// Copyright 2017 clair authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package pgsql import ( "database/sql" "sort" "github.com/lib/pq" log "github.com/sirupsen/logrus" "github.com/coreos/clair/database" "github.com/coreos/clair/ext/versionfmt" "github.com/coreos/clair/pkg/commonerr" ) const ( soiNamespacedFeature = ` WITH new_feature_ns AS ( INSERT INTO namespaced_feature(feature_id, namespace_id) SELECT CAST ($1 AS INTEGER), CAST ($2 AS INTEGER) WHERE NOT EXISTS ( SELECT id FROM namespaced_feature WHERE namespaced_feature.feature_id = $1 AND namespaced_feature.namespace_id = $2) RETURNING id ) SELECT id FROM namespaced_feature WHERE namespaced_feature.feature_id = $1 AND namespaced_feature.namespace_id = $2 UNION SELECT id FROM new_feature_ns` searchPotentialAffectingVulneraibilities = ` SELECT nf.id, v.id, vaf.affected_version, vaf.id FROM vulnerability_affected_feature AS vaf, vulnerability AS v, namespaced_feature AS nf, feature AS f WHERE nf.id = ANY($1) AND nf.feature_id = f.id AND nf.namespace_id = v.namespace_id AND vaf.feature_name = f.name AND vaf.feature_type = f.type AND vaf.vulnerability_id = v.id AND v.deleted_at IS NULL` searchNamespacedFeaturesVulnerabilities = ` SELECT vanf.namespaced_feature_id, v.name, v.description, v.link, v.severity, v.metadata, vaf.fixedin, n.name, n.version_format FROM vulnerability_affected_namespaced_feature AS vanf, Vulnerability AS v, vulnerability_affected_feature AS vaf, namespace AS n WHERE vanf.namespaced_feature_id = ANY($1) AND vaf.id = vanf.added_by AND v.id = vanf.vulnerability_id AND n.id = v.namespace_id AND v.deleted_at IS NULL` ) func (tx *pgSession) PersistFeatures(features []database.Feature) error { if len(features) == 0 { return nil } types, err := tx.getFeatureTypeMap() if err != nil { return err } // Sorting is needed before inserting into database to prevent deadlock. sort.Slice(features, func(i, j int) bool { return features[i].Name < features[j].Name || features[i].Version < features[j].Version || features[i].VersionFormat < features[j].VersionFormat }) // TODO(Sida): A better interface for bulk insertion is needed. keys := make([]interface{}, 0, len(features)*3) for _, f := range features { keys = append(keys, f.Name, f.Version, f.VersionFormat, types.byName[f.Type]) if f.Name == "" || f.Version == "" || f.VersionFormat == "" { return commonerr.NewBadRequestError("Empty feature name, version or version format is not allowed") } } _, err = tx.Exec(queryPersistFeature(len(features)), keys...) return handleError("queryPersistFeature", err) } type namespacedFeatureWithID struct { database.NamespacedFeature ID int64 } type vulnerabilityCache struct { nsFeatureID int64 vulnID int64 vulnAffectingID int64 } func (tx *pgSession) searchAffectingVulnerabilities(features []database.NamespacedFeature) ([]vulnerabilityCache, error) { if len(features) == 0 { return nil, nil } ids, err := tx.findNamespacedFeatureIDs(features) if err != nil { return nil, err } fMap := map[int64]database.NamespacedFeature{} for i, f := range features { if !ids[i].Valid { return nil, database.ErrMissingEntities } fMap[ids[i].Int64] = f } cacheTable := []vulnerabilityCache{} rows, err := tx.Query(searchPotentialAffectingVulneraibilities, pq.Array(ids)) if err != nil { return nil, handleError("searchPotentialAffectingVulneraibilities", err) } defer rows.Close() for rows.Next() { var ( cache vulnerabilityCache affected string ) err := rows.Scan(&cache.nsFeatureID, &cache.vulnID, &affected, &cache.vulnAffectingID) if err != nil { return nil, err } if ok, err := versionfmt.InRange(fMap[cache.nsFeatureID].VersionFormat, fMap[cache.nsFeatureID].Version, affected); err != nil { return nil, err } else if ok { cacheTable = append(cacheTable, cache) } } return cacheTable, nil } func (tx *pgSession) CacheAffectedNamespacedFeatures(features []database.NamespacedFeature) error { if len(features) == 0 { return nil } _, err := tx.Exec(lockVulnerabilityAffects) if err != nil { return handleError("lockVulnerabilityAffects", err) } cache, err := tx.searchAffectingVulnerabilities(features) keys := make([]interface{}, 0, len(cache)*3) for _, c := range cache { keys = append(keys, c.vulnID, c.nsFeatureID, c.vulnAffectingID) } if len(cache) == 0 { return nil } affected, err := tx.Exec(queryPersistVulnerabilityAffectedNamespacedFeature(len(cache)), keys...) if err != nil { return handleError("persistVulnerabilityAffectedNamespacedFeature", err) } if count, err := affected.RowsAffected(); err != nil { log.Debugf("Cached %d features in vulnerability_affected_namespaced_feature", count) } return nil } func (tx *pgSession) PersistNamespacedFeatures(features []database.NamespacedFeature) error { if len(features) == 0 { return nil } nsIDs := map[database.Namespace]sql.NullInt64{} fIDs := map[database.Feature]sql.NullInt64{} for _, f := range features { nsIDs[f.Namespace] = sql.NullInt64{} fIDs[f.Feature] = sql.NullInt64{} } fToFind := []database.Feature{} for f := range fIDs { fToFind = append(fToFind, f) } sort.Slice(fToFind, func(i, j int) bool { return fToFind[i].Name < fToFind[j].Name || fToFind[i].Version < fToFind[j].Version || fToFind[i].VersionFormat < fToFind[j].VersionFormat }) if ids, err := tx.findFeatureIDs(fToFind); err == nil { for i, id := range ids { if !id.Valid { return database.ErrMissingEntities } fIDs[fToFind[i]] = id } } else { return err } nsToFind := []database.Namespace{} for ns := range nsIDs { nsToFind = append(nsToFind, ns) } if ids, err := tx.findNamespaceIDs(nsToFind); err == nil { for i, id := range ids { if !id.Valid { return database.ErrMissingEntities } nsIDs[nsToFind[i]] = id } } else { return err } keys := make([]interface{}, 0, len(features)*2) for _, f := range features { keys = append(keys, fIDs[f.Feature], nsIDs[f.Namespace]) } _, err := tx.Exec(queryPersistNamespacedFeature(len(features)), keys...) if err != nil { return err } return nil } // FindAffectedNamespacedFeatures retrieves vulnerabilities associated with the // feature. func (tx *pgSession) FindAffectedNamespacedFeatures(features []database.NamespacedFeature) ([]database.NullableAffectedNamespacedFeature, error) { if len(features) == 0 { return nil, nil } vulnerableFeatures := make([]database.NullableAffectedNamespacedFeature, len(features)) featureIDs, err := tx.findNamespacedFeatureIDs(features) if err != nil { return nil, err } for i, id := range featureIDs { if id.Valid { vulnerableFeatures[i].Valid = true vulnerableFeatures[i].NamespacedFeature = features[i] } } rows, err := tx.Query(searchNamespacedFeaturesVulnerabilities, pq.Array(featureIDs)) if err != nil { return nil, handleError("searchNamespacedFeaturesVulnerabilities", err) } defer rows.Close() for rows.Next() { var ( featureID int64 vuln database.VulnerabilityWithFixedIn ) err := rows.Scan(&featureID, &vuln.Name, &vuln.Description, &vuln.Link, &vuln.Severity, &vuln.Metadata, &vuln.FixedInVersion, &vuln.Namespace.Name, &vuln.Namespace.VersionFormat, ) if err != nil { return nil, handleError("searchNamespacedFeaturesVulnerabilities", err) } for i, id := range featureIDs { if id.Valid && id.Int64 == featureID { vulnerableFeatures[i].AffectedNamespacedFeature.AffectedBy = append(vulnerableFeatures[i].AffectedNamespacedFeature.AffectedBy, vuln) } } } return vulnerableFeatures, nil } func (tx *pgSession) findNamespacedFeatureIDs(nfs []database.NamespacedFeature) ([]sql.NullInt64, error) { if len(nfs) == 0 { return nil, nil } nfsMap := map[database.NamespacedFeature]int64{} keys := make([]interface{}, 0, len(nfs)*5) for _, nf := range nfs { keys = append(keys, nf.Name, nf.Version, nf.VersionFormat, nf.Type, nf.Namespace.Name) } rows, err := tx.Query(querySearchNamespacedFeature(len(nfs)), keys...) if err != nil { return nil, handleError("searchNamespacedFeature", err) } defer rows.Close() var ( id int64 nf database.NamespacedFeature ) for rows.Next() { err := rows.Scan(&id, &nf.Name, &nf.Version, &nf.VersionFormat, &nf.Type, &nf.Namespace.Name) nf.Namespace.VersionFormat = nf.VersionFormat if err != nil { return nil, handleError("searchNamespacedFeature", err) } nfsMap[nf] = id } ids := make([]sql.NullInt64, len(nfs)) for i, nf := range nfs { if id, ok := nfsMap[nf]; ok { ids[i] = sql.NullInt64{id, true} } else { ids[i] = sql.NullInt64{} } } return ids, nil } func (tx *pgSession) findFeatureIDs(fs []database.Feature) ([]sql.NullInt64, error) { if len(fs) == 0 { return nil, nil } types, err := tx.getFeatureTypeMap() if err != nil { return nil, err } fMap := map[database.Feature]sql.NullInt64{} keys := make([]interface{}, 0, len(fs)*4) for _, f := range fs { typeID := types.byName[f.Type] keys = append(keys, f.Name, f.Version, f.VersionFormat, typeID) fMap[f] = sql.NullInt64{} } rows, err := tx.Query(querySearchFeatureID(len(fs)), keys...) if err != nil { return nil, handleError("querySearchFeatureID", err) } defer rows.Close() var ( id sql.NullInt64 f database.Feature ) for rows.Next() { var typeID int err := rows.Scan(&id, &f.Name, &f.Version, &f.VersionFormat, &typeID) if err != nil { return nil, handleError("querySearchFeatureID", err) } f.Type = types.byID[typeID] fMap[f] = id } ids := make([]sql.NullInt64, len(fs)) for i, f := range fs { ids[i] = fMap[f] } return ids, nil }