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restic/archiver.go
Alexander Neumann 4f1f03cdb9 Move testing for known blobs to Archiver
This removes the list of in-flight blobs from the master index and
instead keeps a list of "known" blobs in the Archiver. "known" here
means: either already processed, or included in an index. This property
is tested atomically, when the blob is not in the list of "known" blobs,
it is added to the list and the caller is responsible to make this
happen (i.e. save the blob).
2016-02-01 23:50:56 +01:00

798 lines
18 KiB
Go

package restic
import (
"crypto/sha256"
"encoding/json"
"fmt"
"io"
"os"
"path/filepath"
"sort"
"sync"
"time"
"github.com/restic/chunker"
"github.com/restic/restic/backend"
"github.com/restic/restic/debug"
"github.com/restic/restic/pack"
"github.com/restic/restic/pipe"
"github.com/restic/restic/repository"
"github.com/juju/errors"
)
const (
maxConcurrentBlobs = 32
maxConcurrency = 10
)
var archiverAbortOnAllErrors = func(str string, fi os.FileInfo, err error) error { return err }
var archiverAllowAllFiles = func(string, os.FileInfo) bool { return true }
// Archiver is used to backup a set of directories.
type Archiver struct {
repo *repository.Repository
knownBlobs struct {
backend.IDSet
sync.Mutex
}
blobToken chan struct{}
Error func(dir string, fi os.FileInfo, err error) error
SelectFilter pipe.SelectFunc
Excludes []string
}
// NewArchiver returns a new archiver.
func NewArchiver(repo *repository.Repository) *Archiver {
arch := &Archiver{
repo: repo,
blobToken: make(chan struct{}, maxConcurrentBlobs),
knownBlobs: struct {
backend.IDSet
sync.Mutex
}{
IDSet: backend.NewIDSet(),
},
}
for i := 0; i < maxConcurrentBlobs; i++ {
arch.blobToken <- struct{}{}
}
arch.Error = archiverAbortOnAllErrors
arch.SelectFilter = archiverAllowAllFiles
return arch
}
// isKnownBlob returns true iff the blob is not yet in the list of known blobs.
// When the blob is not known, false is returned and the blob is added to the
// list. This means that the caller false is returned to is responsible to save
// the blob to the backend.
func (arch *Archiver) isKnownBlob(id backend.ID) bool {
arch.knownBlobs.Lock()
defer arch.knownBlobs.Unlock()
if arch.knownBlobs.Has(id) {
return true
}
arch.knownBlobs.Insert(id)
_, err := arch.repo.Index().Lookup(id)
if err == nil {
return true
}
return false
}
// Save stores a blob read from rd in the repository.
func (arch *Archiver) Save(t pack.BlobType, id backend.ID, length uint, rd io.Reader) error {
debug.Log("Archiver.Save", "Save(%v, %v)\n", t, id.Str())
if arch.isKnownBlob(id) {
debug.Log("Archiver.Save", "blob %v is known\n", id.Str())
return nil
}
err := arch.repo.SaveFrom(t, &id, length, rd)
if err != nil {
debug.Log("Archiver.Save", "Save(%v, %v): error %v\n", t, id.Str(), err)
return err
}
debug.Log("Archiver.Save", "Save(%v, %v): new blob\n", t, id.Str())
return nil
}
// SaveTreeJSON stores a tree in the repository.
func (arch *Archiver) SaveTreeJSON(item interface{}) (backend.ID, error) {
data, err := json.Marshal(item)
if err != nil {
return backend.ID{}, err
}
data = append(data, '\n')
// check if tree has been saved before
id := backend.Hash(data)
if arch.isKnownBlob(id) {
return id, nil
}
return arch.repo.SaveJSON(pack.Tree, item)
}
func (arch *Archiver) reloadFileIfChanged(node *Node, file *os.File) (*Node, error) {
fi, err := file.Stat()
if err != nil {
return nil, err
}
if fi.ModTime() == node.ModTime {
return node, nil
}
err = arch.Error(node.path, fi, errors.New("file has changed"))
if err != nil {
return nil, err
}
node, err = NodeFromFileInfo(node.path, fi)
if err != nil {
debug.Log("Archiver.SaveFile", "NodeFromFileInfo returned error for %v: %v", node.path, err)
return nil, err
}
return node, nil
}
type saveResult struct {
id backend.ID
bytes uint64
}
func (arch *Archiver) saveChunk(chunk *chunker.Chunk, p *Progress, token struct{}, file *os.File, resultChannel chan<- saveResult) {
hash := chunk.Digest
id := backend.ID{}
copy(id[:], hash)
err := arch.Save(pack.Data, id, chunk.Length, chunk.Reader(file))
// TODO handle error
if err != nil {
panic(err)
}
p.Report(Stat{Bytes: uint64(chunk.Length)})
arch.blobToken <- token
resultChannel <- saveResult{id: id, bytes: uint64(chunk.Length)}
}
func waitForResults(resultChannels [](<-chan saveResult)) ([]saveResult, error) {
results := []saveResult{}
for _, ch := range resultChannels {
results = append(results, <-ch)
}
if len(results) != len(resultChannels) {
return nil, fmt.Errorf("chunker returned %v chunks, but only %v blobs saved", len(resultChannels), len(results))
}
return results, nil
}
func updateNodeContent(node *Node, results []saveResult) error {
debug.Log("Archiver.Save", "checking size for file %s", node.path)
var bytes uint64
node.Content = make([]backend.ID, len(results))
for i, b := range results {
node.Content[i] = b.id
bytes += b.bytes
debug.Log("Archiver.Save", " adding blob %s, %d bytes", b.id.Str(), b.bytes)
}
if bytes != node.Size {
return fmt.Errorf("errors saving node %q: saved %d bytes, wanted %d bytes", node.path, bytes, node.Size)
}
debug.Log("Archiver.SaveFile", "SaveFile(%q): %v blobs\n", node.path, len(results))
return nil
}
// SaveFile stores the content of the file on the backend as a Blob by calling
// Save for each chunk.
func (arch *Archiver) SaveFile(p *Progress, node *Node) error {
file, err := node.OpenForReading()
defer file.Close()
if err != nil {
return err
}
node, err = arch.reloadFileIfChanged(node, file)
if err != nil {
return err
}
chnker := chunker.New(file, arch.repo.Config.ChunkerPolynomial, sha256.New())
resultChannels := [](<-chan saveResult){}
for {
chunk, err := chnker.Next()
if err == io.EOF {
break
}
if err != nil {
return errors.Annotate(err, "SaveFile() chunker.Next()")
}
resCh := make(chan saveResult, 1)
go arch.saveChunk(chunk, p, <-arch.blobToken, file, resCh)
resultChannels = append(resultChannels, resCh)
}
results, err := waitForResults(resultChannels)
if err != nil {
return err
}
err = updateNodeContent(node, results)
return err
}
func (arch *Archiver) fileWorker(wg *sync.WaitGroup, p *Progress, done <-chan struct{}, entCh <-chan pipe.Entry) {
defer func() {
debug.Log("Archiver.fileWorker", "done")
wg.Done()
}()
for {
select {
case e, ok := <-entCh:
if !ok {
// channel is closed
return
}
debug.Log("Archiver.fileWorker", "got job %v", e)
// check for errors
if e.Error() != nil {
debug.Log("Archiver.fileWorker", "job %v has errors: %v", e.Path(), e.Error())
// TODO: integrate error reporting
fmt.Fprintf(os.Stderr, "error for %v: %v\n", e.Path(), e.Error())
// ignore this file
e.Result() <- nil
p.Report(Stat{Errors: 1})
continue
}
node, err := NodeFromFileInfo(e.Fullpath(), e.Info())
if err != nil {
// TODO: integrate error reporting
debug.Log("Archiver.fileWorker", "NodeFromFileInfo returned error for %v: %v", node.path, err)
e.Result() <- nil
p.Report(Stat{Errors: 1})
continue
}
// try to use old node, if present
if e.Node != nil {
debug.Log("Archiver.fileWorker", " %v use old data", e.Path())
oldNode := e.Node.(*Node)
// check if all content is still available in the repository
contentMissing := false
for _, blob := range oldNode.blobs {
if ok, err := arch.repo.Backend().Test(backend.Data, blob.Storage.String()); !ok || err != nil {
debug.Log("Archiver.fileWorker", " %v not using old data, %v (%v) is missing", e.Path(), blob.ID.Str(), blob.Storage.Str())
contentMissing = true
break
}
}
if !contentMissing {
node.Content = oldNode.Content
node.blobs = oldNode.blobs
debug.Log("Archiver.fileWorker", " %v content is complete", e.Path())
}
} else {
debug.Log("Archiver.fileWorker", " %v no old data", e.Path())
}
// otherwise read file normally
if node.Type == "file" && len(node.Content) == 0 {
debug.Log("Archiver.fileWorker", " read and save %v, content: %v", e.Path(), node.Content)
err = arch.SaveFile(p, node)
if err != nil {
// TODO: integrate error reporting
fmt.Fprintf(os.Stderr, "error for %v: %v\n", node.path, err)
// ignore this file
e.Result() <- nil
p.Report(Stat{Errors: 1})
continue
}
} else {
// report old data size
p.Report(Stat{Bytes: node.Size})
}
debug.Log("Archiver.fileWorker", " processed %v, %d/%d blobs", e.Path(), len(node.Content), len(node.blobs))
e.Result() <- node
p.Report(Stat{Files: 1})
case <-done:
// pipeline was cancelled
return
}
}
}
func (arch *Archiver) dirWorker(wg *sync.WaitGroup, p *Progress, done <-chan struct{}, dirCh <-chan pipe.Dir) {
debug.Log("Archiver.dirWorker", "start")
defer func() {
debug.Log("Archiver.dirWorker", "done")
wg.Done()
}()
for {
select {
case dir, ok := <-dirCh:
if !ok {
// channel is closed
return
}
debug.Log("Archiver.dirWorker", "save dir %v (%d entries), error %v\n", dir.Path(), len(dir.Entries), dir.Error())
// ignore dir nodes with errors
if dir.Error() != nil {
dir.Result() <- nil
p.Report(Stat{Errors: 1})
continue
}
tree := NewTree()
// wait for all content
for _, ch := range dir.Entries {
debug.Log("Archiver.dirWorker", "receiving result from %v", ch)
res := <-ch
// if we get a nil pointer here, an error has happened while
// processing this entry. Ignore it for now.
if res == nil {
continue
}
// else insert node
node := res.(*Node)
tree.Insert(node)
if node.Type == "dir" {
debug.Log("Archiver.dirWorker", "got tree node for %s: %v", node.path, node.blobs)
if node.Subtree.IsNull() {
panic("invalid null subtree ID")
}
}
}
node := &Node{}
if dir.Path() != "" && dir.Info() != nil {
n, err := NodeFromFileInfo(dir.Path(), dir.Info())
if err != nil {
n.Error = err.Error()
dir.Result() <- n
continue
}
node = n
}
if err := dir.Error(); err != nil {
node.Error = err.Error()
}
id, err := arch.SaveTreeJSON(tree)
if err != nil {
panic(err)
}
debug.Log("Archiver.dirWorker", "save tree for %s: %v", dir.Path(), id.Str())
if id.IsNull() {
panic("invalid null subtree ID return from SaveTreeJSON()")
}
node.Subtree = &id
debug.Log("Archiver.dirWorker", "sending result to %v", dir.Result())
dir.Result() <- node
if dir.Path() != "" {
p.Report(Stat{Dirs: 1})
}
case <-done:
// pipeline was cancelled
return
}
}
}
type archivePipe struct {
Old <-chan WalkTreeJob
New <-chan pipe.Job
}
func copyJobs(done <-chan struct{}, in <-chan pipe.Job, out chan<- pipe.Job) {
var (
// disable sending on the outCh until we received a job
outCh chan<- pipe.Job
// enable receiving from in
inCh = in
job pipe.Job
ok bool
)
for {
select {
case <-done:
return
case job, ok = <-inCh:
if !ok {
// input channel closed, we're done
debug.Log("copyJobs", "input channel closed, we're done")
return
}
inCh = nil
outCh = out
case outCh <- job:
outCh = nil
inCh = in
}
}
}
type archiveJob struct {
hasOld bool
old WalkTreeJob
new pipe.Job
}
func (a *archivePipe) compare(done <-chan struct{}, out chan<- pipe.Job) {
defer func() {
close(out)
debug.Log("ArchivePipe.compare", "done")
}()
debug.Log("ArchivePipe.compare", "start")
var (
loadOld, loadNew bool = true, true
ok bool
oldJob WalkTreeJob
newJob pipe.Job
)
for {
if loadOld {
oldJob, ok = <-a.Old
// if the old channel is closed, just pass through the new jobs
if !ok {
debug.Log("ArchivePipe.compare", "old channel is closed, copy from new channel")
// handle remaining newJob
if !loadNew {
out <- archiveJob{new: newJob}.Copy()
}
copyJobs(done, a.New, out)
return
}
loadOld = false
}
if loadNew {
newJob, ok = <-a.New
// if the new channel is closed, there are no more files in the current snapshot, return
if !ok {
debug.Log("ArchivePipe.compare", "new channel is closed, we're done")
return
}
loadNew = false
}
debug.Log("ArchivePipe.compare", "old job: %v", oldJob.Path)
debug.Log("ArchivePipe.compare", "new job: %v", newJob.Path())
// at this point we have received an old job as well as a new job, compare paths
file1 := oldJob.Path
file2 := newJob.Path()
dir1 := filepath.Dir(file1)
dir2 := filepath.Dir(file2)
if file1 == file2 {
debug.Log("ArchivePipe.compare", " same filename %q", file1)
// send job
out <- archiveJob{hasOld: true, old: oldJob, new: newJob}.Copy()
loadOld = true
loadNew = true
continue
} else if dir1 < dir2 {
debug.Log("ArchivePipe.compare", " %q < %q, file %q added", dir1, dir2, file2)
// file is new, send new job and load new
loadNew = true
out <- archiveJob{new: newJob}.Copy()
continue
} else if dir1 == dir2 {
if file1 < file2 {
debug.Log("ArchivePipe.compare", " %q < %q, file %q removed", file1, file2, file1)
// file has been removed, load new old
loadOld = true
continue
} else {
debug.Log("ArchivePipe.compare", " %q > %q, file %q added", file1, file2, file2)
// file is new, send new job and load new
loadNew = true
out <- archiveJob{new: newJob}.Copy()
continue
}
}
debug.Log("ArchivePipe.compare", " %q > %q, file %q removed", file1, file2, file1)
// file has been removed, throw away old job and load new
loadOld = true
}
}
func (j archiveJob) Copy() pipe.Job {
if !j.hasOld {
return j.new
}
// handle files
if isRegularFile(j.new.Info()) {
debug.Log("archiveJob.Copy", " job %v is file", j.new.Path())
// if type has changed, return new job directly
if j.old.Node == nil {
return j.new
}
// if file is newer, return the new job
if j.old.Node.isNewer(j.new.Fullpath(), j.new.Info()) {
debug.Log("archiveJob.Copy", " job %v is newer", j.new.Path())
return j.new
}
debug.Log("archiveJob.Copy", " job %v add old data", j.new.Path())
// otherwise annotate job with old data
e := j.new.(pipe.Entry)
e.Node = j.old.Node
return e
}
// dirs and other types are just returned
return j.new
}
const saveIndexTime = 30 * time.Second
// saveIndexes regularly queries the master index for full indexes and saves them.
func (arch *Archiver) saveIndexes(wg *sync.WaitGroup, done <-chan struct{}) {
defer wg.Done()
ticker := time.NewTicker(saveIndexTime)
defer ticker.Stop()
for {
select {
case <-done:
return
case <-ticker.C:
debug.Log("Archiver.saveIndexes", "saving full indexes")
err := arch.repo.SaveFullIndex()
if err != nil {
debug.Log("Archiver.saveIndexes", "save indexes returned an error: %v", err)
fmt.Fprintf(os.Stderr, "error saving preliminary index: %v\n", err)
}
}
}
}
// Snapshot creates a snapshot of the given paths. If parentID is set, this is
// used to compare the files to the ones archived at the time this snapshot was
// taken.
func (arch *Archiver) Snapshot(p *Progress, paths []string, parentID *backend.ID) (*Snapshot, backend.ID, error) {
debug.Log("Archiver.Snapshot", "start for %v", paths)
debug.RunHook("Archiver.Snapshot", nil)
sort.Strings(paths)
// signal the whole pipeline to stop
done := make(chan struct{})
var err error
p.Start()
defer p.Done()
// create new snapshot
sn, err := NewSnapshot(paths)
if err != nil {
return nil, backend.ID{}, err
}
sn.Excludes = arch.Excludes
jobs := archivePipe{}
// use parent snapshot (if some was given)
if parentID != nil {
sn.Parent = parentID
// load parent snapshot
parent, err := LoadSnapshot(arch.repo, *parentID)
if err != nil {
return nil, backend.ID{}, err
}
// start walker on old tree
ch := make(chan WalkTreeJob)
go WalkTree(arch.repo, *parent.Tree, done, ch)
jobs.Old = ch
} else {
// use closed channel
ch := make(chan WalkTreeJob)
close(ch)
jobs.Old = ch
}
// start walker
pipeCh := make(chan pipe.Job)
resCh := make(chan pipe.Result, 1)
go func() {
pipe.Walk(paths, arch.SelectFilter, done, pipeCh, resCh)
debug.Log("Archiver.Snapshot", "pipe.Walk done")
}()
jobs.New = pipeCh
ch := make(chan pipe.Job)
go jobs.compare(done, ch)
var wg sync.WaitGroup
entCh := make(chan pipe.Entry)
dirCh := make(chan pipe.Dir)
// split
wg.Add(1)
go func() {
pipe.Split(ch, dirCh, entCh)
debug.Log("Archiver.Snapshot", "split done")
close(dirCh)
close(entCh)
wg.Done()
}()
// run workers
for i := 0; i < maxConcurrency; i++ {
wg.Add(2)
go arch.fileWorker(&wg, p, done, entCh)
go arch.dirWorker(&wg, p, done, dirCh)
}
// run index saver
var wgIndexSaver sync.WaitGroup
stopIndexSaver := make(chan struct{})
wgIndexSaver.Add(1)
go arch.saveIndexes(&wgIndexSaver, stopIndexSaver)
// wait for all workers to terminate
debug.Log("Archiver.Snapshot", "wait for workers")
wg.Wait()
// stop index saver
close(stopIndexSaver)
wgIndexSaver.Wait()
debug.Log("Archiver.Snapshot", "workers terminated")
// receive the top-level tree
root := (<-resCh).(*Node)
debug.Log("Archiver.Snapshot", "root node received: %v", root.Subtree.Str())
sn.Tree = root.Subtree
// save snapshot
id, err := arch.repo.SaveJSONUnpacked(backend.Snapshot, sn)
if err != nil {
return nil, backend.ID{}, err
}
// store ID in snapshot struct
sn.id = &id
debug.Log("Archiver.Snapshot", "saved snapshot %v", id.Str())
// flush repository
err = arch.repo.Flush()
if err != nil {
return nil, backend.ID{}, err
}
// save index
err = arch.repo.SaveIndex()
if err != nil {
debug.Log("Archiver.Snapshot", "error saving index: %v", err)
return nil, backend.ID{}, err
}
debug.Log("Archiver.Snapshot", "saved indexes")
return sn, id, nil
}
func isRegularFile(fi os.FileInfo) bool {
if fi == nil {
return false
}
return fi.Mode()&(os.ModeType|os.ModeCharDevice) == 0
}
// Scan traverses the dirs to collect Stat information while emitting progress
// information with p.
func Scan(dirs []string, filter pipe.SelectFunc, p *Progress) (Stat, error) {
p.Start()
defer p.Done()
var stat Stat
for _, dir := range dirs {
debug.Log("Scan", "Start for %v", dir)
err := filepath.Walk(dir, func(str string, fi os.FileInfo, err error) error {
// TODO: integrate error reporting
if err != nil {
fmt.Fprintf(os.Stderr, "error for %v: %v\n", str, err)
return nil
}
if fi == nil {
fmt.Fprintf(os.Stderr, "error for %v: FileInfo is nil\n", str)
return nil
}
if !filter(str, fi) {
debug.Log("Scan.Walk", "path %v excluded", str)
if fi.IsDir() {
return filepath.SkipDir
}
return nil
}
s := Stat{}
if fi.IsDir() {
s.Dirs++
} else {
s.Files++
if isRegularFile(fi) {
s.Bytes += uint64(fi.Size())
}
}
p.Report(s)
stat.Add(s)
// TODO: handle error?
return nil
})
debug.Log("Scan", "Done for %v, err: %v", dir, err)
if err != nil {
return Stat{}, err
}
}
return stat, nil
}