rclone/cmd/bisync/operations.go

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// Package bisync implements bisync
// Copyright (c) 2017-2020 Chris Nelson
// Contributions to original python version: Hildo G. Jr., e2t, kalemas, silenceleaf
package bisync
import (
"context"
"errors"
"fmt"
"os"
"path/filepath"
"strconv"
gosync "sync"
"github.com/rclone/rclone/cmd/bisync/bilib"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/filter"
"github.com/rclone/rclone/fs/operations"
"github.com/rclone/rclone/lib/atexit"
"github.com/rclone/rclone/lib/terminal"
)
// ErrBisyncAborted signals that bisync is aborted and forces exit code 2
var ErrBisyncAborted = errors.New("bisync aborted")
// bisyncRun keeps bisync runtime state
type bisyncRun struct {
fs1 fs.Fs
fs2 fs.Fs
abort bool
critical bool
retryable bool
basePath string
workDir string
listing1 string
listing2 string
newListing1 string
newListing2 string
opt *Options
octx context.Context
fctx context.Context
}
type queues struct {
copy1to2 bilib.Names
copy2to1 bilib.Names
renamed1 bilib.Names // renamed on 1 and copied to 2
renamed2 bilib.Names // renamed on 2 and copied to 1
renameSkipped bilib.Names // not renamed because it was equal
skippedDirs1 *fileList
skippedDirs2 *fileList
deletedonboth bilib.Names
}
// Bisync handles lock file, performs bisync run and checks exit status
func Bisync(ctx context.Context, fs1, fs2 fs.Fs, optArg *Options) (err error) {
opt := *optArg // ensure that input is never changed
b := &bisyncRun{
fs1: fs1,
fs2: fs2,
opt: &opt,
}
if opt.CheckFilename == "" {
opt.CheckFilename = DefaultCheckFilename
}
if opt.Workdir == "" {
opt.Workdir = DefaultWorkdir
}
if !opt.DryRun && !opt.Force {
if fs1.Precision() == fs.ModTimeNotSupported {
return errors.New("modification time support is missing on path1")
}
if fs2.Precision() == fs.ModTimeNotSupported {
return errors.New("modification time support is missing on path2")
}
}
if b.workDir, err = filepath.Abs(opt.Workdir); err != nil {
return fmt.Errorf("failed to make workdir absolute: %w", err)
}
if err = os.MkdirAll(b.workDir, os.ModePerm); err != nil {
return fmt.Errorf("failed to create workdir: %w", err)
}
// Produce a unique name for the sync operation
b.basePath = filepath.Join(b.workDir, bilib.SessionName(b.fs1, b.fs2))
b.listing1 = b.basePath + ".path1.lst"
b.listing2 = b.basePath + ".path2.lst"
b.newListing1 = b.listing1 + "-new"
b.newListing2 = b.listing2 + "-new"
// Handle lock file
lockFile := ""
if !opt.DryRun {
lockFile = b.basePath + ".lck"
if bilib.FileExists(lockFile) {
return fmt.Errorf("prior lock file found: %s", lockFile)
}
pidStr := []byte(strconv.Itoa(os.Getpid()))
if err = os.WriteFile(lockFile, pidStr, bilib.PermSecure); err != nil {
return fmt.Errorf("cannot create lock file: %s: %w", lockFile, err)
}
fs.Debugf(nil, "Lock file created: %s", lockFile)
}
// Handle SIGINT
var finaliseOnce gosync.Once
markFailed := func(file string) {
failFile := file + "-err"
if bilib.FileExists(file) {
_ = os.Remove(failFile)
_ = os.Rename(file, failFile)
}
}
finalise := func() {
finaliseOnce.Do(func() {
if atexit.Signalled() {
fs.Logf(nil, "Bisync interrupted. Must run --resync to recover.")
markFailed(b.listing1)
markFailed(b.listing2)
_ = os.Remove(lockFile)
}
})
}
fnHandle := atexit.Register(finalise)
defer atexit.Unregister(fnHandle)
// run bisync
err = b.runLocked(ctx)
if lockFile != "" {
errUnlock := os.Remove(lockFile)
if errUnlock == nil {
fs.Debugf(nil, "Lock file removed: %s", lockFile)
} else if err == nil {
err = errUnlock
} else {
fs.Errorf(nil, "cannot remove lockfile %s: %v", lockFile, errUnlock)
}
}
if b.critical {
if b.retryable && b.opt.Resilient {
fs.Errorf(nil, Color(terminal.RedFg, "Bisync critical error: %v"), err)
fs.Errorf(nil, Color(terminal.YellowFg, "Bisync aborted. Error is retryable without --resync due to --resilient mode."))
} else {
if bilib.FileExists(b.listing1) {
_ = os.Rename(b.listing1, b.listing1+"-err")
}
if bilib.FileExists(b.listing2) {
_ = os.Rename(b.listing2, b.listing2+"-err")
}
fs.Errorf(nil, Color(terminal.RedFg, "Bisync critical error: %v"), err)
fs.Errorf(nil, Color(terminal.RedFg, "Bisync aborted. Must run --resync to recover."))
}
return ErrBisyncAborted
}
if b.abort {
fs.Logf(nil, Color(terminal.RedFg, "Bisync aborted. Please try again."))
}
if err == nil {
fs.Infof(nil, Color(terminal.GreenFg, "Bisync successful"))
}
return err
}
// runLocked performs a full bisync run
func (b *bisyncRun) runLocked(octx context.Context) (err error) {
opt := b.opt
path1 := bilib.FsPath(b.fs1)
path2 := bilib.FsPath(b.fs2)
if opt.CheckSync == CheckSyncOnly {
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
b.retryable = true
}
return err
}
fs.Infof(nil, "Synching Path1 %s with Path2 %s", quotePath(path1), quotePath(path2))
if opt.DryRun {
// In --dry-run mode, preserve original listings and save updates to the .lst-dry files
origListing1 := b.listing1
origListing2 := b.listing2
b.listing1 += "-dry"
b.listing2 += "-dry"
b.newListing1 = b.listing1 + "-new"
b.newListing2 = b.listing2 + "-new"
if err := bilib.CopyFileIfExists(origListing1, b.listing1); err != nil {
return err
}
if err := bilib.CopyFileIfExists(origListing2, b.listing2); err != nil {
return err
}
}
// Create second context with filters
var fctx context.Context
if fctx, err = b.opt.applyFilters(octx); err != nil {
b.critical = true
b.retryable = true
return
}
b.octx = octx
b.fctx = fctx
// Generate Path1 and Path2 listings and copy any unique Path2 files to Path1
if opt.Resync {
return b.resync(octx, fctx)
}
// Check for existence of prior Path1 and Path2 listings
if !bilib.FileExists(b.listing1) || !bilib.FileExists(b.listing2) {
// On prior critical error abort, the prior listings are renamed to .lst-err to lock out further runs
b.critical = true
b.retryable = true
return errors.New("cannot find prior Path1 or Path2 listings, likely due to critical error on prior run")
}
fs.Infof(nil, "Building Path1 and Path2 listings")
ls1, ls2, err = b.makeMarchListing(fctx)
if err != nil {
return err
}
// Check for Path1 deltas relative to the prior sync
fs.Infof(nil, "Path1 checking for diffs")
ds1, err := b.findDeltas(fctx, b.fs1, b.listing1, ls1, "Path1")
if err != nil {
return err
}
ds1.printStats()
// Check for Path2 deltas relative to the prior sync
fs.Infof(nil, "Path2 checking for diffs")
ds2, err := b.findDeltas(fctx, b.fs2, b.listing2, ls2, "Path2")
if err != nil {
return err
}
ds2.printStats()
// Check access health on the Path1 and Path2 filesystems
if opt.CheckAccess {
fs.Infof(nil, "Checking access health")
err = b.checkAccess(ds1.checkFiles, ds2.checkFiles)
if err != nil {
b.critical = true
b.retryable = true
return
}
}
// Check for too many deleted files - possible error condition.
// Don't want to start deleting on the other side!
if !opt.Force {
if ds1.excessDeletes() || ds2.excessDeletes() {
b.abort = true
return errors.New("too many deletes")
}
}
// Check for all files changed such as all dates changed due to DST change
// to avoid errant copy everything.
if !opt.Force {
msg := "Safety abort: all files were changed on %s %s. Run with --force if desired."
if !ds1.foundSame {
fs.Errorf(nil, msg, ds1.msg, quotePath(path1))
}
if !ds2.foundSame {
fs.Errorf(nil, msg, ds2.msg, quotePath(path2))
}
if !ds1.foundSame || !ds2.foundSame {
b.abort = true
return errors.New("all files were changed")
}
}
// Determine and apply changes to Path1 and Path2
noChanges := ds1.empty() && ds2.empty()
changes1 := false // 2to1
changes2 := false // 1to2
results2to1 := []Results{}
results1to2 := []Results{}
queues := queues{}
if noChanges {
fs.Infof(nil, "No changes found")
} else {
fs.Infof(nil, "Applying changes")
changes1, changes2, results2to1, results1to2, queues, err = b.applyDeltas(octx, ds1, ds2)
if err != nil {
b.critical = true
// b.retryable = true // not sure about this one
return err
}
}
// Clean up and check listings integrity
fs.Infof(nil, "Updating listings")
var err1, err2 error
b.saveOldListings()
// save new listings
if noChanges {
b.replaceCurrentListings()
} else {
if changes1 { // 2to1
err1 = b.modifyListing(fctx, b.fs2, b.fs1, results2to1, queues, false)
} else {
err1 = bilib.CopyFileIfExists(b.newListing1, b.listing1)
}
if changes2 { // 1to2
err2 = b.modifyListing(fctx, b.fs1, b.fs2, results1to2, queues, true)
} else {
err2 = bilib.CopyFileIfExists(b.newListing2, b.listing2)
}
}
err = err1
if err == nil {
err = err2
}
if err != nil {
b.critical = true
b.retryable = true
return err
}
if !opt.NoCleanup {
_ = os.Remove(b.newListing1)
_ = os.Remove(b.newListing2)
}
if opt.CheckSync == CheckSyncTrue && !opt.DryRun {
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
}
}
// Optional rmdirs for empty directories
if opt.RemoveEmptyDirs {
fs.Infof(nil, "Removing empty directories")
err1 := operations.Rmdirs(fctx, b.fs1, "", true)
err2 := operations.Rmdirs(fctx, b.fs2, "", true)
err := err1
if err == nil {
err = err2
}
if err != nil {
b.critical = true
b.retryable = true
return err
}
}
return nil
}
// resync implements the --resync mode.
// It will generate path1 and path2 listings
// and copy any unique path2 files to path1.
func (b *bisyncRun) resync(octx, fctx context.Context) error {
fs.Infof(nil, "Copying unique 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.abort = true
}
err = ls2.save(fctx, b.newListing2)
if err != nil {
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 UNIQUE files to")
ctxRun := b.opt.setDryRun(fctx)
// fctx has our extra filters added!
ctxSync, filterSync := filter.AddConfig(ctxRun)
if filterSync.Opt.MinSize == -1 {
// prevent overwriting Google Doc files (their size is -1)
filterSync.Opt.MinSize = 0
}
ci := fs.GetConfig(ctxSync)
ci.IgnoreExisting = true
if results2to1, err = b.resyncDir(ctxSync, b.fs2, b.fs1); err != nil {
b.critical = true
return err
}
b.indent("Path1", "Path2", "Resync is copying UNIQUE OR DIFFERING files to")
ci.IgnoreExisting = false
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()
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.NoCleanup {
_ = os.Remove(b.newListing1)
_ = os.Remove(b.newListing2)
}
return nil
}
// checkSync validates listings
func (b *bisyncRun) checkSync(listing1, listing2 string) error {
files1, err := b.loadListing(listing1)
if err != nil {
return fmt.Errorf("cannot read prior listing of Path1: %w", err)
}
files2, err := b.loadListing(listing2)
if err != nil {
return fmt.Errorf("cannot read prior listing of Path2: %w", err)
}
transformList := func(files *fileList, fs fs.Fs) *fileList {
transformed := newFileList()
for _, file := range files.list {
f := files.get(file)
transformed.put(ApplyTransforms(b.fctx, fs, file), f.size, f.time, f.hash, f.id, f.flags)
}
return transformed
}
files1Transformed := transformList(files1, b.fs1)
files2Transformed := transformList(files2, b.fs2)
// DEBUG
fs.Debugf(nil, "files1Transformed: %v", files1Transformed)
fs.Debugf(nil, "files2Transformed: %v", files2Transformed)
ok := true
for _, file := range files1.list {
if !files2.has(file) && !files2Transformed.has(ApplyTransforms(b.fctx, b.fs1, file)) {
b.indent("ERROR", file, "Path1 file not found in Path2")
ok = false
}
}
for _, file := range files2.list {
if !files1.has(file) && !files1Transformed.has(ApplyTransforms(b.fctx, b.fs2, file)) {
b.indent("ERROR", file, "Path2 file not found in Path1")
ok = false
}
}
if !ok {
return errors.New("path1 and path2 are out of sync, run --resync to recover")
}
return nil
}
// checkAccess validates access health
func (b *bisyncRun) checkAccess(checkFiles1, checkFiles2 bilib.Names) error {
ok := true
opt := b.opt
prefix := "Access test failed:"
numChecks1 := len(checkFiles1)
numChecks2 := len(checkFiles2)
if numChecks1 == 0 || numChecks1 != numChecks2 {
fs.Errorf(nil, "%s Path1 count %d, Path2 count %d - %s", prefix, numChecks1, numChecks2, opt.CheckFilename)
ok = false
}
for file := range checkFiles1 {
if !checkFiles2.Has(file) {
b.indentf("ERROR", file, "%s Path1 file not found in Path2", prefix)
ok = false
}
}
for file := range checkFiles2 {
if !checkFiles1.Has(file) {
b.indentf("ERROR", file, "%s Path2 file not found in Path1", prefix)
ok = false
}
}
if !ok {
return errors.New("check file check failed")
}
fs.Infof(nil, "Found %d matching %q files on both paths", numChecks1, opt.CheckFilename)
return nil
}
func (b *bisyncRun) testFn() {
if b.opt.TestFn != nil {
b.opt.TestFn()
}
}
func (b *bisyncRun) handleErr(o interface{}, msg string, err error, critical, retryable bool) {
if err != nil {
if retryable {
b.retryable = true
}
if critical {
b.critical = true
fs.Errorf(o, "%s: %v", msg, err)
} else {
fs.Debugf(o, "%s: %v", msg, err)
}
}
}