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272 lines
10 KiB
Go
272 lines
10 KiB
Go
package bisync
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import (
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"bytes"
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"context"
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"fmt"
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"strings"
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"github.com/rclone/rclone/backend/crypt"
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"github.com/rclone/rclone/cmd/bisync/bilib"
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"github.com/rclone/rclone/cmd/check"
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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/filter"
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"github.com/rclone/rclone/fs/hash"
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"github.com/rclone/rclone/fs/operations"
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)
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var hashType hash.Type
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var fsrc, fdst fs.Fs
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var fcrypt *crypt.Fs
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// WhichCheck determines which CheckFn we should use based on the Fs types
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// It is more robust and accurate than Check because
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// it will fallback to CryptCheck or DownloadCheck instead of --size-only!
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// it returns the *operations.CheckOpt with the CheckFn set.
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func WhichCheck(ctx context.Context, opt *operations.CheckOpt) *operations.CheckOpt {
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ci := fs.GetConfig(ctx)
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common := opt.Fsrc.Hashes().Overlap(opt.Fdst.Hashes())
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// note that ci.IgnoreChecksum doesn't change the behavior of Check -- it's just a way to opt-out of cryptcheck/download
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if common.Count() > 0 || ci.SizeOnly || ci.IgnoreChecksum {
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// use normal check
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opt.Check = CheckFn
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return opt
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}
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FsrcCrypt, srcIsCrypt := opt.Fsrc.(*crypt.Fs)
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FdstCrypt, dstIsCrypt := opt.Fdst.(*crypt.Fs)
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if (srcIsCrypt && dstIsCrypt) || (!srcIsCrypt && dstIsCrypt) {
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// if both are crypt or only dst is crypt
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hashType = FdstCrypt.UnWrap().Hashes().GetOne()
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if hashType != hash.None {
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// use cryptcheck
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fsrc = opt.Fsrc
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fdst = opt.Fdst
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fcrypt = FdstCrypt
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fs.Infof(fdst, "Crypt detected! Using cryptcheck instead of check. (Use --size-only or --ignore-checksum to disable)")
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opt.Check = CryptCheckFn
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return opt
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}
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} else if srcIsCrypt && !dstIsCrypt {
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// if only src is crypt
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hashType = FsrcCrypt.UnWrap().Hashes().GetOne()
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if hashType != hash.None {
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// use reverse cryptcheck
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fsrc = opt.Fdst
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fdst = opt.Fsrc
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fcrypt = FsrcCrypt
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fs.Infof(fdst, "Crypt detected! Using cryptcheck instead of check. (Use --size-only or --ignore-checksum to disable)")
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opt.Check = ReverseCryptCheckFn
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return opt
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}
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}
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// if we've gotten this far, neither check or cryptcheck will work, so use --download
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fs.Infof(fdst, "Can't compare hashes, so using check --download for safety. (Use --size-only or --ignore-checksum to disable)")
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opt.Check = DownloadCheckFn
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return opt
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}
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// CheckFn is a slightly modified version of Check
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func CheckFn(ctx context.Context, dst, src fs.Object) (differ bool, noHash bool, err error) {
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same, ht, err := operations.CheckHashes(ctx, src, dst)
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if err != nil {
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return true, false, err
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}
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if ht == hash.None {
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return false, true, nil
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}
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if !same {
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err = fmt.Errorf("%v differ", ht)
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fs.Errorf(src, "%v", err)
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return true, false, nil
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}
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return false, false, nil
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}
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// CryptCheckFn is a slightly modified version of CryptCheck
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func CryptCheckFn(ctx context.Context, dst, src fs.Object) (differ bool, noHash bool, err error) {
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cryptDst := dst.(*crypt.Object)
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underlyingDst := cryptDst.UnWrap()
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underlyingHash, err := underlyingDst.Hash(ctx, hashType)
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if err != nil {
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return true, false, fmt.Errorf("error reading hash from underlying %v: %w", underlyingDst, err)
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}
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if underlyingHash == "" {
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return false, true, nil
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}
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cryptHash, err := fcrypt.ComputeHash(ctx, cryptDst, src, hashType)
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if err != nil {
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return true, false, fmt.Errorf("error computing hash: %w", err)
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}
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if cryptHash == "" {
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return false, true, nil
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}
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if cryptHash != underlyingHash {
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err = fmt.Errorf("hashes differ (%s:%s) %q vs (%s:%s) %q", fdst.Name(), fdst.Root(), cryptHash, fsrc.Name(), fsrc.Root(), underlyingHash)
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fs.Debugf(src, err.Error())
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// using same error msg as CheckFn so integration tests match
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err = fmt.Errorf("%v differ", hashType)
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fs.Errorf(src, err.Error())
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return true, false, nil
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}
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return false, false, nil
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}
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// ReverseCryptCheckFn is like CryptCheckFn except src and dst are switched
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// result: src is crypt, dst is non-crypt
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func ReverseCryptCheckFn(ctx context.Context, dst, src fs.Object) (differ bool, noHash bool, err error) {
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return CryptCheckFn(ctx, src, dst)
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}
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// DownloadCheckFn is a slightly modified version of Check with --download
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func DownloadCheckFn(ctx context.Context, a, b fs.Object) (differ bool, noHash bool, err error) {
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differ, err = operations.CheckIdenticalDownload(ctx, a, b)
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if err != nil {
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return true, true, fmt.Errorf("failed to download: %w", err)
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}
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return differ, false, nil
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}
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// check potential conflicts (to avoid renaming if already identical)
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func (b *bisyncRun) checkconflicts(ctxCheck context.Context, filterCheck *filter.Filter, fs1, fs2 fs.Fs) (bilib.Names, error) {
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matches := bilib.Names{}
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if filterCheck.HaveFilesFrom() {
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fs.Debugf(nil, "There are potential conflicts to check.")
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opt, close, checkopterr := check.GetCheckOpt(b.fs1, b.fs2)
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if checkopterr != nil {
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b.critical = true
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b.retryable = true
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fs.Debugf(nil, "GetCheckOpt error: %v", checkopterr)
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return matches, checkopterr
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}
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defer close()
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opt.Match = new(bytes.Buffer)
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opt = WhichCheck(ctxCheck, opt)
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fs.Infof(nil, "Checking potential conflicts...")
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check := operations.CheckFn(ctxCheck, opt)
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fs.Infof(nil, "Finished checking the potential conflicts. %s", check)
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//reset error count, because we don't want to count check errors as bisync errors
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accounting.Stats(ctxCheck).ResetErrors()
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//return the list of identical files to check against later
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if len(fmt.Sprint(opt.Match)) > 0 {
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matches = bilib.ToNames(strings.Split(fmt.Sprint(opt.Match), "\n"))
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}
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if matches.NotEmpty() {
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fs.Debugf(nil, "The following potential conflicts were determined to be identical. %v", matches)
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} else {
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fs.Debugf(nil, "None of the conflicts were determined to be identical.")
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}
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}
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return matches, nil
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}
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// WhichEqual is similar to WhichCheck, but checks a single object.
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// Returns true if the objects are equal, false if they differ or if we don't know
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func WhichEqual(ctx context.Context, src, dst fs.Object, Fsrc, Fdst fs.Fs) bool {
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opt, close, checkopterr := check.GetCheckOpt(Fsrc, Fdst)
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if checkopterr != nil {
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fs.Debugf(nil, "GetCheckOpt error: %v", checkopterr)
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}
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defer close()
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opt = WhichCheck(ctx, opt)
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differ, noHash, err := opt.Check(ctx, dst, src)
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if err != nil {
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fs.Errorf(src, "failed to check: %v", err)
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return false
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}
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if noHash {
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fs.Errorf(src, "failed to check as hash is missing")
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return false
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}
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return !differ
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}
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// Replaces the standard Equal func with one that also considers checksum
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// Note that it also updates the modtime the same way as Sync
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func (b *bisyncRun) EqualFn(ctx context.Context) context.Context {
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ci := fs.GetConfig(ctx)
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ci.CheckSum = false // force checksum off so modtime is evaluated if needed
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// modtime and size settings should already be set correctly for Equal
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var equalFn operations.EqualFn = func(ctx context.Context, src fs.ObjectInfo, dst fs.Object) bool {
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fs.Debugf(src, "evaluating...")
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equal := false
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logger, _ := operations.GetLogger(ctx)
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// temporarily unset logger, we don't want Equal to duplicate it
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noop := func(ctx context.Context, sigil operations.Sigil, src, dst fs.DirEntry, err error) {
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fs.Debugf(src, "equal skipped")
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}
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ctxNoLogger := operations.WithLogger(ctx, noop)
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timeSizeEqualFn := func() (equal bool, skipHash bool) { return operations.Equal(ctxNoLogger, src, dst), false } // normally use Equal()
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if b.opt.ResyncMode == PreferOlder || b.opt.ResyncMode == PreferLarger || b.opt.ResyncMode == PreferSmaller {
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timeSizeEqualFn = func() (equal bool, skipHash bool) { return b.resyncTimeSizeEqual(ctxNoLogger, src, dst) } // but override for --resync-mode older, larger, smaller
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}
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skipHash := false // (note that we might skip it anyway based on compare/ht settings)
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equal, skipHash = timeSizeEqualFn()
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if equal && !skipHash {
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whichHashType := func(f fs.Info) hash.Type {
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ht := getHashType(f.Name())
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if ht == hash.None && b.opt.Compare.SlowHashSyncOnly && !b.opt.Resync {
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ht = f.Hashes().GetOne()
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}
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return ht
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}
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srcHash, _ := src.Hash(ctx, whichHashType(src.Fs()))
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dstHash, _ := dst.Hash(ctx, whichHashType(dst.Fs()))
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srcHash, _ = tryDownloadHash(ctx, src, srcHash)
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dstHash, _ = tryDownloadHash(ctx, dst, dstHash)
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equal = !hashDiffers(srcHash, dstHash, whichHashType(src.Fs()), whichHashType(dst.Fs()), src.Size(), dst.Size())
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}
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if equal {
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logger(ctx, operations.Match, src, dst, nil)
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fs.Debugf(src, "EqualFn: files are equal")
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return true
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}
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logger(ctx, operations.Differ, src, dst, nil)
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fs.Debugf(src, "EqualFn: files are NOT equal")
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return false
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}
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return operations.WithEqualFn(ctx, equalFn)
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}
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func (b *bisyncRun) resyncTimeSizeEqual(ctxNoLogger context.Context, src fs.ObjectInfo, dst fs.Object) (equal bool, skipHash bool) {
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switch b.opt.ResyncMode {
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case PreferLarger, PreferSmaller:
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// note that arg order is path1, path2, regardless of src/dst
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path1, path2 := b.resyncWhichIsWhich(src, dst)
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if sizeDiffers(path1.Size(), path2.Size()) {
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winningPath := b.resolveLargerSmaller(path1.Size(), path2.Size(), path1.Remote(), path2.Remote(), b.opt.ResyncMode)
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// don't need to check/update modtime here, as sizes definitely differ and something will be transferred
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return b.resyncWinningPathToEqual(winningPath), b.resyncWinningPathToEqual(winningPath) // skip hash check if true
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}
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// sizes equal or don't know, so continue to checking time/hash, if applicable
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return operations.Equal(ctxNoLogger, src, dst), false // note we're back to src/dst, not path1/path2
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case PreferOlder:
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// note that arg order is path1, path2, regardless of src/dst
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path1, path2 := b.resyncWhichIsWhich(src, dst)
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if timeDiffers(ctxNoLogger, path1.ModTime(ctxNoLogger), path2.ModTime(ctxNoLogger), path1.Fs(), path2.Fs()) {
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winningPath := b.resolveNewerOlder(path1.ModTime(ctxNoLogger), path2.ModTime(ctxNoLogger), path1.Remote(), path2.Remote(), b.opt.ResyncMode)
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// if src is winner, proceed with equal to check size/hash and possibly just update dest modtime instead of transferring
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if !b.resyncWinningPathToEqual(winningPath) {
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return operations.Equal(ctxNoLogger, src, dst), false // note we're back to src/dst, not path1/path2
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}
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// if dst is winner (and definitely unequal), do not proceed further as we want dst to overwrite src regardless of size difference, and we do not want dest modtime updated
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return true, true
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}
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// times equal or don't know, so continue to checking size/hash, if applicable
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}
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return operations.Equal(ctxNoLogger, src, dst), false // note we're back to src/dst, not path1/path2
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}
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