package operations import ( "bytes" "context" "fmt" "io" "sync" "sync/atomic" "github.com/pkg/errors" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/fs/accounting" "github.com/rclone/rclone/fs/fserrors" "github.com/rclone/rclone/fs/hash" "github.com/rclone/rclone/fs/march" "github.com/rclone/rclone/lib/readers" ) // checkFn is the type of the checking function used in CheckFn() // // It should check the two objects (a, b) and return if they differ // and whether the hash was used. // // If there are differences then this should Errorf the difference and // the reason but return with err = nil. It should not CountError in // this case. type checkFn func(ctx context.Context, a, b fs.Object) (differ bool, noHash bool, err error) // CheckOpt contains options for the Check functions type CheckOpt struct { Fdst, Fsrc fs.Fs // fses to check Check checkFn // function to use for checking OneWay bool // one way only? Combined io.Writer // a file with file names with leading sigils MissingOnSrc io.Writer // files only in the destination MissingOnDst io.Writer // files only in the source Match io.Writer // matching files Differ io.Writer // differing files Error io.Writer // files with errors of some kind } // checkMarch is used to march over two Fses in the same way as // sync/copy type checkMarch struct { ioMu sync.Mutex wg sync.WaitGroup tokens chan struct{} differences int32 noHashes int32 srcFilesMissing int32 dstFilesMissing int32 matches int32 opt CheckOpt } // report outputs the fileName to out if required and to the combined log func (c *checkMarch) report(o fs.DirEntry, out io.Writer, sigil rune) { if out != nil { c.ioMu.Lock() _, _ = fmt.Fprintf(out, "%v\n", o) c.ioMu.Unlock() } if c.opt.Combined != nil { c.ioMu.Lock() _, _ = fmt.Fprintf(c.opt.Combined, "%c %v\n", sigil, o) c.ioMu.Unlock() } } // DstOnly have an object which is in the destination only func (c *checkMarch) DstOnly(dst fs.DirEntry) (recurse bool) { switch dst.(type) { case fs.Object: if c.opt.OneWay { return false } err := errors.Errorf("File not in %v", c.opt.Fsrc) fs.Errorf(dst, "%v", err) _ = fs.CountError(err) atomic.AddInt32(&c.differences, 1) atomic.AddInt32(&c.srcFilesMissing, 1) c.report(dst, c.opt.MissingOnSrc, '-') case fs.Directory: // Do the same thing to the entire contents of the directory if c.opt.OneWay { return false } return true default: panic("Bad object in DirEntries") } return false } // SrcOnly have an object which is in the source only func (c *checkMarch) SrcOnly(src fs.DirEntry) (recurse bool) { switch src.(type) { case fs.Object: err := errors.Errorf("File not in %v", c.opt.Fdst) fs.Errorf(src, "%v", err) _ = fs.CountError(err) atomic.AddInt32(&c.differences, 1) atomic.AddInt32(&c.dstFilesMissing, 1) c.report(src, c.opt.MissingOnDst, '+') case fs.Directory: // Do the same thing to the entire contents of the directory return true default: panic("Bad object in DirEntries") } return false } // check to see if two objects are identical using the check function func (c *checkMarch) checkIdentical(ctx context.Context, dst, src fs.Object) (differ bool, noHash bool, err error) { tr := accounting.Stats(ctx).NewCheckingTransfer(src) defer func() { tr.Done(ctx, err) }() if sizeDiffers(src, dst) { err = errors.Errorf("Sizes differ") fs.Errorf(src, "%v", err) return true, false, nil } if fs.Config.SizeOnly { return false, false, nil } return c.opt.Check(ctx, dst, src) } // Match is called when src and dst are present, so sync src to dst func (c *checkMarch) Match(ctx context.Context, dst, src fs.DirEntry) (recurse bool) { switch srcX := src.(type) { case fs.Object: dstX, ok := dst.(fs.Object) if ok { if SkipDestructive(ctx, src, "check") { return false } c.wg.Add(1) c.tokens <- struct{}{} // put a token to limit concurrency go func() { defer func() { <-c.tokens // get the token back to free up a slot c.wg.Done() }() differ, noHash, err := c.checkIdentical(ctx, dstX, srcX) if err != nil { fs.Errorf(src, "%v", err) _ = fs.CountError(err) c.report(src, c.opt.Error, '!') } else if differ { atomic.AddInt32(&c.differences, 1) err := errors.New("files differ") // the checkFn has already logged the reason _ = fs.CountError(err) c.report(src, c.opt.Differ, '*') } else { atomic.AddInt32(&c.matches, 1) c.report(src, c.opt.Match, '=') if noHash { atomic.AddInt32(&c.noHashes, 1) fs.Debugf(dstX, "OK - could not check hash") } else { fs.Debugf(dstX, "OK") } } }() } else { err := errors.Errorf("is file on %v but directory on %v", c.opt.Fsrc, c.opt.Fdst) fs.Errorf(src, "%v", err) _ = fs.CountError(err) atomic.AddInt32(&c.differences, 1) atomic.AddInt32(&c.dstFilesMissing, 1) c.report(src, c.opt.MissingOnDst, '+') } case fs.Directory: // Do the same thing to the entire contents of the directory _, ok := dst.(fs.Directory) if ok { return true } err := errors.Errorf("is file on %v but directory on %v", c.opt.Fdst, c.opt.Fsrc) fs.Errorf(dst, "%v", err) _ = fs.CountError(err) atomic.AddInt32(&c.differences, 1) atomic.AddInt32(&c.srcFilesMissing, 1) c.report(dst, c.opt.MissingOnSrc, '-') default: panic("Bad object in DirEntries") } return false } // CheckFn checks the files in fsrc and fdst according to Size and // hash using checkFunction on each file to check the hashes. // // checkFunction sees if dst and src are identical // // it returns true if differences were found // it also returns whether it couldn't be hashed func CheckFn(ctx context.Context, opt *CheckOpt) error { if opt.Check == nil { return errors.New("internal error: nil check function") } c := &checkMarch{ tokens: make(chan struct{}, fs.Config.Checkers), opt: *opt, } // set up a march over fdst and fsrc m := &march.March{ Ctx: ctx, Fdst: c.opt.Fdst, Fsrc: c.opt.Fsrc, Dir: "", Callback: c, } fs.Debugf(c.opt.Fdst, "Waiting for checks to finish") err := m.Run() c.wg.Wait() // wait for background go-routines if c.dstFilesMissing > 0 { fs.Logf(c.opt.Fdst, "%d files missing", c.dstFilesMissing) } if c.srcFilesMissing > 0 { fs.Logf(c.opt.Fsrc, "%d files missing", c.srcFilesMissing) } fs.Logf(c.opt.Fdst, "%d differences found", accounting.Stats(ctx).GetErrors()) if errs := accounting.Stats(ctx).GetErrors(); errs > 0 { fs.Logf(c.opt.Fdst, "%d errors while checking", errs) } if c.noHashes > 0 { fs.Logf(c.opt.Fdst, "%d hashes could not be checked", c.noHashes) } if c.matches > 0 { fs.Logf(c.opt.Fdst, "%d matching files", c.matches) } if err != nil { return err } if c.differences > 0 { // Return an already counted error so we don't double count this error too err = fserrors.FsError(errors.Errorf("%d differences found", c.differences)) fserrors.Count(err) return err } return nil } // Check the files in fsrc and fdst according to Size and hash func Check(ctx context.Context, opt *CheckOpt) error { optCopy := *opt optCopy.Check = func(ctx context.Context, dst, src fs.Object) (differ bool, noHash bool, err error) { same, ht, err := CheckHashes(ctx, src, dst) if err != nil { return true, false, err } if ht == hash.None { return false, true, nil } if !same { err = errors.Errorf("%v differ", ht) fs.Errorf(src, "%v", err) return true, false, nil } return false, false, nil } return CheckFn(ctx, &optCopy) } // CheckEqualReaders checks to see if in1 and in2 have the same // content when read. // // it returns true if differences were found func CheckEqualReaders(in1, in2 io.Reader) (differ bool, err error) { const bufSize = 64 * 1024 buf1 := make([]byte, bufSize) buf2 := make([]byte, bufSize) for { n1, err1 := readers.ReadFill(in1, buf1) n2, err2 := readers.ReadFill(in2, buf2) // check errors if err1 != nil && err1 != io.EOF { return true, err1 } else if err2 != nil && err2 != io.EOF { return true, err2 } // err1 && err2 are nil or io.EOF here // process the data if n1 != n2 || !bytes.Equal(buf1[:n1], buf2[:n2]) { return true, nil } // if both streams finished the we have finished if err1 == io.EOF && err2 == io.EOF { break } } return false, nil } // CheckIdenticalDownload checks to see if dst and src are identical // by reading all their bytes if necessary. // // it returns true if differences were found func CheckIdenticalDownload(ctx context.Context, dst, src fs.Object) (differ bool, err error) { err = Retry(src, fs.Config.LowLevelRetries, func() error { differ, err = checkIdenticalDownload(ctx, dst, src) return err }) return differ, err } // Does the work for CheckIdenticalDownload func checkIdenticalDownload(ctx context.Context, dst, src fs.Object) (differ bool, err error) { in1, err := dst.Open(ctx) if err != nil { return true, errors.Wrapf(err, "failed to open %q", dst) } tr1 := accounting.Stats(ctx).NewTransfer(dst) defer func() { tr1.Done(ctx, nil) // error handling is done by the caller }() in1 = tr1.Account(ctx, in1).WithBuffer() // account and buffer the transfer in2, err := src.Open(ctx) if err != nil { return true, errors.Wrapf(err, "failed to open %q", src) } tr2 := accounting.Stats(ctx).NewTransfer(dst) defer func() { tr2.Done(ctx, nil) // error handling is done by the caller }() in2 = tr2.Account(ctx, in2).WithBuffer() // account and buffer the transfer // To assign err variable before defer. differ, err = CheckEqualReaders(in1, in2) return } // CheckDownload checks the files in fsrc and fdst according to Size // and the actual contents of the files. func CheckDownload(ctx context.Context, opt *CheckOpt) error { optCopy := *opt optCopy.Check = func(ctx context.Context, a, b fs.Object) (differ bool, noHash bool, err error) { differ, err = CheckIdenticalDownload(ctx, a, b) if err != nil { return true, true, errors.Wrap(err, "failed to download") } return differ, false, nil } return CheckFn(ctx, &optCopy) }