )
bucketName = "test-bucket"
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projectID = testrand . UUID ( )
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numSegmentsObjOutDateRange = rand . Intn ( 50 ) + 15
numSegmentsBeforeDate = rand . Intn ( numSegmentsObjOutDateRange - 1 ) + 1
obsvr = observer {
objects : make ( bucketsObjects ) ,
from : & from ,
to : & to ,
}
)
pathObjOutDateRange , objSegmentsRefs := createNewObjectSegments (
ctx , t , numSegmentsObjOutDateRange , & projectID , bucketName , false , true ,
)
for i := 0 ; i < numSegmentsObjOutDateRange ; i ++ {
if i < numSegmentsBeforeDate {
// Assign a creation date after the to
increment := time . Duration ( rand . Int63n ( math . MaxInt64 - 1 ) + 1 )
creationDate := to . Add ( increment )
objSegmentsRefs [ i ] . pointer . CreationDate = creationDate
continue
}
// Assign a creation date between from and to (both included)
increment := time . Duration ( rand . Int63n ( int64 ( diffFromTo ) + 1 ) )
objSegmentsRefs [ i ] . pointer . CreationDate = from . Add ( increment )
}
numSegmentsObjInDateRange := rand . Intn ( 50 ) + 15
var pathObjInDateRange storj . Path
{ // Object with all the segments with creation date between the from/to range
var otherObjSegments [ ] segmentRef
pathObjInDateRange , otherObjSegments = createNewObjectSegments (
ctx , t , numSegmentsObjInDateRange , & projectID , bucketName , false , true ,
)
objSegmentsRefs = append ( objSegmentsRefs , otherObjSegments ... )
}
totalSegments := len ( objSegmentsRefs )
rand . Shuffle ( totalSegments , func ( i , j int ) {
objSegmentsRefs [ i ] , objSegmentsRefs [ j ] = objSegmentsRefs [ j ] , objSegmentsRefs [ i ]
} )
for _ , objSeg := range objSegmentsRefs {
err := obsvr . processSegment ( ctx , objSeg . path , objSeg . pointer )
require . NoError ( t , err )
}
// Assert observer internal state
assert . Equal ( t , projectID . String ( ) , obsvr . lastProjectID , "lastProjectID" )
assert . Equal ( t , 1 , len ( obsvr . objects ) , "objects number" )
require . Contains ( t , obsvr . objects , bucketName , "bucket in objects map" )
require . Equal ( t , 2 , len ( obsvr . objects [ bucketName ] ) , "objects in object map" )
require . Contains ( t , obsvr . objects [ bucketName ] , pathObjOutDateRange , "path in bucket objects map" )
obj := obsvr . objects [ bucketName ] [ pathObjOutDateRange ]
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assert . Equal ( t , numSegmentsObjOutDateRange , obj . expectedNumberOfSegments , "Object.expectedNumSegments" )
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assert . True ( t , obj . hasLastSegment , "Object.hasLastSegment" )
assert . True ( t , obj . skip , "Object.skip" )
require . Contains ( t , obsvr . objects [ bucketName ] , pathObjInDateRange , "path in bucket objects map" )
obj = obsvr . objects [ bucketName ] [ pathObjInDateRange ]
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assert . Equal ( t , numSegmentsObjInDateRange , obj . expectedNumberOfSegments , "Object.expectedNumSegments" )
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assert . True ( t , obj . hasLastSegment , "Object.hasLastSegment" )
assert . False ( t , obj . skip , "Object.skip" )
// Assert observer global stats
assert . Zero ( t , obsvr . inlineSegments , "inlineSegments" )
assert . Zero ( t , obsvr . lastInlineSegments , "lastInlineSegments" )
assert . Equal ( t , totalSegments , obsvr . remoteSegments , "remoteSegments" )
} )
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}
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func TestObserver_processSegment_from_to ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
var (
notSet = time . Time { }
now = time . Now ( )
)
tests := [ ] struct {
from time . Time
to time . Time
pointerCreateDate time . Time
skipObject bool
} {
// not skipped
{ notSet , notSet , now , false } ,
{ notSet , now , now , false } ,
{ now , now , now , false } ,
{ now , notSet , now , false } ,
{ now . Add ( - time . Minute ) , now . Add ( time . Minute ) , now , false } ,
{ now . Add ( - time . Minute ) , now . Add ( time . Minute ) , now . Add ( time . Minute ) , false } ,
{ now . Add ( - time . Minute ) , now . Add ( time . Minute ) , now . Add ( - time . Minute ) , false } ,
// skipped
{ notSet , now , now . Add ( time . Second ) , true } ,
{ now , notSet , now . Add ( - time . Second ) , true } ,
{ now . Add ( - time . Minute ) , now . Add ( time . Minute ) , now . Add ( time . Hour ) , true } ,
{ now . Add ( - time . Minute ) , now . Add ( time . Minute ) , now . Add ( - time . Hour ) , true } ,
}
for _ , tt := range tests {
var from * time . Time
var to * time . Time
if tt . from != notSet {
from = & tt . from
}
if tt . to != notSet {
to = & tt . to
}
observer := & observer {
objects : make ( bucketsObjects ) ,
from : from ,
to : to ,
}
path := metainfo . ScopedPath {
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ProjectID : testrand . UUID ( ) ,
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Segment : "l" ,
BucketName : "bucket1" ,
EncryptedObjectPath : "path1" ,
}
pointer := & pb . Pointer {
CreationDate : tt . pointerCreateDate ,
}
err := observer . processSegment ( ctx , path , pointer )
require . NoError ( t , err )
objectsMap , ok := observer . objects [ "bucket1" ]
require . True ( t , ok )
object , ok := objectsMap [ "path1" ]
require . True ( t , ok )
require . Equal ( t , tt . skipObject , object . skip )
}
}
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func TestObserver_processSegment_switch_project ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
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db := teststore . New ( )
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buffer := new ( bytes . Buffer )
writer := csv . NewWriter ( buffer )
defer ctx . Check ( writer . Error )
observer , err := newObserver ( db , writer , nil , nil )
require . NoError ( t , err )
// project IDs are pregenerated to avoid issues with iteration order
now := time . Now ( )
project1 := "7176d6a8-3a83-7ae7-e084-5fdbb1a17ac1"
project2 := "890dd9f9-6461-eb1b-c3d1-73af7252b9a4"
// zombie segment for project 1
_ , err = makeSegment ( ctx , db , storj . JoinPaths ( project1 , "s0" , "bucket1" , "path1" ) , now )
require . NoError ( t , err )
// zombie segment for project 2
_ , err = makeSegment ( ctx , db , storj . JoinPaths ( project2 , "s0" , "bucket1" , "path1" ) , now )
require . NoError ( t , err )
err = observer . detectZombieSegments ( ctx )
require . NoError ( t , err )
writer . Flush ( )
result := buffer . String ( )
for _ , projectID := range [ ] string { project1 , project2 } {
encodedPath := base64 . StdEncoding . EncodeToString ( [ ] byte ( "path1" ) )
pathPrefix := strings . Join ( [ ] string { projectID , "s0" , "bucket1" , encodedPath , now . UTC ( ) . Format ( time . RFC3339Nano ) } , "," )
assert . Containsf ( t , result , pathPrefix , "entry for projectID %s not found: %s" , projectID )
}
}
func TestObserver_processSegment_single_project ( t * testing . T ) {
ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
type object struct {
bucket string
segments [ ] int
numberOfSegments int
expected string
}
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project1 := testrand . UUID ( ) . String ( )
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tests := [ ] struct {
objects [ ] object
} {
// expected = `object.expectedNumberOfSegments`_`object.segments`_`object.hasLastSegment`
{
objects : [ ] object { } ,
} ,
{
objects : [ ] object {
{ bucket : "b1" , segments : [ ] int { lastSegment } , numberOfSegments : 0 , expected : "0_000_l" } ,
{ bucket : "b1" , segments : [ ] int { lastSegment } , numberOfSegments : 1 , expected : "1_000_l" } ,
{ bucket : "b2" , segments : [ ] int { 0 } , numberOfSegments : 0 , expected : "0_100_0" } ,
{ bucket : "b1" , segments : [ ] int { 0 } , numberOfSegments : 5 , expected : "0_100_0" } ,
{ bucket : "b3" , segments : [ ] int { 0 , 1 , 2 , lastSegment } , numberOfSegments : 4 , expected : "4_111_l" } ,
{ bucket : "b1" , segments : [ ] int { 0 , 1 , 2 } , numberOfSegments : 0 , expected : "0_111_0" } ,
{ bucket : "b5" , segments : [ ] int { 2 , lastSegment } , numberOfSegments : 1 , expected : "1_001_l" } ,
{ bucket : "b1" , segments : [ ] int { 2 } , numberOfSegments : 1 , expected : "0_001_0" } ,
{ bucket : "b1" , segments : [ ] int { 0 , lastSegment } , numberOfSegments : 3 , expected : "3_100_l" } ,
} ,
} ,
}
for i , tt := range tests {
i := i
tt := tt
t . Run ( "#" + strconv . Itoa ( i ) , func ( t * testing . T ) {
// need boltdb to have DB with concurrent access support
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db := teststore . New ( )
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for i , ttObject := range tt . objects {
for _ , segment := range ttObject . segments {
streamMeta := & pb . StreamMeta { }
segmentIndex := "s" + strconv . Itoa ( segment )
if segment == lastSegment {
segmentIndex = "l"
streamMeta . NumberOfSegments = int64 ( ttObject . numberOfSegments )
}
path := storj . JoinPaths ( project1 , segmentIndex , ttObject . bucket , "path" + strconv . Itoa ( i ) )
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metadata , err := pb . Marshal ( streamMeta )
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require . NoError ( t , err )
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pointerBytes , err := pb . Marshal ( & pb . Pointer {
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Metadata : metadata ,
} )
require . NoError ( t , err )
err = db . Put ( ctx , storage . Key ( path ) , storage . Value ( pointerBytes ) )
require . NoError ( t , err )
}
}
observer := & observer {
db : db ,
objects : make ( bucketsObjects ) ,
writer : csv . NewWriter ( new ( bytes . Buffer ) ) ,
}
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err := observer . detectZombieSegments ( ctx )
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require . NoError ( t , err )
for i , ttObject := range tt . objects {
objectsMap , ok := observer . objects [ ttObject . bucket ]
require . True ( t , ok )
object , ok := objectsMap [ "path" + strconv . Itoa ( i ) ]
require . True ( t , ok )
expectedParts := strings . Split ( ttObject . expected , "_" )
expectedNumberOfSegments , err := strconv . Atoi ( expectedParts [ 0 ] )
require . NoError ( t , err )
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assert . Equal ( t , expectedNumberOfSegments , object . expectedNumberOfSegments )
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expectedSegments := bitArray { }
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for i , char := range expectedParts [ 1 ] {
if char == '_' {
break
}
if char == '1' {
err := expectedSegments . Set ( i )
require . NoError ( t , err )
}
}
assert . Equal ( t , expectedSegments , object . segments )
expectedLastSegment := expectedParts [ 2 ] == "l"
assert . Equal ( t , expectedLastSegment , object . hasLastSegment )
}
} )
}
}
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func TestObserver_analyzeProject ( t * testing . T ) {
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ctx := testcontext . New ( t )
defer ctx . Cleanup ( )
allSegments64 := string ( bytes . ReplaceAll ( make ( [ ] byte , 64 ) , [ ] byte { 0 } , [ ] byte { '1' } ) )
tests := [ ] struct {
segments string
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expectedNumberOfSegments int
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segmentsAfter string
} {
// this visualize which segments will be NOT selected as zombie segments
// known number of segments
{ "11111_l" , 6 , "11111_l" } , // #0
{ "00000_l" , 1 , "00000_l" } , // #1
{ "1111100" , 6 , "0000000" } , // #2
{ "11011_l" , 6 , "00000_0" } , // #3
{ "11011_l" , 3 , "11000_l" } , // #4
{ "11110_l" , 6 , "00000_0" } , // #5
{ "00011_l" , 4 , "00000_0" } , // #6
{ "10011_l" , 4 , "00000_0" } , // #7
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{ "11011_l" , 4 , "00000_0" } , // #8
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// unknown number of segments
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{ "11111_l" , 0 , "11111_l" } , // #9
{ "00000_l" , 0 , "00000_l" } , // #10
{ "10000_l" , 0 , "10000_l" } , // #11
{ "1111100" , 0 , "0000000" } , // #12
{ "00111_l" , 0 , "00000_l" } , // #13
{ "10111_l" , 0 , "10000_l" } , // #14
{ "10101_l" , 0 , "10000_l" } , // #15
{ "11011_l" , 0 , "11000_l" } , // #16
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// special cases
{ allSegments64 + "_l" , 65 , allSegments64 + "_l" } , // #16
}
for testNum , tt := range tests {
testNum := testNum
tt := tt
t . Run ( "case_" + strconv . Itoa ( testNum ) , func ( t * testing . T ) {
bucketObjects := make ( bucketsObjects )
singleObjectMap := make ( map [ storj . Path ] * object )
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segments := bitArray { }
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for i , char := range tt . segments {
if char == '_' {
break
}
if char == '1' {
err := segments . Set ( i )
require . NoError ( t , err )
}
}
object := & object {
segments : segments ,
hasLastSegment : strings . HasSuffix ( tt . segments , "_l" ) ,
expectedNumberOfSegments : tt . expectedNumberOfSegments ,
}
singleObjectMap [ "test-path" ] = object
bucketObjects [ "test-bucket" ] = singleObjectMap
observer := & observer {
objects : bucketObjects ,
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lastProjectID : testrand . UUID ( ) . String ( ) ,
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zombieBuffer : make ( [ ] int , 0 ) ,
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}
err := observer . findZombieSegments ( object )
require . NoError ( t , err )
indexes := observer . zombieBuffer
segmentsAfter := tt . segments
for _ , segmentIndex := range indexes {
if segmentIndex == lastSegment {
segmentsAfter = segmentsAfter [ : len ( segmentsAfter ) - 1 ] + "0"
} else {
segmentsAfter = segmentsAfter [ : segmentIndex ] + "0" + segmentsAfter [ segmentIndex + 1 : ]
}
}
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require . Equalf ( t , tt . segmentsAfter , segmentsAfter , "segments before and after comparison failed: want %s got %s, case %d " , tt . segmentsAfter , segmentsAfter , testNum )
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} )
}
}
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// segmentRef is an object segment reference to be used for simulating calls to
// observer.processSegment
type segmentRef struct {
path metainfo . ScopedPath
pointer * pb . Pointer
}
// createNewObjectSegments creates a list of segment references which belongs to
// a same object.
//
// If inline is true the last segment will be of INLINE type.
//
// If withNumSegments is true the last segment pointer will have the
// NumberOfSegments set.
//
// It returns the object path and the list of object segment references.
func createNewObjectSegments (
ctx context . Context , t * testing . T , numSegments int , projectID * uuid . UUID , bucketName string , inline bool , withNumSegments bool ,
) ( objectPath string , _ [ ] segmentRef ) {
t . Helper ( )
var (
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objectID = testrand . UUID ( ) . String ( )
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projectIDString = projectID . String ( )
references = make ( [ ] segmentRef , 0 , numSegments )
encryptedPath = fmt . Sprintf ( "%s-%s-%s" , projectIDString , bucketName , objectID )
)
for i := 0 ; i < ( numSegments - 1 ) ; i ++ {
raw , err := metainfo . CreatePath ( ctx , * projectID , int64 ( i ) , [ ] byte ( bucketName ) , [ ] byte ( objectID ) )
require . NoError ( t , err )
references = append ( references , segmentRef {
path : metainfo . ScopedPath {
ProjectID : * projectID ,
ProjectIDString : projectIDString ,
BucketName : bucketName ,
Segment : fmt . Sprintf ( "s%d" , i ) ,
EncryptedObjectPath : encryptedPath ,
Raw : raw ,
} ,
pointer : & pb . Pointer {
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Type : pb . Pointer_REMOTE ,
CreationDate : time . Now ( ) ,
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} ,
} )
}
pointerType := pb . Pointer_REMOTE
if inline {
pointerType = pb . Pointer_INLINE
}
var pointerNumSegments int64
if withNumSegments {
pointerNumSegments = int64 ( numSegments )
}
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metadata , err := pb . Marshal ( & pb . StreamMeta {
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NumberOfSegments : pointerNumSegments ,
} )
require . NoError ( t , err )
raw , err := metainfo . CreatePath ( ctx , * projectID , - 1 , [ ] byte ( bucketName ) , [ ] byte ( objectID ) )
require . NoError ( t , err )
references = append ( references , segmentRef {
path : metainfo . ScopedPath {
ProjectID : * projectID ,
ProjectIDString : projectIDString ,
BucketName : bucketName ,
Segment : "l" ,
EncryptedObjectPath : encryptedPath ,
Raw : raw ,
} ,
pointer : & pb . Pointer {
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Type : pointerType ,
Metadata : metadata ,
CreationDate : time . Now ( ) ,
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} ,
} )
return encryptedPath , references
}
type testdataObjects struct {
// expectations
expectedNumSegments int
expectedInlineSegments int
expectedRemoteSegments int
expectedObjects bucketsObjects
// data used for calling processSegment
objSegments [ ] segmentRef
projectID * uuid . UUID
}
// generateTestdataObjects generate a testdataObjecst with a random number of
// segments of a random number of objects and buckets but under the same
// project.
//
// When withoutLastSegment is true, there will be objects without last segment,
// otherwise all of them will have a last segment.
//
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// When withMoreThanOldMaxNumSegments is true, there will be objects with more
// segments than the oldMaxNumOfSegments, otherwise all of them will have less or
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// equal than it.
func generateTestdataObjects (
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ctx context . Context , t * testing . T , withoutLastSegment bool , withMoreThanOldMaxNumSegments bool ,
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) testdataObjects {
t . Helper ( )
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const oldMaxNumOfSegments = 64
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var (
testdata = testdataObjects {
expectedObjects : make ( bucketsObjects ) ,
}
bucketName = "0"
numObjs = rand . Intn ( 10 ) + 2
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projID = testrand . UUID ( )
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withoutLastSegmentCount = 0
withMoreThanMaxNumSegmentsCount = 0
numMaxGeneratedSegments = 10
)
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if withMoreThanOldMaxNumSegments {
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numMaxGeneratedSegments = 100
}
testdata . projectID = & projID
for i := 0 ; i < numObjs ; i ++ {
var (
inline = ( rand . Int ( ) % 2 ) == 0
withNumSegments = ( rand . Int ( ) % 2 ) == 0
numSegments = rand . Intn ( numMaxGeneratedSegments ) + 2
)
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if numSegments > ( oldMaxNumOfSegments + 1 ) {
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withMoreThanMaxNumSegmentsCount ++
}
// If withMoreThanMaxNumSegments is true and all the objects created in all
// the previous iterations have less or equal than maximum number of segments
// and this is the last iteration then force that the object crated in this
// iteration has more segments than the maximum.
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if withMoreThanOldMaxNumSegments &&
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withMoreThanMaxNumSegmentsCount == 0 &&
i == ( numObjs - 1 ) {
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numSegments += oldMaxNumOfSegments
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withMoreThanMaxNumSegmentsCount ++
}
if rand . Int ( ) % 2 == 0 {
bucketName = fmt . Sprintf ( "bucket-%d" , i )
}
objPath , objSegmentsProj := createNewObjectSegments (
ctx , t , numSegments , & projID , bucketName , inline , withNumSegments ,
)
testdata . objSegments = append ( testdata . objSegments , objSegmentsProj ... )
expectedObj := findOrCreate ( bucketName , objPath , testdata . expectedObjects )
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// segments mask doesn't contain the last segment, hence numSegments-1
b := make ( [ ] byte , ( ( numSegments - 1 ) + 8 - 1 ) / 8 )
for x := 0 ; x < numSegments - 1 ; x ++ {
bitIndex , byteIndex := x % 8 , x / 8
b [ byteIndex ] |= byte ( 1 ) << bitIndex
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}
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expectedObj . segments = bitArray ( b )
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// If withoutLastSegment is true, then choose random objects without last
// segment or force to remove it from the object generated in the last
// iteration if in any object of the previous iterations have the last
// segment
if withoutLastSegment &&
( ( rand . Int ( ) % 2 ) == 0 || ( i == ( numObjs - 1 ) && withoutLastSegmentCount == 0 ) ) {
withoutLastSegmentCount ++
expectedObj . hasLastSegment = false
numSegments --
testdata . objSegments = testdata . objSegments [ : len ( testdata . objSegments ) - 1 ]
testdata . expectedRemoteSegments += numSegments
} else {
expectedObj . hasLastSegment = true
if inline {
testdata . expectedInlineSegments ++
testdata . expectedRemoteSegments += ( numSegments - 1 )
} else {
testdata . expectedRemoteSegments += numSegments
}
if withNumSegments {
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expectedObj . expectedNumberOfSegments = numSegments
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}
}
testdata . expectedNumSegments += numSegments
}
// Shuffle the segments for not having a object segments serial order
rand . Shuffle ( len ( testdata . objSegments ) , func ( i , j int ) {
testdata . objSegments [ i ] , testdata . objSegments [ j ] = testdata . objSegments [ j ] , testdata . objSegments [ i ]
} )
return testdata
}
// assertObserver assert the observer values with the testdata ones.
func assertObserver ( t * testing . T , obsvr * observer , testdata testdataObjects ) {
t . Helper ( )
assert . Equal ( t , testdata . projectID . String ( ) , obsvr . lastProjectID , "lastProjectID" )
if assert . Equal ( t , len ( testdata . expectedObjects ) , len ( obsvr . objects ) , "objects number" ) {
for bucket , bucketObjs := range obsvr . objects {
expBucketObjs , ok := testdata . expectedObjects [ bucket ]
if ! assert . Truef ( t , ok , "bucket '%s' shouldn't exist in objects map" , bucket ) {
continue
}
if ! assert . Equalf ( t , len ( expBucketObjs ) , len ( bucketObjs ) , "objects per bucket (%s) number" , bucket ) {
continue
}
for expPath , expObj := range expBucketObjs {
if ! assert . Contains ( t , bucketObjs , expPath , "path in bucket objects map" ) {
continue
}
obj := bucketObjs [ expPath ]
assert . Equal ( t , expObj . expectedNumberOfSegments , obj . expectedNumberOfSegments , "Object.expectedNumSegments" )
assert . Equal ( t , expObj . hasLastSegment , obj . hasLastSegment , "Object.hasLastSegment" )
assert . Equal ( t , expObj . skip , obj . skip , "Object.skip" )
if ! expObj . skip {
assert . Equal ( t , expObj . segments , obj . segments , "Object.segments" )
}
}
}
}
}
