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mirror of https://github.com/rclone/rclone synced 2024-11-27 05:23:40 +01:00
rclone/cmd/bisync/queue.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

391 lines
11 KiB
Go

package bisync
import (
"context"
"encoding/json"
"fmt"
"io"
"sort"
mutex "sync" // renamed as "sync" already in use
"time"
"github.com/rclone/rclone/cmd/bisync/bilib"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/accounting"
"github.com/rclone/rclone/fs/filter"
"github.com/rclone/rclone/fs/hash"
"github.com/rclone/rclone/fs/operations"
"github.com/rclone/rclone/fs/sync"
"github.com/rclone/rclone/lib/terminal"
)
// Results represents a pair of synced files, as reported by the LoggerFn
// Bisync uses this to determine what happened during the sync, and modify the listings accordingly
type Results struct {
Src string
Dst string
Name string
AltName string
Size int64
Modtime time.Time
Hash string
Flags string
Sigil operations.Sigil
Err error
Winner operations.Winner
IsWinner bool
IsSrc bool
IsDst bool
Origin string
}
// ResultsSlice is a slice of Results (obviously)
type ResultsSlice []Results
func (rs *ResultsSlice) has(name string) bool {
for _, r := range *rs {
if r.Name == name {
return true
}
}
return false
}
var (
logger = operations.NewLoggerOpt()
lock mutex.Mutex
once mutex.Once
ignoreListingChecksum bool
ignoreListingModtime bool
hashTypes map[string]hash.Type
queueCI *fs.ConfigInfo
)
// allows us to get the right hashtype during the LoggerFn without knowing whether it's Path1/Path2
func getHashType(fname string) hash.Type {
ht, ok := hashTypes[fname]
if ok {
return ht
}
return hash.None
}
// FsPathIfAny handles type assertions and returns a formatted bilib.FsPath if valid, otherwise ""
func FsPathIfAny(x fs.DirEntry) string {
obj, ok := x.(fs.Object)
if x != nil && ok {
return bilib.FsPath(obj.Fs())
}
return ""
}
func resultName(result Results, side, src, dst fs.DirEntry) string {
if side != nil {
return side.Remote()
} else if result.IsSrc && dst != nil {
return dst.Remote()
} else if src != nil {
return src.Remote()
}
return ""
}
// returns the opposite side's name, only if different
func altName(name string, src, dst fs.DirEntry) string {
if src != nil && dst != nil {
if src.Remote() != dst.Remote() {
switch name {
case src.Remote():
return dst.Remote()
case dst.Remote():
return src.Remote()
}
}
}
return ""
}
// WriteResults is Bisync's LoggerFn
func WriteResults(ctx context.Context, sigil operations.Sigil, src, dst fs.DirEntry, err error) {
lock.Lock()
defer lock.Unlock()
opt := operations.GetLoggerOpt(ctx)
result := Results{
Sigil: sigil,
Src: FsPathIfAny(src),
Dst: FsPathIfAny(dst),
Err: err,
Origin: "sync",
}
result.Winner = operations.WinningSide(ctx, sigil, src, dst, err)
fss := []fs.DirEntry{src, dst}
for i, side := range fss {
result.Name = resultName(result, side, src, dst)
result.AltName = altName(result.Name, src, dst)
result.IsSrc = i == 0
result.IsDst = i == 1
result.Flags = "-"
if side != nil {
result.Size = side.Size()
if !ignoreListingModtime {
result.Modtime = side.ModTime(ctx).In(TZ)
}
if !ignoreListingChecksum {
sideObj, ok := side.(fs.ObjectInfo)
if ok {
result.Hash, _ = sideObj.Hash(ctx, getHashType(sideObj.Fs().Name()))
result.Hash, _ = tryDownloadHash(ctx, sideObj, result.Hash)
}
}
}
result.IsWinner = result.Winner.Obj == side
// used during resync only
if err == fs.ErrorIsDir {
if src != nil {
result.Src = src.Remote()
result.Name = src.Remote()
} else {
result.Dst = dst.Remote()
result.Name = dst.Remote()
}
result.Flags = "d"
result.Size = -1
}
prettyprint(result, "writing result", fs.LogLevelDebug)
if result.Size < 0 && result.Flags != "d" && ((queueCI.CheckSum && !downloadHash) || queueCI.SizeOnly) {
once.Do(func() {
fs.Logf(result.Name, Color(terminal.YellowFg, "Files of unknown size (such as Google Docs) do not sync reliably with --checksum or --size-only. Consider using modtime instead (the default) or --drive-skip-gdocs")) //nolint:govet
})
}
err := json.NewEncoder(opt.JSON).Encode(result)
if err != nil {
fs.Errorf(result, "Error encoding JSON: %v", err)
}
}
}
// ReadResults decodes the JSON data from WriteResults
func ReadResults(results io.Reader) []Results {
dec := json.NewDecoder(results)
var slice []Results
for {
var r Results
if err := dec.Decode(&r); err == io.EOF {
break
}
prettyprint(r, "result", fs.LogLevelDebug)
slice = append(slice, r)
}
return slice
}
// for setup code shared by both fastCopy and resyncDir
func (b *bisyncRun) preCopy(ctx context.Context) context.Context {
queueCI = fs.GetConfig(ctx)
ignoreListingChecksum = b.opt.IgnoreListingChecksum
ignoreListingModtime = !b.opt.Compare.Modtime
hashTypes = map[string]hash.Type{
b.fs1.Name(): b.opt.Compare.HashType1,
b.fs2.Name(): b.opt.Compare.HashType2,
}
logger.LoggerFn = WriteResults
overridingEqual := false
if (b.opt.Compare.Modtime && b.opt.Compare.Checksum) || b.opt.Compare.DownloadHash {
overridingEqual = true
fs.Debugf(nil, "overriding equal")
// otherwise impossible in Sync, so override Equal
ctx = b.EqualFn(ctx)
}
if b.opt.ResyncMode == PreferOlder || b.opt.ResyncMode == PreferLarger || b.opt.ResyncMode == PreferSmaller {
overridingEqual = true
fs.Debugf(nil, "overriding equal")
ctx = b.EqualFn(ctx)
}
ctxCopyLogger := operations.WithSyncLogger(ctx, logger)
if b.opt.Compare.Checksum && (b.opt.Compare.NoSlowHash || b.opt.Compare.SlowHashSyncOnly) && b.opt.Compare.SlowHashDetected {
// set here in case !b.opt.Compare.Modtime
queueCI = fs.GetConfig(ctxCopyLogger)
if b.opt.Compare.NoSlowHash {
queueCI.CheckSum = false
}
if b.opt.Compare.SlowHashSyncOnly && !overridingEqual {
queueCI.CheckSum = true
}
}
return ctxCopyLogger
}
func (b *bisyncRun) fastCopy(ctx context.Context, fsrc, fdst fs.Fs, files bilib.Names, queueName string) ([]Results, error) {
if b.InGracefulShutdown {
return nil, nil
}
ctx = b.preCopy(ctx)
if err := b.saveQueue(files, queueName); err != nil {
return nil, err
}
ctxCopy, filterCopy := filter.AddConfig(b.opt.setDryRun(ctx))
for _, file := range files.ToList() {
if err := filterCopy.AddFile(file); err != nil {
return nil, err
}
alias := b.aliases.Alias(file)
if alias != file {
if err := filterCopy.AddFile(alias); err != nil {
return nil, err
}
}
}
b.SyncCI = fs.GetConfig(ctxCopy) // allows us to request graceful shutdown
accounting.MaxCompletedTransfers = -1 // we need a complete list in the event of graceful shutdown
ctxCopy, b.CancelSync = context.WithCancel(ctxCopy)
b.testFn()
err := sync.Sync(ctxCopy, fdst, fsrc, b.opt.CreateEmptySrcDirs)
prettyprint(logger, "logger", fs.LogLevelDebug)
getResults := ReadResults(logger.JSON)
fs.Debugf(nil, "Got %v results for %v", len(getResults), queueName)
lineFormat := "%s %8d %s %s %s %q\n"
for _, result := range getResults {
fs.Debugf(nil, lineFormat, result.Flags, result.Size, result.Hash, "", result.Modtime, result.Name)
}
return getResults, err
}
func (b *bisyncRun) retryFastCopy(ctx context.Context, fsrc, fdst fs.Fs, files bilib.Names, queueName string, results []Results, err error) ([]Results, error) {
ci := fs.GetConfig(ctx)
if err != nil && b.opt.Resilient && !b.InGracefulShutdown && ci.Retries > 1 {
for tries := 1; tries <= ci.Retries; tries++ {
fs.Logf(queueName, Color(terminal.YellowFg, "Received error: %v - retrying as --resilient is set. Retry %d/%d"), err, tries, ci.Retries)
accounting.GlobalStats().ResetErrors()
if retryAfter := accounting.GlobalStats().RetryAfter(); !retryAfter.IsZero() {
d := time.Until(retryAfter)
if d > 0 {
fs.Logf(nil, "Received retry after error - sleeping until %s (%v)", retryAfter.Format(time.RFC3339Nano), d)
time.Sleep(d)
}
}
if ci.RetriesInterval > 0 {
naptime(ci.RetriesInterval)
}
results, err = b.fastCopy(ctx, fsrc, fdst, files, queueName)
if err == nil || b.InGracefulShutdown {
return results, err
}
}
}
return results, err
}
func (b *bisyncRun) resyncDir(ctx context.Context, fsrc, fdst fs.Fs) ([]Results, error) {
ctx = b.preCopy(ctx)
err := sync.CopyDir(ctx, fdst, fsrc, b.opt.CreateEmptySrcDirs)
prettyprint(logger, "logger", fs.LogLevelDebug)
getResults := ReadResults(logger.JSON)
fs.Debugf(nil, "Got %v results for %v", len(getResults), "resync")
return getResults, err
}
// operation should be "make" or "remove"
func (b *bisyncRun) syncEmptyDirs(ctx context.Context, dst fs.Fs, candidates bilib.Names, dirsList *fileList, results *[]Results, operation string) {
if b.InGracefulShutdown {
return
}
fs.Debugf(nil, "syncing empty dirs")
if b.opt.CreateEmptySrcDirs && (!b.opt.Resync || operation == "make") {
candidatesList := candidates.ToList()
if operation == "remove" {
// reverse the sort order to ensure we remove subdirs before parent dirs
sort.Sort(sort.Reverse(sort.StringSlice(candidatesList)))
}
for _, s := range candidatesList {
var direrr error
if dirsList.has(s) { // make sure it's a dir, not a file
r := Results{}
r.Name = s
r.Size = -1
r.Modtime = dirsList.getTime(s).In(time.UTC)
r.Flags = "d"
r.Err = nil
r.Origin = "syncEmptyDirs"
r.Winner = operations.Winner{ // note: Obj not set
Side: "src",
Err: nil,
}
rSrc := r
rDst := r
rSrc.IsSrc = true
rSrc.IsDst = false
rDst.IsSrc = false
rDst.IsDst = true
rSrc.IsWinner = true
rDst.IsWinner = false
if operation == "remove" {
// directories made empty by the sync will have already been deleted during the sync
// this just catches the already-empty ones (excluded from sync by --files-from filter)
direrr = operations.TryRmdir(ctx, dst, s)
rSrc.Sigil = operations.MissingOnSrc
rDst.Sigil = operations.MissingOnSrc
rSrc.Dst = s
rDst.Dst = s
rSrc.Winner.Side = "none"
rDst.Winner.Side = "none"
} else if operation == "make" {
direrr = operations.Mkdir(ctx, dst, s)
rSrc.Sigil = operations.MissingOnDst
rDst.Sigil = operations.MissingOnDst
rSrc.Src = s
rDst.Src = s
} else {
direrr = fmt.Errorf("invalid operation. Expected 'make' or 'remove', received '%q'", operation)
}
if direrr != nil {
fs.Debugf(nil, "Error syncing directory: %v", direrr)
} else {
*results = append(*results, rSrc, rDst)
}
}
}
}
}
func (b *bisyncRun) saveQueue(files bilib.Names, jobName string) error {
if !b.opt.SaveQueues {
return nil
}
queueFile := fmt.Sprintf("%s.%s.que", b.basePath, jobName)
return files.Save(queueFile)
}
func naptime(totalWait time.Duration) {
expireTime := time.Now().Add(totalWait)
fs.Logf(nil, "will retry in %v at %v", totalWait, expireTime.Format("2006-01-02 15:04:05 MST"))
for i := 0; time.Until(expireTime) > 0; i++ {
if i > 0 && i%10 == 0 {
fs.Infof(nil, Color(terminal.Dim, "retrying in %v..."), time.Until(expireTime).Round(1*time.Second))
} else {
fs.Debugf(nil, Color(terminal.Dim, "retrying in %v..."), time.Until(expireTime).Round(1*time.Second))
}
time.Sleep(1 * time.Second)
}
}