rclone/cmd/bisync/resync.go
Nick Craig-Wood 83613634f9 build: bisync: fix govet lint errors with golangci-lint v1.60.1
There were a lot of instances of this lint error

    printf: non-constant format string in call to github.com/rclone/rclone/fs.Logf (govet)

Most of these could not easily be fixed so had nolint lines added.

This should probably be done in a neater way perhaps by making
LogColorf/ErrorColorf functions.
2024-08-14 18:21:31 +01:00

226 lines
6.7 KiB
Go

package bisync
import (
"context"
"os"
"path/filepath"
"github.com/rclone/rclone/cmd/bisync/bilib"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/filter"
"github.com/rclone/rclone/lib/terminal"
)
// for backward compatibility, --resync is now equivalent to --resync-mode path1
// and either flag is sufficient without the other.
func (b *bisyncRun) setResyncDefaults() {
if b.opt.Resync && b.opt.ResyncMode == PreferNone {
fs.Debugf(nil, Color(terminal.Dim, "defaulting to --resync-mode path1 as --resync is set")) //nolint:govet
b.opt.ResyncMode = PreferPath1
}
if b.opt.ResyncMode != PreferNone {
b.opt.Resync = true
Opt.Resync = true // shouldn't be using this one, but set to be safe
}
// checks and warnings
if (b.opt.ResyncMode == PreferNewer || b.opt.ResyncMode == PreferOlder) && (b.fs1.Precision() == fs.ModTimeNotSupported || b.fs2.Precision() == fs.ModTimeNotSupported) {
fs.Logf(nil, Color(terminal.YellowFg, "WARNING: ignoring --resync-mode %s as at least one remote does not support modtimes."), b.opt.ResyncMode.String())
b.opt.ResyncMode = PreferPath1
} else if (b.opt.ResyncMode == PreferNewer || b.opt.ResyncMode == PreferOlder) && !b.opt.Compare.Modtime {
fs.Logf(nil, Color(terminal.YellowFg, "WARNING: ignoring --resync-mode %s as --compare does not include modtime."), b.opt.ResyncMode.String())
b.opt.ResyncMode = PreferPath1
}
if (b.opt.ResyncMode == PreferLarger || b.opt.ResyncMode == PreferSmaller) && !b.opt.Compare.Size {
fs.Logf(nil, Color(terminal.YellowFg, "WARNING: ignoring --resync-mode %s as --compare does not include size."), b.opt.ResyncMode.String())
b.opt.ResyncMode = PreferPath1
}
}
// resync implements the --resync mode.
// It will generate path1 and path2 listings,
// copy any unique files to the opposite path,
// and resolve any differing files according to the --resync-mode.
func (b *bisyncRun) resync(octx, fctx context.Context) error {
fs.Infof(nil, "Copying Path2 files to Path1")
// Save blank filelists (will be filled from sync results)
var ls1 = newFileList()
var ls2 = newFileList()
err = ls1.save(fctx, b.newListing1)
if err != nil {
b.handleErr(ls1, "error saving ls1 from resync", err, true, true)
b.abort = true
}
err = ls2.save(fctx, b.newListing2)
if err != nil {
b.handleErr(ls2, "error saving ls2 from resync", err, true, true)
b.abort = true
}
// Check access health on the Path1 and Path2 filesystems
// enforce even though this is --resync
if b.opt.CheckAccess {
fs.Infof(nil, "Checking access health")
filesNow1, filesNow2, err := b.findCheckFiles(fctx)
if err != nil {
b.critical = true
b.retryable = true
return err
}
ds1 := &deltaSet{
checkFiles: bilib.Names{},
}
ds2 := &deltaSet{
checkFiles: bilib.Names{},
}
for _, file := range filesNow1.list {
if filepath.Base(file) == b.opt.CheckFilename {
ds1.checkFiles.Add(file)
}
}
for _, file := range filesNow2.list {
if filepath.Base(file) == b.opt.CheckFilename {
ds2.checkFiles.Add(file)
}
}
err = b.checkAccess(ds1.checkFiles, ds2.checkFiles)
if err != nil {
b.critical = true
b.retryable = true
return err
}
}
var results2to1 []Results
var results1to2 []Results
queues := queues{}
b.indent("Path2", "Path1", "Resync is copying files to")
ctxRun := b.opt.setDryRun(fctx)
// fctx has our extra filters added!
ctxSync, filterSync := filter.AddConfig(ctxRun)
if filterSync.Opt.MinSize == -1 {
fs.Debugf(nil, "filterSync.Opt.MinSize: %v", filterSync.Opt.MinSize)
}
b.resyncIs1to2 = false
ctxSync = b.setResyncConfig(ctxSync)
ctxSync = b.setBackupDir(ctxSync, 1)
// 2 to 1
if results2to1, err = b.resyncDir(ctxSync, b.fs2, b.fs1); err != nil {
b.critical = true
return err
}
b.indent("Path1", "Path2", "Resync is copying files to")
b.resyncIs1to2 = true
ctxSync = b.setResyncConfig(ctxSync)
ctxSync = b.setBackupDir(ctxSync, 2)
// 1 to 2
if results1to2, err = b.resyncDir(ctxSync, b.fs1, b.fs2); err != nil {
b.critical = true
return err
}
fs.Infof(nil, "Resync updating listings")
b.saveOldListings() // may not exist, as this is --resync
b.replaceCurrentListings()
resultsToQueue := func(results []Results) bilib.Names {
names := bilib.Names{}
for _, result := range results {
if result.Name != "" &&
(result.Flags != "d" || b.opt.CreateEmptySrcDirs) &&
result.IsSrc && result.Src != "" &&
(result.Winner.Err == nil || result.Flags == "d") {
names.Add(result.Name)
}
}
return names
}
// resync 2to1
queues.copy2to1 = resultsToQueue(results2to1)
if err = b.modifyListing(fctx, b.fs2, b.fs1, results2to1, queues, false); err != nil {
b.critical = true
return err
}
// resync 1to2
queues.copy1to2 = resultsToQueue(results1to2)
if err = b.modifyListing(fctx, b.fs1, b.fs2, results1to2, queues, true); err != nil {
b.critical = true
return err
}
if b.opt.CheckSync == CheckSyncTrue && !b.opt.DryRun {
path1 := bilib.FsPath(b.fs1)
path2 := bilib.FsPath(b.fs2)
fs.Infof(nil, "Validating listings for Path1 %s vs Path2 %s", quotePath(path1), quotePath(path2))
if err := b.checkSync(b.listing1, b.listing2); err != nil {
b.critical = true
return err
}
}
if !b.opt.NoCleanup {
_ = os.Remove(b.newListing1)
_ = os.Remove(b.newListing2)
}
return nil
}
/*
--resync-mode implementation:
PreferPath1: set ci.IgnoreExisting true, then false
PreferPath2: set ci.IgnoreExisting false, then true
PreferNewer: set ci.UpdateOlder in both directions
PreferOlder: override EqualFn to implement custom logic
PreferLarger: override EqualFn to implement custom logic
PreferSmaller: override EqualFn to implement custom logic
*/
func (b *bisyncRun) setResyncConfig(ctx context.Context) context.Context {
ci := fs.GetConfig(ctx)
switch b.opt.ResyncMode {
case PreferPath1:
if !b.resyncIs1to2 { // 2to1 (remember 2to1 is first)
ci.IgnoreExisting = true
} else { // 1to2
ci.IgnoreExisting = false
}
case PreferPath2:
if !b.resyncIs1to2 { // 2to1 (remember 2to1 is first)
ci.IgnoreExisting = false
} else { // 1to2
ci.IgnoreExisting = true
}
case PreferNewer:
ci.UpdateOlder = true
}
// for older, larger, and smaller, we return it unchanged and handle it later
return ctx
}
func (b *bisyncRun) resyncWhichIsWhich(src, dst fs.ObjectInfo) (path1, path2 fs.ObjectInfo) {
if b.resyncIs1to2 {
return src, dst
}
return dst, src
}
// equal in this context really means "don't transfer", so we should
// return true if the files are actually equal or if dest is winner,
// false if src is winner
// When can't determine, we end up running the normal Equal() to tie-break (due to our differ functions).
func (b *bisyncRun) resyncWinningPathToEqual(winningPath int) bool {
if b.resyncIs1to2 {
return winningPath != 1
}
return winningPath != 2
}