mirror of
https://github.com/rclone/rclone
synced 2024-12-29 22:26:24 +01:00
5d6b8141ec
As of Go 1.16, the same functionality is now provided by package io or package os, and those implementations should be preferred in new code.
529 lines
16 KiB
Go
529 lines
16 KiB
Go
// Package fstest provides utilities for testing the Fs
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package fstest
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// FIXME put name of test FS in Fs structure
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import (
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"bytes"
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"context"
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"flag"
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"fmt"
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"io"
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"log"
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"math/rand"
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"os"
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"path"
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"path/filepath"
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"regexp"
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"runtime"
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"sort"
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"strings"
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"testing"
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"time"
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"github.com/rclone/rclone/fs"
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"github.com/rclone/rclone/fs/accounting"
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"github.com/rclone/rclone/fs/config"
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"github.com/rclone/rclone/fs/config/configfile"
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"github.com/rclone/rclone/fs/hash"
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"github.com/rclone/rclone/fs/walk"
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"github.com/rclone/rclone/lib/random"
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"github.com/stretchr/testify/assert"
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"github.com/stretchr/testify/require"
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"golang.org/x/text/unicode/norm"
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)
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// Globals
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var (
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RemoteName = flag.String("remote", "", "Remote to test with, defaults to local filesystem")
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Verbose = flag.Bool("verbose", false, "Set to enable logging")
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DumpHeaders = flag.Bool("dump-headers", false, "Set to dump headers (needs -verbose)")
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DumpBodies = flag.Bool("dump-bodies", false, "Set to dump bodies (needs -verbose)")
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Individual = flag.Bool("individual", false, "Make individual bucket/container/directory for each test - much slower")
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LowLevelRetries = flag.Int("low-level-retries", 10, "Number of low level retries")
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UseListR = flag.Bool("fast-list", false, "Use recursive list if available. Uses more memory but fewer transactions.")
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// SizeLimit signals tests to skip maximum test file size and skip inappropriate runs
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SizeLimit = flag.Int64("size-limit", 0, "Limit maximum test file size")
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// ListRetries is the number of times to retry a listing to overcome eventual consistency
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ListRetries = flag.Int("list-retries", 3, "Number or times to retry listing")
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// MatchTestRemote matches the remote names used for testing
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MatchTestRemote = regexp.MustCompile(`^rclone-test-[abcdefghijklmnopqrstuvwxyz0123456789]{24}$`)
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)
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// Seed the random number generator
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func init() {
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rand.Seed(time.Now().UnixNano())
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}
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// Initialise rclone for testing
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func Initialise() {
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ctx := context.Background()
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ci := fs.GetConfig(ctx)
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// Never ask for passwords, fail instead.
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// If your local config is encrypted set environment variable
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// "RCLONE_CONFIG_PASS=hunter2" (or your password)
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ci.AskPassword = false
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// Override the config file from the environment - we don't
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// parse the flags any more so this doesn't happen
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// automatically
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if envConfig := os.Getenv("RCLONE_CONFIG"); envConfig != "" {
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_ = config.SetConfigPath(envConfig)
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}
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configfile.Install()
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accounting.Start(ctx)
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if *Verbose {
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ci.LogLevel = fs.LogLevelDebug
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}
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if *DumpHeaders {
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ci.Dump |= fs.DumpHeaders
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}
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if *DumpBodies {
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ci.Dump |= fs.DumpBodies
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}
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ci.LowLevelRetries = *LowLevelRetries
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ci.UseListR = *UseListR
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}
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// Item represents an item for checking
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type Item struct {
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Path string
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Hashes map[hash.Type]string
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ModTime time.Time
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Size int64
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}
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// NewItem creates an item from a string content
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func NewItem(Path, Content string, modTime time.Time) Item {
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i := Item{
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Path: Path,
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ModTime: modTime,
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Size: int64(len(Content)),
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}
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hash := hash.NewMultiHasher()
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buf := bytes.NewBufferString(Content)
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_, err := io.Copy(hash, buf)
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if err != nil {
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log.Fatalf("Failed to create item: %v", err)
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}
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i.Hashes = hash.Sums()
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return i
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}
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// CheckTimeEqualWithPrecision checks the times are equal within the
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// precision, returns the delta and a flag
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func CheckTimeEqualWithPrecision(t0, t1 time.Time, precision time.Duration) (time.Duration, bool) {
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dt := t0.Sub(t1)
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if dt >= precision || dt <= -precision {
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return dt, false
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}
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return dt, true
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}
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// AssertTimeEqualWithPrecision checks that want is within precision
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// of got, asserting that with t and logging remote
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func AssertTimeEqualWithPrecision(t *testing.T, remote string, want, got time.Time, precision time.Duration) {
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dt, ok := CheckTimeEqualWithPrecision(want, got, precision)
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assert.True(t, ok, fmt.Sprintf("%s: Modification time difference too big |%s| > %s (want %s vs got %s) (precision %s)", remote, dt, precision, want, got, precision))
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}
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// CheckModTime checks the mod time to the given precision
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func (i *Item) CheckModTime(t *testing.T, obj fs.Object, modTime time.Time, precision time.Duration) {
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AssertTimeEqualWithPrecision(t, obj.Remote(), i.ModTime, modTime, precision)
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}
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// CheckHashes checks all the hashes the object supports are correct
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func (i *Item) CheckHashes(t *testing.T, obj fs.Object) {
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require.NotNil(t, obj)
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types := obj.Fs().Hashes().Array()
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for _, Hash := range types {
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// Check attributes
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sum, err := obj.Hash(context.Background(), Hash)
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require.NoError(t, err)
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assert.True(t, hash.Equals(i.Hashes[Hash], sum), fmt.Sprintf("%s/%s: %v hash incorrect - expecting %q got %q", obj.Fs().String(), obj.Remote(), Hash, i.Hashes[Hash], sum))
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}
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}
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// Check checks all the attributes of the object are correct
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func (i *Item) Check(t *testing.T, obj fs.Object, precision time.Duration) {
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i.CheckHashes(t, obj)
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assert.Equal(t, i.Size, obj.Size(), fmt.Sprintf("%s: size incorrect file=%d vs obj=%d", i.Path, i.Size, obj.Size()))
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i.CheckModTime(t, obj, obj.ModTime(context.Background()), precision)
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}
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// Normalize runs a utf8 normalization on the string if running on OS
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// X. This is because OS X denormalizes file names it writes to the
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// local file system.
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func Normalize(name string) string {
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if runtime.GOOS == "darwin" {
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name = norm.NFC.String(name)
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}
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return name
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}
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// Items represents all items for checking
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type Items struct {
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byName map[string]*Item
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byNameAlt map[string]*Item
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items []Item
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}
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// NewItems makes an Items
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func NewItems(items []Item) *Items {
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is := &Items{
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byName: make(map[string]*Item),
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byNameAlt: make(map[string]*Item),
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items: items,
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}
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// Fill up byName
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for i := range items {
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is.byName[Normalize(items[i].Path)] = &items[i]
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}
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return is
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}
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// Find checks off an item
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func (is *Items) Find(t *testing.T, obj fs.Object, precision time.Duration) {
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remote := Normalize(obj.Remote())
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i, ok := is.byName[remote]
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if !ok {
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i, ok = is.byNameAlt[remote]
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assert.True(t, ok, fmt.Sprintf("Unexpected file %q", remote))
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}
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if i != nil {
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delete(is.byName, i.Path)
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i.Check(t, obj, precision)
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}
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}
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// Done checks all finished
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func (is *Items) Done(t *testing.T) {
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if len(is.byName) != 0 {
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for name := range is.byName {
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t.Logf("Not found %q", name)
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}
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}
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assert.Equal(t, 0, len(is.byName), fmt.Sprintf("%d objects not found", len(is.byName)))
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}
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// makeListingFromItems returns a string representation of the items
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//
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// it returns two possible strings, one normal and one for windows
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func makeListingFromItems(items []Item) string {
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nameLengths := make([]string, len(items))
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for i, item := range items {
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remote := Normalize(item.Path)
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nameLengths[i] = fmt.Sprintf("%s (%d)", remote, item.Size)
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}
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sort.Strings(nameLengths)
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return strings.Join(nameLengths, ", ")
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}
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// makeListingFromObjects returns a string representation of the objects
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func makeListingFromObjects(objs []fs.Object) string {
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nameLengths := make([]string, len(objs))
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for i, obj := range objs {
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nameLengths[i] = fmt.Sprintf("%s (%d)", Normalize(obj.Remote()), obj.Size())
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}
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sort.Strings(nameLengths)
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return strings.Join(nameLengths, ", ")
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}
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// filterEmptyDirs removes any empty (or containing only directories)
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// directories from expectedDirs
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func filterEmptyDirs(t *testing.T, items []Item, expectedDirs []string) (newExpectedDirs []string) {
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dirs := map[string]struct{}{"": {}}
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for _, item := range items {
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base := item.Path
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for {
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base = path.Dir(base)
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if base == "." || base == "/" {
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break
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}
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dirs[base] = struct{}{}
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}
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}
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for _, expectedDir := range expectedDirs {
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if _, found := dirs[expectedDir]; found {
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newExpectedDirs = append(newExpectedDirs, expectedDir)
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} else {
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t.Logf("Filtering empty directory %q", expectedDir)
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}
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}
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return newExpectedDirs
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}
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// CheckListingWithRoot checks the fs to see if it has the
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// expected contents with the given precision.
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//
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// If expectedDirs is non nil then we check those too. Note that no
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// directories returned is also OK as some remotes don't return
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// directories.
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//
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// dir is the directory used for the listing.
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func CheckListingWithRoot(t *testing.T, f fs.Fs, dir string, items []Item, expectedDirs []string, precision time.Duration) {
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if expectedDirs != nil && !f.Features().CanHaveEmptyDirectories {
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expectedDirs = filterEmptyDirs(t, items, expectedDirs)
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}
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is := NewItems(items)
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ctx := context.Background()
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oldErrors := accounting.Stats(ctx).GetErrors()
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var objs []fs.Object
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var dirs []fs.Directory
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var err error
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var retries = *ListRetries
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sleep := time.Second / 2
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wantListing := makeListingFromItems(items)
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gotListing := "<unset>"
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listingOK := false
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for i := 1; i <= retries; i++ {
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objs, dirs, err = walk.GetAll(ctx, f, dir, true, -1)
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if err != nil && err != fs.ErrorDirNotFound {
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t.Fatalf("Error listing: %v", err)
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}
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gotListing = makeListingFromObjects(objs)
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listingOK = wantListing == gotListing
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if listingOK && (expectedDirs == nil || len(dirs) == len(expectedDirs)) {
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// Put an extra sleep in if we did any retries just to make sure it really
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// is consistent (here is looking at you Amazon Drive!)
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if i != 1 {
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extraSleep := 5*time.Second + sleep
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t.Logf("Sleeping for %v just to make sure", extraSleep)
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time.Sleep(extraSleep)
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}
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break
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}
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sleep *= 2
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t.Logf("Sleeping for %v for list eventual consistency: %d/%d", sleep, i, retries)
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time.Sleep(sleep)
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if doDirCacheFlush := f.Features().DirCacheFlush; doDirCacheFlush != nil {
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t.Logf("Flushing the directory cache")
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doDirCacheFlush()
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}
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}
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assert.True(t, listingOK, fmt.Sprintf("listing wrong, want\n %s got\n %s", wantListing, gotListing))
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for _, obj := range objs {
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require.NotNil(t, obj)
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is.Find(t, obj, precision)
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}
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is.Done(t)
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// Don't notice an error when listing an empty directory
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if len(items) == 0 && oldErrors == 0 && accounting.Stats(ctx).GetErrors() == 1 {
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accounting.Stats(ctx).ResetErrors()
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}
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// Check the directories
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if expectedDirs != nil {
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expectedDirsCopy := make([]string, len(expectedDirs))
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for i, dir := range expectedDirs {
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expectedDirsCopy[i] = Normalize(dir)
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}
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actualDirs := []string{}
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for _, dir := range dirs {
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actualDirs = append(actualDirs, Normalize(dir.Remote()))
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}
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sort.Strings(actualDirs)
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sort.Strings(expectedDirsCopy)
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assert.Equal(t, expectedDirsCopy, actualDirs, "directories")
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}
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}
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// CheckListingWithPrecision checks the fs to see if it has the
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// expected contents with the given precision.
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//
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// If expectedDirs is non nil then we check those too. Note that no
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// directories returned is also OK as some remotes don't return
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// directories.
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func CheckListingWithPrecision(t *testing.T, f fs.Fs, items []Item, expectedDirs []string, precision time.Duration) {
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CheckListingWithRoot(t, f, "", items, expectedDirs, precision)
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}
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// CheckListing checks the fs to see if it has the expected contents
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func CheckListing(t *testing.T, f fs.Fs, items []Item) {
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precision := f.Precision()
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CheckListingWithPrecision(t, f, items, nil, precision)
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}
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// CheckItemsWithPrecision checks the fs with the specified precision
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// to see if it has the expected items.
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func CheckItemsWithPrecision(t *testing.T, f fs.Fs, precision time.Duration, items ...Item) {
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CheckListingWithPrecision(t, f, items, nil, precision)
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}
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// CheckItems checks the fs to see if it has only the items passed in
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// using a precision of fs.Config.ModifyWindow
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func CheckItems(t *testing.T, f fs.Fs, items ...Item) {
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CheckListingWithPrecision(t, f, items, nil, fs.GetModifyWindow(context.TODO(), f))
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}
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// CompareItems compares a set of DirEntries to a slice of items and a list of dirs
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// The modtimes are compared with the precision supplied
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func CompareItems(t *testing.T, entries fs.DirEntries, items []Item, expectedDirs []string, precision time.Duration, what string) {
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is := NewItems(items)
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var objs []fs.Object
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var dirs []fs.Directory
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wantListing := makeListingFromItems(items)
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for _, entry := range entries {
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switch x := entry.(type) {
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case fs.Directory:
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dirs = append(dirs, x)
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case fs.Object:
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objs = append(objs, x)
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// do nothing
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default:
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t.Fatalf("unknown object type %T", entry)
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}
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}
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gotListing := makeListingFromObjects(objs)
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listingOK := wantListing == gotListing
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assert.True(t, listingOK, fmt.Sprintf("%s not equal, want\n %s got\n %s", what, wantListing, gotListing))
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for _, obj := range objs {
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require.NotNil(t, obj)
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is.Find(t, obj, precision)
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}
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is.Done(t)
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// Check the directories
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if expectedDirs != nil {
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expectedDirsCopy := make([]string, len(expectedDirs))
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for i, dir := range expectedDirs {
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expectedDirsCopy[i] = Normalize(dir)
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}
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actualDirs := []string{}
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for _, dir := range dirs {
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actualDirs = append(actualDirs, Normalize(dir.Remote()))
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}
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sort.Strings(actualDirs)
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sort.Strings(expectedDirsCopy)
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assert.Equal(t, expectedDirsCopy, actualDirs, "directories not equal")
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}
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}
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// Time parses a time string or logs a fatal error
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func Time(timeString string) time.Time {
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t, err := time.Parse(time.RFC3339Nano, timeString)
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if err != nil {
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log.Fatalf("Failed to parse time %q: %v", timeString, err)
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}
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return t
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}
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// LocalRemote creates a temporary directory name for local remotes
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func LocalRemote() (path string, err error) {
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path, err = os.MkdirTemp("", "rclone")
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if err == nil {
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// Now remove the directory
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err = os.Remove(path)
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}
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path = filepath.ToSlash(path)
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return
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}
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// RandomRemoteName makes a random bucket or subdirectory name
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//
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// Returns a random remote name plus the leaf name
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func RandomRemoteName(remoteName string) (string, string, error) {
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var err error
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var leafName string
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// Make a directory if remote name is null
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if remoteName == "" {
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remoteName, err = LocalRemote()
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if err != nil {
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return "", "", err
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}
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} else {
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if !strings.HasSuffix(remoteName, ":") {
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remoteName += "/"
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}
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leafName = "rclone-test-" + random.String(24)
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if !MatchTestRemote.MatchString(leafName) {
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log.Fatalf("%q didn't match the test remote name regexp", leafName)
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}
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remoteName += leafName
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}
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return remoteName, leafName, nil
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}
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// RandomRemote makes a random bucket or subdirectory on the remote
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// from the -remote parameter
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//
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// Call the finalise function returned to Purge the fs at the end (and
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// the parent if necessary)
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//
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// Returns the remote, its url, a finaliser and an error
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func RandomRemote() (fs.Fs, string, func(), error) {
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var err error
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var parentRemote fs.Fs
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remoteName := *RemoteName
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remoteName, _, err = RandomRemoteName(remoteName)
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if err != nil {
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return nil, "", nil, err
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}
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remote, err := fs.NewFs(context.Background(), remoteName)
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if err != nil {
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return nil, "", nil, err
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}
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finalise := func() {
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Purge(remote)
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if parentRemote != nil {
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Purge(parentRemote)
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if err != nil {
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log.Printf("Failed to purge %v: %v", parentRemote, err)
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}
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}
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}
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return remote, remoteName, finalise, nil
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}
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// Purge is a simplified re-implementation of operations.Purge for the
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// test routine cleanup to avoid circular dependencies.
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//
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// It logs errors rather than returning them
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func Purge(f fs.Fs) {
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ctx := context.Background()
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var err error
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doFallbackPurge := true
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if doPurge := f.Features().Purge; doPurge != nil {
|
|
doFallbackPurge = false
|
|
fs.Debugf(f, "Purge remote")
|
|
err = doPurge(ctx, "")
|
|
if err == fs.ErrorCantPurge {
|
|
doFallbackPurge = true
|
|
}
|
|
}
|
|
if doFallbackPurge {
|
|
dirs := []string{""}
|
|
err = walk.ListR(ctx, f, "", true, -1, walk.ListAll, func(entries fs.DirEntries) error {
|
|
var err error
|
|
entries.ForObject(func(obj fs.Object) {
|
|
fs.Debugf(f, "Purge object %q", obj.Remote())
|
|
err = obj.Remove(ctx)
|
|
if err != nil {
|
|
log.Printf("purge failed to remove %q: %v", obj.Remote(), err)
|
|
}
|
|
})
|
|
entries.ForDir(func(dir fs.Directory) {
|
|
dirs = append(dirs, dir.Remote())
|
|
})
|
|
return nil
|
|
})
|
|
sort.Strings(dirs)
|
|
for i := len(dirs) - 1; i >= 0; i-- {
|
|
dir := dirs[i]
|
|
fs.Debugf(f, "Purge dir %q", dir)
|
|
err := f.Rmdir(ctx, dir)
|
|
if err != nil {
|
|
log.Printf("purge failed to rmdir %q: %v", dir, err)
|
|
}
|
|
}
|
|
}
|
|
if err != nil {
|
|
log.Printf("purge failed: %v", err)
|
|
}
|
|
}
|