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// Package fstests provides generic integration tests for the Fs and
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// Object interfaces.
//
// These tests are concerned with the basic functionality of a
// backend. The tests in fs/sync and fs/operations tests more
// cornercases that these tests don't.
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package fstests
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import (
"bytes"
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"context"
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"errors"
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"fmt"
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"io"
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"math/bits"
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"os"
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"path"
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"path/filepath"
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"reflect"
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"sort"
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"strconv"
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"strings"
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"testing"
"time"
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"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/config"
"github.com/rclone/rclone/fs/fserrors"
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"github.com/rclone/rclone/fs/fspath"
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"github.com/rclone/rclone/fs/hash"
"github.com/rclone/rclone/fs/object"
"github.com/rclone/rclone/fs/operations"
"github.com/rclone/rclone/fs/walk"
"github.com/rclone/rclone/fstest"
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"github.com/rclone/rclone/fstest/testserver"
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"github.com/rclone/rclone/lib/encoder"
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"github.com/rclone/rclone/lib/random"
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"github.com/rclone/rclone/lib/readers"
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"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
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)
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// InternalTester is an optional interface for Fs which allows to execute internal tests
//
// This interface should be implemented in 'backend'_internal_test.go and not in 'backend'.go
type InternalTester interface {
InternalTest ( * testing . T )
}
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// ChunkedUploadConfig contains the values used by TestFsPutChunked
// to determine the limits of chunked uploading
type ChunkedUploadConfig struct {
// Minimum allowed chunk size
MinChunkSize fs . SizeSuffix
// Maximum allowed chunk size, 0 is no limit
MaxChunkSize fs . SizeSuffix
// Rounds the given chunk size up to the next valid value
// nil will disable rounding
// e.g. the next power of 2
CeilChunkSize func ( fs . SizeSuffix ) fs . SizeSuffix
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// More than one chunk is required on upload
NeedMultipleChunks bool
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// Skip this particular remote
Skip bool
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}
// SetUploadChunkSizer is a test only interface to change the upload chunk size at runtime
type SetUploadChunkSizer interface {
// Change the configured UploadChunkSize.
// Will only be called while no transfer is in progress.
SetUploadChunkSize ( fs . SizeSuffix ) ( fs . SizeSuffix , error )
}
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// SetUploadCutoffer is a test only interface to change the upload cutoff size at runtime
type SetUploadCutoffer interface {
// Change the configured UploadCutoff.
// Will only be called while no transfer is in progress.
SetUploadCutoff ( fs . SizeSuffix ) ( fs . SizeSuffix , error )
}
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// NextPowerOfTwo returns the current or next bigger power of two.
// All values less or equal 0 will return 0
func NextPowerOfTwo ( i fs . SizeSuffix ) fs . SizeSuffix {
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return 1 << uint ( 64 - bits . LeadingZeros64 ( uint64 ( i ) - 1 ) )
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}
// NextMultipleOf returns a function that can be used as a CeilChunkSize function.
// This function will return the next multiple of m that is equal or bigger than i.
// All values less or equal 0 will return 0.
func NextMultipleOf ( m fs . SizeSuffix ) func ( fs . SizeSuffix ) fs . SizeSuffix {
if m <= 0 {
panic ( fmt . Sprintf ( "invalid multiplier %s" , m ) )
}
return func ( i fs . SizeSuffix ) fs . SizeSuffix {
if i <= 0 {
return 0
}
return ( ( ( i - 1 ) / m ) + 1 ) * m
}
}
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// dirsToNames returns a sorted list of names
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func dirsToNames ( dirs [ ] fs . Directory ) [ ] string {
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names := [ ] string { }
for _ , dir := range dirs {
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names = append ( names , fstest . Normalize ( dir . Remote ( ) ) )
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}
sort . Strings ( names )
return names
}
// objsToNames returns a sorted list of object names
func objsToNames ( objs [ ] fs . Object ) [ ] string {
names := [ ] string { }
for _ , obj := range objs {
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names = append ( names , fstest . Normalize ( obj . Remote ( ) ) )
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}
sort . Strings ( names )
return names
}
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// findObject finds the object on the remote
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func findObject ( ctx context . Context , t * testing . T , f fs . Fs , Name string ) fs . Object {
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var obj fs . Object
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var err error
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sleepTime := 1 * time . Second
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for i := 1 ; i <= * fstest . ListRetries ; i ++ {
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obj , err = f . NewObject ( ctx , Name )
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if err == nil {
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break
}
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t . Logf ( "Sleeping for %v for findObject eventual consistency: %d/%d (%v)" , sleepTime , i , * fstest . ListRetries , err )
time . Sleep ( sleepTime )
sleepTime = ( sleepTime * 3 ) / 2
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}
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require . NoError ( t , err )
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return obj
}
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// retry f() until no retriable error
func retry ( t * testing . T , what string , f func ( ) error ) {
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const maxTries = 10
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var err error
for tries := 1 ; tries <= maxTries ; tries ++ {
err = f ( )
// exit if no error, or error is not retriable
if err == nil || ! fserrors . IsRetryError ( err ) {
break
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}
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t . Logf ( "%s error: %v - low level retry %d/%d" , what , err , tries , maxTries )
time . Sleep ( 2 * time . Second )
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}
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require . NoError ( t , err , what )
}
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// check interface
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// PutTestContentsMetadata puts file with given contents to the remote and checks it but unlike TestPutLarge doesn't remove
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//
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// It uploads the object with the mimeType and metadata passed in if set.
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//
// It returns the object which will have been checked if check is set
func PutTestContentsMetadata ( ctx context . Context , t * testing . T , f fs . Fs , file * fstest . Item , contents string , check bool , mimeType string , metadata fs . Metadata ) fs . Object {
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var (
err error
obj fs . Object
uploadHash * hash . MultiHasher
)
retry ( t , "Put" , func ( ) error {
buf := bytes . NewBufferString ( contents )
uploadHash = hash . NewMultiHasher ( )
in := io . TeeReader ( buf , uploadHash )
file . Size = int64 ( buf . Len ( ) )
obji := object . NewStaticObjectInfo ( file . Path , file . ModTime , file . Size , true , nil , nil )
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if mimeType != "" || metadata != nil {
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// force the --metadata flag on temporarily
if metadata != nil {
ci := fs . GetConfig ( ctx )
previousMetadata := ci . Metadata
ci . Metadata = true
defer func ( ) {
ci . Metadata = previousMetadata
} ( )
}
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obji . WithMetadata ( metadata ) . WithMimeType ( mimeType )
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}
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obj , err = f . Put ( ctx , in , obji )
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return err
} )
file . Hashes = uploadHash . Sums ( )
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if check {
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// Overwrite time with that in metadata if it is already specified
mtime , ok := metadata [ "mtime" ]
if ok {
modTime , err := time . Parse ( time . RFC3339Nano , mtime )
require . NoError ( t , err )
file . ModTime = modTime
}
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file . Check ( t , obj , f . Precision ( ) )
// Re-read the object and check again
obj = findObject ( ctx , t , f , file . Path )
file . Check ( t , obj , f . Precision ( ) )
}
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return obj
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}
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// PutTestContents puts file with given contents to the remote and checks it but unlike TestPutLarge doesn't remove
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func PutTestContents ( ctx context . Context , t * testing . T , f fs . Fs , file * fstest . Item , contents string , check bool ) fs . Object {
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return PutTestContentsMetadata ( ctx , t , f , file , contents , check , "" , nil )
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}
// testPut puts file with random contents to the remote
func testPut ( ctx context . Context , t * testing . T , f fs . Fs , file * fstest . Item ) ( string , fs . Object ) {
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contents := random . String ( 100 )
return contents , PutTestContents ( ctx , t , f , file , contents , true )
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}
// testPutMimeType puts file with random contents to the remote and the mime type given
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func testPutMimeType ( ctx context . Context , t * testing . T , f fs . Fs , file * fstest . Item , mimeType string , metadata fs . Metadata ) ( string , fs . Object ) {
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contents := random . String ( 100 )
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return contents , PutTestContentsMetadata ( ctx , t , f , file , contents , true , mimeType , metadata )
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}
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// TestPutLarge puts file to the remote, checks it and removes it on success.
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func TestPutLarge ( ctx context . Context , t * testing . T , f fs . Fs , file * fstest . Item ) {
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var (
err error
obj fs . Object
uploadHash * hash . MultiHasher
)
retry ( t , "PutLarge" , func ( ) error {
r := readers . NewPatternReader ( file . Size )
uploadHash = hash . NewMultiHasher ( )
in := io . TeeReader ( r , uploadHash )
obji := object . NewStaticObjectInfo ( file . Path , file . ModTime , file . Size , true , nil , nil )
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obj , err = f . Put ( ctx , in , obji )
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if file . Size == 0 && err == fs . ErrorCantUploadEmptyFiles {
t . Skip ( "Can't upload zero length files" )
}
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return err
} )
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file . Hashes = uploadHash . Sums ( )
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file . Check ( t , obj , f . Precision ( ) )
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// Re-read the object and check again
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obj = findObject ( ctx , t , f , file . Path )
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file . Check ( t , obj , f . Precision ( ) )
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// Download the object and check it is OK
downloadHash := hash . NewMultiHasher ( )
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download , err := obj . Open ( ctx )
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require . NoError ( t , err )
n , err := io . Copy ( downloadHash , download )
require . NoError ( t , err )
assert . Equal ( t , file . Size , n )
require . NoError ( t , download . Close ( ) )
assert . Equal ( t , file . Hashes , downloadHash . Sums ( ) )
// Remove the object
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require . NoError ( t , obj . Remove ( ctx ) )
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}
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// ReadObject reads the contents of an object as a string
func ReadObject ( ctx context . Context , t * testing . T , obj fs . Object , limit int64 , options ... fs . OpenOption ) string {
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what := fmt . Sprintf ( "readObject(%q) limit=%d, options=%+v" , obj , limit , options )
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in , err := obj . Open ( ctx , options ... )
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require . NoError ( t , err , what )
var r io . Reader = in
if limit >= 0 {
r = & io . LimitedReader { R : r , N : limit }
}
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contents , err := io . ReadAll ( r )
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require . NoError ( t , err , what )
err = in . Close ( )
require . NoError ( t , err , what )
return string ( contents )
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}
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// ExtraConfigItem describes a config item for the tests
type ExtraConfigItem struct { Name , Key , Value string }
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// Opt is options for Run
type Opt struct {
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RemoteName string
NilObject fs . Object
ExtraConfig [ ] ExtraConfigItem
SkipBadWindowsCharacters bool // skips unusable characters for windows if set
SkipFsMatch bool // if set skip exact matching of Fs value
TiersToTest [ ] string // List of tiers which can be tested in setTier test
ChunkedUpload ChunkedUploadConfig
UnimplementableFsMethods [ ] string // List of methods which can't be implemented in this wrapping Fs
UnimplementableObjectMethods [ ] string // List of methods which can't be implemented in this wrapping Fs
SkipFsCheckWrap bool // if set skip FsCheckWrap
SkipObjectCheckWrap bool // if set skip ObjectCheckWrap
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SkipInvalidUTF8 bool // if set skip invalid UTF-8 checks
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QuickTestOK bool // if set, run this test with make quicktest
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}
// returns true if x is found in ss
func stringsContains ( x string , ss [ ] string ) bool {
for _ , s := range ss {
if x == s {
return true
}
}
return false
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}
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// toUpperASCII returns a copy of the string s with all Unicode
// letters mapped to their upper case.
func toUpperASCII ( s string ) string {
return strings . Map ( func ( r rune ) rune {
if 'a' <= r && r <= 'z' {
r -= 'a' - 'A'
}
return r
} , s )
}
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// removeConfigID removes any {xyz} parts of the name put in for
// config disambiguation
func removeConfigID ( s string ) string {
bra := strings . IndexRune ( s , '{' )
ket := strings . IndexRune ( s , '}' )
if bra >= 0 && ket > bra {
s = s [ : bra ] + s [ ket + 1 : ]
}
return s
}
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// InternalTestFiles is the state of the remote at the moment the internal tests are called
var InternalTestFiles [ ] fstest . Item
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// Run runs the basic integration tests for a remote using the options passed in.
//
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// They are structured in a hierarchical way so that dependencies for the tests can be created.
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//
// For example some tests require the directory to be created - these
// are inside the "FsMkdir" test. Some tests require some tests files
// - these are inside the "FsPutFiles" test.
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func Run ( t * testing . T , opt * Opt ) {
var (
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f fs . Fs
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remoteName = opt . RemoteName
subRemoteName string
subRemoteLeaf string
file1 = fstest . Item {
ModTime : fstest . Time ( "2001-02-03T04:05:06.499999999Z" ) ,
Path : "file name.txt" ,
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}
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file1Contents string
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file1MimeType = "text/csv"
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file1Metadata = fs . Metadata { "rclone-test" : "potato" }
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file2 = fstest . Item {
ModTime : fstest . Time ( "2001-02-03T04:05:10.123123123Z" ) ,
Path : ` hello? sausage/êé/Hello, 世界/ " ' @ < > & ? + ≠/z.txt ` ,
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}
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isLocalRemote bool
purged bool // whether the dir has been purged or not
ctx = context . Background ( )
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ci = fs . GetConfig ( ctx )
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unwrappableFsMethods = [ ] string { "Command" } // these Fs methods don't need to be wrapped ever
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)
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if strings . HasSuffix ( os . Getenv ( "RCLONE_CONFIG" ) , "/notfound" ) && * fstest . RemoteName == "" && ! opt . QuickTestOK {
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t . Skip ( "quicktest only" )
}
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// Skip the test if the remote isn't configured
skipIfNotOk := func ( t * testing . T ) {
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if f == nil {
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t . Skipf ( "WARN: %q not configured" , remoteName )
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}
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}
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// Skip if remote is not ListR capable, otherwise set the useListR
// flag, returning a function to restore its value
skipIfNotListR := func ( t * testing . T ) func ( ) {
skipIfNotOk ( t )
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if f . Features ( ) . ListR == nil {
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t . Skip ( "FS has no ListR interface" )
}
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previous := ci . UseListR
ci . UseListR = true
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return func ( ) {
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ci . UseListR = previous
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}
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}
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// Skip if remote is not SetTier and GetTier capable
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skipIfNotSetTier := func ( t * testing . T ) {
skipIfNotOk ( t )
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if ! f . Features ( ) . SetTier || ! f . Features ( ) . GetTier {
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t . Skip ( "FS has no SetTier & GetTier interfaces" )
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}
}
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// Return true if f (or any of the things it wraps) is bucket
// based but not at the root.
isBucketBasedButNotRoot := func ( f fs . Fs ) bool {
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f = fs . UnWrapFs ( f )
return f . Features ( ) . BucketBased && strings . Contains ( strings . Trim ( f . Root ( ) , "/" ) , "/" )
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}
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// Initialise the remote
fstest . Initialise ( )
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// Set extra config if supplied
for _ , item := range opt . ExtraConfig {
config . FileSet ( item . Name , item . Key , item . Value )
}
if * fstest . RemoteName != "" {
remoteName = * fstest . RemoteName
}
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oldFstestRemoteName := fstest . RemoteName
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fstest . RemoteName = & remoteName
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defer func ( ) {
fstest . RemoteName = oldFstestRemoteName
} ( )
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t . Logf ( "Using remote %q" , remoteName )
var err error
if remoteName == "" {
remoteName , err = fstest . LocalRemote ( )
require . NoError ( t , err )
isLocalRemote = true
}
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// Start any test servers if required
finish , err := testserver . Start ( remoteName )
require . NoError ( t , err )
defer finish ( )
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// Make the Fs we are testing with, initialising the local variables
// subRemoteName - name of the remote after the TestRemote:
// subRemoteLeaf - a subdirectory to use under that
// remote - the result of fs.NewFs(TestRemote:subRemoteName)
subRemoteName , subRemoteLeaf , err = fstest . RandomRemoteName ( remoteName )
require . NoError ( t , err )
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f , err = fs . NewFs ( context . Background ( ) , subRemoteName )
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if err == fs . ErrorNotFoundInConfigFile {
t . Logf ( "Didn't find %q in config file - skipping tests" , remoteName )
return
}
require . NoError ( t , err , fmt . Sprintf ( "unexpected error: %v" , err ) )
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// Get fsInfo which contains type, etc. of the fs
fsInfo , _ , _ , _ , err := fs . ConfigFs ( subRemoteName )
require . NoError ( t , err , fmt . Sprintf ( "unexpected error: %v" , err ) )
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// Skip the rest if it failed
skipIfNotOk ( t )
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// Check to see if Fs that wrap other Fs implement all the optional methods
t . Run ( "FsCheckWrap" , func ( t * testing . T ) {
skipIfNotOk ( t )
if opt . SkipFsCheckWrap {
t . Skip ( "Skipping FsCheckWrap on this Fs" )
}
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ft := new ( fs . Features ) . Fill ( ctx , f )
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if ft . UnWrap == nil {
t . Skip ( "Not a wrapping Fs" )
}
v := reflect . ValueOf ( ft ) . Elem ( )
vType := v . Type ( )
for i := 0 ; i < v . NumField ( ) ; i ++ {
vName := vType . Field ( i ) . Name
if stringsContains ( vName , opt . UnimplementableFsMethods ) {
continue
}
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if stringsContains ( vName , unwrappableFsMethods ) {
continue
}
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field := v . Field ( i )
// skip the bools
if field . Type ( ) . Kind ( ) == reflect . Bool {
continue
}
if field . IsNil ( ) {
t . Errorf ( "Missing Fs wrapper for %s" , vName )
}
}
} )
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// Check to see if Fs advertises commands and they work and have docs
t . Run ( "FsCommand" , func ( t * testing . T ) {
skipIfNotOk ( t )
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doCommand := f . Features ( ) . Command
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if doCommand == nil {
t . Skip ( "No commands in this remote" )
}
// Check the correct error is generated
_ , err := doCommand ( context . Background ( ) , "NOTFOUND" , nil , nil )
assert . Equal ( t , fs . ErrorCommandNotFound , err , "Incorrect error generated on command not found" )
// Check there are some commands in the fsInfo
fsInfo , _ , _ , _ , err := fs . ConfigFs ( remoteName )
require . NoError ( t , err )
assert . True ( t , len ( fsInfo . CommandHelp ) > 0 , "Command is declared, must return some help in CommandHelp" )
} )
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// TestFsRmdirNotFound tests deleting a nonexistent directory
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t . Run ( "FsRmdirNotFound" , func ( t * testing . T ) {
skipIfNotOk ( t )
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if isBucketBasedButNotRoot ( f ) {
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t . Skip ( "Skipping test as non root bucket-based remote" )
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}
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err := f . Rmdir ( ctx , "" )
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assert . Error ( t , err , "Expecting error on Rmdir nonexistent" )
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} )
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// Make the directory
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err = f . Mkdir ( ctx , "" )
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require . NoError ( t , err )
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fstest . CheckListing ( t , f , [ ] fstest . Item { } )
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// TestFsString tests the String method
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t . Run ( "FsString" , func ( t * testing . T ) {
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skipIfNotOk ( t )
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str := f . String ( )
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require . NotEqual ( t , "" , str )
} )
// TestFsName tests the Name method
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t . Run ( "FsName" , func ( t * testing . T ) {
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skipIfNotOk ( t )
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got := removeConfigID ( f . Name ( ) )
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want := remoteName [ : strings . LastIndex ( remoteName , ":" ) + 1 ]
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if isLocalRemote {
want = "local:"
}
require . Equal ( t , want , got + ":" )
} )
// TestFsRoot tests the Root method
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t . Run ( "FsRoot" , func ( t * testing . T ) {
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skipIfNotOk ( t )
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name := removeConfigID ( f . Name ( ) ) + ":"
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root := f . Root ( )
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if isLocalRemote {
// only check last path element on local
require . Equal ( t , filepath . Base ( subRemoteName ) , filepath . Base ( root ) )
} else {
require . Equal ( t , subRemoteName , name + root )
}
} )
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// TestFsRmdirEmpty tests deleting an empty directory
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t . Run ( "FsRmdirEmpty" , func ( t * testing . T ) {
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skipIfNotOk ( t )
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err := f . Rmdir ( ctx , "" )
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require . NoError ( t , err )
} )
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// TestFsMkdir tests making a directory
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//
// Tests that require the directory to be made are within this
t . Run ( "FsMkdir" , func ( t * testing . T ) {
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skipIfNotOk ( t )
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err := f . Mkdir ( ctx , "" )
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require . NoError ( t , err )
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fstest . CheckListing ( t , f , [ ] fstest . Item { } )
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err = f . Mkdir ( ctx , "" )
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require . NoError ( t , err )
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// TestFsMkdirRmdirSubdir tests making and removing a sub directory
t . Run ( "FsMkdirRmdirSubdir" , func ( t * testing . T ) {
skipIfNotOk ( t )
dir := "dir/subdir"
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err := operations . Mkdir ( ctx , f , dir )
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require . NoError ( t , err )
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fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { } , [ ] string { "dir" , "dir/subdir" } , fs . GetModifyWindow ( ctx , f ) )
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err = operations . Rmdir ( ctx , f , dir )
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require . NoError ( t , err )
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fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { } , [ ] string { "dir" } , fs . GetModifyWindow ( ctx , f ) )
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err = operations . Rmdir ( ctx , f , "dir" )
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require . NoError ( t , err )
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fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { } , [ ] string { } , fs . GetModifyWindow ( ctx , f ) )
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} )
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// TestFsListEmpty tests listing an empty directory
t . Run ( "FsListEmpty" , func ( t * testing . T ) {
skipIfNotOk ( t )
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fstest . CheckListing ( t , f , [ ] fstest . Item { } )
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} )
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// TestFsListDirEmpty tests listing the directories from an empty directory
TestFsListDirEmpty := func ( t * testing . T ) {
skipIfNotOk ( t )
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objs , dirs , err := walk . GetAll ( ctx , f , "" , true , 1 )
if ! f . Features ( ) . CanHaveEmptyDirectories {
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if err != fs . ErrorDirNotFound {
require . NoError ( t , err )
}
} else {
require . NoError ( t , err )
}
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assert . Equal ( t , [ ] string { } , objsToNames ( objs ) )
assert . Equal ( t , [ ] string { } , dirsToNames ( dirs ) )
}
t . Run ( "FsListDirEmpty" , TestFsListDirEmpty )
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// TestFsListRDirEmpty tests listing the directories from an empty directory using ListR
t . Run ( "FsListRDirEmpty" , func ( t * testing . T ) {
defer skipIfNotListR ( t ) ( )
TestFsListDirEmpty ( t )
} )
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// TestFsListDirNotFound tests listing the directories from an empty directory
TestFsListDirNotFound := func ( t * testing . T ) {
skipIfNotOk ( t )
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objs , dirs , err := walk . GetAll ( ctx , f , "does not exist" , true , 1 )
if ! f . Features ( ) . CanHaveEmptyDirectories {
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if err != fs . ErrorDirNotFound {
assert . NoError ( t , err )
assert . Equal ( t , 0 , len ( objs ) + len ( dirs ) )
}
} else {
assert . Equal ( t , fs . ErrorDirNotFound , err )
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}
}
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t . Run ( "FsListDirNotFound" , TestFsListDirNotFound )
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// TestFsListRDirNotFound tests listing the directories from an empty directory using ListR
t . Run ( "FsListRDirNotFound" , func ( t * testing . T ) {
defer skipIfNotListR ( t ) ( )
TestFsListDirNotFound ( t )
} )
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// FsEncoding tests that file name encodings are
// working by uploading a series of unusual files
// Must be run in an empty directory
t . Run ( "FsEncoding" , func ( t * testing . T ) {
skipIfNotOk ( t )
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if testing . Short ( ) {
t . Skip ( "not running with -short" )
}
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// check no files or dirs as pre-requisite
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fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { } , [ ] string { } , fs . GetModifyWindow ( ctx , f ) )
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for _ , test := range [ ] struct {
name string
path string
} {
// See lib/encoder/encoder.go for list of things that go here
{ "control chars" , "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0A\x0B\x0C\x0D\x0E\x0F\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1A\x1B\x1C\x1D\x1E\x1F\x7F" } ,
{ "dot" , "." } ,
{ "dot dot" , ".." } ,
{ "punctuation" , "!\"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~" } ,
{ "leading space" , " leading space" } ,
{ "leading tilde" , "~leading tilde" } ,
{ "leading CR" , "\rleading CR" } ,
{ "leading LF" , "\nleading LF" } ,
{ "leading HT" , "\tleading HT" } ,
{ "leading VT" , "\vleading VT" } ,
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{ "leading dot" , ".leading dot" } ,
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{ "trailing space" , "trailing space " } ,
{ "trailing CR" , "trailing CR\r" } ,
{ "trailing LF" , "trailing LF\n" } ,
{ "trailing HT" , "trailing HT\t" } ,
{ "trailing VT" , "trailing VT\v" } ,
{ "trailing dot" , "trailing dot." } ,
{ "invalid UTF-8" , "invalid utf-8\xfe" } ,
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{ "URL encoding" , "test%46.txt" } ,
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} {
t . Run ( test . name , func ( t * testing . T ) {
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if opt . SkipInvalidUTF8 && test . name == "invalid UTF-8" {
t . Skip ( "Skipping " + test . name )
}
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// turn raw strings into Standard encoding
fileName := encoder . Standard . Encode ( test . path )
dirName := fileName
t . Logf ( "testing %q" , fileName )
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assert . NoError ( t , f . Mkdir ( ctx , dirName ) )
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file := fstest . Item {
ModTime : time . Now ( ) ,
Path : dirName + "/" + fileName , // test creating a file and dir with that name
}
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_ , o := testPut ( context . Background ( ) , t , f , & file )
fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { file } , [ ] string { dirName } , fs . GetModifyWindow ( ctx , f ) )
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assert . NoError ( t , o . Remove ( ctx ) )
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assert . NoError ( t , f . Rmdir ( ctx , dirName ) )
fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { } , [ ] string { } , fs . GetModifyWindow ( ctx , f ) )
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} )
}
} )
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// TestFsNewObjectNotFound tests not finding an object
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t . Run ( "FsNewObjectNotFound" , func ( t * testing . T ) {
skipIfNotOk ( t )
// Object in an existing directory
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o , err := f . NewObject ( ctx , "potato" )
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assert . Nil ( t , o )
assert . Equal ( t , fs . ErrorObjectNotFound , err )
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// Now try an object in a nonexistent directory
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o , err = f . NewObject ( ctx , "directory/not/found/potato" )
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assert . Nil ( t , o )
assert . Equal ( t , fs . ErrorObjectNotFound , err )
} )
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// TestFsPutError tests uploading a file where there is an error
//
// It makes sure that aborting a file half way through does not create
// a file on the remote.
//
// go test -v -run 'TestIntegration/Test(Setup|Init|FsMkdir|FsPutError)$'
t . Run ( "FsPutError" , func ( t * testing . T ) {
skipIfNotOk ( t )
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var N int64 = 5 * 1024
if * fstest . SizeLimit > 0 && N > * fstest . SizeLimit {
N = * fstest . SizeLimit
t . Logf ( "Reduce file size due to limit %d" , N )
}
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// Read N bytes then produce an error
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contents := random . String ( int ( N ) )
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buf := bytes . NewBufferString ( contents )
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er := & readers . ErrorReader { Err : errors . New ( "potato" ) }
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in := io . MultiReader ( buf , er )
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obji := object . NewStaticObjectInfo ( file2 . Path , file2 . ModTime , 2 * N , true , nil , nil )
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_ , err := f . Put ( ctx , in , obji )
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// assert.Nil(t, obj) - FIXME some remotes return the object even on nil
assert . NotNil ( t , err )
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obj , err := f . NewObject ( ctx , file2 . Path )
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assert . Nil ( t , obj )
assert . Equal ( t , fs . ErrorObjectNotFound , err )
} )
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t . Run ( "FsPutZeroLength" , func ( t * testing . T ) {
skipIfNotOk ( t )
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TestPutLarge ( ctx , t , f , & fstest . Item {
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ModTime : fstest . Time ( "2001-02-03T04:05:06.499999999Z" ) ,
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Path : "zero-length-file" ,
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Size : int64 ( 0 ) ,
} )
} )
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t . Run ( "FsOpenWriterAt" , func ( t * testing . T ) {
skipIfNotOk ( t )
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openWriterAt := f . Features ( ) . OpenWriterAt
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if openWriterAt == nil {
t . Skip ( "FS has no OpenWriterAt interface" )
}
path := "writer-at-subdir/writer-at-file"
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out , err := openWriterAt ( ctx , path , - 1 )
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require . NoError ( t , err )
var n int
n , err = out . WriteAt ( [ ] byte ( "def" ) , 3 )
assert . NoError ( t , err )
assert . Equal ( t , 3 , n )
n , err = out . WriteAt ( [ ] byte ( "ghi" ) , 6 )
assert . NoError ( t , err )
assert . Equal ( t , 3 , n )
n , err = out . WriteAt ( [ ] byte ( "abc" ) , 0 )
assert . NoError ( t , err )
assert . Equal ( t , 3 , n )
assert . NoError ( t , out . Close ( ) )
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obj := findObject ( ctx , t , f , path )
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assert . Equal ( t , "abcdefghi" , ReadObject ( ctx , t , obj , - 1 ) , "contents of file differ" )
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assert . NoError ( t , obj . Remove ( ctx ) )
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assert . NoError ( t , f . Rmdir ( ctx , "writer-at-subdir" ) )
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} )
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// TestFsChangeNotify tests that changes are properly
// propagated
//
// go test -v -remote TestDrive: -run '^Test(Setup|Init|FsChangeNotify)$' -verbose
t . Run ( "FsChangeNotify" , func ( t * testing . T ) {
skipIfNotOk ( t )
// Check have ChangeNotify
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doChangeNotify := f . Features ( ) . ChangeNotify
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if doChangeNotify == nil {
t . Skip ( "FS has no ChangeNotify interface" )
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}
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err := operations . Mkdir ( ctx , f , "dir" )
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require . NoError ( t , err )
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pollInterval := make ( chan time . Duration )
dirChanges := map [ string ] struct { } { }
objChanges := map [ string ] struct { } { }
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doChangeNotify ( ctx , func ( x string , e fs . EntryType ) {
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fs . Debugf ( nil , "doChangeNotify(%q, %+v)" , x , e )
if strings . HasPrefix ( x , file1 . Path [ : 5 ] ) || strings . HasPrefix ( x , file2 . Path [ : 5 ] ) {
fs . Debugf ( nil , "Ignoring notify for file1 or file2: %q, %v" , x , e )
return
}
if e == fs . EntryDirectory {
dirChanges [ x ] = struct { } { }
} else if e == fs . EntryObject {
objChanges [ x ] = struct { } { }
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}
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} , pollInterval )
defer func ( ) { close ( pollInterval ) } ( )
pollInterval <- time . Second
var dirs [ ] string
for _ , idx := range [ ] int { 1 , 3 , 2 } {
dir := fmt . Sprintf ( "dir/subdir%d" , idx )
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err = operations . Mkdir ( ctx , f , dir )
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require . NoError ( t , err )
dirs = append ( dirs , dir )
}
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var objs [ ] fs . Object
for _ , idx := range [ ] int { 2 , 4 , 3 } {
file := fstest . Item {
ModTime : time . Now ( ) ,
Path : fmt . Sprintf ( "dir/file%d" , idx ) ,
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}
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_ , o := testPut ( ctx , t , f , & file )
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objs = append ( objs , o )
}
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// Looks for each item in wants in changes -
// if they are all found it returns true
contains := func ( changes map [ string ] struct { } , wants [ ] string ) bool {
for _ , want := range wants {
_ , ok := changes [ want ]
if ! ok {
return false
}
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}
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return true
}
// Wait a little while for the changes to come in
wantDirChanges := [ ] string { "dir/subdir1" , "dir/subdir3" , "dir/subdir2" }
wantObjChanges := [ ] string { "dir/file2" , "dir/file4" , "dir/file3" }
ok := false
for tries := 1 ; tries < 10 ; tries ++ {
ok = contains ( dirChanges , wantDirChanges ) && contains ( objChanges , wantObjChanges )
if ok {
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break
}
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t . Logf ( "Try %d/10 waiting for dirChanges and objChanges" , tries )
time . Sleep ( 3 * time . Second )
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}
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if ! ok {
t . Errorf ( "%+v does not contain %+v or \n%+v does not contain %+v" , dirChanges , wantDirChanges , objChanges , wantObjChanges )
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}
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// tidy up afterwards
for _ , o := range objs {
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assert . NoError ( t , o . Remove ( ctx ) )
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}
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dirs = append ( dirs , "dir" )
for _ , dir := range dirs {
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assert . NoError ( t , f . Rmdir ( ctx , dir ) )
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}
} )
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// TestFsPut files writes file1, file2 and tests an update
//
// Tests that require file1, file2 are within this
t . Run ( "FsPutFiles" , func ( t * testing . T ) {
skipIfNotOk ( t )
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file1Contents , _ = testPut ( ctx , t , f , & file1 )
/* file2Contents = */ testPut ( ctx , t , f , & file2 )
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file1Contents , _ = testPutMimeType ( ctx , t , f , & file1 , file1MimeType , file1Metadata )
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// Note that the next test will check there are no duplicated file names
// TestFsListDirFile2 tests the files are correctly uploaded by doing
// Depth 1 directory listings
TestFsListDirFile2 := func ( t * testing . T ) {
skipIfNotOk ( t )
list := func ( dir string , expectedDirNames , expectedObjNames [ ] string ) {
var objNames , dirNames [ ] string
for i := 1 ; i <= * fstest . ListRetries ; i ++ {
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objs , dirs , err := walk . GetAll ( ctx , f , dir , true , 1 )
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if errors . Is ( err , fs . ErrorDirNotFound ) {
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objs , dirs , err = walk . GetAll ( ctx , f , dir , true , 1 )
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}
require . NoError ( t , err )
objNames = objsToNames ( objs )
dirNames = dirsToNames ( dirs )
if len ( objNames ) >= len ( expectedObjNames ) && len ( dirNames ) >= len ( expectedDirNames ) {
break
}
t . Logf ( "Sleeping for 1 second for TestFsListDirFile2 eventual consistency: %d/%d" , i , * fstest . ListRetries )
time . Sleep ( 1 * time . Second )
}
assert . Equal ( t , expectedDirNames , dirNames )
assert . Equal ( t , expectedObjNames , objNames )
}
dir := file2 . Path
deepest := true
for dir != "" {
expectedObjNames := [ ] string { }
expectedDirNames := [ ] string { }
child := dir
dir = path . Dir ( dir )
if dir == "." {
dir = ""
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expectedObjNames = append ( expectedObjNames , file1 . Path )
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}
if deepest {
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expectedObjNames = append ( expectedObjNames , file2 . Path )
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deepest = false
} else {
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expectedDirNames = append ( expectedDirNames , child )
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}
list ( dir , expectedDirNames , expectedObjNames )
}
}
t . Run ( "FsListDirFile2" , TestFsListDirFile2 )
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// TestFsListRDirFile2 tests the files are correctly uploaded by doing
// Depth 1 directory listings using ListR
t . Run ( "FsListRDirFile2" , func ( t * testing . T ) {
defer skipIfNotListR ( t ) ( )
TestFsListDirFile2 ( t )
} )
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// Test the files are all there with walk.ListR recursive listings
t . Run ( "FsListR" , func ( t * testing . T ) {
skipIfNotOk ( t )
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objs , dirs , err := walk . GetAll ( ctx , f , "" , true , - 1 )
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require . NoError ( t , err )
assert . Equal ( t , [ ] string {
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"hello? sausage" ,
"hello? sausage/êé" ,
"hello? sausage/êé/Hello, 世界" ,
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠" ,
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} , dirsToNames ( dirs ) )
assert . Equal ( t , [ ] string {
"file name.txt" ,
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"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠/z.txt" ,
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} , objsToNames ( objs ) )
} )
// Test the files are all there with
// walk.ListR recursive listings on a sub dir
t . Run ( "FsListRSubdir" , func ( t * testing . T ) {
skipIfNotOk ( t )
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objs , dirs , err := walk . GetAll ( ctx , f , path . Dir ( path . Dir ( path . Dir ( path . Dir ( file2 . Path ) ) ) ) , true , - 1 )
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require . NoError ( t , err )
assert . Equal ( t , [ ] string {
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"hello? sausage/êé" ,
"hello? sausage/êé/Hello, 世界" ,
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠" ,
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} , dirsToNames ( dirs ) )
assert . Equal ( t , [ ] string {
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"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠/z.txt" ,
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} , objsToNames ( objs ) )
} )
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// TestFsListDirRoot tests that DirList works in the root
TestFsListDirRoot := func ( t * testing . T ) {
skipIfNotOk ( t )
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rootRemote , err := fs . NewFs ( context . Background ( ) , remoteName )
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require . NoError ( t , err )
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_ , dirs , err := walk . GetAll ( ctx , rootRemote , "" , true , 1 )
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require . NoError ( t , err )
assert . Contains ( t , dirsToNames ( dirs ) , subRemoteLeaf , "Remote leaf not found" )
}
t . Run ( "FsListDirRoot" , TestFsListDirRoot )
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// TestFsListRDirRoot tests that DirList works in the root using ListR
t . Run ( "FsListRDirRoot" , func ( t * testing . T ) {
defer skipIfNotListR ( t ) ( )
TestFsListDirRoot ( t )
} )
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// TestFsListSubdir tests List works for a subdirectory
TestFsListSubdir := func ( t * testing . T ) {
skipIfNotOk ( t )
fileName := file2 . Path
var err error
var objs [ ] fs . Object
var dirs [ ] fs . Directory
for i := 0 ; i < 2 ; i ++ {
dir , _ := path . Split ( fileName )
dir = dir [ : len ( dir ) - 1 ]
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objs , dirs , err = walk . GetAll ( ctx , f , dir , true , - 1 )
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}
require . NoError ( t , err )
require . Len ( t , objs , 1 )
assert . Equal ( t , fileName , objs [ 0 ] . Remote ( ) )
require . Len ( t , dirs , 0 )
}
t . Run ( "FsListSubdir" , TestFsListSubdir )
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// TestFsListRSubdir tests List works for a subdirectory using ListR
t . Run ( "FsListRSubdir" , func ( t * testing . T ) {
defer skipIfNotListR ( t ) ( )
TestFsListSubdir ( t )
} )
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// TestFsListLevel2 tests List works for 2 levels
TestFsListLevel2 := func ( t * testing . T ) {
skipIfNotOk ( t )
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objs , dirs , err := walk . GetAll ( ctx , f , "" , true , 2 )
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if err == fs . ErrorLevelNotSupported {
return
}
require . NoError ( t , err )
assert . Equal ( t , [ ] string { file1 . Path } , objsToNames ( objs ) )
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assert . Equal ( t , [ ] string { "hello? sausage" , "hello? sausage/êé" } , dirsToNames ( dirs ) )
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}
t . Run ( "FsListLevel2" , TestFsListLevel2 )
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// TestFsListRLevel2 tests List works for 2 levels using ListR
t . Run ( "FsListRLevel2" , func ( t * testing . T ) {
defer skipIfNotListR ( t ) ( )
TestFsListLevel2 ( t )
} )
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// TestFsListFile1 tests file present
t . Run ( "FsListFile1" , func ( t * testing . T ) {
skipIfNotOk ( t )
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fstest . CheckListing ( t , f , [ ] fstest . Item { file1 , file2 } )
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} )
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// TestFsNewObject tests NewObject
t . Run ( "FsNewObject" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
file1 . Check ( t , obj , f . Precision ( ) )
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} )
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// FsNewObjectCaseInsensitive tests NewObject on a case insensitive file system
t . Run ( "FsNewObjectCaseInsensitive" , func ( t * testing . T ) {
skipIfNotOk ( t )
if ! f . Features ( ) . CaseInsensitive {
t . Skip ( "Not Case Insensitive" )
}
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obj := findObject ( ctx , t , f , toUpperASCII ( file1 . Path ) )
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file1 . Check ( t , obj , f . Precision ( ) )
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t . Run ( "Dir" , func ( t * testing . T ) {
obj := findObject ( ctx , t , f , toUpperASCII ( file2 . Path ) )
file2 . Check ( t , obj , f . Precision ( ) )
} )
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} )
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// TestFsListFile1and2 tests two files present
t . Run ( "FsListFile1and2" , func ( t * testing . T ) {
skipIfNotOk ( t )
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fstest . CheckListing ( t , f , [ ] fstest . Item { file1 , file2 } )
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} )
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// TestFsNewObjectDir tests NewObject on a directory which should produce fs.ErrorIsDir if possible or fs.ErrorObjectNotFound if not
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t . Run ( "FsNewObjectDir" , func ( t * testing . T ) {
skipIfNotOk ( t )
dir := path . Dir ( file2 . Path )
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obj , err := f . NewObject ( ctx , dir )
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assert . Nil ( t , obj )
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assert . True ( t , err == fs . ErrorIsDir || err == fs . ErrorObjectNotFound , fmt . Sprintf ( "Wrong error: expecting fs.ErrorIsDir or fs.ErrorObjectNotFound but got: %#v" , err ) )
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} )
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// TestFsPurge tests Purge
t . Run ( "FsPurge" , func ( t * testing . T ) {
skipIfNotOk ( t )
// Check have Purge
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doPurge := f . Features ( ) . Purge
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if doPurge == nil {
t . Skip ( "FS has no Purge interface" )
}
// put up a file to purge
fileToPurge := fstest . Item {
ModTime : fstest . Time ( "2001-02-03T04:05:06.499999999Z" ) ,
Path : "dirToPurge/fileToPurge.txt" ,
}
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_ , _ = testPut ( ctx , t , f , & fileToPurge )
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fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { file1 , file2 , fileToPurge } , [ ] string {
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"dirToPurge" ,
"hello? sausage" ,
"hello? sausage/êé" ,
"hello? sausage/êé/Hello, 世界" ,
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠" ,
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} , fs . GetModifyWindow ( ctx , f ) )
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// Now purge it
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err = operations . Purge ( ctx , f , "dirToPurge" )
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require . NoError ( t , err )
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fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { file1 , file2 } , [ ] string {
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"hello? sausage" ,
"hello? sausage/êé" ,
"hello? sausage/êé/Hello, 世界" ,
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠" ,
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} , fs . GetModifyWindow ( ctx , f ) )
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} )
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// TestFsCopy tests Copy
t . Run ( "FsCopy" , func ( t * testing . T ) {
skipIfNotOk ( t )
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// Check have Copy
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doCopy := f . Features ( ) . Copy
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if doCopy == nil {
t . Skip ( "FS has no Copier interface" )
}
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// Test with file2 so have + and ' ' in file name
var file2Copy = file2
file2Copy . Path += "-copy"
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// do the copy
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src := findObject ( ctx , t , f , file2 . Path )
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dst , err := doCopy ( ctx , src , file2Copy . Path )
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if err == fs . ErrorCantCopy {
t . Skip ( "FS can't copy" )
}
require . NoError ( t , err , fmt . Sprintf ( "Error: %#v" , err ) )
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// check file exists in new listing
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fstest . CheckListing ( t , f , [ ] fstest . Item { file1 , file2 , file2Copy } )
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// Check dst lightly - list above has checked ModTime/Hashes
assert . Equal ( t , file2Copy . Path , dst . Remote ( ) )
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// Delete copy
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err = dst . Remove ( ctx )
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require . NoError ( t , err )
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} )
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// TestFsMove tests Move
t . Run ( "FsMove" , func ( t * testing . T ) {
skipIfNotOk ( t )
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// Check have Move
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doMove := f . Features ( ) . Move
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if doMove == nil {
t . Skip ( "FS has no Mover interface" )
}
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// state of files now:
// 1: file name.txt
// 2: hello sausage?/../z.txt
var file1Move = file1
var file2Move = file2
// check happy path, i.e. no naming conflicts when rename and move are two
// separate operations
file2Move . Path = "other.txt"
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src := findObject ( ctx , t , f , file2 . Path )
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dst , err := doMove ( ctx , src , file2Move . Path )
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if err == fs . ErrorCantMove {
t . Skip ( "FS can't move" )
}
require . NoError ( t , err )
// check file exists in new listing
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fstest . CheckListing ( t , f , [ ] fstest . Item { file1 , file2Move } )
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// Check dst lightly - list above has checked ModTime/Hashes
assert . Equal ( t , file2Move . Path , dst . Remote ( ) )
// 1: file name.txt
// 2: other.txt
// Check conflict on "rename, then move"
file1Move . Path = "moveTest/other.txt"
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src = findObject ( ctx , t , f , file1 . Path )
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_ , err = doMove ( ctx , src , file1Move . Path )
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require . NoError ( t , err )
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fstest . CheckListing ( t , f , [ ] fstest . Item { file1Move , file2Move } )
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// 1: moveTest/other.txt
// 2: other.txt
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// Check conflict on "move, then rename"
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src = findObject ( ctx , t , f , file1Move . Path )
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_ , err = doMove ( ctx , src , file1 . Path )
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require . NoError ( t , err )
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fstest . CheckListing ( t , f , [ ] fstest . Item { file1 , file2Move } )
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// 1: file name.txt
// 2: other.txt
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src = findObject ( ctx , t , f , file2Move . Path )
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_ , err = doMove ( ctx , src , file2 . Path )
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require . NoError ( t , err )
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fstest . CheckListing ( t , f , [ ] fstest . Item { file1 , file2 } )
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// 1: file name.txt
// 2: hello sausage?/../z.txt
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// Tidy up moveTest directory
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require . NoError ( t , f . Rmdir ( ctx , "moveTest" ) )
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} )
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// Move src to this remote using server-side move operations.
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//
// Will only be called if src.Fs().Name() == f.Name()
//
// If it isn't possible then return fs.ErrorCantDirMove
//
// If destination exists then return fs.ErrorDirExists
// TestFsDirMove tests DirMove
//
// go test -v -run 'TestIntegration/Test(Setup|Init|FsMkdir|FsPutFile1|FsPutFile2|FsUpdateFile1|FsDirMove)$
t . Run ( "FsDirMove" , func ( t * testing . T ) {
skipIfNotOk ( t )
// Check have DirMove
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doDirMove := f . Features ( ) . DirMove
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if doDirMove == nil {
t . Skip ( "FS has no DirMover interface" )
}
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// Check it can't move onto itself
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err := doDirMove ( ctx , f , "" , "" )
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require . Equal ( t , fs . ErrorDirExists , err )
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// new remote
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newRemote , _ , removeNewRemote , err := fstest . RandomRemote ( )
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require . NoError ( t , err )
defer removeNewRemote ( )
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const newName = "new_name/sub_new_name"
// try the move
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err = newRemote . Features ( ) . DirMove ( ctx , f , "" , newName )
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require . NoError ( t , err )
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// check remotes
// remote should not exist here
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_ , err = f . List ( ctx , "" )
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assert . True ( t , errors . Is ( err , fs . ErrorDirNotFound ) )
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//fstest.CheckListingWithPrecision(t, remote, []fstest.Item{}, []string{}, remote.Precision())
file1Copy := file1
file1Copy . Path = path . Join ( newName , file1 . Path )
file2Copy := file2
file2Copy . Path = path . Join ( newName , file2 . Path )
fstest . CheckListingWithPrecision ( t , newRemote , [ ] fstest . Item { file2Copy , file1Copy } , [ ] string {
"new_name" ,
"new_name/sub_new_name" ,
"new_name/sub_new_name/hello? sausage" ,
"new_name/sub_new_name/hello? sausage/êé" ,
"new_name/sub_new_name/hello? sausage/êé/Hello, 世界" ,
"new_name/sub_new_name/hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠" ,
} , newRemote . Precision ( ) )
// move it back
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err = doDirMove ( ctx , newRemote , newName , "" )
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require . NoError ( t , err )
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// check remotes
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fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { file2 , file1 } , [ ] string {
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"hello? sausage" ,
"hello? sausage/êé" ,
"hello? sausage/êé/Hello, 世界" ,
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠" ,
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} , f . Precision ( ) )
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fstest . CheckListingWithPrecision ( t , newRemote , [ ] fstest . Item { } , [ ] string {
"new_name" ,
} , newRemote . Precision ( ) )
} )
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// TestFsRmdirFull tests removing a non empty directory
t . Run ( "FsRmdirFull" , func ( t * testing . T ) {
skipIfNotOk ( t )
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if isBucketBasedButNotRoot ( f ) {
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t . Skip ( "Skipping test as non root bucket-based remote" )
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}
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err := f . Rmdir ( ctx , "" )
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require . Error ( t , err , "Expecting error on RMdir on non empty remote" )
} )
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// TestFsPrecision tests the Precision of the Fs
t . Run ( "FsPrecision" , func ( t * testing . T ) {
skipIfNotOk ( t )
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precision := f . Precision ( )
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if precision == fs . ModTimeNotSupported {
return
}
if precision > time . Second || precision < 0 {
t . Fatalf ( "Precision out of range %v" , precision )
}
// FIXME check expected precision
} )
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// TestObjectString tests the Object String method
t . Run ( "ObjectString" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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assert . Equal ( t , file1 . Path , obj . String ( ) )
if opt . NilObject != nil {
assert . Equal ( t , "<nil>" , opt . NilObject . String ( ) )
}
} )
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// TestObjectFs tests the object can be found
t . Run ( "ObjectFs" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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// If this is set we don't do the direct comparison of
// the Fs from the object as it may be different
if opt . SkipFsMatch {
return
}
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testRemote := f
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if obj . Fs ( ) != testRemote {
// Check to see if this wraps something else
if doUnWrap := testRemote . Features ( ) . UnWrap ; doUnWrap != nil {
testRemote = doUnWrap ( )
}
}
assert . Equal ( t , obj . Fs ( ) , testRemote )
} )
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// TestObjectRemote tests the Remote is correct
t . Run ( "ObjectRemote" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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assert . Equal ( t , file1 . Path , obj . Remote ( ) )
} )
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// TestObjectHashes checks all the hashes the object supports
t . Run ( "ObjectHashes" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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file1 . CheckHashes ( t , obj )
} )
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// TestObjectModTime tests the ModTime of the object is correct
TestObjectModTime := func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
file1 . CheckModTime ( t , obj , obj . ModTime ( ctx ) , f . Precision ( ) )
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}
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t . Run ( "ObjectModTime" , TestObjectModTime )
// TestObjectMimeType tests the MimeType of the object is correct
t . Run ( "ObjectMimeType" , func ( t * testing . T ) {
skipIfNotOk ( t )
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features := f . Features ( )
obj := findObject ( ctx , t , f , file1 . Path )
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do , ok := obj . ( fs . MimeTyper )
if ! ok {
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require . False ( t , features . ReadMimeType , "Features.ReadMimeType is set but Object.MimeType method not found" )
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t . Skip ( "MimeType method not supported" )
}
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mimeType := do . MimeType ( ctx )
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if ! features . ReadMimeType {
require . Equal ( t , "" , mimeType , "Features.ReadMimeType is not set but Object.MimeType returned a non-empty MimeType" )
} else if features . WriteMimeType {
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assert . Equal ( t , file1MimeType , mimeType , "can read and write mime types but failed" )
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} else {
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if strings . ContainsRune ( mimeType , ';' ) {
assert . Equal ( t , "text/plain; charset=utf-8" , mimeType )
} else {
assert . Equal ( t , "text/plain" , mimeType )
}
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}
} )
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// TestObjectMetadata tests the Metadata of the object is correct
t . Run ( "ObjectMetadata" , func ( t * testing . T ) {
skipIfNotOk ( t )
features := f . Features ( )
obj := findObject ( ctx , t , f , file1 . Path )
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do , objectHasMetadata := obj . ( fs . Metadataer )
if objectHasMetadata || features . ReadMetadata || features . WriteMetadata || features . UserMetadata {
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fsInfo := fs . FindFromFs ( f )
require . NotNil ( t , fsInfo )
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require . NotNil ( t , fsInfo . MetadataInfo , "Object declares metadata support but no MetadataInfo in RegInfo" )
}
if ! objectHasMetadata {
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require . False ( t , features . ReadMetadata , "Features.ReadMetadata is set but Object.Metadata method not found" )
t . Skip ( "Metadata method not supported" )
}
metadata , err := do . Metadata ( ctx )
require . NoError ( t , err )
// check standard metadata
for k , v := range metadata {
switch k {
case "atime" , "btime" , "mtime" :
mtime , err := time . Parse ( time . RFC3339Nano , v )
require . NoError ( t , err )
if k == "mtime" {
fstest . AssertTimeEqualWithPrecision ( t , file1 . Path , file1 . ModTime , mtime , f . Precision ( ) )
}
}
}
if ! features . ReadMetadata {
if metadata != nil {
require . Equal ( t , "" , metadata , "Features.ReadMetadata is not set but Object.Metadata returned a non nil Metadata" )
}
} else if features . WriteMetadata {
require . NotNil ( t , metadata )
if features . UserMetadata {
// check all the metadata bits we uploaded are present - there may be more we didn't write
for k , v := range file1Metadata {
assert . Equal ( t , v , metadata [ k ] , "can read and write metadata but failed on key %q" , k )
}
}
// Now test we can set the mtime and content-type via the metadata and these take precedence
t . Run ( "mtime" , func ( t * testing . T ) {
path := "metadatatest"
mtimeModTime := fstest . Time ( "2002-02-03T04:05:06.499999999Z" )
modTime := fstest . Time ( "2003-02-03T04:05:06.499999999Z" )
item := fstest . NewItem ( path , path , modTime )
metaMimeType := "application/zip"
mimeType := "application/gzip"
metadata := fs . Metadata {
"mtime" : mtimeModTime . Format ( time . RFC3339Nano ) ,
"content-type" : metaMimeType ,
}
// This checks the mtime is correct also and returns the re-read object
_ , obj := testPutMimeType ( ctx , t , f , & item , mimeType , metadata )
defer func ( ) {
assert . NoError ( t , obj . Remove ( ctx ) )
} ( )
// Check content-type got updated too
if features . ReadMimeType && features . WriteMimeType {
// read the object from scratch
o , err := f . NewObject ( ctx , path )
require . NoError ( t , err )
// Check the mimetype is correct
do , ok := o . ( fs . MimeTyper )
require . True ( t , ok )
gotMimeType := do . MimeType ( ctx )
assert . Equal ( t , metaMimeType , gotMimeType )
}
} )
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} // else: Have some metadata here we didn't write - can't really check it!
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} )
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// TestObjectSetModTime tests that SetModTime works
t . Run ( "ObjectSetModTime" , func ( t * testing . T ) {
skipIfNotOk ( t )
newModTime := fstest . Time ( "2011-12-13T14:15:16.999999999Z" )
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obj := findObject ( ctx , t , f , file1 . Path )
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err := obj . SetModTime ( ctx , newModTime )
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if err == fs . ErrorCantSetModTime || err == fs . ErrorCantSetModTimeWithoutDelete {
t . Log ( err )
return
}
require . NoError ( t , err )
file1 . ModTime = newModTime
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file1 . CheckModTime ( t , obj , obj . ModTime ( ctx ) , f . Precision ( ) )
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// And make a new object and read it from there too
TestObjectModTime ( t )
} )
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// TestObjectSize tests that Size works
t . Run ( "ObjectSize" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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assert . Equal ( t , file1 . Size , obj . Size ( ) )
} )
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// TestObjectOpen tests that Open works
t . Run ( "ObjectOpen" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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assert . Equal ( t , file1Contents , ReadObject ( ctx , t , obj , - 1 ) , "contents of file1 differ" )
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} )
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// TestObjectOpenSeek tests that Open works with SeekOption
t . Run ( "ObjectOpenSeek" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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assert . Equal ( t , file1Contents [ 50 : ] , ReadObject ( ctx , t , obj , - 1 , & fs . SeekOption { Offset : 50 } ) , "contents of file1 differ after seek" )
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} )
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// TestObjectOpenRange tests that Open works with RangeOption
//
// go test -v -run 'TestIntegration/Test(Setup|Init|FsMkdir|FsPutFile1|FsPutFile2|FsUpdateFile1|ObjectOpenRange)$'
t . Run ( "ObjectOpenRange" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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for _ , test := range [ ] struct {
ro fs . RangeOption
wantStart , wantEnd int
} {
{ fs . RangeOption { Start : 5 , End : 15 } , 5 , 16 } ,
{ fs . RangeOption { Start : 80 , End : - 1 } , 80 , 100 } ,
{ fs . RangeOption { Start : 81 , End : 100000 } , 81 , 100 } ,
{ fs . RangeOption { Start : - 1 , End : 20 } , 80 , 100 } , // if start is omitted this means get the final bytes
// {fs.RangeOption{Start: -1, End: -1}, 0, 100}, - this seems to work but the RFC doesn't define it
} {
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got := ReadObject ( ctx , t , obj , - 1 , & test . ro )
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foundAt := strings . Index ( file1Contents , got )
help := fmt . Sprintf ( "%#v failed want [%d:%d] got [%d:%d]" , test . ro , test . wantStart , test . wantEnd , foundAt , foundAt + len ( got ) )
assert . Equal ( t , file1Contents [ test . wantStart : test . wantEnd ] , got , help )
}
} )
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// TestObjectPartialRead tests that reading only part of the object does the correct thing
t . Run ( "ObjectPartialRead" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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assert . Equal ( t , file1Contents [ : 50 ] , ReadObject ( ctx , t , obj , 50 ) , "contents of file1 differ after limited read" )
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} )
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// TestObjectUpdate tests that Update works
t . Run ( "ObjectUpdate" , func ( t * testing . T ) {
skipIfNotOk ( t )
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contents := random . String ( 200 )
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buf := bytes . NewBufferString ( contents )
hash := hash . NewMultiHasher ( )
in := io . TeeReader ( buf , hash )
file1 . Size = int64 ( buf . Len ( ) )
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obj := findObject ( ctx , t , f , file1 . Path )
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obji := object . NewStaticObjectInfo ( file1 . Path , file1 . ModTime , int64 ( len ( contents ) ) , true , nil , obj . Fs ( ) )
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err := obj . Update ( ctx , in , obji )
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require . NoError ( t , err )
file1 . Hashes = hash . Sums ( )
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// check the object has been updated
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file1 . Check ( t , obj , f . Precision ( ) )
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// Re-read the object and check again
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obj = findObject ( ctx , t , f , file1 . Path )
file1 . Check ( t , obj , f . Precision ( ) )
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// check contents correct
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assert . Equal ( t , contents , ReadObject ( ctx , t , obj , - 1 ) , "contents of updated file1 differ" )
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file1Contents = contents
} )
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// TestObjectStorable tests that Storable works
t . Run ( "ObjectStorable" , func ( t * testing . T ) {
skipIfNotOk ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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require . NotNil ( t , ! obj . Storable ( ) , "Expecting object to be storable" )
} )
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// TestFsIsFile tests that an error is returned along with a valid fs
// which points to the parent directory.
t . Run ( "FsIsFile" , func ( t * testing . T ) {
skipIfNotOk ( t )
remoteName := subRemoteName + "/" + file2 . Path
file2Copy := file2
file2Copy . Path = "z.txt"
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fileRemote , err := fs . NewFs ( context . Background ( ) , remoteName )
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require . NotNil ( t , fileRemote )
assert . Equal ( t , fs . ErrorIsFile , err )
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if strings . HasPrefix ( remoteName , "TestChunker" ) && strings . Contains ( remoteName , "Nometa" ) {
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// TODO fix chunker and remove this bypass
t . Logf ( "Skip listing check -- chunker can't yet handle this tricky case" )
return
}
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fstest . CheckListing ( t , fileRemote , [ ] fstest . Item { file2Copy } )
} )
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// TestFsIsFileNotFound tests that an error is not returned if no object is found
t . Run ( "FsIsFileNotFound" , func ( t * testing . T ) {
skipIfNotOk ( t )
remoteName := subRemoteName + "/not found.txt"
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fileRemote , err := fs . NewFs ( context . Background ( ) , remoteName )
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require . NoError ( t , err )
fstest . CheckListing ( t , fileRemote , [ ] fstest . Item { } )
} )
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// Test that things work from the root
t . Run ( "FromRoot" , func ( t * testing . T ) {
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if features := f . Features ( ) ; features . BucketBased && ! features . BucketBasedRootOK {
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t . Skip ( "Can't list from root on this remote" )
}
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parsed , err := fspath . Parse ( subRemoteName )
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require . NoError ( t , err )
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configName , configLeaf := parsed . ConfigString , parsed . Path
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if configName == "" {
configName , configLeaf = path . Split ( subRemoteName )
} else {
configName += ":"
}
t . Logf ( "Opening root remote %q path %q from %q" , configName , configLeaf , subRemoteName )
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rootRemote , err := fs . NewFs ( context . Background ( ) , configName )
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require . NoError ( t , err )
file1Root := file1
file1Root . Path = path . Join ( configLeaf , file1Root . Path )
file2Root := file2
file2Root . Path = path . Join ( configLeaf , file2Root . Path )
var dirs [ ] string
dir := file2 . Path
for {
dir = path . Dir ( dir )
if dir == "" || dir == "." || dir == "/" {
break
}
dirs = append ( dirs , path . Join ( configLeaf , dir ) )
}
// Check that we can see file1 and file2 from the root
t . Run ( "List" , func ( t * testing . T ) {
fstest . CheckListingWithRoot ( t , rootRemote , configLeaf , [ ] fstest . Item { file1Root , file2Root } , dirs , rootRemote . Precision ( ) )
} )
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// Check that listing the entries is OK
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t . Run ( "ListEntries" , func ( t * testing . T ) {
entries , err := rootRemote . List ( context . Background ( ) , configLeaf )
require . NoError ( t , err )
fstest . CompareItems ( t , entries , [ ] fstest . Item { file1Root } , dirs [ len ( dirs ) - 1 : ] , rootRemote . Precision ( ) , "ListEntries" )
} )
// List the root with ListR
t . Run ( "ListR" , func ( t * testing . T ) {
doListR := rootRemote . Features ( ) . ListR
if doListR == nil {
t . Skip ( "FS has no ListR interface" )
}
file1Found , file2Found := false , false
stopTime := time . Now ( ) . Add ( 10 * time . Second )
errTooMany := errors . New ( "too many files" )
errFound := errors . New ( "found" )
err := doListR ( context . Background ( ) , "" , func ( entries fs . DirEntries ) error {
for _ , entry := range entries {
remote := entry . Remote ( )
if remote == file1Root . Path {
file1Found = true
}
if remote == file2Root . Path {
file2Found = true
}
if file1Found && file2Found {
return errFound
}
}
if time . Now ( ) . After ( stopTime ) {
return errTooMany
}
return nil
} )
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if ! errors . Is ( err , errFound ) && ! errors . Is ( err , errTooMany ) {
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assert . NoError ( t , err )
}
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if ! errors . Is ( err , errTooMany ) {
assert . True ( t , file1Found , "file1Root %q not found" , file1Root . Path )
assert . True ( t , file2Found , "file2Root %q not found" , file2Root . Path )
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} else {
t . Logf ( "Too many files to list - giving up" )
}
} )
// Create a new file
t . Run ( "Put" , func ( t * testing . T ) {
file3Root := fstest . Item {
ModTime : time . Now ( ) ,
Path : path . Join ( configLeaf , "created from root.txt" ) ,
}
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_ , file3Obj := testPut ( ctx , t , rootRemote , & file3Root )
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fstest . CheckListingWithRoot ( t , rootRemote , configLeaf , [ ] fstest . Item { file1Root , file2Root , file3Root } , nil , rootRemote . Precision ( ) )
// And then remove it
t . Run ( "Remove" , func ( t * testing . T ) {
require . NoError ( t , file3Obj . Remove ( context . Background ( ) ) )
fstest . CheckListingWithRoot ( t , rootRemote , configLeaf , [ ] fstest . Item { file1Root , file2Root } , nil , rootRemote . Precision ( ) )
} )
} )
} )
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// TestPublicLink tests creation of sharable, public links
// go test -v -run 'TestIntegration/Test(Setup|Init|FsMkdir|FsPutFile1|FsPutFile2|FsUpdateFile1|PublicLink)$'
t . Run ( "PublicLink" , func ( t * testing . T ) {
skipIfNotOk ( t )
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publicLinkFunc := f . Features ( ) . PublicLink
if publicLinkFunc == nil {
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t . Skip ( "FS has no PublicLinker interface" )
}
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type PublicLinkFunc func ( ctx context . Context , remote string , expire fs . Duration , unlink bool ) ( link string , err error )
wrapPublicLinkFunc := func ( f PublicLinkFunc ) PublicLinkFunc {
return func ( ctx context . Context , remote string , expire fs . Duration , unlink bool ) ( link string , err error ) {
link , err = publicLinkFunc ( ctx , remote , expire , unlink )
if err == nil {
return
}
// For OneDrive Personal, link expiry is a premium feature
// Don't let it fail the test (https://github.com/rclone/rclone/issues/5420)
if fsInfo . Name == "onedrive" && strings . Contains ( err . Error ( ) , "accountUpgradeRequired" ) {
t . Log ( "treating accountUpgradeRequired as success for PublicLink" )
link , err = "bogus link to " + remote , nil
}
return
}
}
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expiry := fs . Duration ( 60 * time . Second )
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doPublicLink := wrapPublicLinkFunc ( publicLinkFunc )
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// if object not found
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link , err := doPublicLink ( ctx , file1 . Path + "_does_not_exist" , expiry , false )
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require . Error ( t , err , "Expected to get error when file doesn't exist" )
require . Equal ( t , "" , link , "Expected link to be empty on error" )
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// sharing file for the first time
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link1 , err := doPublicLink ( ctx , file1 . Path , expiry , false )
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require . NoError ( t , err )
require . NotEqual ( t , "" , link1 , "Link should not be empty" )
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link2 , err := doPublicLink ( ctx , file2 . Path , expiry , false )
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require . NoError ( t , err )
require . NotEqual ( t , "" , link2 , "Link should not be empty" )
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require . NotEqual ( t , link1 , link2 , "Links to different files should differ" )
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// sharing file for the 2nd time
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link1 , err = doPublicLink ( ctx , file1 . Path , expiry , false )
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require . NoError ( t , err )
require . NotEqual ( t , "" , link1 , "Link should not be empty" )
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// sharing directory for the first time
path := path . Dir ( file2 . Path )
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link3 , err := doPublicLink ( ctx , path , expiry , false )
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if err != nil && ( errors . Is ( err , fs . ErrorCantShareDirectories ) || errors . Is ( err , fs . ErrorObjectNotFound ) ) {
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t . Log ( "skipping directory tests as not supported on this backend" )
} else {
require . NoError ( t , err )
require . NotEqual ( t , "" , link3 , "Link should not be empty" )
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// sharing directory for the second time
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link3 , err = doPublicLink ( ctx , path , expiry , false )
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require . NoError ( t , err )
require . NotEqual ( t , "" , link3 , "Link should not be empty" )
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// sharing the "root" directory in a subremote
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subRemote , _ , removeSubRemote , err := fstest . RandomRemote ( )
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require . NoError ( t , err )
defer removeSubRemote ( )
// ensure sub remote isn't empty
buf := bytes . NewBufferString ( "somecontent" )
obji := object . NewStaticObjectInfo ( "somefile" , time . Now ( ) , int64 ( buf . Len ( ) ) , true , nil , nil )
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retry ( t , "Put" , func ( ) error {
_ , err := subRemote . Put ( ctx , buf , obji )
return err
} )
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link4 , err := wrapPublicLinkFunc ( subRemote . Features ( ) . PublicLink ) ( ctx , "" , expiry , false )
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require . NoError ( t , err , "Sharing root in a sub-remote should work" )
require . NotEqual ( t , "" , link4 , "Link should not be empty" )
}
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} )
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// TestSetTier tests SetTier and GetTier functionality
t . Run ( "SetTier" , func ( t * testing . T ) {
skipIfNotSetTier ( t )
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obj := findObject ( ctx , t , f , file1 . Path )
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setter , ok := obj . ( fs . SetTierer )
assert . NotNil ( t , ok )
getter , ok := obj . ( fs . GetTierer )
assert . NotNil ( t , ok )
// If interfaces are supported TiersToTest should contain
// at least one entry
supportedTiers := opt . TiersToTest
assert . NotEmpty ( t , supportedTiers )
// test set tier changes on supported storage classes or tiers
for _ , tier := range supportedTiers {
err := setter . SetTier ( tier )
assert . Nil ( t , err )
got := getter . GetTier ( )
assert . Equal ( t , tier , got )
}
} )
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// Check to see if Fs that wrap other Objects implement all the optional methods
t . Run ( "ObjectCheckWrap" , func ( t * testing . T ) {
skipIfNotOk ( t )
if opt . SkipObjectCheckWrap {
t . Skip ( "Skipping FsCheckWrap on this Fs" )
}
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ft := new ( fs . Features ) . Fill ( ctx , f )
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if ft . UnWrap == nil {
t . Skip ( "Not a wrapping Fs" )
}
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obj := findObject ( ctx , t , f , file1 . Path )
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_ , unsupported := fs . ObjectOptionalInterfaces ( obj )
for _ , name := range unsupported {
if ! stringsContains ( name , opt . UnimplementableObjectMethods ) {
t . Errorf ( "Missing Object wrapper for %s" , name )
}
}
} )
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// State of remote at the moment the internal tests are called
InternalTestFiles = [ ] fstest . Item { file1 , file2 }
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// TestObjectRemove tests Remove
t . Run ( "ObjectRemove" , func ( t * testing . T ) {
skipIfNotOk ( t )
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// remove file1
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obj := findObject ( ctx , t , f , file1 . Path )
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err := obj . Remove ( ctx )
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require . NoError ( t , err )
// check listing without modtime as TestPublicLink may change the modtime
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fstest . CheckListingWithPrecision ( t , f , [ ] fstest . Item { file2 } , nil , fs . ModTimeNotSupported )
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// Show the internal tests file2 is gone
InternalTestFiles = [ ] fstest . Item { file2 }
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} )
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// TestAbout tests the About optional interface
t . Run ( "ObjectAbout" , func ( t * testing . T ) {
skipIfNotOk ( t )
// Check have About
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doAbout := f . Features ( ) . About
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if doAbout == nil {
t . Skip ( "FS does not support About" )
}
// Can't really check the output much!
usage , err := doAbout ( context . Background ( ) )
require . NoError ( t , err )
require . NotNil ( t , usage )
assert . NotEqual ( t , int64 ( 0 ) , usage . Total )
} )
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// Just file2 remains for Purge to clean up
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// TestFsPutStream tests uploading files when size isn't known in advance.
// This may trigger large buffer allocation in some backends, keep it
// close to the end of suite. (See fs/operations/xtra_operations_test.go)
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t . Run ( "FsPutStream" , func ( t * testing . T ) {
skipIfNotOk ( t )
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if f . Features ( ) . PutStream == nil {
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t . Skip ( "FS has no PutStream interface" )
}
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for _ , contentSize := range [ ] int { 0 , 100 } {
t . Run ( strconv . Itoa ( contentSize ) , func ( t * testing . T ) {
file := fstest . Item {
ModTime : fstest . Time ( "2001-02-03T04:05:06.499999999Z" ) ,
Path : "piped data.txt" ,
Size : - 1 , // use unknown size during upload
}
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var (
err error
obj fs . Object
uploadHash * hash . MultiHasher
)
retry ( t , "PutStream" , func ( ) error {
contents := random . String ( contentSize )
buf := bytes . NewBufferString ( contents )
uploadHash = hash . NewMultiHasher ( )
in := io . TeeReader ( buf , uploadHash )
file . Size = - 1
obji := object . NewStaticObjectInfo ( file . Path , file . ModTime , file . Size , true , nil , nil )
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obj , err = f . Features ( ) . PutStream ( ctx , in , obji )
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return err
} )
file . Hashes = uploadHash . Sums ( )
file . Size = int64 ( contentSize ) // use correct size when checking
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file . Check ( t , obj , f . Precision ( ) )
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// Re-read the object and check again
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obj = findObject ( ctx , t , f , file . Path )
file . Check ( t , obj , f . Precision ( ) )
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require . NoError ( t , obj . Remove ( ctx ) )
} )
}
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} )
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// TestInternal calls InternalTest() on the Fs
t . Run ( "Internal" , func ( t * testing . T ) {
skipIfNotOk ( t )
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if it , ok := f . ( InternalTester ) ; ok {
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it . InternalTest ( t )
} else {
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t . Skipf ( "%T does not implement InternalTester" , f )
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}
} )
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} )
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// TestFsPutChunked may trigger large buffer allocation with
// some backends (see fs/operations/xtra_operations_test.go),
// keep it closer to the end of suite.
t . Run ( "FsPutChunked" , func ( t * testing . T ) {
skipIfNotOk ( t )
if testing . Short ( ) {
t . Skip ( "not running with -short" )
}
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if opt . ChunkedUpload . Skip {
t . Skip ( "skipping as ChunkedUpload.Skip is set" )
}
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setUploadChunkSizer , _ := f . ( SetUploadChunkSizer )
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if setUploadChunkSizer == nil {
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t . Skipf ( "%T does not implement SetUploadChunkSizer" , f )
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}
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setUploadCutoffer , _ := f . ( SetUploadCutoffer )
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minChunkSize := opt . ChunkedUpload . MinChunkSize
if minChunkSize < 100 {
minChunkSize = 100
}
if opt . ChunkedUpload . CeilChunkSize != nil {
minChunkSize = opt . ChunkedUpload . CeilChunkSize ( minChunkSize )
}
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maxChunkSize := 2 * fs . Mebi
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if maxChunkSize < 2 * minChunkSize {
maxChunkSize = 2 * minChunkSize
}
if opt . ChunkedUpload . MaxChunkSize > 0 && maxChunkSize > opt . ChunkedUpload . MaxChunkSize {
maxChunkSize = opt . ChunkedUpload . MaxChunkSize
}
if opt . ChunkedUpload . CeilChunkSize != nil {
maxChunkSize = opt . ChunkedUpload . CeilChunkSize ( maxChunkSize )
}
next := func ( f func ( fs . SizeSuffix ) fs . SizeSuffix ) fs . SizeSuffix {
s := f ( minChunkSize )
if s > maxChunkSize {
s = minChunkSize
}
return s
}
chunkSizes := fs . SizeSuffixList {
minChunkSize ,
minChunkSize + ( maxChunkSize - minChunkSize ) / 3 ,
next ( NextPowerOfTwo ) ,
next ( NextMultipleOf ( 100000 ) ) ,
next ( NextMultipleOf ( 100001 ) ) ,
maxChunkSize ,
}
chunkSizes . Sort ( )
// Set the minimum chunk size, upload cutoff and reset it at the end
oldChunkSize , err := setUploadChunkSizer . SetUploadChunkSize ( minChunkSize )
require . NoError ( t , err )
var oldUploadCutoff fs . SizeSuffix
if setUploadCutoffer != nil {
oldUploadCutoff , err = setUploadCutoffer . SetUploadCutoff ( minChunkSize )
require . NoError ( t , err )
}
defer func ( ) {
_ , err := setUploadChunkSizer . SetUploadChunkSize ( oldChunkSize )
assert . NoError ( t , err )
if setUploadCutoffer != nil {
_ , err := setUploadCutoffer . SetUploadCutoff ( oldUploadCutoff )
assert . NoError ( t , err )
}
} ( )
var lastCs fs . SizeSuffix
for _ , cs := range chunkSizes {
if cs <= lastCs {
continue
}
if opt . ChunkedUpload . CeilChunkSize != nil {
cs = opt . ChunkedUpload . CeilChunkSize ( cs )
}
lastCs = cs
t . Run ( cs . String ( ) , func ( t * testing . T ) {
_ , err := setUploadChunkSizer . SetUploadChunkSize ( cs )
require . NoError ( t , err )
if setUploadCutoffer != nil {
_ , err = setUploadCutoffer . SetUploadCutoff ( cs )
require . NoError ( t , err )
}
var testChunks [ ] fs . SizeSuffix
if opt . ChunkedUpload . NeedMultipleChunks {
// If NeedMultipleChunks is set then test with > cs
testChunks = [ ] fs . SizeSuffix { cs + 1 , 2 * cs , 2 * cs + 1 }
} else {
testChunks = [ ] fs . SizeSuffix { cs - 1 , cs , 2 * cs + 1 }
}
for _ , fileSize := range testChunks {
t . Run ( fmt . Sprintf ( "%d" , fileSize ) , func ( t * testing . T ) {
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TestPutLarge ( ctx , t , f , & fstest . Item {
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ModTime : fstest . Time ( "2001-02-03T04:05:06.499999999Z" ) ,
Path : fmt . Sprintf ( "chunked-%s-%s.bin" , cs . String ( ) , fileSize . String ( ) ) ,
Size : int64 ( fileSize ) ,
} )
} )
}
} )
}
} )
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// TestFsUploadUnknownSize ensures Fs.Put() and Object.Update() don't panic when
// src.Size() == -1
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//
// This may trigger large buffer allocation in some backends, keep it
// closer to the suite end. (See fs/operations/xtra_operations_test.go)
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t . Run ( "FsUploadUnknownSize" , func ( t * testing . T ) {
skipIfNotOk ( t )
t . Run ( "FsPutUnknownSize" , func ( t * testing . T ) {
defer func ( ) {
assert . Nil ( t , recover ( ) , "Fs.Put() should not panic when src.Size() == -1" )
} ( )
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contents := random . String ( 100 )
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in := bytes . NewBufferString ( contents )
obji := object . NewStaticObjectInfo ( "unknown-size-put.txt" , fstest . Time ( "2002-02-03T04:05:06.499999999Z" ) , - 1 , true , nil , nil )
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obj , err := f . Put ( ctx , in , obji )
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if err == nil {
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require . NoError ( t , obj . Remove ( ctx ) , "successfully uploaded unknown-sized file but failed to remove" )
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}
// if err != nil: it's okay as long as no panic
} )
t . Run ( "FsUpdateUnknownSize" , func ( t * testing . T ) {
unknownSizeUpdateFile := fstest . Item {
ModTime : fstest . Time ( "2002-02-03T04:05:06.499999999Z" ) ,
Path : "unknown-size-update.txt" ,
}
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testPut ( ctx , t , f , & unknownSizeUpdateFile )
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defer func ( ) {
assert . Nil ( t , recover ( ) , "Object.Update() should not panic when src.Size() == -1" )
} ( )
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newContents := random . String ( 200 )
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in := bytes . NewBufferString ( newContents )
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obj := findObject ( ctx , t , f , unknownSizeUpdateFile . Path )
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obji := object . NewStaticObjectInfo ( unknownSizeUpdateFile . Path , unknownSizeUpdateFile . ModTime , - 1 , true , nil , obj . Fs ( ) )
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err := obj . Update ( ctx , in , obji )
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if err == nil {
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require . NoError ( t , obj . Remove ( ctx ) , "successfully updated object with unknown-sized source but failed to remove" )
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}
// if err != nil: it's okay as long as no panic
} )
} )
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// TestFsRootCollapse tests if the root of an fs "collapses" to the
// absolute root. It creates a new fs of the same backend type with its
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// root set to a *nonexistent* folder, and attempts to read the info of
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// an object in that folder, whose name is taken from a directory that
// exists in the absolute root.
// This test is added after
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// https://github.com/rclone/rclone/issues/3164.
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t . Run ( "FsRootCollapse" , func ( t * testing . T ) {
deepRemoteName := subRemoteName + "/deeper/nonexisting/directory"
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deepRemote , err := fs . NewFs ( context . Background ( ) , deepRemoteName )
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require . NoError ( t , err )
colonIndex := strings . IndexRune ( deepRemoteName , ':' )
firstSlashIndex := strings . IndexRune ( deepRemoteName , '/' )
firstDir := deepRemoteName [ colonIndex + 1 : firstSlashIndex ]
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_ , err = deepRemote . NewObject ( ctx , firstDir )
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require . Equal ( t , fs . ErrorObjectNotFound , err )
// If err is not fs.ErrorObjectNotFound, it means the backend is
// somehow confused about root and absolute root.
} )
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// Purge the folder
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err = operations . Purge ( ctx , f , "" )
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if ! errors . Is ( err , fs . ErrorDirNotFound ) {
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require . NoError ( t , err )
}
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purged = true
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fstest . CheckListing ( t , f , [ ] fstest . Item { } )
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// Check purging again if not bucket-based
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if ! isBucketBasedButNotRoot ( f ) {
err = operations . Purge ( ctx , f , "" )
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assert . Error ( t , err , "Expecting error after on second purge" )
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if ! errors . Is ( err , fs . ErrorDirNotFound ) {
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t . Log ( "Warning: this should produce fs.ErrorDirNotFound" )
}
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}
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} )
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// Check directory is purged
if ! purged {
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_ = operations . Purge ( ctx , f , "" )
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}
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t . Run ( "FsShutdown" , func ( t * testing . T ) {
do := f . Features ( ) . Shutdown
if do == nil {
t . Skip ( "Shutdown method not supported" )
}
require . NoError ( t , do ( ctx ) )
require . NoError ( t , do ( ctx ) , "must be able to call Shutdown twice" )
} )
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// Remove the local directory so we don't clutter up /tmp
if strings . HasPrefix ( remoteName , "/" ) {
t . Log ( "remoteName" , remoteName )
// Remove temp directory
err := os . Remove ( remoteName )
require . NoError ( t , err )
}
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}