func (dr *DescribeRequest) describeReally(br blob.Ref, depth int) { mime, size, err := dr.sh.index.GetBlobMIMEType(br) if err == os.ErrNotExist { return } if err != nil { dr.addError(br, err) return } // TODO: convert all this in terms of // DescribedBlob/DescribedPermanode/DescribedFile, not json // maps. Then add JSON marhsallers to those types. Add tests. des := dr.describedBlob(br) des.setMIMEType(mime) des.Size = size switch des.CamliType { case "permanode": des.Permanode = new(DescribedPermanode) dr.populatePermanodeFields(des.Permanode, br, dr.sh.owner, depth) case "file": var err error des.File, err = dr.sh.index.GetFileInfo(br) if err != nil { if os.IsNotExist(err) { log.Printf("index.GetFileInfo(file %s) failed; index stale?", br) } else { dr.addError(br, err) } return } if des.File.IsImage() { des.Image, err = dr.sh.index.GetImageInfo(br) if err != nil { if os.IsNotExist(err) { log.Printf("index.GetImageInfo(file %s) failed; index stale?", br) } else { dr.addError(br, err) } } } case "directory": var g syncutil.Group g.Go(func() (err error) { des.Dir, err = dr.sh.index.GetFileInfo(br) if os.IsNotExist(err) { log.Printf("index.GetFileInfo(directory %s) failed; index stale?", br) } return }) g.Go(func() (err error) { des.DirChildren, err = dr.getDirMembers(br, depth) return }) if err := g.Err(); err != nil { dr.addError(br, err) } } }
// ctx will be canceled on failure func (c *Collector) markItem(ctx *context.Context, it Item, isRoot bool) error { if !isRoot { marked, err := c.Marker.IsMarked(it) if err != nil { return err } if marked { return nil } } if err := c.Marker.Mark(it); err != nil { return err } ch := make(chan Item, buffered) var grp syncutil.Group grp.Go(func() error { return c.ItemEnumerator.EnumerateItem(ctx, it, ch) }) grp.Go(func() error { for it := range ch { if err := c.markItem(ctx, it, false); err != nil { return err } } return nil }) if err := grp.Err(); err != nil { ctx.Cancel() return err } return nil }
func (s *Storage) StatBlobs(dest chan<- blob.SizedRef, blobs []blob.Ref) error { // TODO: use cache var grp syncutil.Group gate := syncutil.NewGate(20) // arbitrary cap for i := range blobs { br := blobs[i] gate.Start() grp.Go(func() error { defer gate.Done() size, exists, err := s.client.StatObject( &googlestorage.Object{Bucket: s.bucket, Key: s.dirPrefix + br.String()}) if err != nil { return err } if !exists { return nil } if size > constants.MaxBlobSize { return fmt.Errorf("blob %s stat size too large (%d)", br, size) } dest <- blob.SizedRef{Ref: br, Size: uint32(size)} return nil }) } return grp.Err() }
func (sto *s3Storage) StatBlobs(dest chan<- blob.SizedRef, blobs []blob.Ref) (err error) { if faultStat.FailErr(&err) { return } // TODO: use sto.cache var wg syncutil.Group for _, br := range blobs { br := br statGate.Start() wg.Go(func() error { defer statGate.Done() size, err := sto.s3Client.Stat(br.String(), sto.bucket) if err == nil { dest <- blob.SizedRef{Ref: br, Size: uint32(size)} return nil } if err == os.ErrNotExist { return nil } return fmt.Errorf("error statting %v: %v", br, err) }) } return wg.Err() }
func (h *memHub) NotifyBlobReceived(sb blob.SizedRef) error { h.mu.RLock() defer h.mu.RUnlock() br := sb.Ref // Synchronous hooks. If error, prevents notifying other // subscribers. var grp syncutil.Group for i := range h.hooks { hook := h.hooks[i] grp.Go(func() error { return hook(sb) }) } if err := grp.Err(); err != nil { return err } // Global listeners for ch := range h.listeners { ch := ch go func() { ch <- br }() } // Blob-specific listeners for ch := range h.blobListeners[br] { ch := ch go func() { ch <- br }() } return nil }
func (ds *DiskStorage) StatBlobs(dest chan<- blob.SizedRef, blobs []blob.Ref) error { if len(blobs) == 0 { return nil } statSend := func(ref blob.Ref) error { fi, err := os.Stat(ds.blobPath(ds.partition, ref)) switch { case err == nil && fi.Mode().IsRegular(): dest <- blob.SizedRef{Ref: ref, Size: fi.Size()} return nil case err != nil && !os.IsNotExist(err): return err } return nil } if len(blobs) == 1 { return statSend(blobs[0]) } var wg syncutil.Group for _, ref := range blobs { ref := ref statGate.Start() wg.Go(func() error { defer statGate.Done() return statSend(ref) }) } return wg.Err() }
// setFirewall adds the firewall rules needed for ports 80 & 433 to the default network. func (d *Deployer) setFirewall(ctx *context.Context, computeService *compute.Service) error { defaultNet, err := computeService.Networks.Get(d.Conf.Project, "default").Do() if err != nil { return fmt.Errorf("error getting default network: %v", err) } needRules := map[string]compute.Firewall{ "default-allow-http": compute.Firewall{ Name: "default-allow-http", SourceRanges: []string{"0.0.0.0/0"}, SourceTags: []string{"http-server"}, Allowed: []*compute.FirewallAllowed{{"tcp", []string{"80"}}}, Network: defaultNet.SelfLink, }, "default-allow-https": compute.Firewall{ Name: "default-allow-https", SourceRanges: []string{"0.0.0.0/0"}, SourceTags: []string{"https-server"}, Allowed: []*compute.FirewallAllowed{{"tcp", []string{"443"}}}, Network: defaultNet.SelfLink, }, } rules, err := computeService.Firewalls.List(d.Conf.Project).Do() if err != nil { return fmt.Errorf("error listing rules: %v", err) } for _, it := range rules.Items { delete(needRules, it.Name) } if len(needRules) == 0 { return nil } if Verbose { log.Printf("Need to create rules: %v", needRules) } var wg syncutil.Group for name, rule := range needRules { if ctx.IsCanceled() { return context.ErrCanceled } name, rule := name, rule wg.Go(func() error { if Verbose { log.Printf("Creating rule %s", name) } r, err := computeService.Firewalls.Insert(d.Conf.Project, &rule).Do() if err != nil { return fmt.Errorf("error creating rule %s: %v", name, err) } if Verbose { log.Printf("Created rule %s: %+v", name, r) } return nil }) } return wg.Err() }
// &RenameRequest{Header:fuse.Header{Conn:(*fuse.Conn)(0xc210048180), ID:0x2, Node:0x8, Uid:0xf0d4, Gid:0x1388, Pid:0x5edb}, NewDir:0x8, OldName:"1", NewName:"2"} func (n *mutDir) Rename(req *fuse.RenameRequest, newDir fuse.Node, intr fuse.Intr) fuse.Error { n2, ok := newDir.(*mutDir) if !ok { log.Printf("*mutDir newDir node isn't a *mutDir; is a %T; can't handle. returning EIO.", newDir) return fuse.EIO } var wg syncutil.Group wg.Go(n.populate) wg.Go(n2.populate) if err := wg.Err(); err != nil { log.Printf("*mutDir.Rename src dir populate = %v", err) return fuse.EIO } n.mu.Lock() target, ok := n.children[req.OldName] n.mu.Unlock() if !ok { log.Printf("*mutDir.Rename src name %q isn't known", req.OldName) return fuse.ENOENT } now := time.Now() // Add a camliPath:name attribute to the dest permanode before unlinking it from // the source. claim := schema.NewSetAttributeClaim(n2.permanode, "camliPath:"+req.NewName, target.permanodeString()) claim.SetClaimDate(now) _, err := n.fs.client.UploadAndSignBlob(claim) if err != nil { log.Printf("Upload rename link error: %v", err) return fuse.EIO } delClaim := schema.NewDelAttributeClaim(n.permanode, "camliPath:"+req.OldName, "") delClaim.SetClaimDate(now) _, err = n.fs.client.UploadAndSignBlob(delClaim) if err != nil { log.Printf("Upload rename src unlink error: %v", err) return fuse.EIO } // TODO(bradfitz): this locking would be racy, if the kernel // doesn't do it properly. (It should) Let's just trust the // kernel for now. Later we can verify and remove this // comment. n.mu.Lock() if n.children[req.OldName] != target { panic("Race.") } delete(n.children, req.OldName) n.mu.Unlock() n2.mu.Lock() n2.children[req.NewName] = target n2.mu.Unlock() return nil }
func (up *Uploader) Close() error { var grp syncutil.Group if up.haveCache != nil { grp.Go(up.haveCache.Close) } grp.Go(up.Client.Close) return grp.Err() }
func (n *mutDir) creat(name string, typ nodeType) (fuse.Node, error) { // Create a Permanode for the file/directory. pr, err := n.fs.client.UploadNewPermanode() if err != nil { return nil, err } var grp syncutil.Group grp.Go(func() (err error) { // Add a camliPath:name attribute to the directory permanode. claim := schema.NewSetAttributeClaim(n.permanode, "camliPath:"+name, pr.BlobRef.String()) _, err = n.fs.client.UploadAndSignBlob(claim) return }) if stupidMacExtendedAttributeName(name) { grp.Go(func() (err error) { // Add a camliPath:name attribute to the directory permanode. claim := schema.NewSetAttributeClaim(pr.BlobRef, "camliDefVis", "hide") _, err = n.fs.client.UploadAndSignBlob(claim) return }) } if err := grp.Err(); err != nil { return nil, err } // Add a child node to this node. var child mutFileOrDir switch typ { case dirType: child = &mutDir{ fs: n.fs, permanode: pr.BlobRef, parent: n, name: name, } case fileType, symlinkType: child = &mutFile{ fs: n.fs, permanode: pr.BlobRef, parent: n, name: name, } default: panic("bogus creat type") } n.mu.Lock() if n.children == nil { n.children = make(map[string]mutFileOrDir) } n.children[name] = child n.mu.Unlock() return child, nil }
func (c *LogicalConstraint) blobMatches(s *search, br blob.Ref, bm BlobMeta) (bool, error) { switch c.Op { case "and", "xor": if c.A == nil || c.B == nil { return false, errors.New("In LogicalConstraint, need both A and B set") } var g syncutil.Group var av, bv bool g.Go(func() (err error) { av, err = c.A.blobMatches(s, br, bm) return }) g.Go(func() (err error) { bv, err = c.B.blobMatches(s, br, bm) return }) if err := g.Err(); err != nil { return false, err } switch c.Op { case "and": return av && bv, nil case "xor": return av != bv, nil default: panic("unreachable") } case "or": if c.A == nil || c.B == nil { return false, errors.New("In LogicalConstraint, need both A and B set") } av, err := c.A.blobMatches(s, br, bm) if err != nil { return false, err } if av { // Short-circuit. return true, nil } return c.B.blobMatches(s, br, bm) case "not": if c.A == nil { return false, errors.New("In LogicalConstraint, need to set A") } if c.B != nil { return false, errors.New("In LogicalConstraint, can't specify B with Op \"not\"") } v, err := c.A.blobMatches(s, br, bm) return !v, err default: return false, fmt.Errorf("In LogicalConstraint, unknown operation %q", c.Op) } }
func (sto *s3Storage) RemoveBlobs(blobs []blob.Ref) error { var wg syncutil.Group for _, blob := range blobs { blob := blob removeGate.Start() wg.Go(func() error { defer removeGate.Done() return sto.s3Client.Delete(sto.bucket, blob.String()) }) } return wg.Err() }
// projectHasInstance checks for all the possible zones if there's already an instance for the project. // It returns the name of the zone at the first instance it finds, if any. func (d *Deployer) projectHasInstance() (zone string, err error) { s, err := compute.New(d.Client) if err != nil { return "", err } // TODO(mpl): make use of the handler's cached zones. zl, err := compute.NewZonesService(s).List(d.Conf.Project).Do() if err != nil { return "", fmt.Errorf("could not get a list of zones: %v", err) } computeService, _ := compute.New(d.Client) var zoneOnce sync.Once var grp syncutil.Group errc := make(chan error, 1) zonec := make(chan string, 1) timeout := time.NewTimer(30 * time.Second) defer timeout.Stop() for _, z := range zl.Items { z := z grp.Go(func() error { list, err := computeService.Instances.List(d.Conf.Project, z.Name).Do() if err != nil { return fmt.Errorf("could not list existing instances: %v", err) } if len(list.Items) > 0 { zoneOnce.Do(func() { zonec <- z.Name }) } return nil }) } go func() { errc <- grp.Err() }() // We block until either an instance was found in a zone, or all the instance // listing is done. Or we timed-out. select { case err = <-errc: return "", err case zone = <-zonec: // We voluntarily ignore any listing error if we found at least one instance // because that's what we primarily want to report about. return zone, nil case <-timeout.C: return "", errors.New("timed out") } }
// SetAttrs sets multiple attributes. The provided keyval should be an even number of alternating key/value pairs to set. func (o *Object) SetAttrs(keyval ...string) error { if len(keyval)%2 == 1 { panic("importer.SetAttrs: odd argument count") } g := syncutil.Group{} for i := 0; i < len(keyval); i += 2 { key, val := keyval[i], keyval[i+1] if val != o.Attr(key) { g.Go(func() error { return o.SetAttr(key, val) }) } } return g.Err() }
func (s *Storage) RemoveBlobs(blobs []blob.Ref) error { if s.cache != nil { s.cache.RemoveBlobs(blobs) } gate := syncutil.NewGate(50) // arbitrary var grp syncutil.Group for i := range blobs { gate.Start() br := blobs[i] grp.Go(func() error { defer gate.Done() return s.client.DeleteObject(&googlestorage.Object{Bucket: s.bucket, Key: s.dirPrefix + br.String()}) }) } return grp.Err() }
func (m *mongoStorage) RemoveBlobs(blobs []blob.Ref) error { var wg syncutil.Group for _, blob := range blobs { blob := blob removeGate.Start() wg.Go(func() error { defer removeGate.Done() err := m.c.Remove(bson.M{"key": blob.String()}) if err == mgo.ErrNotFound { return nil } return err }) } return wg.Err() }
func (n *rootsDir) Mkdir(req *fuse.MkdirRequest, intr fs.Intr) (fs.Node, fuse.Error) { if n.isRO() { return nil, fuse.EPERM } name := req.Name // Create a Permanode for the root. pr, err := n.fs.client.UploadNewPermanode() if err != nil { log.Printf("rootsDir.Create(%q): %v", name, err) return nil, fuse.EIO } var grp syncutil.Group // Add a camliRoot attribute to the root permanode. grp.Go(func() (err error) { claim := schema.NewSetAttributeClaim(pr.BlobRef, "camliRoot", name) _, err = n.fs.client.UploadAndSignBlob(claim) return }) // Set the title of the root permanode to the root name. grp.Go(func() (err error) { claim := schema.NewSetAttributeClaim(pr.BlobRef, "title", name) _, err = n.fs.client.UploadAndSignBlob(claim) return }) if err := grp.Err(); err != nil { log.Printf("rootsDir.Create(%q): %v", name, err) return nil, fuse.EIO } nod := &mutDir{ fs: n.fs, permanode: pr.BlobRef, name: name, xattrs: map[string][]byte{}, } n.mu.Lock() n.m[name] = pr.BlobRef n.mu.Unlock() return nod, nil }
func (h *memHub) NotifyBlobReceived(sb blob.SizedRef) error { h.mu.RLock() defer h.mu.RUnlock() br := sb.Ref // Callback channels to notify, nil until non-empty var notify []chan<- blob.Ref // Append global listeners for ch := range h.listeners { notify = append(notify, ch) } // Append blob-specific listeners if h.blobListeners != nil { if set, ok := h.blobListeners[br]; ok { for ch, _ := range set { notify = append(notify, ch) } } } if len(notify) > 0 { // Run in a separate Goroutine so NotifyBlobReceived doesn't block // callers if callbacks are slow. go func() { for _, ch := range notify { ch <- br } }() } var grp syncutil.Group for i := range h.hooks { hook := h.hooks[i] grp.Go(func() error { return hook(sb) }) } return grp.Err() }
func storePhoto(p photo) (string, error) { srcFile := localPathOf(p) f, err := os.Open(srcFile) if err != nil { return "", err } defer f.Close() fileRef, err := schema.WriteFileFromReader(camliClient, p.Id+"."+p.Extension, f) res, err := camliClient.UploadNewPermanode() if err != nil { return "", err } perma := res.BlobRef p.Description = cleanHTML(p.Description) claims := []*schema.Builder{} claims = append(claims, schema.NewSetAttributeClaim(perma, "camliContent", fileRef.String())) claims = append(claims, schema.NewSetAttributeClaim(perma, "title", mkTitle(p.Description))) claims = append(claims, schema.NewSetAttributeClaim(perma, "description", p.Description)) for _, t := range p.Tags { claims = append(claims, schema.NewAddAttributeClaim(perma, "tag", t)) } if p.Cat == "Public" { claims = append(claims, schema.NewSetAttributeClaim(perma, "camliAccess", "public")) } grp := syncutil.Group{} for _, claimBuilder := range claims { claim := claimBuilder.Blob() grp.Go(func() error { _, err := camliClient.UploadAndSignBlob(claim) return err }) } return perma.String(), grp.Err() }
func testEnumerate(t *testing.T, sto blobserver.Storage, wantUnsorted []blob.SizedRef, opts ...interface{}) { var after string var n = 1000 for _, opt := range opts { switch v := opt.(type) { case string: after = v case int: n = v default: panic("bad option of type " + fmt.Sprint("%T", v)) } } want := append([]blob.SizedRef(nil), wantUnsorted...) sort.Sort(blob.SizedByRef(want)) sbc := make(chan blob.SizedRef, 10) var got []blob.SizedRef var grp syncutil.Group sawEnd := make(chan bool, 1) grp.Go(func() error { if err := sto.EnumerateBlobs(context.New(), sbc, after, n); err != nil { return fmt.Errorf("EnumerateBlobs(%q, %d): %v", after, n) } return nil }) grp.Go(func() error { for sb := range sbc { if !sb.Valid() { return fmt.Errorf("invalid blobref %#v received in enumerate", sb) } got = append(got, sb) } sawEnd <- true return nil }) grp.Go(func() error { select { case <-sawEnd: return nil case <-time.After(10 * time.Second): return errors.New("timeout waiting for EnumerateBlobs to close its channel") } }) if err := grp.Err(); err != nil { t.Fatalf("Enumerate error: %v", err) return } if len(got) == 0 && len(want) == 0 { return } if !reflect.DeepEqual(got, want) { t.Fatalf("Enumerate mismatch. Got %d; want %d.\n Got: %v\nWant: %v\n", len(got), len(want), got, want) } }
func (s *storage) RemoveBlobs(blobs []blob.Ref) error { // Plan: // -- delete from small (if it's there) // -- if in big, update the meta index to note that it's there, but deleted. // -- fetch big's zip file (constructed from a ReaderAt that is all dummy zeros + // the zip's TOC only, relying on big being a SubFetcher, and keeping info in // the meta about the offset of the TOC+total size of each big's zip) // -- iterate over the zip's blobs (at some point). If all are marked deleted, actually RemoveBlob // on big to delete the full zip and then delete all the meta rows. var ( mu sync.Mutex unpacked []blob.Ref packed []blob.Ref large = map[blob.Ref]bool{} // the large blobs that packed are in ) var grp syncutil.Group delGate := syncutil.NewGate(removeLookups) for _, br := range blobs { br := br delGate.Start() grp.Go(func() error { defer delGate.Done() m, err := s.getMetaRow(br) if err != nil { return err } mu.Lock() defer mu.Unlock() if m.isPacked() { packed = append(packed, br) large[m.largeRef] = true } else { unpacked = append(unpacked, br) } return nil }) } if err := grp.Err(); err != nil { return err } if len(unpacked) > 0 { grp.Go(func() error { return s.small.RemoveBlobs(unpacked) }) } if len(packed) > 0 { grp.Go(func() error { bm := s.meta.BeginBatch() now := time.Now() for zipRef := range large { bm.Set("d:"+zipRef.String(), fmt.Sprint(now.Unix())) } for _, br := range packed { bm.Delete("b:" + br.String()) } return s.meta.CommitBatch(bm) }) } return grp.Err() }
func (s *storage) StatBlobs(dest chan<- blob.SizedRef, blobs []blob.Ref) (err error) { var wg syncutil.Group for _, br := range blobs { br := br statGate.Start() wg.Go(func() error { defer statGate.Done() m, err := s.meta(br) if err == nil { dest <- m.SizedRef(br) return nil } if err == os.ErrNotExist { return nil } return err }) } return wg.Err() }
func (s *storage) StatBlobs(dest chan<- blob.SizedRef, blobs []blob.Ref) error { if len(blobs) == 0 { return nil } var ( grp syncutil.Group trySmallMu sync.Mutex trySmall []blob.Ref ) statGate := syncutil.NewGate(50) // arbitrary for _, br := range blobs { br := br statGate.Start() grp.Go(func() error { defer statGate.Done() m, err := s.getMetaRow(br) if err != nil { return err } if m.exists { dest <- blob.SizedRef{Ref: br, Size: m.size} } else { trySmallMu.Lock() trySmall = append(trySmall, br) // Assume append cannot fail or panic trySmallMu.Unlock() } return nil }) } if err := grp.Err(); err != nil { return err } if len(trySmall) == 0 { return nil } return s.small.StatBlobs(dest, trySmall) }
// RemoveBlobs removes the blobs from index and pads data with zero bytes func (s *storage) RemoveBlobs(blobs []blob.Ref) error { batch := s.index.BeginBatch() var wg syncutil.Group for _, br := range blobs { br := br removeGate.Start() batch.Delete(br.String()) wg.Go(func() error { defer removeGate.Done() if err := s.delete(br); err != nil { return err } return nil }) } err1 := wg.Err() err2 := s.index.CommitBatch(batch) if err1 != nil { return err1 } return err2 }
func (sto *swiftStorage) StatBlobs(dest chan<- blob.SizedRef, blobs []blob.Ref) error { var wg syncutil.Group for _, br := range blobs { br := br statGate.Start() wg.Go(func() error { defer statGate.Done() obj, _, err := sto.client.Object(sto.container, br.String()) if err == nil { dest <- blob.SizedRef{Ref: br, Size: uint32(obj.Bytes)} return nil } if err == swift.ObjectNotFound { return nil } return fmt.Errorf("error statting %v: %v", br, err) }) } return wg.Err() }
// getInstalledTLS returns the TLS certificate and key stored on Google Cloud Storage for the // instance defined in d.Conf. func (d *Deployer) getInstalledTLS() (certPEM, keyPEM []byte, err error) { ctx := cloud.NewContext(d.Conf.Project, d.Client) getFile := func(name string) ([]byte, error) { sr, err := cloudstorage.NewReader(ctx, d.Conf.bucketBase(), path.Join(configDir, name)) if err != nil { return nil, err } defer sr.Close() return ioutil.ReadAll(sr) } var grp syncutil.Group grp.Go(func() (err error) { certPEM, err = getFile(certFilename) return }) grp.Go(func() (err error) { keyPEM, err = getFile(keyFilename) return }) err = grp.Err() return }
func (s *storage) zipPartsInUse(br blob.Ref) ([]blob.Ref, error) { var ( mu sync.Mutex inUse []blob.Ref ) var grp syncutil.Group gate := syncutil.NewGate(20) // arbitrary constant err := s.foreachZipBlob(br, func(bap BlobAndPos) error { gate.Start() grp.Go(func() error { defer gate.Done() mr, err := s.getMetaRow(bap.Ref) if err != nil { return err } if mr.isPacked() { mu.Lock() inUse = append(inUse, mr.largeRef) mu.Unlock() } return nil }) return nil }) if os.IsNotExist(err) { // An already-deleted blob from large isn't considered // to be in-use. return nil, nil } if err != nil { return nil, err } if err := grp.Err(); err != nil { return nil, err } return inUse, nil }
func (r *run) importTweetsFromZip(userID string, zr *zip.Reader) error { log.Printf("Processing zip file with %d files", len(zr.File)) tweetsNode, err := r.getTopLevelNode("tweets") if err != nil { return err } var ( gate = syncutil.NewGate(tweetsAtOnce) grp syncutil.Group ) total := 0 for _, zf := range zr.File { if !(strings.HasPrefix(zf.Name, "data/js/tweets/2") && strings.HasSuffix(zf.Name, ".js")) { continue } tweets, err := tweetsFromZipFile(zf) if err != nil { return fmt.Errorf("error reading tweets from %s: %v", zf.Name, err) } for i := range tweets { total++ tweet := tweets[i] gate.Start() grp.Go(func() error { defer gate.Done() _, err := r.importTweet(tweetsNode, tweet, false) return err }) } } err = grp.Err() log.Printf("zip import of tweets: %d total, err = %v", total, err) return err }
func CheckEnumerate(sto blobserver.Storage, wantUnsorted []blob.SizedRef, opts ...interface{}) error { var after string var n = 1000 for _, opt := range opts { switch v := opt.(type) { case string: after = v case int: n = v default: panic("bad option of type " + fmt.Sprintf("%T", v)) } } want := append([]blob.SizedRef(nil), wantUnsorted...) sort.Sort(blob.SizedByRef(want)) sbc := make(chan blob.SizedRef, 10) var got []blob.SizedRef var grp syncutil.Group sawEnd := make(chan bool, 1) grp.Go(func() error { ctx := context.New() defer ctx.Cancel() if err := sto.EnumerateBlobs(ctx, sbc, after, n); err != nil { return fmt.Errorf("EnumerateBlobs(%q, %d): %v", after, n, err) } return nil }) grp.Go(func() error { var lastRef blob.Ref for sb := range sbc { if !sb.Valid() { return fmt.Errorf("invalid blobref %#v received in enumerate", sb) } got = append(got, sb) if lastRef.Valid() && sb.Ref.Less(lastRef) { return fmt.Errorf("blobs appearing out of order") } lastRef = sb.Ref } sawEnd <- true return nil }) grp.Go(func() error { select { case <-sawEnd: return nil case <-time.After(10 * time.Second): return errors.New("timeout waiting for EnumerateBlobs to close its channel") } }) if err := grp.Err(); err != nil { return fmt.Errorf("Enumerate error: %v", err) } if len(got) == 0 && len(want) == 0 { return nil } var gotSet = map[blob.SizedRef]bool{} for _, sb := range got { if gotSet[sb] { return fmt.Errorf("duplicate blob %v returned in enumerate", sb) } gotSet[sb] = true } if !reflect.DeepEqual(got, want) { return fmt.Errorf("Enumerate mismatch. Got %d; want %d.\n Got: %v\nWant: %v\n", len(got), len(want), got, want) } return nil }
func (dr *DescribeRequest) describeReally(br blob.Ref, depth int) { meta, err := dr.sh.index.GetBlobMeta(br) if err == os.ErrNotExist { return } if err != nil { dr.addError(br, err) return } // TODO: convert all this in terms of // DescribedBlob/DescribedPermanode/DescribedFile, not json // maps. Then add JSON marhsallers to those types. Add tests. des := dr.describedBlob(br) if meta.CamliType != "" { des.setMIMEType("application/json; camliType=" + meta.CamliType) } des.Size = int64(meta.Size) switch des.CamliType { case "permanode": des.Permanode = new(DescribedPermanode) dr.populatePermanodeFields(des.Permanode, br, dr.sh.owner, depth) case "file": fi, err := dr.sh.index.GetFileInfo(br) if err != nil { if os.IsNotExist(err) { log.Printf("index.GetFileInfo(file %s) failed; index stale?", br) } else { dr.addError(br, err) } return } des.File = &fi if des.File.IsImage() && !skipImageInfoLookup(des.File) { imgInfo, err := dr.sh.index.GetImageInfo(br) if err != nil { if os.IsNotExist(err) { log.Printf("index.GetImageInfo(file %s) failed; index stale?", br) } else { dr.addError(br, err) } } else { des.Image = &imgInfo } } case "directory": var g syncutil.Group g.Go(func() (err error) { fi, err := dr.sh.index.GetFileInfo(br) if os.IsNotExist(err) { log.Printf("index.GetFileInfo(directory %s) failed; index stale?", br) } if err == nil { des.Dir = &fi } return }) g.Go(func() (err error) { des.DirChildren, err = dr.getDirMembers(br, depth) return }) if err := g.Err(); err != nil { dr.addError(br, err) } } }