package info // FIXME once translations are implemented will need a no-escape // option for Put so we can make these tests work agaig import ( "bytes" "context" "fmt" "io" "sort" "strings" "sync" "time" "github.com/ncw/rclone/cmd" "github.com/ncw/rclone/fs" "github.com/ncw/rclone/fs/hash" "github.com/ncw/rclone/fs/object" "github.com/ncw/rclone/fstest" "github.com/pkg/errors" "github.com/spf13/cobra" ) type position int const ( positionMiddle position = 1 << iota positionLeft positionRight positionNone position = 0 positionAll position = positionRight<<1 - 1 ) var ( checkNormalization bool checkControl bool checkLength bool checkStreaming bool positionList = []position{positionMiddle, positionLeft, positionRight} ) func init() { cmd.Root.AddCommand(commandDefintion) commandDefintion.Flags().BoolVarP(&checkNormalization, "check-normalization", "", true, "Check UTF-8 Normalization.") commandDefintion.Flags().BoolVarP(&checkControl, "check-control", "", true, "Check control characters.") commandDefintion.Flags().BoolVarP(&checkLength, "check-length", "", true, "Check max filename length.") commandDefintion.Flags().BoolVarP(&checkStreaming, "check-streaming", "", true, "Check uploads with indeterminate file size.") } var commandDefintion = &cobra.Command{ Use: "info [remote:path]+", Short: `Discovers file name or other limitations for paths.`, Long: `rclone info discovers what filenames and upload methods are possible to write to the paths passed in and how long they can be. It can take some time. It will write test files into the remote:path passed in. It outputs a bit of go code for each one. `, Hidden: true, Run: func(command *cobra.Command, args []string) { cmd.CheckArgs(1, 1E6, command, args) for i := range args { f := cmd.NewFsDir(args[i : i+1]) cmd.Run(false, false, command, func() error { return readInfo(context.Background(), f) }) } }, } type results struct { ctx context.Context f fs.Fs mu sync.Mutex stringNeedsEscaping map[string]position maxFileLength int canWriteUnnormalized bool canReadUnnormalized bool canReadRenormalized bool canStream bool } func newResults(ctx context.Context, f fs.Fs) *results { return &results{ ctx: ctx, f: f, stringNeedsEscaping: make(map[string]position), } } // Print the results to stdout func (r *results) Print() { fmt.Printf("// %s\n", r.f.Name()) if checkControl { escape := []string{} for c, needsEscape := range r.stringNeedsEscaping { if needsEscape != positionNone { escape = append(escape, fmt.Sprintf("0x%02X", c)) } } sort.Strings(escape) fmt.Printf("stringNeedsEscaping = []byte{\n") fmt.Printf("\t%s\n", strings.Join(escape, ", ")) fmt.Printf("}\n") } if checkLength { fmt.Printf("maxFileLength = %d\n", r.maxFileLength) } if checkNormalization { fmt.Printf("canWriteUnnormalized = %v\n", r.canWriteUnnormalized) fmt.Printf("canReadUnnormalized = %v\n", r.canReadUnnormalized) fmt.Printf("canReadRenormalized = %v\n", r.canReadRenormalized) } if checkStreaming { fmt.Printf("canStream = %v\n", r.canStream) } } // writeFile writes a file with some random contents func (r *results) writeFile(path string) (fs.Object, error) { contents := fstest.RandomString(50) src := object.NewStaticObjectInfo(path, time.Now(), int64(len(contents)), true, nil, r.f) return r.f.Put(r.ctx, bytes.NewBufferString(contents), src) } // check whether normalization is enforced and check whether it is // done on the files anyway func (r *results) checkUTF8Normalization() { unnormalized := "Héroique" normalized := "Héroique" _, err := r.writeFile(unnormalized) if err != nil { r.canWriteUnnormalized = false return } r.canWriteUnnormalized = true _, err = r.f.NewObject(r.ctx, unnormalized) if err == nil { r.canReadUnnormalized = true } _, err = r.f.NewObject(r.ctx, normalized) if err == nil { r.canReadRenormalized = true } } func (r *results) checkStringPositions(s string) { fs.Infof(r.f, "Writing position file 0x%0X", s) positionError := positionNone for _, pos := range positionList { path := "" switch pos { case positionMiddle: path = fmt.Sprintf("position-middle-%0X-%s-", s, s) case positionLeft: path = fmt.Sprintf("%s-position-left-%0X", s, s) case positionRight: path = fmt.Sprintf("position-right-%0X-%s", s, s) default: panic("invalid position: " + pos.String()) } _, writeErr := r.writeFile(path) if writeErr != nil { fs.Infof(r.f, "Writing %s position file 0x%0X Error: %s", pos.String(), s, writeErr) } else { fs.Infof(r.f, "Writing %s position file 0x%0X OK", pos.String(), s) } obj, getErr := r.f.NewObject(r.ctx, path) if getErr != nil { fs.Infof(r.f, "Getting %s position file 0x%0X Error: %s", pos.String(), s, getErr) } else { if obj.Size() != 50 { fs.Infof(r.f, "Getting %s position file 0x%0X Invalid Size: %d", pos.String(), s, obj.Size()) } else { fs.Infof(r.f, "Getting %s position file 0x%0X OK", pos.String(), s) } } if writeErr != nil || getErr != nil { positionError += pos } } r.mu.Lock() r.stringNeedsEscaping[s] = positionError r.mu.Unlock() } // check we can write a file with the control chars func (r *results) checkControls() { fs.Infof(r.f, "Trying to create control character file names") // Concurrency control tokens := make(chan struct{}, fs.Config.Checkers) for i := 0; i < fs.Config.Checkers; i++ { tokens <- struct{}{} } var wg sync.WaitGroup for i := rune(0); i < 128; i++ { s := string(i) if i == 0 || i == '/' { // We're not even going to check NULL or / r.stringNeedsEscaping[s] = positionAll continue } wg.Add(1) go func(s string) { defer wg.Done() token := <-tokens r.checkStringPositions(s) tokens <- token }(s) } for _, s := range []string{"\", "\xBF", "\xFE"} { wg.Add(1) go func(s string) { defer wg.Done() token := <-tokens r.checkStringPositions(s) tokens <- token }(s) } wg.Wait() fs.Infof(r.f, "Done trying to create control character file names") } // find the max file name size we can use func (r *results) findMaxLength() { const maxLen = 16 * 1024 name := make([]byte, maxLen) for i := range name { name[i] = 'a' } // Find the first size of filename we can't write i := sort.Search(len(name), func(i int) (fail bool) { defer func() { if err := recover(); err != nil { fs.Infof(r.f, "Couldn't write file with name length %d: %v", i, err) fail = true } }() path := string(name[:i]) _, err := r.writeFile(path) if err != nil { fs.Infof(r.f, "Couldn't write file with name length %d: %v", i, err) return true } fs.Infof(r.f, "Wrote file with name length %d", i) return false }) r.maxFileLength = i - 1 fs.Infof(r.f, "Max file length is %d", r.maxFileLength) } func (r *results) checkStreaming() { putter := r.f.Put if r.f.Features().PutStream != nil { fs.Infof(r.f, "Given remote has specialized streaming function. Using that to test streaming.") putter = r.f.Features().PutStream } contents := "thinking of test strings is hard" buf := bytes.NewBufferString(contents) hashIn := hash.NewMultiHasher() in := io.TeeReader(buf, hashIn) objIn := object.NewStaticObjectInfo("checkStreamingTest", time.Now(), -1, true, nil, r.f) objR, err := putter(r.ctx, in, objIn) if err != nil { fs.Infof(r.f, "Streamed file failed to upload (%v)", err) r.canStream = false return } hashes := hashIn.Sums() types := objR.Fs().Hashes().Array() for _, Hash := range types { sum, err := objR.Hash(r.ctx, Hash) if err != nil { fs.Infof(r.f, "Streamed file failed when getting hash %v (%v)", Hash, err) r.canStream = false return } if !hash.Equals(hashes[Hash], sum) { fs.Infof(r.f, "Streamed file has incorrect hash %v: expecting %q got %q", Hash, hashes[Hash], sum) r.canStream = false return } } if int64(len(contents)) != objR.Size() { fs.Infof(r.f, "Streamed file has incorrect file size: expecting %d got %d", len(contents), objR.Size()) r.canStream = false return } r.canStream = true } func readInfo(ctx context.Context, f fs.Fs) error { err := f.Mkdir(ctx, "") if err != nil { return errors.Wrap(err, "couldn't mkdir") } r := newResults(ctx, f) if checkControl { r.checkControls() } if checkLength { r.findMaxLength() } if checkNormalization { r.checkUTF8Normalization() } if checkStreaming { r.checkStreaming() } r.Print() return nil } func (e position) String() string { switch e { case positionNone: return "none" case positionAll: return "all" } var buf bytes.Buffer if e&positionMiddle != 0 { buf.WriteString("middle") e &= ^positionMiddle } if e&positionLeft != 0 { if buf.Len() != 0 { buf.WriteRune(',') } buf.WriteString("left") e &= ^positionLeft } if e&positionRight != 0 { if buf.Len() != 0 { buf.WriteRune(',') } buf.WriteString("right") e &= ^positionRight } if e != positionNone { panic("invalid position") } return buf.String() }