clair/database/pgsql/notification.go

215 lines
6.0 KiB
Go
Raw Normal View History

package pgsql
import (
"database/sql"
"time"
"github.com/coreos/clair/database"
cerrors "github.com/coreos/clair/utils/errors"
"github.com/guregu/null/zero"
"github.com/pborman/uuid"
)
// do it in tx so we won't insert/update a vuln without notification and vice-versa.
// name and created doesn't matter.
func createNotification(tx *sql.Tx, oldVulnerabilityID, newVulnerabilityID int) error {
defer observeQueryTime("createNotification", "all", time.Now())
// Insert Notification.
oldVulnerabilityNullableID := sql.NullInt64{Int64: int64(oldVulnerabilityID), Valid: oldVulnerabilityID != 0}
newVulnerabilityNullableID := sql.NullInt64{Int64: int64(newVulnerabilityID), Valid: newVulnerabilityID != 0}
_, err := tx.Exec(getQuery("i_notification"), uuid.New(), oldVulnerabilityNullableID, newVulnerabilityNullableID)
if err != nil {
tx.Rollback()
return handleError("i_notification", err)
}
return nil
}
// Get one available notification name (!locked && !deleted && (!notified || notified_but_timed-out)).
// Does not fill new/old vuln.
func (pgSQL *pgSQL) GetAvailableNotification(renotifyInterval time.Duration) (database.VulnerabilityNotification, error) {
defer observeQueryTime("GetAvailableNotification", "all", time.Now())
before := time.Now().Add(-renotifyInterval)
row := pgSQL.QueryRow(getQuery("s_notification_available"), before)
notification, err := pgSQL.scanNotification(row, false)
return notification, handleError("s_notification_available", err)
}
func (pgSQL *pgSQL) GetNotification(name string, limit int, page database.VulnerabilityNotificationPageNumber) (database.VulnerabilityNotification, database.VulnerabilityNotificationPageNumber, error) {
defer observeQueryTime("GetNotification", "all", time.Now())
// Get Notification.
notification, err := pgSQL.scanNotification(pgSQL.QueryRow(getQuery("s_notification"), name), true)
if err != nil {
return notification, page, handleError("s_notification", err)
}
// Load vulnerabilities' LayersIntroducingVulnerability.
page.OldVulnerability, err = pgSQL.loadLayerIntroducingVulnerability(
notification.OldVulnerability,
limit,
page.OldVulnerability,
)
if err != nil {
return notification, page, err
}
page.NewVulnerability, err = pgSQL.loadLayerIntroducingVulnerability(
notification.NewVulnerability,
limit,
page.NewVulnerability,
)
if err != nil {
return notification, page, err
}
return notification, page, nil
}
func (pgSQL *pgSQL) scanNotification(row *sql.Row, hasVulns bool) (database.VulnerabilityNotification, error) {
var notification database.VulnerabilityNotification
var created zero.Time
var notified zero.Time
var deleted zero.Time
var oldVulnerabilityNullableID sql.NullInt64
var newVulnerabilityNullableID sql.NullInt64
// Scan notification.
if hasVulns {
err := row.Scan(
&notification.ID,
&notification.Name,
&created,
&notified,
&deleted,
&oldVulnerabilityNullableID,
&newVulnerabilityNullableID,
)
if err != nil {
return notification, err
}
} else {
err := row.Scan(&notification.ID, &notification.Name, &created, &notified, &deleted)
if err != nil {
return notification, err
}
}
notification.Created = created.Time
notification.Notified = notified.Time
notification.Deleted = deleted.Time
if hasVulns {
if oldVulnerabilityNullableID.Valid {
vulnerability, err := pgSQL.findVulnerabilityByIDWithDeleted(int(oldVulnerabilityNullableID.Int64))
if err != nil {
return notification, err
}
notification.OldVulnerability = &vulnerability
}
if newVulnerabilityNullableID.Valid {
vulnerability, err := pgSQL.findVulnerabilityByIDWithDeleted(int(newVulnerabilityNullableID.Int64))
if err != nil {
return notification, err
}
notification.NewVulnerability = &vulnerability
}
}
return notification, nil
}
// Fills Vulnerability.LayersIntroducingVulnerability.
// limit -1: won't do anything
// limit 0: will just get the startID of the second page
func (pgSQL *pgSQL) loadLayerIntroducingVulnerability(vulnerability *database.Vulnerability, limit, startID int) (int, error) {
tf := time.Now()
if vulnerability == nil {
return -1, nil
}
// A startID equals to -1 means that we reached the end already.
if startID == -1 || limit == -1 {
return -1, nil
}
// We do `defer observeQueryTime` here because we don't want to observe invalid calls.
defer observeQueryTime("loadLayerIntroducingVulnerability", "all", tf)
// Query with limit + 1, the last item will be used to know the next starting ID.
rows, err := pgSQL.Query(getQuery("s_notification_layer_introducing_vulnerability"),
vulnerability.ID, startID, limit+1)
if err != nil {
return 0, handleError("s_vulnerability_fixedin_feature", err)
}
defer rows.Close()
var layers []database.Layer
for rows.Next() {
var layer database.Layer
if err := rows.Scan(&layer.ID, &layer.Name); err != nil {
return -1, handleError("s_notification_layer_introducing_vulnerability.Scan()", err)
}
layers = append(layers, layer)
}
if err = rows.Err(); err != nil {
return -1, handleError("s_notification_layer_introducing_vulnerability.Rows()", err)
}
size := limit
if len(layers) < limit {
size = len(layers)
}
vulnerability.LayersIntroducingVulnerability = layers[:size]
nextID := -1
if len(layers) > limit {
nextID = layers[limit].ID
}
return nextID, nil
}
func (pgSQL *pgSQL) SetNotificationNotified(name string) error {
defer observeQueryTime("SetNotificationNotified", "all", time.Now())
if _, err := pgSQL.Exec(getQuery("u_notification_notified"), name); err != nil {
return handleError("u_notification_notified", err)
}
return nil
}
func (pgSQL *pgSQL) DeleteNotification(name string) error {
defer observeQueryTime("DeleteNotification", "all", time.Now())
result, err := pgSQL.Exec(getQuery("r_notification"), name)
if err != nil {
return handleError("r_notification", err)
}
affected, err := result.RowsAffected()
if err != nil {
return handleError("r_notification.RowsAffected()", err)
}
if affected <= 0 {
return cerrors.ErrNotFound
}
return nil
}