clair/database/database.go

225 lines
8.7 KiB
Go

// 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 database defines the Clair's models and a common interface for
// database implementations.
package database
import (
"errors"
"fmt"
"time"
)
var (
// ErrBackendException is an error that occurs when the database backend
// does not work properly (ie. unreachable).
ErrBackendException = errors.New("database: an error occurred when querying the backend")
// ErrInconsistent is an error that occurs when a database consistency check
// fails (i.e. when an entity which is supposed to be unique is detected
// twice)
ErrInconsistent = errors.New("database: inconsistent database")
)
// RegistrableComponentConfig is a configuration block that can be used to
// determine which registrable component should be initialized and pass custom
// configuration to it.
type RegistrableComponentConfig struct {
Type string
Options map[string]interface{}
}
var drivers = make(map[string]Driver)
// Driver is a function that opens a Datastore specified by its database driver
// type and specific configuration.
type Driver func(RegistrableComponentConfig) (Datastore, error)
// Register makes a Constructor available by the provided name.
//
// If this function is called twice with the same name or if the Constructor is
// nil, it panics.
func Register(name string, driver Driver) {
if driver == nil {
panic("database: could not register nil Driver")
}
if _, dup := drivers[name]; dup {
panic("database: could not register duplicate Driver: " + name)
}
drivers[name] = driver
}
// Open opens a Datastore specified by a configuration.
func Open(cfg RegistrableComponentConfig) (Datastore, error) {
driver, ok := drivers[cfg.Type]
if !ok {
return nil, fmt.Errorf("database: unknown Driver %q (forgotten configuration or import?)", cfg.Type)
}
return driver(cfg)
}
// Session contains the required operations on a persistent data store for a
// Clair deployment.
//
// Session is started by Datastore.Begin and terminated with Commit or Rollback.
// Besides Commit and Rollback, other functions cannot be called after the
// session is terminated.
// Any function is not guaranteed to be called successfully if there's a session
// failure.
type Session interface {
// Commit commits changes to datastore.
//
// Commit call after Rollback does no-op.
Commit() error
// Rollback drops changes to datastore.
//
// Rollback call after Commit does no-op.
Rollback() error
// UpsertAncestry inserts or replaces an ancestry and its namespaced
// features and processors used to scan the ancestry.
UpsertAncestry(ancestry Ancestry, features []NamespacedFeature, processedBy Processors) error
// FindAncestry retrieves an ancestry with processors used to scan the
// ancestry. If the ancestry is not found, return false.
//
// The ancestry's processors are returned to short cut processing ancestry
// if it has been processed by all processors in the current Clair instance.
FindAncestry(name string) (ancestry Ancestry, processedBy Processors, found bool, err error)
// FindAncestryFeatures retrieves an ancestry with all detected namespaced
// features. If the ancestry is not found, return false.
FindAncestryFeatures(name string) (ancestry AncestryWithFeatures, found bool, err error)
// PersistFeatures inserts a set of features if not in the database.
PersistFeatures(features []Feature) error
// PersistNamespacedFeatures inserts a set of namespaced features if not in
// the database.
PersistNamespacedFeatures([]NamespacedFeature) error
// CacheAffectedNamespacedFeatures relates the namespaced features with the
// vulnerabilities affecting these features.
//
// NOTE(Sida): it's not necessary for every database implementation and so
// this function may have a better home.
CacheAffectedNamespacedFeatures([]NamespacedFeature) error
// FindAffectedNamespacedFeatures retrieves a set of namespaced features
// with affecting vulnerabilities.
FindAffectedNamespacedFeatures(features []NamespacedFeature) ([]NullableAffectedNamespacedFeature, error)
// PersistNamespaces inserts a set of namespaces if not in the database.
PersistNamespaces([]Namespace) error
// PersistLayer inserts a layer if not in the datastore.
PersistLayer(Layer) error
// PersistLayerContent persists a layer's content in the database. The given
// namespaces and features can be partial content of this layer.
//
// The layer, namespaces and features are expected to be already existing
// in the database.
PersistLayerContent(hash string, namespaces []Namespace, features []Feature, processedBy Processors) error
// FindLayer retrieves a layer and the processors scanned the layer.
FindLayer(hash string) (layer Layer, processedBy Processors, found bool, err error)
// FindLayerWithContent returns a layer with all detected features and
// namespaces.
FindLayerWithContent(hash string) (layer LayerWithContent, found bool, err error)
// InsertVulnerabilities inserts a set of UNIQUE vulnerabilities with
// affected features into database, assuming that all vulnerabilities
// provided are NOT in database and all vulnerabilities' namespaces are
// already in the database.
InsertVulnerabilities([]VulnerabilityWithAffected) error
// FindVulnerability retrieves a set of Vulnerabilities with affected
// features.
FindVulnerabilities([]VulnerabilityID) ([]NullableVulnerability, error)
// DeleteVulnerability removes a set of Vulnerabilities assuming that the
// requested vulnerabilities are in the database.
DeleteVulnerabilities([]VulnerabilityID) error
// InsertVulnerabilityNotifications inserts a set of unique vulnerability
// notifications into datastore, assuming that they are not in the database.
InsertVulnerabilityNotifications([]VulnerabilityNotification) error
// FindNewNotification retrieves a notification, which has never been
// notified or notified before a certain time.
FindNewNotification(notifiedBefore time.Time) (hook NotificationHook, found bool, err error)
// FindVulnerabilityNotification retrieves a vulnerability notification with
// affected ancestries affected by old or new vulnerability.
//
// Because the number of affected ancestries maybe large, they are paginated
// and their pages are specified by the given encrypted PageNumbers, which,
// if empty, are always considered first page.
//
// Session interface implementation should have encrypt and decrypt
// functions for PageNumber.
FindVulnerabilityNotification(name string, limit int,
oldVulnerabilityPage PageNumber,
newVulnerabilityPage PageNumber) (
noti VulnerabilityNotificationWithVulnerable,
found bool, err error)
// MarkNotificationNotified marks a Notification as notified now, assuming
// the requested notification is in the database.
MarkNotificationNotified(name string) error
// DeleteNotification removes a Notification in the database.
DeleteNotification(name string) error
// UpdateKeyValue stores or updates a simple key/value pair.
UpdateKeyValue(key, value string) error
// FindKeyValue retrieves a value from the given key.
FindKeyValue(key string) (value string, found bool, err error)
// Lock creates or renew a Lock in the database with the given name, owner
// and duration.
//
// After the specified duration, the Lock expires by itself if it hasn't been
// unlocked, and thus, let other users create a Lock with the same name.
// However, the owner can renew its Lock by setting renew to true.
// Lock should not block, it should instead returns whether the Lock has been
// successfully acquired/renewed. If it's the case, the expiration time of
// that Lock is returned as well.
Lock(name string, owner string, duration time.Duration, renew bool) (success bool, expiration time.Time, err error)
// Unlock releases an existing Lock.
Unlock(name, owner string) error
// FindLock returns the owner of a Lock specified by the name, and its
// expiration time if it exists.
FindLock(name string) (owner string, expiration time.Time, found bool, err error)
}
// Datastore represents a persistent data store
type Datastore interface {
// Begin starts a session to change.
Begin() (Session, error)
// Ping returns the health status of the database.
Ping() bool
// Close closes the database and frees any allocated resource.
Close()
}