// 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 clair import ( "errors" "fmt" "testing" "github.com/stretchr/testify/assert" "github.com/coreos/clair/database" ) type mockUpdaterDatastore struct { database.MockDatastore namespaces map[string]database.Namespace vulnerabilities map[database.VulnerabilityID]database.VulnerabilityWithAffected vulnNotification map[string]database.VulnerabilityNotification keyValues map[string]string } type mockUpdaterSession struct { database.MockSession store *mockUpdaterDatastore copy mockUpdaterDatastore terminated bool } func copyUpdaterDatastore(md *mockUpdaterDatastore) mockUpdaterDatastore { namespaces := map[string]database.Namespace{} for k, n := range md.namespaces { namespaces[k] = n } vulnerabilities := map[database.VulnerabilityID]database.VulnerabilityWithAffected{} for key, v := range md.vulnerabilities { newV := v affected := []database.AffectedFeature{} for _, f := range v.Affected { affected = append(affected, f) } newV.Affected = affected vulnerabilities[key] = newV } vulnNoti := map[string]database.VulnerabilityNotification{} for key, v := range md.vulnNotification { vulnNoti[key] = v } kv := map[string]string{} for key, value := range md.keyValues { kv[key] = value } return mockUpdaterDatastore{ namespaces: namespaces, vulnerabilities: vulnerabilities, vulnNotification: vulnNoti, keyValues: kv, } } func newmockUpdaterDatastore() *mockUpdaterDatastore { errSessionDone := errors.New("Session Done") md := &mockUpdaterDatastore{ namespaces: make(map[string]database.Namespace), vulnerabilities: make(map[database.VulnerabilityID]database.VulnerabilityWithAffected), vulnNotification: make(map[string]database.VulnerabilityNotification), keyValues: make(map[string]string), } md.FctBegin = func() (database.Session, error) { session := &mockUpdaterSession{ store: md, copy: copyUpdaterDatastore(md), terminated: false, } session.FctCommit = func() error { if session.terminated { return errSessionDone } session.store.namespaces = session.copy.namespaces session.store.vulnerabilities = session.copy.vulnerabilities session.store.vulnNotification = session.copy.vulnNotification session.store.keyValues = session.copy.keyValues session.terminated = true return nil } session.FctRollback = func() error { if session.terminated { return errSessionDone } session.terminated = true session.copy = mockUpdaterDatastore{} return nil } session.FctPersistNamespaces = func(ns []database.Namespace) error { if session.terminated { return errSessionDone } for _, n := range ns { _, ok := session.copy.namespaces[n.Name] if !ok { session.copy.namespaces[n.Name] = n } } return nil } session.FctFindVulnerabilities = func(ids []database.VulnerabilityID) ([]database.NullableVulnerability, error) { r := []database.NullableVulnerability{} for _, id := range ids { vuln, ok := session.copy.vulnerabilities[id] r = append(r, database.NullableVulnerability{ VulnerabilityWithAffected: vuln, Valid: ok, }) } return r, nil } session.FctDeleteVulnerabilities = func(ids []database.VulnerabilityID) error { for _, id := range ids { delete(session.copy.vulnerabilities, id) } return nil } session.FctInsertVulnerabilities = func(vulnerabilities []database.VulnerabilityWithAffected) error { for _, vuln := range vulnerabilities { id := database.VulnerabilityID{ Name: vuln.Name, Namespace: vuln.Namespace.Name, } if _, ok := session.copy.vulnerabilities[id]; ok { return errors.New("Vulnerability already exists") } session.copy.vulnerabilities[id] = vuln } return nil } session.FctUpdateKeyValue = func(key, value string) error { session.copy.keyValues[key] = value return nil } session.FctFindKeyValue = func(key string) (string, bool, error) { s, b := session.copy.keyValues[key] return s, b, nil } session.FctInsertVulnerabilityNotifications = func(notifications []database.VulnerabilityNotification) error { for _, noti := range notifications { session.copy.vulnNotification[noti.Name] = noti } return nil } return session, nil } return md } func TestDoVulnerabilitiesNamespacing(t *testing.T) { fv1 := database.AffectedFeature{ FeatureType: database.SourcePackage, Namespace: database.Namespace{Name: "Namespace1"}, FeatureName: "Feature1", FixedInVersion: "0.1", AffectedVersion: "0.1", } fv2 := database.AffectedFeature{ FeatureType: database.SourcePackage, Namespace: database.Namespace{Name: "Namespace2"}, FeatureName: "Feature1", FixedInVersion: "0.2", AffectedVersion: "0.2", } fv3 := database.AffectedFeature{ FeatureType: database.SourcePackage, Namespace: database.Namespace{Name: "Namespace2"}, FeatureName: "Feature2", FixedInVersion: "0.3", AffectedVersion: "0.3", } vulnerability := database.VulnerabilityWithAffected{ Vulnerability: database.Vulnerability{ Name: "DoVulnerabilityNamespacing", }, Affected: []database.AffectedFeature{fv1, fv2, fv3}, } vulnerabilities := doVulnerabilitiesNamespacing([]database.VulnerabilityWithAffected{vulnerability}) for _, vulnerability := range vulnerabilities { switch vulnerability.Namespace.Name { case fv1.Namespace.Name: assert.Len(t, vulnerability.Affected, 1) assert.Contains(t, vulnerability.Affected, fv1) case fv2.Namespace.Name: assert.Len(t, vulnerability.Affected, 2) assert.Contains(t, vulnerability.Affected, fv2) assert.Contains(t, vulnerability.Affected, fv3) default: t.Errorf("Should not have a Vulnerability with '%s' as its Namespace.", vulnerability.Namespace.Name) fmt.Printf("%#v\n", vulnerability) } } } func TestCreatVulnerabilityNotification(t *testing.T) { vf1 := "VersionFormat1" ns1 := database.Namespace{ Name: "namespace 1", VersionFormat: vf1, } af1 := database.AffectedFeature{ FeatureType: database.SourcePackage, Namespace: ns1, FeatureName: "feature 1", } v1 := database.VulnerabilityWithAffected{ Vulnerability: database.Vulnerability{ Name: "vulnerability 1", Namespace: ns1, Severity: database.UnknownSeverity, }, } // severity change v2 := database.VulnerabilityWithAffected{ Vulnerability: database.Vulnerability{ Name: "vulnerability 1", Namespace: ns1, Severity: database.LowSeverity, }, } // affected versions change v3 := database.VulnerabilityWithAffected{ Vulnerability: database.Vulnerability{ Name: "vulnerability 1", Namespace: ns1, Severity: database.UnknownSeverity, }, Affected: []database.AffectedFeature{af1}, } datastore := newmockUpdaterDatastore() change, err := updateVulnerabilities(datastore, []database.VulnerabilityWithAffected{}) assert.Nil(t, err) assert.Len(t, change, 0) change, err = updateVulnerabilities(datastore, []database.VulnerabilityWithAffected{v1}) assert.Nil(t, err) assert.Len(t, change, 1) assert.Nil(t, change[0].old) assertVulnerability(t, *change[0].new, v1) change, err = updateVulnerabilities(datastore, []database.VulnerabilityWithAffected{v1}) assert.Nil(t, err) assert.Len(t, change, 0) change, err = updateVulnerabilities(datastore, []database.VulnerabilityWithAffected{v2}) assert.Nil(t, err) assert.Len(t, change, 1) assertVulnerability(t, *change[0].new, v2) assertVulnerability(t, *change[0].old, v1) change, err = updateVulnerabilities(datastore, []database.VulnerabilityWithAffected{v3}) assert.Nil(t, err) assert.Len(t, change, 1) assertVulnerability(t, *change[0].new, v3) assertVulnerability(t, *change[0].old, v2) err = createVulnerabilityNotifications(datastore, change) assert.Nil(t, err) assert.Len(t, datastore.vulnNotification, 1) for _, noti := range datastore.vulnNotification { assert.Equal(t, *noti.New, v3.Vulnerability) assert.Equal(t, *noti.Old, v2.Vulnerability) } } func assertVulnerability(t *testing.T, expected database.VulnerabilityWithAffected, actual database.VulnerabilityWithAffected) bool { expectedAF := expected.Affected actualAF := actual.Affected expected.Affected, actual.Affected = nil, nil assert.Equal(t, expected, actual) assert.Len(t, actualAF, len(expectedAF)) mapAF := map[database.AffectedFeature]bool{} for _, af := range expectedAF { mapAF[af] = false } for _, af := range actualAF { if visited, ok := mapAF[af]; !ok || visited { return false } } return true }