clair/database/models.go

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// Copyright 2017 clair authors
2016-01-19 20:16:45 +00:00
//
// 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 database
import (
"database/sql/driver"
"encoding/json"
"time"
"github.com/coreos/clair/pkg/pagination"
)
// Ancestry is a manifest that keeps all layers in an image in order.
type Ancestry struct {
// Name is a globally unique value for a set of layers. This is often the
// sha256 digest of an OCI/Docker manifest.
Name string
// By contains the processors that are used when computing the
// content of this ancestry.
By []Detector
// Layers should be ordered and i_th layer is the parent of i+1_th layer in
// the slice.
Layers []AncestryLayer
}
// Valid checks if the ancestry is compliant to spec.
func (a *Ancestry) Valid() bool {
if a == nil {
return false
}
if a.Name == "" {
return false
}
for _, d := range a.By {
if !d.Valid() {
return false
}
}
for _, l := range a.Layers {
if !l.Valid() {
return false
}
}
return true
}
// AncestryLayer is a layer with all detected namespaced features.
type AncestryLayer struct {
// Hash is the sha-256 tarsum on the layer's blob content.
Hash string
// Features are the features introduced by this layer when it was
// processed.
Features []AncestryFeature
}
// Valid checks if the Ancestry Layer is compliant to the spec.
func (l *AncestryLayer) Valid() bool {
if l == nil {
return false
}
if l.Hash == "" {
return false
}
return true
}
// GetFeatures returns the Ancestry's features.
func (l *AncestryLayer) GetFeatures() []NamespacedFeature {
nsf := make([]NamespacedFeature, 0, len(l.Features))
for _, f := range l.Features {
nsf = append(nsf, f.NamespacedFeature)
}
return nsf
}
// AncestryFeature is a namespaced feature with the detectors used to
// find this feature.
type AncestryFeature struct {
NamespacedFeature
// FeatureBy is the detector that detected the feature.
FeatureBy Detector
// NamespaceBy is the detector that detected the namespace.
NamespaceBy Detector
}
// Layer is a layer with all the detected features and namespaces.
type Layer struct {
// Hash is the sha-256 tarsum on the layer's blob content.
Hash string
// By contains a list of detectors scanned this Layer.
By []Detector
Namespaces []LayerNamespace
Features []LayerFeature
}
func (l *Layer) GetFeatures() []Feature {
features := make([]Feature, 0, len(l.Features))
for _, f := range l.Features {
features = append(features, f.Feature)
}
return features
}
func (l *Layer) GetNamespaces() []Namespace {
namespaces := make([]Namespace, 0, len(l.Namespaces))
for _, ns := range l.Namespaces {
namespaces = append(namespaces, ns.Namespace)
}
return namespaces
}
// LayerNamespace is a namespace with detection information.
type LayerNamespace struct {
Namespace
// By is the detector found the namespace.
By Detector
}
// LayerFeature is a feature with detection information.
type LayerFeature struct {
Feature
// By is the detector found the feature.
By Detector
}
// Namespace is the contextual information around features.
//
// e.g. Debian:7, NodeJS.
type Namespace struct {
Name string
VersionFormat string
}
// Feature represents a package detected in a layer but the namespace is not
// determined.
//
// e.g. Name: Libssl1.0, Version: 1.0, Name: Openssl, Version: 1.0, VersionFormat: dpkg.
// dpkg is the version format of the installer package manager, which in this
// case could be dpkg or apk.
type Feature struct {
Name string
Version string
SourceName string
SourceVersion string
VersionFormat string
}
// NamespacedFeature is a feature with determined namespace and can be affected
// by vulnerabilities.
//
// e.g. OpenSSL 1.0 dpkg Debian:7.
type NamespacedFeature struct {
Feature
Namespace Namespace
}
// AffectedNamespacedFeature is a namespaced feature affected by the
// vulnerabilities with fixed-in versions for this feature.
type AffectedNamespacedFeature struct {
NamespacedFeature
AffectedBy []VulnerabilityWithFixedIn
}
// VulnerabilityWithFixedIn is used for AffectedNamespacedFeature to retrieve
// the affecting vulnerabilities and the fixed-in versions for the feature.
type VulnerabilityWithFixedIn struct {
Vulnerability
FixedInVersion string
}
// AffectedFeature is used to determine whether a namespaced feature is affected
// by a Vulnerability. Namespace and Feature Name is unique. Affected Feature is
// bound to vulnerability.
type AffectedFeature struct {
Namespace Namespace
FeatureName string
// FixedInVersion is known next feature version that's not affected by the
// vulnerability. Empty FixedInVersion means the unaffected version is
// unknown.
FixedInVersion string
// AffectedVersion contains the version range to determine whether or not a
// feature is affected.
AffectedVersion string
}
// VulnerabilityID is an identifier for every vulnerability. Every vulnerability
// has unique namespace and name.
type VulnerabilityID struct {
Name string
Namespace string
}
// Vulnerability represents CVE or similar vulnerability reports.
type Vulnerability struct {
Name string
Namespace Namespace
Description string
Link string
Severity Severity
Metadata MetadataMap
}
// VulnerabilityWithAffected is an vulnerability with all known affected
// features.
type VulnerabilityWithAffected struct {
Vulnerability
Affected []AffectedFeature
}
// PagedVulnerableAncestries is a vulnerability with a page of affected
// ancestries each with a special index attached for streaming purpose. The
// current page number and next page number are for navigate.
type PagedVulnerableAncestries struct {
Vulnerability
// Affected is a map of special indexes to Ancestries, which the pair
// should be unique in a stream. Every indexes in the map should be larger
// than previous page.
Affected map[int]string
Limit int
Current pagination.Token
Next pagination.Token
// End signals the end of the pages.
End bool
}
// NotificationHook is a message sent to another service to inform of a change
// to a Vulnerability or the Ancestries affected by a Vulnerability. It contains
// the name of a notification that should be read and marked as read via the
// API.
type NotificationHook struct {
Name string
Created time.Time
Notified time.Time
Deleted time.Time
}
// VulnerabilityNotification is a notification for vulnerability changes.
type VulnerabilityNotification struct {
NotificationHook
Old *Vulnerability
New *Vulnerability
}
// VulnerabilityNotificationWithVulnerable is a notification for vulnerability
// changes with vulnerable ancestries.
type VulnerabilityNotificationWithVulnerable struct {
NotificationHook
Old *PagedVulnerableAncestries
New *PagedVulnerableAncestries
}
// MetadataMap is for storing the metadata returned by vulnerability database.
type MetadataMap map[string]interface{}
// NullableAffectedNamespacedFeature is an affectednamespacedfeature with
// whether it's found in datastore.
type NullableAffectedNamespacedFeature struct {
AffectedNamespacedFeature
Valid bool
}
// NullableVulnerability is a vulnerability with whether the vulnerability is
// found in datastore.
type NullableVulnerability struct {
VulnerabilityWithAffected
Valid bool
}
func (mm *MetadataMap) Scan(value interface{}) error {
if value == nil {
return nil
}
// github.com/lib/pq decodes TEXT/VARCHAR fields into strings.
val, ok := value.(string)
if !ok {
panic("got type other than []byte from database")
}
return json.Unmarshal([]byte(val), mm)
}
func (mm *MetadataMap) Value() (driver.Value, error) {
json, err := json.Marshal(*mm)
return string(json), err
}