rclone/fstest/fstests/fstests.go

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// Package fstests provides generic integration tests for the Fs and
// 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
import (
"bytes"
"context"
"errors"
"fmt"
"io"
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"math/bits"
"os"
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"path"
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"path/filepath"
"reflect"
"sort"
"strconv"
"strings"
"testing"
"time"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/config"
"github.com/rclone/rclone/fs/fserrors"
"github.com/rclone/rclone/fs/fspath"
"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"
"github.com/rclone/rclone/fstest/testserver"
"github.com/rclone/rclone/lib/encoder"
"github.com/rclone/rclone/lib/random"
"github.com/rclone/rclone/lib/readers"
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"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
// 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
// More than one chunk is required on upload
NeedMultipleChunks bool
// 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)
}
// 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
}
}
// dirsToNames returns a sorted list of names
func dirsToNames(dirs []fs.Directory) []string {
names := []string{}
for _, dir := range dirs {
names = append(names, fstest.Normalize(dir.Remote()))
}
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 {
names = append(names, fstest.Normalize(obj.Remote()))
}
sort.Strings(names)
return names
}
// findObject finds the object on the remote
func findObject(ctx context.Context, t *testing.T, f fs.Fs, Name string) fs.Object {
var obj fs.Object
var err error
sleepTime := 1 * time.Second
for i := 1; i <= *fstest.ListRetries; i++ {
obj, err = f.NewObject(ctx, Name)
if err == nil {
break
}
t.Logf("Sleeping for %v for findObject eventual consistency: %d/%d (%v)", sleepTime, i, *fstest.ListRetries, err)
time.Sleep(sleepTime)
sleepTime = (sleepTime * 3) / 2
}
require.NoError(t, err)
return obj
}
// retry f() until no retriable error
func retry(t *testing.T, what string, f func() error) {
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const maxTries = 10
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
}
t.Logf("%s error: %v - low level retry %d/%d", what, err, tries, maxTries)
time.Sleep(2 * time.Second)
}
require.NoError(t, err, what)
}
// check interface
// PutTestContentsMetadata puts file with given contents to the remote and checks it but unlike TestPutLarge doesn't remove
//
// It uploads the object with the mimeType and metadata passed in if set.
//
// 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 {
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)
if mimeType != "" || metadata != nil {
// force the --metadata flag on temporarily
if metadata != nil {
ci := fs.GetConfig(ctx)
previousMetadata := ci.Metadata
ci.Metadata = true
defer func() {
ci.Metadata = previousMetadata
}()
}
obji.WithMetadata(metadata).WithMimeType(mimeType)
}
obj, err = f.Put(ctx, in, obji)
return err
})
file.Hashes = uploadHash.Sums()
if check {
// 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
}
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())
}
return obj
}
// PutTestContents puts file with given contents to the remote and checks it but unlike TestPutLarge doesn't remove
func PutTestContents(ctx context.Context, t *testing.T, f fs.Fs, file *fstest.Item, contents string, check bool) fs.Object {
return PutTestContentsMetadata(ctx, t, f, file, contents, check, "", nil)
}
// 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) {
contents := random.String(100)
return contents, PutTestContents(ctx, t, f, file, contents, true)
}
// testPutMimeType puts file with random contents to the remote and the mime type given
func testPutMimeType(ctx context.Context, t *testing.T, f fs.Fs, file *fstest.Item, mimeType string, metadata fs.Metadata) (string, fs.Object) {
contents := random.String(100)
return contents, PutTestContentsMetadata(ctx, t, f, file, contents, true, mimeType, metadata)
}
chunker: implementation + required fstest patch Note: chunker implements many irrelevant methods (UserInfo, Disconnect etc), but they are required by TestIntegration/FsCheckWrap and cannot be removed. Dropped API methods: MergeDirs DirCacheFlush PublicLink UserInfo Disconnect OpenWriterAt Meta formats: - renamed old simplejson format to wdmrcompat. - new simplejson format supports hash sums and verification of chunk size/count. Change list: - split-chunking overlay for mailru - add to all - fix linter errors - fix integration tests - support chunks without meta object - fix package paths - propagate context - fix formatting - implement new required wrapper interfaces - also test large file uploads - simplify options - user friendly name pattern - set default chunk size 2G - fix building with golang 1.9 - fix ci/cd on a separate branch - fix updated object name (SyncUTFNorm failed) - fix panic in Box overlay - workaround: Box rename failed if name taken - enhance comments in unit test - fix formatting - embed wrapped remote rather than inherit - require wrapped remote to support move (or copy) - implement 3 (keep fstest) - drop irrelevant file system interfaces - factor out Object.mainChunk - refactor TestLargeUpload as InternalTest - add unit test for chunk name formats - new improved simplejson meta format - tricky case in test FsIsFile (fix+ignore) - remove debugging print - hide temporary objects from listings - fix bugs in chunking reader: - return EOF immediately when all data is sent - handle case when wrapped remote puts by hash (bug detected by TestRcat) - chunked file hashing (feature) - server-side copy across configs (feature) - robust cleanup of temporary chunks in Put - linear download strategy (no read-ahead, feature) - fix unexpected EOF in the box multipart uploader - throw error if destination ignores data
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// TestPutLarge puts file to the remote, checks it and removes it on success.
func TestPutLarge(ctx context.Context, t *testing.T, f fs.Fs, file *fstest.Item) {
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)
obj, err = f.Put(ctx, in, obji)
if file.Size == 0 && err == fs.ErrorCantUploadEmptyFiles {
t.Skip("Can't upload zero length files")
}
return err
})
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
obj = findObject(ctx, t, f, file.Path)
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file.Check(t, obj, f.Precision())
// Download the object and check it is OK
downloadHash := hash.NewMultiHasher()
download, err := obj.Open(ctx)
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
require.NoError(t, obj.Remove(ctx))
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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 {
what := fmt.Sprintf("readObject(%q) limit=%d, options=%+v", obj, limit, options)
in, err := obj.Open(ctx, options...)
require.NoError(t, err, what)
var r io.Reader = in
if limit >= 0 {
r = &io.LimitedReader{R: r, N: limit}
}
contents, err := io.ReadAll(r)
require.NoError(t, err, what)
err = in.Close()
require.NoError(t, err, what)
return string(contents)
}
// ExtraConfigItem describes a config item for the tests
type ExtraConfigItem struct{ Name, Key, Value string }
// Opt is options for Run
type Opt struct {
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
SkipInvalidUTF8 bool // if set skip invalid UTF-8 checks
QuickTestOK bool // if set, run this test with make quicktest
}
// 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
}
// 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)
}
// 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
}
// InternalTestFiles is the state of the remote at the moment the internal tests are called
var InternalTestFiles []fstest.Item
// 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.
//
// 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.
func Run(t *testing.T, opt *Opt) {
var (
f fs.Fs
remoteName = opt.RemoteName
subRemoteName string
subRemoteLeaf string
file1 = fstest.Item{
ModTime: fstest.Time("2001-02-03T04:05:06.499999999Z"),
Path: "file name.txt",
}
file1Contents string
file1MimeType = "text/csv"
file1Metadata = fs.Metadata{"rclone-test": "potato"}
file2 = fstest.Item{
ModTime: fstest.Time("2001-02-03T04:05:10.123123123Z"),
Path: `hello? sausage/êé/Hello, 世界/ " ' @ < > & ? + ≠/z.txt`,
}
isLocalRemote bool
purged bool // whether the dir has been purged or not
ctx = context.Background()
ci = fs.GetConfig(ctx)
unwrappableFsMethods = []string{"Command"} // these Fs methods don't need to be wrapped ever
)
if strings.HasSuffix(os.Getenv("RCLONE_CONFIG"), "/notfound") && *fstest.RemoteName == "" && !opt.QuickTestOK {
t.Skip("quicktest only")
}
// Skip the test if the remote isn't configured
skipIfNotOk := func(t *testing.T) {
if f == nil {
t.Skipf("WARN: %q not configured", remoteName)
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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)
if f.Features().ListR == nil {
t.Skip("FS has no ListR interface")
}
previous := ci.UseListR
ci.UseListR = true
return func() {
ci.UseListR = previous
}
}
// Skip if remote is not SetTier and GetTier capable
skipIfNotSetTier := func(t *testing.T) {
skipIfNotOk(t)
if !f.Features().SetTier || !f.Features().GetTier {
t.Skip("FS has no SetTier & GetTier interfaces")
}
}
// 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 {
f = fs.UnWrapFs(f)
return f.Features().BucketBased && strings.Contains(strings.Trim(f.Root(), "/"), "/")
}
// Initialise the remote
fstest.Initialise()
// Set extra config if supplied
for _, item := range opt.ExtraConfig {
config.FileSet(item.Name, item.Key, item.Value)
}
if *fstest.RemoteName != "" {
remoteName = *fstest.RemoteName
}
oldFstestRemoteName := fstest.RemoteName
fstest.RemoteName = &remoteName
defer func() {
fstest.RemoteName = oldFstestRemoteName
}()
t.Logf("Using remote %q", remoteName)
var err error
if remoteName == "" {
remoteName, err = fstest.LocalRemote()
require.NoError(t, err)
isLocalRemote = true
}
// Start any test servers if required
finish, err := testserver.Start(remoteName)
require.NoError(t, err)
defer finish()
// 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)
f, err = fs.NewFs(context.Background(), subRemoteName)
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))
// Get fsInfo which contains type, etc. of the fs
fsInfo, _, _, _, err := fs.ConfigFs(subRemoteName)
require.NoError(t, err, fmt.Sprintf("unexpected error: %v", err))
// Skip the rest if it failed
skipIfNotOk(t)
// 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")
}
ft := new(fs.Features).Fill(ctx, f)
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
}
if stringsContains(vName, unwrappableFsMethods) {
continue
}
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)
}
}
})
// Check to see if Fs advertises commands and they work and have docs
t.Run("FsCommand", func(t *testing.T) {
skipIfNotOk(t)
doCommand := f.Features().Command
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")
})
// TestFsRmdirNotFound tests deleting a nonexistent directory
t.Run("FsRmdirNotFound", func(t *testing.T) {
skipIfNotOk(t)
if isBucketBasedButNotRoot(f) {
t.Skip("Skipping test as non root bucket-based remote")
}
err := f.Rmdir(ctx, "")
assert.Error(t, err, "Expecting error on Rmdir nonexistent")
})
// Make the directory
err = f.Mkdir(ctx, "")
require.NoError(t, err)
fstest.CheckListing(t, f, []fstest.Item{})
// TestFsString tests the String method
t.Run("FsString", func(t *testing.T) {
skipIfNotOk(t)
str := f.String()
require.NotEqual(t, "", str)
})
// TestFsName tests the Name method
t.Run("FsName", func(t *testing.T) {
skipIfNotOk(t)
got := removeConfigID(f.Name())
var want string
if isLocalRemote {
want = "local"
} else {
want = remoteName[:strings.LastIndex(remoteName, ":")]
comma := strings.IndexRune(remoteName, ',')
if comma >= 0 {
want = want[:comma]
}
}
require.Equal(t, want, got)
})
// TestFsRoot tests the Root method
t.Run("FsRoot", func(t *testing.T) {
skipIfNotOk(t)
got := f.Root()
want := subRemoteName
colon := strings.LastIndex(want, ":")
if colon >= 0 {
want = want[colon+1:]
}
if isLocalRemote {
// only check last path element on local
require.Equal(t, filepath.Base(subRemoteName), filepath.Base(got))
} else {
require.Equal(t, want, got)
}
})
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// TestFsRmdirEmpty tests deleting an empty directory
t.Run("FsRmdirEmpty", func(t *testing.T) {
skipIfNotOk(t)
err := f.Rmdir(ctx, "")
require.NoError(t, err)
})
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// TestFsMkdir tests making a directory
//
// Tests that require the directory to be made are within this
t.Run("FsMkdir", func(t *testing.T) {
skipIfNotOk(t)
err := f.Mkdir(ctx, "")
require.NoError(t, err)
fstest.CheckListing(t, f, []fstest.Item{})
err = f.Mkdir(ctx, "")
require.NoError(t, err)
// TestFsMkdirRmdirSubdir tests making and removing a sub directory
t.Run("FsMkdirRmdirSubdir", func(t *testing.T) {
skipIfNotOk(t)
dir := "dir/subdir"
err := operations.Mkdir(ctx, f, dir)
require.NoError(t, err)
fstest.CheckListingWithPrecision(t, f, []fstest.Item{}, []string{"dir", "dir/subdir"}, fs.GetModifyWindow(ctx, f))
err = operations.Rmdir(ctx, f, dir)
require.NoError(t, err)
fstest.CheckListingWithPrecision(t, f, []fstest.Item{}, []string{"dir"}, fs.GetModifyWindow(ctx, f))
err = operations.Rmdir(ctx, f, "dir")
require.NoError(t, err)
fstest.CheckListingWithPrecision(t, f, []fstest.Item{}, []string{}, fs.GetModifyWindow(ctx, f))
})
// TestFsListEmpty tests listing an empty directory
t.Run("FsListEmpty", func(t *testing.T) {
skipIfNotOk(t)
fstest.CheckListing(t, f, []fstest.Item{})
})
// TestFsListDirEmpty tests listing the directories from an empty directory
TestFsListDirEmpty := func(t *testing.T) {
skipIfNotOk(t)
objs, dirs, err := walk.GetAll(ctx, f, "", true, 1)
if !f.Features().CanHaveEmptyDirectories {
if err != fs.ErrorDirNotFound {
require.NoError(t, err)
}
} else {
require.NoError(t, err)
}
assert.Equal(t, []string{}, objsToNames(objs))
assert.Equal(t, []string{}, dirsToNames(dirs))
}
t.Run("FsListDirEmpty", TestFsListDirEmpty)
// TestFsListRDirEmpty tests listing the directories from an empty directory using ListR
t.Run("FsListRDirEmpty", func(t *testing.T) {
defer skipIfNotListR(t)()
TestFsListDirEmpty(t)
})
// TestFsListDirNotFound tests listing the directories from an empty directory
TestFsListDirNotFound := func(t *testing.T) {
skipIfNotOk(t)
objs, dirs, err := walk.GetAll(ctx, f, "does not exist", true, 1)
if !f.Features().CanHaveEmptyDirectories {
if err != fs.ErrorDirNotFound {
assert.NoError(t, err)
assert.Equal(t, 0, len(objs)+len(dirs))
}
} else {
assert.Equal(t, fs.ErrorDirNotFound, err)
}
}
t.Run("FsListDirNotFound", TestFsListDirNotFound)
// TestFsListRDirNotFound tests listing the directories from an empty directory using ListR
t.Run("FsListRDirNotFound", func(t *testing.T) {
defer skipIfNotListR(t)()
TestFsListDirNotFound(t)
})
// 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)
if testing.Short() {
t.Skip("not running with -short")
}
// check no files or dirs as pre-requisite
fstest.CheckListingWithPrecision(t, f, []fstest.Item{}, []string{}, fs.GetModifyWindow(ctx, f))
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"},
{"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"},
{"URL encoding", "test%46.txt"},
} {
t.Run(test.name, func(t *testing.T) {
if opt.SkipInvalidUTF8 && test.name == "invalid UTF-8" {
t.Skip("Skipping " + test.name)
}
// turn raw strings into Standard encoding
fileName := encoder.Standard.Encode(test.path)
dirName := fileName
t.Logf("testing %q", fileName)
assert.NoError(t, f.Mkdir(ctx, dirName))
file := fstest.Item{
ModTime: time.Now(),
Path: dirName + "/" + fileName, // test creating a file and dir with that name
}
_, o := testPut(context.Background(), t, f, &file)
fstest.CheckListingWithPrecision(t, f, []fstest.Item{file}, []string{dirName}, fs.GetModifyWindow(ctx, f))
assert.NoError(t, o.Remove(ctx))
assert.NoError(t, f.Rmdir(ctx, dirName))
fstest.CheckListingWithPrecision(t, f, []fstest.Item{}, []string{}, fs.GetModifyWindow(ctx, f))
})
}
})
// TestFsNewObjectNotFound tests not finding an object
t.Run("FsNewObjectNotFound", func(t *testing.T) {
skipIfNotOk(t)
// Object in an existing directory
o, err := f.NewObject(ctx, "potato")
assert.Nil(t, o)
assert.Equal(t, fs.ErrorObjectNotFound, err)
// Now try an object in a nonexistent directory
o, err = f.NewObject(ctx, "directory/not/found/potato")
assert.Nil(t, o)
assert.Equal(t, fs.ErrorObjectNotFound, err)
})
// 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)
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)
}
// Read N bytes then produce an error
contents := random.String(int(N))
buf := bytes.NewBufferString(contents)
er := &readers.ErrorReader{Err: errors.New("potato")}
in := io.MultiReader(buf, er)
obji := object.NewStaticObjectInfo(file2.Path, file2.ModTime, 2*N, true, nil, nil)
_, err := f.Put(ctx, in, obji)
// assert.Nil(t, obj) - FIXME some remotes return the object even on nil
assert.NotNil(t, err)
obj, err := f.NewObject(ctx, file2.Path)
assert.Nil(t, obj)
assert.Equal(t, fs.ErrorObjectNotFound, err)
})
t.Run("FsPutZeroLength", func(t *testing.T) {
skipIfNotOk(t)
TestPutLarge(ctx, t, f, &fstest.Item{
ModTime: fstest.Time("2001-02-03T04:05:06.499999999Z"),
Path: "zero-length-file",
Size: int64(0),
})
})
t.Run("FsOpenWriterAt", func(t *testing.T) {
skipIfNotOk(t)
openWriterAt := f.Features().OpenWriterAt
if openWriterAt == nil {
t.Skip("FS has no OpenWriterAt interface")
}
path := "writer-at-subdir/writer-at-file"
out, err := openWriterAt(ctx, path, -1)
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())
obj := findObject(ctx, t, f, path)
assert.Equal(t, "abcdefghi", ReadObject(ctx, t, obj, -1), "contents of file differ")
assert.NoError(t, obj.Remove(ctx))
assert.NoError(t, f.Rmdir(ctx, "writer-at-subdir"))
})
// 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
doChangeNotify := f.Features().ChangeNotify
if doChangeNotify == nil {
t.Skip("FS has no ChangeNotify interface")
2018-10-09 07:42:45 +00:00
}
err := operations.Mkdir(ctx, f, "dir")
require.NoError(t, err)
pollInterval := make(chan time.Duration)
dirChanges := map[string]struct{}{}
objChanges := map[string]struct{}{}
doChangeNotify(ctx, func(x string, e fs.EntryType) {
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{}{}
}
}, 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)
err = operations.Mkdir(ctx, f, dir)
require.NoError(t, err)
dirs = append(dirs, dir)
}
var objs []fs.Object
for _, idx := range []int{2, 4, 3} {
file := fstest.Item{
ModTime: time.Now(),
Path: fmt.Sprintf("dir/file%d", idx),
2018-10-09 07:42:45 +00:00
}
_, o := testPut(ctx, t, f, &file)
objs = append(objs, o)
}
2018-10-09 07:42:45 +00:00
// 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
}
}
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 {
break
}
t.Logf("Try %d/10 waiting for dirChanges and objChanges", tries)
time.Sleep(3 * time.Second)
}
if !ok {
t.Errorf("%+v does not contain %+v or \n%+v does not contain %+v", dirChanges, wantDirChanges, objChanges, wantObjChanges)
}
// tidy up afterwards
for _, o := range objs {
assert.NoError(t, o.Remove(ctx))
}
dirs = append(dirs, "dir")
for _, dir := range dirs {
assert.NoError(t, f.Rmdir(ctx, dir))
}
})
// 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)
file1Contents, _ = testPut(ctx, t, f, &file1)
/* file2Contents = */ testPut(ctx, t, f, &file2)
file1Contents, _ = testPutMimeType(ctx, t, f, &file1, file1MimeType, file1Metadata)
// 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++ {
objs, dirs, err := walk.GetAll(ctx, f, dir, true, 1)
if errors.Is(err, fs.ErrorDirNotFound) {
objs, dirs, err = walk.GetAll(ctx, f, dir, true, 1)
}
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 = ""
expectedObjNames = append(expectedObjNames, file1.Path)
}
if deepest {
expectedObjNames = append(expectedObjNames, file2.Path)
deepest = false
} else {
expectedDirNames = append(expectedDirNames, child)
}
list(dir, expectedDirNames, expectedObjNames)
}
}
t.Run("FsListDirFile2", TestFsListDirFile2)
// 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)
})
// Test the files are all there with walk.ListR recursive listings
t.Run("FsListR", func(t *testing.T) {
skipIfNotOk(t)
objs, dirs, err := walk.GetAll(ctx, f, "", true, -1)
require.NoError(t, err)
assert.Equal(t, []string{
"hello? sausage",
"hello? sausage/êé",
"hello? sausage/êé/Hello, 世界",
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠",
}, dirsToNames(dirs))
assert.Equal(t, []string{
"file name.txt",
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠/z.txt",
}, 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)
objs, dirs, err := walk.GetAll(ctx, f, path.Dir(path.Dir(path.Dir(path.Dir(file2.Path)))), true, -1)
require.NoError(t, err)
assert.Equal(t, []string{
"hello? sausage/êé",
"hello? sausage/êé/Hello, 世界",
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠",
}, dirsToNames(dirs))
assert.Equal(t, []string{
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠/z.txt",
}, objsToNames(objs))
})
// TestFsListDirRoot tests that DirList works in the root
TestFsListDirRoot := func(t *testing.T) {
skipIfNotOk(t)
rootRemote, err := fs.NewFs(context.Background(), remoteName)
require.NoError(t, err)
_, dirs, err := walk.GetAll(ctx, rootRemote, "", true, 1)
require.NoError(t, err)
assert.Contains(t, dirsToNames(dirs), subRemoteLeaf, "Remote leaf not found")
}
t.Run("FsListDirRoot", TestFsListDirRoot)
// TestFsListRDirRoot tests that DirList works in the root using ListR
t.Run("FsListRDirRoot", func(t *testing.T) {
defer skipIfNotListR(t)()
TestFsListDirRoot(t)
})
// 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]
objs, dirs, err = walk.GetAll(ctx, f, dir, true, -1)
}
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)
// TestFsListRSubdir tests List works for a subdirectory using ListR
t.Run("FsListRSubdir", func(t *testing.T) {
defer skipIfNotListR(t)()
TestFsListSubdir(t)
})
// TestFsListLevel2 tests List works for 2 levels
TestFsListLevel2 := func(t *testing.T) {
skipIfNotOk(t)
objs, dirs, err := walk.GetAll(ctx, f, "", true, 2)
if err == fs.ErrorLevelNotSupported {
return
}
require.NoError(t, err)
assert.Equal(t, []string{file1.Path}, objsToNames(objs))
assert.Equal(t, []string{"hello? sausage", "hello? sausage/êé"}, dirsToNames(dirs))
}
t.Run("FsListLevel2", TestFsListLevel2)
// TestFsListRLevel2 tests List works for 2 levels using ListR
t.Run("FsListRLevel2", func(t *testing.T) {
defer skipIfNotListR(t)()
TestFsListLevel2(t)
})
// TestFsListFile1 tests file present
t.Run("FsListFile1", func(t *testing.T) {
skipIfNotOk(t)
fstest.CheckListing(t, f, []fstest.Item{file1, file2})
})
// TestFsNewObject tests NewObject
t.Run("FsNewObject", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
file1.Check(t, obj, f.Precision())
})
// 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")
}
obj := findObject(ctx, t, f, toUpperASCII(file1.Path))
file1.Check(t, obj, f.Precision())
t.Run("Dir", func(t *testing.T) {
obj := findObject(ctx, t, f, toUpperASCII(file2.Path))
file2.Check(t, obj, f.Precision())
})
})
// TestFsListFile1and2 tests two files present
t.Run("FsListFile1and2", func(t *testing.T) {
skipIfNotOk(t)
fstest.CheckListing(t, f, []fstest.Item{file1, file2})
})
// TestFsNewObjectDir tests NewObject on a directory which should produce fs.ErrorIsDir if possible or fs.ErrorObjectNotFound if not
t.Run("FsNewObjectDir", func(t *testing.T) {
skipIfNotOk(t)
dir := path.Dir(file2.Path)
obj, err := f.NewObject(ctx, dir)
assert.Nil(t, obj)
assert.True(t, err == fs.ErrorIsDir || err == fs.ErrorObjectNotFound, fmt.Sprintf("Wrong error: expecting fs.ErrorIsDir or fs.ErrorObjectNotFound but got: %#v", err))
})
// TestFsPurge tests Purge
t.Run("FsPurge", func(t *testing.T) {
skipIfNotOk(t)
// Check have Purge
doPurge := f.Features().Purge
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",
}
_, _ = testPut(ctx, t, f, &fileToPurge)
fstest.CheckListingWithPrecision(t, f, []fstest.Item{file1, file2, fileToPurge}, []string{
"dirToPurge",
"hello? sausage",
"hello? sausage/êé",
"hello? sausage/êé/Hello, 世界",
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠",
}, fs.GetModifyWindow(ctx, f))
// Now purge it
err = operations.Purge(ctx, f, "dirToPurge")
require.NoError(t, err)
fstest.CheckListingWithPrecision(t, f, []fstest.Item{file1, file2}, []string{
"hello? sausage",
"hello? sausage/êé",
"hello? sausage/êé/Hello, 世界",
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠",
}, fs.GetModifyWindow(ctx, f))
})
// TestFsCopy tests Copy
t.Run("FsCopy", func(t *testing.T) {
skipIfNotOk(t)
// Check have Copy
doCopy := f.Features().Copy
if doCopy == nil {
t.Skip("FS has no Copier interface")
}
// Test with file2 so have + and ' ' in file name
var file2Copy = file2
file2Copy.Path += "-copy"
// do the copy
src := findObject(ctx, t, f, file2.Path)
dst, err := doCopy(ctx, src, file2Copy.Path)
if err == fs.ErrorCantCopy {
t.Skip("FS can't copy")
}
require.NoError(t, err, fmt.Sprintf("Error: %#v", err))
// check file exists in new listing
fstest.CheckListing(t, f, []fstest.Item{file1, file2, file2Copy})
// Check dst lightly - list above has checked ModTime/Hashes
assert.Equal(t, file2Copy.Path, dst.Remote())
// Delete copy
err = dst.Remove(ctx)
require.NoError(t, err)
})
// TestFsMove tests Move
t.Run("FsMove", func(t *testing.T) {
skipIfNotOk(t)
// Check have Move
doMove := f.Features().Move
if doMove == nil {
t.Skip("FS has no Mover interface")
}
// 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"
src := findObject(ctx, t, f, file2.Path)
dst, err := doMove(ctx, src, file2Move.Path)
if err == fs.ErrorCantMove {
t.Skip("FS can't move")
}
require.NoError(t, err)
// check file exists in new listing
fstest.CheckListing(t, f, []fstest.Item{file1, file2Move})
// 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"
src = findObject(ctx, t, f, file1.Path)
_, err = doMove(ctx, src, file1Move.Path)
require.NoError(t, err)
fstest.CheckListing(t, f, []fstest.Item{file1Move, file2Move})
// 1: moveTest/other.txt
// 2: other.txt
// Check conflict on "move, then rename"
src = findObject(ctx, t, f, file1Move.Path)
_, err = doMove(ctx, src, file1.Path)
require.NoError(t, err)
fstest.CheckListing(t, f, []fstest.Item{file1, file2Move})
// 1: file name.txt
// 2: other.txt
src = findObject(ctx, t, f, file2Move.Path)
_, err = doMove(ctx, src, file2.Path)
require.NoError(t, err)
fstest.CheckListing(t, f, []fstest.Item{file1, file2})
// 1: file name.txt
// 2: hello sausage?/../z.txt
// Tidy up moveTest directory
require.NoError(t, f.Rmdir(ctx, "moveTest"))
})
// Move src to this remote using server-side move operations.
//
// 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
doDirMove := f.Features().DirMove
if doDirMove == nil {
t.Skip("FS has no DirMover interface")
}
// Check it can't move onto itself
err := doDirMove(ctx, f, "", "")
require.Equal(t, fs.ErrorDirExists, err)
// new remote
newRemote, _, removeNewRemote, err := fstest.RandomRemote()
require.NoError(t, err)
defer removeNewRemote()
const newName = "new_name/sub_new_name"
// try the move
err = newRemote.Features().DirMove(ctx, f, "", newName)
require.NoError(t, err)
// check remotes
// remote should not exist here
_, err = f.List(ctx, "")
assert.True(t, errors.Is(err, fs.ErrorDirNotFound))
//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
err = doDirMove(ctx, newRemote, newName, "")
require.NoError(t, err)
// check remotes
fstest.CheckListingWithPrecision(t, f, []fstest.Item{file2, file1}, []string{
"hello? sausage",
"hello? sausage/êé",
"hello? sausage/êé/Hello, 世界",
"hello? sausage/êé/Hello, 世界/ \" ' @ < > & ? + ≠",
}, f.Precision())
fstest.CheckListingWithPrecision(t, newRemote, []fstest.Item{}, []string{
"new_name",
}, newRemote.Precision())
})
// TestFsRmdirFull tests removing a non empty directory
t.Run("FsRmdirFull", func(t *testing.T) {
skipIfNotOk(t)
if isBucketBasedButNotRoot(f) {
t.Skip("Skipping test as non root bucket-based remote")
}
err := f.Rmdir(ctx, "")
require.Error(t, err, "Expecting error on RMdir on non empty remote")
})
// TestFsPrecision tests the Precision of the Fs
t.Run("FsPrecision", func(t *testing.T) {
skipIfNotOk(t)
precision := f.Precision()
if precision == fs.ModTimeNotSupported {
return
}
if precision > time.Second || precision < 0 {
t.Fatalf("Precision out of range %v", precision)
}
// FIXME check expected precision
})
// TestObjectString tests the Object String method
t.Run("ObjectString", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
assert.Equal(t, file1.Path, obj.String())
if opt.NilObject != nil {
assert.Equal(t, "<nil>", opt.NilObject.String())
}
})
// TestObjectFs tests the object can be found
t.Run("ObjectFs", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
// 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
}
testRemote := f
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)
})
// TestObjectRemote tests the Remote is correct
t.Run("ObjectRemote", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
assert.Equal(t, file1.Path, obj.Remote())
})
// TestObjectHashes checks all the hashes the object supports
t.Run("ObjectHashes", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
file1.CheckHashes(t, obj)
})
// TestObjectModTime tests the ModTime of the object is correct
TestObjectModTime := func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
file1.CheckModTime(t, obj, obj.ModTime(ctx), f.Precision())
}
t.Run("ObjectModTime", TestObjectModTime)
// TestObjectMimeType tests the MimeType of the object is correct
t.Run("ObjectMimeType", func(t *testing.T) {
skipIfNotOk(t)
features := f.Features()
obj := findObject(ctx, t, f, file1.Path)
do, ok := obj.(fs.MimeTyper)
if !ok {
require.False(t, features.ReadMimeType, "Features.ReadMimeType is set but Object.MimeType method not found")
t.Skip("MimeType method not supported")
}
mimeType := do.MimeType(ctx)
if !features.ReadMimeType {
require.Equal(t, "", mimeType, "Features.ReadMimeType is not set but Object.MimeType returned a non-empty MimeType")
} else if features.WriteMimeType {
assert.Equal(t, file1MimeType, mimeType, "can read and write mime types but failed")
} else {
if strings.ContainsRune(mimeType, ';') {
assert.Equal(t, "text/plain; charset=utf-8", mimeType)
} else {
assert.Equal(t, "text/plain", mimeType)
}
}
})
// 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)
do, objectHasMetadata := obj.(fs.Metadataer)
if objectHasMetadata || features.ReadMetadata || features.WriteMetadata || features.UserMetadata {
fsInfo := fs.FindFromFs(f)
require.NotNil(t, fsInfo)
require.NotNil(t, fsInfo.MetadataInfo, "Object declares metadata support but no MetadataInfo in RegInfo")
}
if !objectHasMetadata {
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)
}
})
2022-06-24 15:20:31 +00:00
} // else: Have some metadata here we didn't write - can't really check it!
})
// TestObjectSetModTime tests that SetModTime works
t.Run("ObjectSetModTime", func(t *testing.T) {
skipIfNotOk(t)
newModTime := fstest.Time("2011-12-13T14:15:16.999999999Z")
obj := findObject(ctx, t, f, file1.Path)
err := obj.SetModTime(ctx, newModTime)
if err == fs.ErrorCantSetModTime || err == fs.ErrorCantSetModTimeWithoutDelete {
t.Log(err)
return
}
require.NoError(t, err)
file1.ModTime = newModTime
file1.CheckModTime(t, obj, obj.ModTime(ctx), f.Precision())
// And make a new object and read it from there too
TestObjectModTime(t)
})
// TestObjectSize tests that Size works
t.Run("ObjectSize", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
assert.Equal(t, file1.Size, obj.Size())
})
// TestObjectOpen tests that Open works
t.Run("ObjectOpen", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
assert.Equal(t, file1Contents, ReadObject(ctx, t, obj, -1), "contents of file1 differ")
})
// TestObjectOpenSeek tests that Open works with SeekOption
t.Run("ObjectOpenSeek", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
assert.Equal(t, file1Contents[50:], ReadObject(ctx, t, obj, -1, &fs.SeekOption{Offset: 50}), "contents of file1 differ after seek")
})
// 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)
obj := findObject(ctx, t, f, file1.Path)
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
} {
got := ReadObject(ctx, t, obj, -1, &test.ro)
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)
}
})
// TestObjectPartialRead tests that reading only part of the object does the correct thing
t.Run("ObjectPartialRead", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
assert.Equal(t, file1Contents[:50], ReadObject(ctx, t, obj, 50), "contents of file1 differ after limited read")
})
// TestObjectUpdate tests that Update works
t.Run("ObjectUpdate", func(t *testing.T) {
skipIfNotOk(t)
contents := random.String(200)
buf := bytes.NewBufferString(contents)
hash := hash.NewMultiHasher()
in := io.TeeReader(buf, hash)
file1.Size = int64(buf.Len())
obj := findObject(ctx, t, f, file1.Path)
obji := object.NewStaticObjectInfo(file1.Path, file1.ModTime, int64(len(contents)), true, nil, obj.Fs())
err := obj.Update(ctx, in, obji)
require.NoError(t, err)
file1.Hashes = hash.Sums()
// check the object has been updated
file1.Check(t, obj, f.Precision())
// Re-read the object and check again
obj = findObject(ctx, t, f, file1.Path)
file1.Check(t, obj, f.Precision())
// check contents correct
assert.Equal(t, contents, ReadObject(ctx, t, obj, -1), "contents of updated file1 differ")
file1Contents = contents
})
// TestObjectStorable tests that Storable works
t.Run("ObjectStorable", func(t *testing.T) {
skipIfNotOk(t)
obj := findObject(ctx, t, f, file1.Path)
require.NotNil(t, !obj.Storable(), "Expecting object to be storable")
})
// 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"
fileRemote, err := fs.NewFs(context.Background(), remoteName)
require.NotNil(t, fileRemote)
assert.Equal(t, fs.ErrorIsFile, err)
chunker: implementation + required fstest patch Note: chunker implements many irrelevant methods (UserInfo, Disconnect etc), but they are required by TestIntegration/FsCheckWrap and cannot be removed. Dropped API methods: MergeDirs DirCacheFlush PublicLink UserInfo Disconnect OpenWriterAt Meta formats: - renamed old simplejson format to wdmrcompat. - new simplejson format supports hash sums and verification of chunk size/count. Change list: - split-chunking overlay for mailru - add to all - fix linter errors - fix integration tests - support chunks without meta object - fix package paths - propagate context - fix formatting - implement new required wrapper interfaces - also test large file uploads - simplify options - user friendly name pattern - set default chunk size 2G - fix building with golang 1.9 - fix ci/cd on a separate branch - fix updated object name (SyncUTFNorm failed) - fix panic in Box overlay - workaround: Box rename failed if name taken - enhance comments in unit test - fix formatting - embed wrapped remote rather than inherit - require wrapped remote to support move (or copy) - implement 3 (keep fstest) - drop irrelevant file system interfaces - factor out Object.mainChunk - refactor TestLargeUpload as InternalTest - add unit test for chunk name formats - new improved simplejson meta format - tricky case in test FsIsFile (fix+ignore) - remove debugging print - hide temporary objects from listings - fix bugs in chunking reader: - return EOF immediately when all data is sent - handle case when wrapped remote puts by hash (bug detected by TestRcat) - chunked file hashing (feature) - server-side copy across configs (feature) - robust cleanup of temporary chunks in Put - linear download strategy (no read-ahead, feature) - fix unexpected EOF in the box multipart uploader - throw error if destination ignores data
2019-06-09 17:41:48 +00:00
if strings.HasPrefix(remoteName, "TestChunker") && strings.Contains(remoteName, "Nometa") {
chunker: implementation + required fstest patch Note: chunker implements many irrelevant methods (UserInfo, Disconnect etc), but they are required by TestIntegration/FsCheckWrap and cannot be removed. Dropped API methods: MergeDirs DirCacheFlush PublicLink UserInfo Disconnect OpenWriterAt Meta formats: - renamed old simplejson format to wdmrcompat. - new simplejson format supports hash sums and verification of chunk size/count. Change list: - split-chunking overlay for mailru - add to all - fix linter errors - fix integration tests - support chunks without meta object - fix package paths - propagate context - fix formatting - implement new required wrapper interfaces - also test large file uploads - simplify options - user friendly name pattern - set default chunk size 2G - fix building with golang 1.9 - fix ci/cd on a separate branch - fix updated object name (SyncUTFNorm failed) - fix panic in Box overlay - workaround: Box rename failed if name taken - enhance comments in unit test - fix formatting - embed wrapped remote rather than inherit - require wrapped remote to support move (or copy) - implement 3 (keep fstest) - drop irrelevant file system interfaces - factor out Object.mainChunk - refactor TestLargeUpload as InternalTest - add unit test for chunk name formats - new improved simplejson meta format - tricky case in test FsIsFile (fix+ignore) - remove debugging print - hide temporary objects from listings - fix bugs in chunking reader: - return EOF immediately when all data is sent - handle case when wrapped remote puts by hash (bug detected by TestRcat) - chunked file hashing (feature) - server-side copy across configs (feature) - robust cleanup of temporary chunks in Put - linear download strategy (no read-ahead, feature) - fix unexpected EOF in the box multipart uploader - throw error if destination ignores data
2019-06-09 17:41:48 +00:00
// TODO fix chunker and remove this bypass
t.Logf("Skip listing check -- chunker can't yet handle this tricky case")
return
}
fstest.CheckListing(t, fileRemote, []fstest.Item{file2Copy})
})
// 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"
fileRemote, err := fs.NewFs(context.Background(), remoteName)
require.NoError(t, err)
fstest.CheckListing(t, fileRemote, []fstest.Item{})
})
// Test that things work from the root
t.Run("FromRoot", func(t *testing.T) {
if features := f.Features(); features.BucketBased && !features.BucketBasedRootOK {
t.Skip("Can't list from root on this remote")
}
parsed, err := fspath.Parse(subRemoteName)
require.NoError(t, err)
configName, configLeaf := parsed.ConfigString, parsed.Path
if configName == "" {
configName, configLeaf = path.Split(subRemoteName)
} else {
configName += ":"
}
t.Logf("Opening root remote %q path %q from %q", configName, configLeaf, subRemoteName)
rootRemote, err := fs.NewFs(context.Background(), configName)
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())
})
// Check that listing the entries is OK
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
})
if !errors.Is(err, errFound) && !errors.Is(err, errTooMany) {
assert.NoError(t, err)
}
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)
} 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"),
}
_, file3Obj := testPut(ctx, t, rootRemote, &file3Root)
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())
})
})
})
// 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)
publicLinkFunc := f.Features().PublicLink
if publicLinkFunc == nil {
t.Skip("FS has no PublicLinker interface")
}
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
}
}
expiry := fs.Duration(60 * time.Second)
doPublicLink := wrapPublicLinkFunc(publicLinkFunc)
// if object not found
link, err := doPublicLink(ctx, file1.Path+"_does_not_exist", expiry, false)
require.Error(t, err, "Expected to get error when file doesn't exist")
require.Equal(t, "", link, "Expected link to be empty on error")
// sharing file for the first time
link1, err := doPublicLink(ctx, file1.Path, expiry, false)
require.NoError(t, err)
require.NotEqual(t, "", link1, "Link should not be empty")
link2, err := doPublicLink(ctx, file2.Path, expiry, false)
require.NoError(t, err)
require.NotEqual(t, "", link2, "Link should not be empty")
require.NotEqual(t, link1, link2, "Links to different files should differ")
// sharing file for the 2nd time
link1, err = doPublicLink(ctx, file1.Path, expiry, false)
require.NoError(t, err)
require.NotEqual(t, "", link1, "Link should not be empty")
// sharing directory for the first time
path := path.Dir(file2.Path)
link3, err := doPublicLink(ctx, path, expiry, false)
if err != nil && (errors.Is(err, fs.ErrorCantShareDirectories) || errors.Is(err, fs.ErrorObjectNotFound)) {
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")
// sharing directory for the second time
link3, err = doPublicLink(ctx, path, expiry, false)
require.NoError(t, err)
require.NotEqual(t, "", link3, "Link should not be empty")
// sharing the "root" directory in a subremote
subRemote, _, removeSubRemote, err := fstest.RandomRemote()
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)
2023-01-10 17:40:04 +00:00
retry(t, "Put", func() error {
_, err := subRemote.Put(ctx, buf, obji)
return err
})
link4, err := wrapPublicLinkFunc(subRemote.Features().PublicLink)(ctx, "", expiry, false)
require.NoError(t, err, "Sharing root in a sub-remote should work")
require.NotEqual(t, "", link4, "Link should not be empty")
}
})
// TestSetTier tests SetTier and GetTier functionality
t.Run("SetTier", func(t *testing.T) {
skipIfNotSetTier(t)
obj := findObject(ctx, t, f, file1.Path)
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)
}
})
// 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")
}
ft := new(fs.Features).Fill(ctx, f)
if ft.UnWrap == nil {
t.Skip("Not a wrapping Fs")
}
obj := findObject(ctx, t, f, file1.Path)
_, unsupported := fs.ObjectOptionalInterfaces(obj)
for _, name := range unsupported {
if !stringsContains(name, opt.UnimplementableObjectMethods) {
t.Errorf("Missing Object wrapper for %s", name)
}
}
})
// State of remote at the moment the internal tests are called
InternalTestFiles = []fstest.Item{file1, file2}
// TestObjectRemove tests Remove
t.Run("ObjectRemove", func(t *testing.T) {
skipIfNotOk(t)
// remove file1
obj := findObject(ctx, t, f, file1.Path)
err := obj.Remove(ctx)
require.NoError(t, err)
// check listing without modtime as TestPublicLink may change the modtime
fstest.CheckListingWithPrecision(t, f, []fstest.Item{file2}, nil, fs.ModTimeNotSupported)
// Show the internal tests file2 is gone
InternalTestFiles = []fstest.Item{file2}
})
// TestAbout tests the About optional interface
t.Run("ObjectAbout", func(t *testing.T) {
skipIfNotOk(t)
// Check have About
doAbout := f.Features().About
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)
})
// Just file2 remains for Purge to clean up
// 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)
t.Run("FsPutStream", func(t *testing.T) {
skipIfNotOk(t)
if f.Features().PutStream == nil {
t.Skip("FS has no PutStream interface")
}
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
}
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)
obj, err = f.Features().PutStream(ctx, in, obji)
return err
})
file.Hashes = uploadHash.Sums()
file.Size = int64(contentSize) // use correct size when checking
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())
require.NoError(t, obj.Remove(ctx))
})
}
})
// TestInternal calls InternalTest() on the Fs
t.Run("Internal", func(t *testing.T) {
skipIfNotOk(t)
if it, ok := f.(InternalTester); ok {
it.InternalTest(t)
} else {
t.Skipf("%T does not implement InternalTester", f)
}
})
})
// 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")
}
if opt.ChunkedUpload.Skip {
t.Skip("skipping as ChunkedUpload.Skip is set")
}
setUploadChunkSizer, _ := f.(SetUploadChunkSizer)
if setUploadChunkSizer == nil {
t.Skipf("%T does not implement SetUploadChunkSizer", f)
}
setUploadCutoffer, _ := f.(SetUploadCutoffer)
minChunkSize := opt.ChunkedUpload.MinChunkSize
if minChunkSize < 100 {
minChunkSize = 100
}
if opt.ChunkedUpload.CeilChunkSize != nil {
minChunkSize = opt.ChunkedUpload.CeilChunkSize(minChunkSize)
}
maxChunkSize := 2 * fs.Mebi
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) {
TestPutLarge(ctx, t, f, &fstest.Item{
ModTime: fstest.Time("2001-02-03T04:05:06.499999999Z"),
Path: fmt.Sprintf("chunked-%s-%s.bin", cs.String(), fileSize.String()),
Size: int64(fileSize),
})
})
}
})
}
})
// TestFsUploadUnknownSize ensures Fs.Put() and Object.Update() don't panic when
// src.Size() == -1
//
// This may trigger large buffer allocation in some backends, keep it
// closer to the suite end. (See fs/operations/xtra_operations_test.go)
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")
}()
contents := random.String(100)
in := bytes.NewBufferString(contents)
obji := object.NewStaticObjectInfo("unknown-size-put.txt", fstest.Time("2002-02-03T04:05:06.499999999Z"), -1, true, nil, nil)
obj, err := f.Put(ctx, in, obji)
if err == nil {
require.NoError(t, obj.Remove(ctx), "successfully uploaded unknown-sized file but failed to remove")
}
// 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",
}
testPut(ctx, t, f, &unknownSizeUpdateFile)
defer func() {
assert.Nil(t, recover(), "Object.Update() should not panic when src.Size() == -1")
}()
newContents := random.String(200)
in := bytes.NewBufferString(newContents)
obj := findObject(ctx, t, f, unknownSizeUpdateFile.Path)
obji := object.NewStaticObjectInfo(unknownSizeUpdateFile.Path, unknownSizeUpdateFile.ModTime, -1, true, nil, obj.Fs())
err := obj.Update(ctx, in, obji)
if err == nil {
require.NoError(t, obj.Remove(ctx), "successfully updated object with unknown-sized source but failed to remove")
}
// if err != nil: it's okay as long as no panic
})
})
// 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
// root set to a *nonexistent* folder, and attempts to read the info of
// an object in that folder, whose name is taken from a directory that
// exists in the absolute root.
// This test is added after
// https://github.com/rclone/rclone/issues/3164.
t.Run("FsRootCollapse", func(t *testing.T) {
deepRemoteName := subRemoteName + "/deeper/nonexisting/directory"
deepRemote, err := fs.NewFs(context.Background(), deepRemoteName)
require.NoError(t, err)
colonIndex := strings.IndexRune(deepRemoteName, ':')
firstSlashIndex := strings.IndexRune(deepRemoteName, '/')
firstDir := deepRemoteName[colonIndex+1 : firstSlashIndex]
_, err = deepRemote.NewObject(ctx, firstDir)
require.Equal(t, fs.ErrorObjectNotFound, err)
// If err is not fs.ErrorObjectNotFound, it means the backend is
// somehow confused about root and absolute root.
})
// Purge the folder
err = operations.Purge(ctx, f, "")
if !errors.Is(err, fs.ErrorDirNotFound) {
require.NoError(t, err)
}
purged = true
fstest.CheckListing(t, f, []fstest.Item{})
// Check purging again if not bucket-based
if !isBucketBasedButNotRoot(f) {
err = operations.Purge(ctx, f, "")
assert.Error(t, err, "Expecting error after on second purge")
if !errors.Is(err, fs.ErrorDirNotFound) {
t.Log("Warning: this should produce fs.ErrorDirNotFound")
}
}
})
// Check directory is purged
if !purged {
_ = operations.Purge(ctx, f, "")
}
2020-11-27 17:25:57 +00:00
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")
})
// 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)
}
}