package search // This file will be automatically regenerated based on the schema, any resolver implementations // will be copied through when generating and any unknown code will be moved to the end. import ( "context" "fmt" "strings" godigest "github.com/opencontainers/go-digest" "zotregistry.io/zot/pkg/extensions/search/common" cveinfo "zotregistry.io/zot/pkg/extensions/search/cve" "zotregistry.io/zot/pkg/extensions/search/gql_generated" ) // CVEListForImage is the resolver for the CVEListForImage field. func (r *queryResolver) CVEListForImage(ctx context.Context, image string) (*gql_generated.CVEResultForImage, error) { trivyCtx := r.cveInfo.GetTrivyContext(image) r.log.Info().Str("image", image).Msg("scanning image") isValidImage, err := r.cveInfo.LayoutUtils.IsValidImageFormat(image) if !isValidImage { r.log.Debug().Str("image", image).Msg("image media type not supported for scanning") return &gql_generated.CVEResultForImage{}, err } report, err := cveinfo.ScanImage(trivyCtx.Ctx) if err != nil { r.log.Error().Err(err).Msg("unable to scan image repository") return &gql_generated.CVEResultForImage{}, err } var copyImgTag string if strings.Contains(image, ":") { copyImgTag = strings.Split(image, ":")[1] } cveidMap := make(map[string]cveDetail) for _, result := range report.Results { for _, vulnerability := range result.Vulnerabilities { pkgName := vulnerability.PkgName installedVersion := vulnerability.InstalledVersion var fixedVersion string if vulnerability.FixedVersion != "" { fixedVersion = vulnerability.FixedVersion } else { fixedVersion = "Not Specified" } _, ok := cveidMap[vulnerability.VulnerabilityID] if ok { cveDetailStruct := cveidMap[vulnerability.VulnerabilityID] pkgList := cveDetailStruct.PackageList pkgList = append(pkgList, &gql_generated.PackageInfo{Name: &pkgName, InstalledVersion: &installedVersion, FixedVersion: &fixedVersion}) cveDetailStruct.PackageList = pkgList cveidMap[vulnerability.VulnerabilityID] = cveDetailStruct } else { newPkgList := make([]*gql_generated.PackageInfo, 0) newPkgList = append(newPkgList, &gql_generated.PackageInfo{Name: &pkgName, InstalledVersion: &installedVersion, FixedVersion: &fixedVersion}) cveidMap[vulnerability.VulnerabilityID] = cveDetail{ Title: vulnerability.Title, Description: vulnerability.Description, Severity: vulnerability.Severity, PackageList: newPkgList, } } } } cveids := []*gql_generated.Cve{} for id, cveDetail := range cveidMap { vulID := id desc := cveDetail.Description title := cveDetail.Title severity := cveDetail.Severity pkgList := cveDetail.PackageList cveids = append(cveids, &gql_generated.Cve{ID: &vulID, Title: &title, Description: &desc, Severity: &severity, PackageList: pkgList}) } return &gql_generated.CVEResultForImage{Tag: ©ImgTag, CVEList: cveids}, nil } // ImageListForCve is the resolver for the ImageListForCVE field. func (r *queryResolver) ImageListForCve(ctx context.Context, id string) ([]*gql_generated.ImageSummary, error) { finalCveResult := []*gql_generated.ImageSummary{} r.log.Info().Msg("extracting repositories") defaultStore := r.storeController.DefaultStore defaultTrivyCtx := r.cveInfo.CveTrivyController.DefaultCveConfig repoList, err := defaultStore.GetRepositories() if err != nil { r.log.Error().Err(err).Msg("unable to search repositories") return finalCveResult, err } r.cveInfo.Log.Info().Msg("scanning each global repository") cveResult, err := r.getImageListForCVE(repoList, id, defaultStore, defaultTrivyCtx) if err != nil { r.log.Error().Err(err).Msg("error getting cve list for global repositories") return finalCveResult, err } finalCveResult = append(finalCveResult, cveResult...) subStore := r.storeController.SubStore for route, store := range subStore { subRepoList, err := store.GetRepositories() if err != nil { r.log.Error().Err(err).Msg("unable to search repositories") return cveResult, err } subTrivyCtx := r.cveInfo.CveTrivyController.SubCveConfig[route] subCveResult, err := r.getImageListForCVE(subRepoList, id, store, subTrivyCtx) if err != nil { r.log.Error().Err(err).Msg("unable to get cve result for sub repositories") return finalCveResult, err } finalCveResult = append(finalCveResult, subCveResult...) } return finalCveResult, nil } // ImageListWithCVEFixed is the resolver for the ImageListWithCVEFixed field. func (r *queryResolver) ImageListWithCVEFixed(ctx context.Context, id string, image string) ([]*gql_generated.ImageSummary, error) { tagListForCVE := []*gql_generated.ImageSummary{} r.log.Info().Str("image", image).Msg("extracting list of tags available in image") tagsInfo, err := r.cveInfo.LayoutUtils.GetImageTagsWithTimestamp(image) if err != nil { r.log.Error().Err(err).Msg("unable to read image tags") return tagListForCVE, err } infectedTags := make([]common.TagInfo, 0) var hasCVE bool for _, tag := range tagsInfo { image := fmt.Sprintf("%s:%s", image, tag.Name) isValidImage, _ := r.cveInfo.LayoutUtils.IsValidImageFormat(image) if !isValidImage { r.log.Debug().Str("image", fmt.Sprintf("%s:%s", image, tag.Name)). Msg("image media type not supported for scanning, adding as an infected image") infectedTags = append(infectedTags, common.TagInfo{Name: tag.Name, Timestamp: tag.Timestamp}) continue } trivyCtx := r.cveInfo.GetTrivyContext(image) r.cveInfo.Log.Info().Str("image", fmt.Sprintf("%s:%s", image, tag.Name)).Msg("scanning image") report, err := cveinfo.ScanImage(trivyCtx.Ctx) if err != nil { r.log.Error().Err(err). Str("image", fmt.Sprintf("%s:%s", image, tag.Name)).Msg("unable to scan image") continue } hasCVE = false for _, result := range report.Results { for _, vulnerability := range result.Vulnerabilities { if vulnerability.VulnerabilityID == id { hasCVE = true break } } } if hasCVE { infectedTags = append(infectedTags, common.TagInfo{Name: tag.Name, Timestamp: tag.Timestamp, Digest: tag.Digest}) } } if len(infectedTags) != 0 { r.log.Info().Msg("comparing fixed tags timestamp") tagsInfo = common.GetFixedTags(tagsInfo, infectedTags) } else { r.log.Info().Str("image", image).Str("cve-id", id).Msg("image does not contain any tag that have given cve") } for _, tag := range tagsInfo { digest := godigest.Digest(tag.Digest) manifest, err := r.cveInfo.LayoutUtils.GetImageBlobManifest(image, digest) if err != nil { r.log.Error().Err(err).Msg("extension api: error reading manifest") return []*gql_generated.ImageSummary{}, err } imageInfo := buildImageInfo(image, tag.Name, digest, manifest) tagListForCVE = append(tagListForCVE, imageInfo) } return tagListForCVE, nil } // ImageListForDigest is the resolver for the ImageListForDigest field. func (r *queryResolver) ImageListForDigest(ctx context.Context, id string) ([]*gql_generated.ImageSummary, error) { imgResultForDigest := []*gql_generated.ImageSummary{} r.log.Info().Msg("extracting repositories") defaultStore := r.storeController.DefaultStore repoList, err := defaultStore.GetRepositories() if err != nil { r.log.Error().Err(err).Msg("unable to search repositories") return imgResultForDigest, err } r.log.Info().Msg("scanning each global repository") partialImgResultForDigest, err := r.getImageListForDigest(repoList, id) if err != nil { r.log.Error().Err(err).Msg("unable to get image and tag list for global repositories") return imgResultForDigest, err } imgResultForDigest = append(imgResultForDigest, partialImgResultForDigest...) subStore := r.storeController.SubStore for _, store := range subStore { subRepoList, err := store.GetRepositories() if err != nil { r.log.Error().Err(err).Msg("unable to search sub-repositories") return imgResultForDigest, err } partialImgResultForDigest, err = r.getImageListForDigest(subRepoList, id) if err != nil { r.log.Error().Err(err).Msg("unable to get image and tag list for sub-repositories") return imgResultForDigest, err } imgResultForDigest = append(imgResultForDigest, partialImgResultForDigest...) } return imgResultForDigest, nil } // RepoListWithNewestImage is the resolver for the RepoListWithNewestImage field. func (r *queryResolver) RepoListWithNewestImage(ctx context.Context) ([]*gql_generated.RepoSummary, error) { r.log.Info().Msg("extension api: finding image list") repoList := make([]*gql_generated.RepoSummary, 0) defaultStore := r.storeController.DefaultStore dsRepoList, err := r.repoListWithNewestImage(ctx, defaultStore) if err != nil { r.log.Error().Err(err).Msg("extension api: error extracting default store image list") return repoList, err } if len(dsRepoList) != 0 { repoList = append(repoList, dsRepoList...) } subStore := r.storeController.SubStore for _, store := range subStore { ssRepoList, err := r.repoListWithNewestImage(ctx, store) if err != nil { r.log.Error().Err(err).Msg("extension api: error extracting substore image list") return repoList, err } if len(ssRepoList) != 0 { repoList = append(repoList, ssRepoList...) } } return repoList, nil } // ImageList is the resolver for the ImageList field. func (r *queryResolver) ImageList(ctx context.Context, repo string) ([]*gql_generated.ImageSummary, error) { r.log.Info().Msg("extension api: getting a list of all images") imageList := make([]*gql_generated.ImageSummary, 0) defaultStore := r.storeController.DefaultStore dsImageList, err := r.getImageList(defaultStore, repo) if err != nil { r.log.Error().Err(err).Msg("extension api: error extracting default store image list") return imageList, err } if len(dsImageList) != 0 { imageList = append(imageList, dsImageList...) } subStore := r.storeController.SubStore for _, store := range subStore { ssImageList, err := r.getImageList(store, repo) if err != nil { r.log.Error().Err(err).Msg("extension api: error extracting substore image list") return imageList, err } if len(ssImageList) != 0 { imageList = append(imageList, ssImageList...) } } return imageList, nil } // ExpandedRepoInfo is the resolver for the ExpandedRepoInfo field. func (r *queryResolver) ExpandedRepoInfo(ctx context.Context, repo string) (*gql_generated.RepoInfo, error) { olu := common.NewBaseOciLayoutUtils(r.storeController, r.log) origRepoInfo, err := olu.GetExpandedRepoInfo(repo) if err != nil { r.log.Error().Err(err).Msgf("error getting repo '%s'", repo) return &gql_generated.RepoInfo{}, err } // repos type is of common deep copy this to search repoInfo := &gql_generated.RepoInfo{} images := make([]*gql_generated.ImageSummary, 0) summary := &gql_generated.RepoSummary{} summary.LastUpdated = &origRepoInfo.Summary.LastUpdated summary.Name = &origRepoInfo.Summary.Name summary.Platforms = []*gql_generated.OsArch{} for _, platform := range origRepoInfo.Summary.Platforms { platform := platform summary.Platforms = append(summary.Platforms, &gql_generated.OsArch{ Os: &platform.Os, Arch: &platform.Arch, }) } summary.Size = &origRepoInfo.Summary.Size for _, vendor := range origRepoInfo.Summary.Vendors { vendor := vendor summary.Vendors = append(summary.Vendors, &vendor) } score := -1 // score not relevant for this query summary.Score = &score for _, image := range origRepoInfo.Images { tag := image.Tag digest := image.Digest isSigned := image.IsSigned imageSummary := &gql_generated.ImageSummary{Tag: &tag, Digest: &digest, IsSigned: &isSigned} layers := make([]*gql_generated.LayerSummary, 0) for _, l := range image.Layers { size := l.Size digest := l.Digest layerInfo := &gql_generated.LayerSummary{Digest: &digest, Size: &size} layers = append(layers, layerInfo) } imageSummary.Layers = layers images = append(images, imageSummary) } repoInfo.Summary = summary repoInfo.Images = images return repoInfo, nil } // GlobalSearch is the resolver for the GlobalSearch field. func (r *queryResolver) GlobalSearch(ctx context.Context, query string) (*gql_generated.GlobalSearchResult, error) { query = cleanQuerry(query) defaultStore := r.storeController.DefaultStore olu := common.NewBaseOciLayoutUtils(r.storeController, r.log) var name, tag string _, err := fmt.Sscanf(query, "%s %s", &name, &tag) if err != nil { name = query } repoList, err := defaultStore.GetRepositories() if err != nil { r.log.Error().Err(err).Msg("unable to search repositories") return &gql_generated.GlobalSearchResult{}, err } availableRepos, err := userAvailableRepos(ctx, repoList) if err != nil { r.log.Error().Err(err).Msg("unable to filter user available repositories") return &gql_generated.GlobalSearchResult{}, err } repos, images, layers := globalSearch(availableRepos, name, tag, olu, r.log) return &gql_generated.GlobalSearchResult{ Images: images, Repos: repos, Layers: layers, }, nil } // Query returns gql_generated.QueryResolver implementation. func (r *Resolver) Query() gql_generated.QueryResolver { return &queryResolver{r} } type queryResolver struct{ *Resolver }