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df57a64ed7
* fix(oidc): ignore public key expiry for ID Token hints This splits the key sets used for access token and ID token hints. ID Token hints should be able to be verified by with public keys that are already expired. However, we do not want to change this behavior for Access Tokens, where an error for an expired public key is still returned. The public key cache is modified to purge public keys based on last use, instead of expiry. The cache is shared between both verifiers. * resolve review comments * pin oidc 3.11
436 lines
10 KiB
Go
436 lines
10 KiB
Go
package query
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import (
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"context"
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"crypto/rsa"
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"database/sql"
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"time"
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sq "github.com/Masterminds/squirrel"
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"github.com/zitadel/zitadel/internal/api/authz"
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"github.com/zitadel/zitadel/internal/api/call"
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"github.com/zitadel/zitadel/internal/crypto"
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"github.com/zitadel/zitadel/internal/domain"
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"github.com/zitadel/zitadel/internal/eventstore"
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"github.com/zitadel/zitadel/internal/query/projection"
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"github.com/zitadel/zitadel/internal/repository/keypair"
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"github.com/zitadel/zitadel/internal/telemetry/tracing"
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"github.com/zitadel/zitadel/internal/zerrors"
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)
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type Key interface {
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ID() string
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Algorithm() string
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Use() domain.KeyUsage
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Sequence() uint64
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}
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type PrivateKey interface {
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Key
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Expiry() time.Time
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Key() *crypto.CryptoValue
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}
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type PublicKey interface {
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Key
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Expiry() time.Time
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Key() interface{}
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}
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type PrivateKeys struct {
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SearchResponse
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Keys []PrivateKey
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}
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type PublicKeys struct {
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SearchResponse
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Keys []PublicKey
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}
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type key struct {
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id string
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creationDate time.Time
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changeDate time.Time
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sequence uint64
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resourceOwner string
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algorithm string
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use domain.KeyUsage
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}
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func (k *key) ID() string {
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return k.id
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}
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func (k *key) Algorithm() string {
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return k.algorithm
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}
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func (k *key) Use() domain.KeyUsage {
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return k.use
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}
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func (k *key) Sequence() uint64 {
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return k.sequence
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}
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type privateKey struct {
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key
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expiry time.Time
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privateKey *crypto.CryptoValue
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}
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func (k *privateKey) Expiry() time.Time {
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return k.expiry
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}
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func (k *privateKey) Key() *crypto.CryptoValue {
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return k.privateKey
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}
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type rsaPublicKey struct {
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key
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expiry time.Time
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publicKey *rsa.PublicKey
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}
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func (r *rsaPublicKey) Expiry() time.Time {
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return r.expiry
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}
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func (r *rsaPublicKey) Key() interface{} {
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return r.publicKey
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}
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var (
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keyTable = table{
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name: projection.KeyProjectionTable,
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instanceIDCol: projection.KeyColumnInstanceID,
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}
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KeyColID = Column{
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name: projection.KeyColumnID,
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table: keyTable,
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}
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KeyColCreationDate = Column{
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name: projection.KeyColumnCreationDate,
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table: keyTable,
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}
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KeyColChangeDate = Column{
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name: projection.KeyColumnChangeDate,
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table: keyTable,
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}
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KeyColResourceOwner = Column{
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name: projection.KeyColumnResourceOwner,
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table: keyTable,
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}
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KeyColInstanceID = Column{
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name: projection.KeyColumnInstanceID,
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table: keyTable,
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}
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KeyColSequence = Column{
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name: projection.KeyColumnSequence,
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table: keyTable,
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}
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KeyColAlgorithm = Column{
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name: projection.KeyColumnAlgorithm,
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table: keyTable,
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}
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KeyColUse = Column{
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name: projection.KeyColumnUse,
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table: keyTable,
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}
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)
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var (
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keyPrivateTable = table{
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name: projection.KeyPrivateTable,
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instanceIDCol: projection.KeyPrivateColumnInstanceID,
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}
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KeyPrivateColID = Column{
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name: projection.KeyPrivateColumnID,
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table: keyPrivateTable,
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}
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KeyPrivateColExpiry = Column{
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name: projection.KeyPrivateColumnExpiry,
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table: keyPrivateTable,
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}
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KeyPrivateColKey = Column{
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name: projection.KeyPrivateColumnKey,
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table: keyPrivateTable,
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}
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)
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var (
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keyPublicTable = table{
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name: projection.KeyPublicTable,
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instanceIDCol: projection.KeyPrivateColumnInstanceID,
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}
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KeyPublicColID = Column{
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name: projection.KeyPublicColumnID,
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table: keyPublicTable,
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}
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KeyPublicColExpiry = Column{
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name: projection.KeyPublicColumnExpiry,
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table: keyPublicTable,
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}
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KeyPublicColKey = Column{
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name: projection.KeyPublicColumnKey,
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table: keyPublicTable,
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}
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)
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func (q *Queries) ActivePublicKeys(ctx context.Context, t time.Time) (keys *PublicKeys, err error) {
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ctx, span := tracing.NewSpan(ctx)
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defer func() { span.EndWithError(err) }()
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query, scan := preparePublicKeysQuery(ctx, q.client)
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if t.IsZero() {
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t = time.Now()
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}
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stmt, args, err := query.Where(
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sq.And{
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sq.Eq{KeyColInstanceID.identifier(): authz.GetInstance(ctx).InstanceID()},
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sq.Gt{KeyPublicColExpiry.identifier(): t},
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}).ToSql()
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if err != nil {
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return nil, zerrors.ThrowInternal(err, "QUERY-SDFfg", "Errors.Query.SQLStatement")
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}
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err = q.client.QueryContext(ctx, func(rows *sql.Rows) error {
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keys, err = scan(rows)
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return err
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}, stmt, args...)
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if err != nil {
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return nil, zerrors.ThrowInternal(err, "QUERY-Sghn4", "Errors.Internal")
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}
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keys.State, err = q.latestState(ctx, keyTable)
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if !zerrors.IsNotFound(err) {
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return keys, err
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}
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return keys, nil
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}
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func (q *Queries) ActivePrivateSigningKey(ctx context.Context, t time.Time) (keys *PrivateKeys, err error) {
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ctx, span := tracing.NewSpan(ctx)
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defer func() { span.EndWithError(err) }()
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stmt, scan := preparePrivateKeysQuery(ctx, q.client)
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if t.IsZero() {
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t = time.Now()
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}
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query, args, err := stmt.Where(
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sq.And{
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sq.Eq{
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KeyColUse.identifier(): domain.KeyUsageSigning,
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KeyColInstanceID.identifier(): authz.GetInstance(ctx).InstanceID(),
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},
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sq.Gt{KeyPrivateColExpiry.identifier(): t},
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}).OrderBy(KeyPrivateColExpiry.identifier()).ToSql()
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if err != nil {
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return nil, zerrors.ThrowInternal(err, "QUERY-SDff2", "Errors.Query.SQLStatement")
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}
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err = q.client.QueryContext(ctx, func(rows *sql.Rows) error {
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keys, err = scan(rows)
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return err
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}, query, args...)
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if err != nil {
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return nil, zerrors.ThrowInternal(err, "QUERY-WRFG4", "Errors.Internal")
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}
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keys.State, err = q.latestState(ctx, keyTable)
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if !zerrors.IsNotFound(err) {
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return keys, err
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}
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return keys, nil
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}
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func preparePublicKeysQuery(ctx context.Context, db prepareDatabase) (sq.SelectBuilder, func(*sql.Rows) (*PublicKeys, error)) {
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return sq.Select(
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KeyColID.identifier(),
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KeyColCreationDate.identifier(),
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KeyColChangeDate.identifier(),
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KeyColSequence.identifier(),
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KeyColResourceOwner.identifier(),
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KeyColAlgorithm.identifier(),
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KeyColUse.identifier(),
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KeyPublicColExpiry.identifier(),
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KeyPublicColKey.identifier(),
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countColumn.identifier(),
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).From(keyTable.identifier()).
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LeftJoin(join(KeyPublicColID, KeyColID) + db.Timetravel(call.Took(ctx))).
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PlaceholderFormat(sq.Dollar),
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func(rows *sql.Rows) (*PublicKeys, error) {
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keys := make([]PublicKey, 0)
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var count uint64
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for rows.Next() {
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k := new(rsaPublicKey)
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var keyValue []byte
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err := rows.Scan(
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&k.id,
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&k.creationDate,
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&k.changeDate,
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&k.sequence,
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&k.resourceOwner,
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&k.algorithm,
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&k.use,
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&k.expiry,
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&keyValue,
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&count,
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)
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if err != nil {
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return nil, err
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}
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k.publicKey, err = crypto.BytesToPublicKey(keyValue)
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if err != nil {
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return nil, err
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}
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keys = append(keys, k)
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}
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if err := rows.Close(); err != nil {
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return nil, zerrors.ThrowInternal(err, "QUERY-rKd6k", "Errors.Query.CloseRows")
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}
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return &PublicKeys{
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Keys: keys,
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SearchResponse: SearchResponse{
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Count: count,
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},
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}, nil
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}
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}
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func preparePrivateKeysQuery(ctx context.Context, db prepareDatabase) (sq.SelectBuilder, func(*sql.Rows) (*PrivateKeys, error)) {
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return sq.Select(
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KeyColID.identifier(),
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KeyColCreationDate.identifier(),
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KeyColChangeDate.identifier(),
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KeyColSequence.identifier(),
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KeyColResourceOwner.identifier(),
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KeyColAlgorithm.identifier(),
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KeyColUse.identifier(),
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KeyPrivateColExpiry.identifier(),
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KeyPrivateColKey.identifier(),
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countColumn.identifier(),
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).From(keyTable.identifier()).
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LeftJoin(join(KeyPrivateColID, KeyColID) + db.Timetravel(call.Took(ctx))).
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PlaceholderFormat(sq.Dollar),
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func(rows *sql.Rows) (*PrivateKeys, error) {
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keys := make([]PrivateKey, 0)
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var count uint64
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for rows.Next() {
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k := new(privateKey)
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err := rows.Scan(
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&k.id,
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&k.creationDate,
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&k.changeDate,
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&k.sequence,
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&k.resourceOwner,
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&k.algorithm,
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&k.use,
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&k.expiry,
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&k.privateKey,
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&count,
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)
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if err != nil {
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return nil, err
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}
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keys = append(keys, k)
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}
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if err := rows.Close(); err != nil {
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return nil, zerrors.ThrowInternal(err, "QUERY-rKd6k", "Errors.Query.CloseRows")
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}
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return &PrivateKeys{
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Keys: keys,
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SearchResponse: SearchResponse{
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Count: count,
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},
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}, nil
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}
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}
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type PublicKeyReadModel struct {
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eventstore.ReadModel
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Algorithm string
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Key *crypto.CryptoValue
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Expiry time.Time
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Usage domain.KeyUsage
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}
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func NewPublicKeyReadModel(keyID, resourceOwner string) *PublicKeyReadModel {
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return &PublicKeyReadModel{
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ReadModel: eventstore.ReadModel{
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AggregateID: keyID,
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ResourceOwner: resourceOwner,
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},
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}
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}
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func (wm *PublicKeyReadModel) AppendEvents(events ...eventstore.Event) {
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wm.ReadModel.AppendEvents(events...)
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}
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func (wm *PublicKeyReadModel) Reduce() error {
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for _, event := range wm.Events {
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switch e := event.(type) {
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case *keypair.AddedEvent:
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wm.Algorithm = e.Algorithm
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wm.Key = e.PublicKey.Key
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wm.Expiry = e.PublicKey.Expiry
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wm.Usage = e.Usage
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default:
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}
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}
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return wm.ReadModel.Reduce()
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}
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func (wm *PublicKeyReadModel) Query() *eventstore.SearchQueryBuilder {
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return eventstore.NewSearchQueryBuilder(eventstore.ColumnsEvent).
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AwaitOpenTransactions().
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ResourceOwner(wm.ResourceOwner).
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AddQuery().
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AggregateTypes(keypair.AggregateType).
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AggregateIDs(wm.AggregateID).
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EventTypes(keypair.AddedEventType).
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Builder()
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}
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func (q *Queries) GetPublicKeyByID(ctx context.Context, keyID string) (_ PublicKey, err error) {
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ctx, span := tracing.NewSpan(ctx)
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defer func() { span.EndWithError(err) }()
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model := NewPublicKeyReadModel(keyID, authz.GetInstance(ctx).InstanceID())
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if err := q.eventstore.FilterToQueryReducer(ctx, model); err != nil {
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return nil, err
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}
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if model.Algorithm == "" || model.Key == nil {
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return nil, zerrors.ThrowNotFound(err, "QUERY-Ahf7x", "Errors.Key.NotFound")
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}
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keyValue, err := crypto.Decrypt(model.Key, q.keyEncryptionAlgorithm)
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if err != nil {
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return nil, zerrors.ThrowInternal(err, "QUERY-Ie4oh", "Errors.Internal")
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}
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publicKey, err := crypto.BytesToPublicKey(keyValue)
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if err != nil {
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return nil, zerrors.ThrowInternal(err, "QUERY-Kai2Z", "Errors.Internal")
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}
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return &rsaPublicKey{
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key: key{
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id: model.AggregateID,
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creationDate: model.CreationDate,
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changeDate: model.ChangeDate,
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sequence: model.ProcessedSequence,
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resourceOwner: model.ResourceOwner,
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algorithm: model.Algorithm,
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use: model.Usage,
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},
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expiry: model.Expiry,
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publicKey: publicKey,
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}, nil
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}
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