zitadel/internal/command/instance_features.go

111 lines
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package command
import (
"context"
feat(v3alpha): web key resource (#8262) # Which Problems Are Solved Implement a new API service that allows management of OIDC signing web keys. This allows users to manage rotation of the instance level keys. which are currently managed based on expiry. The API accepts the generation of the following key types and parameters: - RSA keys with 2048, 3072 or 4096 bit in size and: - Signing with SHA-256 (RS256) - Signing with SHA-384 (RS384) - Signing with SHA-512 (RS512) - ECDSA keys with - P256 curve - P384 curve - P512 curve - ED25519 keys # How the Problems Are Solved Keys are serialized for storage using the JSON web key format from the `jose` library. This is the format that will be used by OIDC for signing, verification and publication. Each instance can have a number of key pairs. All existing public keys are meant to be used for token verification and publication the keys endpoint. Keys can be activated and the active private key is meant to sign new tokens. There is always exactly 1 active signing key: 1. When the first key for an instance is generated, it is automatically activated. 2. Activation of the next key automatically deactivates the previously active key. 3. Keys cannot be manually deactivated from the API 4. Active keys cannot be deleted # Additional Changes - Query methods that later will be used by the OIDC package are already implemented. Preparation for #8031 - Fix indentation in french translation for instance event - Move user_schema translations to consistent positions in all translation files # Additional Context - Closes #8030 - Part of #7809 --------- Co-authored-by: Elio Bischof <elio@zitadel.com>
2024-08-14 14:18:14 +00:00
"github.com/muhlemmer/gu"
"github.com/zitadel/zitadel/internal/api/authz"
"github.com/zitadel/zitadel/internal/command/preparation"
feat(v3alpha): web key resource (#8262) # Which Problems Are Solved Implement a new API service that allows management of OIDC signing web keys. This allows users to manage rotation of the instance level keys. which are currently managed based on expiry. The API accepts the generation of the following key types and parameters: - RSA keys with 2048, 3072 or 4096 bit in size and: - Signing with SHA-256 (RS256) - Signing with SHA-384 (RS384) - Signing with SHA-512 (RS512) - ECDSA keys with - P256 curve - P384 curve - P512 curve - ED25519 keys # How the Problems Are Solved Keys are serialized for storage using the JSON web key format from the `jose` library. This is the format that will be used by OIDC for signing, verification and publication. Each instance can have a number of key pairs. All existing public keys are meant to be used for token verification and publication the keys endpoint. Keys can be activated and the active private key is meant to sign new tokens. There is always exactly 1 active signing key: 1. When the first key for an instance is generated, it is automatically activated. 2. Activation of the next key automatically deactivates the previously active key. 3. Keys cannot be manually deactivated from the API 4. Active keys cannot be deleted # Additional Changes - Query methods that later will be used by the OIDC package are already implemented. Preparation for #8031 - Fix indentation in french translation for instance event - Move user_schema translations to consistent positions in all translation files # Additional Context - Closes #8030 - Part of #7809 --------- Co-authored-by: Elio Bischof <elio@zitadel.com>
2024-08-14 14:18:14 +00:00
"github.com/zitadel/zitadel/internal/crypto"
"github.com/zitadel/zitadel/internal/domain"
"github.com/zitadel/zitadel/internal/eventstore"
"github.com/zitadel/zitadel/internal/feature"
"github.com/zitadel/zitadel/internal/repository/feature/feature_v2"
"github.com/zitadel/zitadel/internal/zerrors"
)
type InstanceFeatures struct {
LoginDefaultOrg *bool
TriggerIntrospectionProjections *bool
LegacyIntrospection *bool
UserSchema *bool
TokenExchange *bool
Actions *bool
ImprovedPerformance []feature.ImprovedPerformanceType
feat(v3alpha): web key resource (#8262) # Which Problems Are Solved Implement a new API service that allows management of OIDC signing web keys. This allows users to manage rotation of the instance level keys. which are currently managed based on expiry. The API accepts the generation of the following key types and parameters: - RSA keys with 2048, 3072 or 4096 bit in size and: - Signing with SHA-256 (RS256) - Signing with SHA-384 (RS384) - Signing with SHA-512 (RS512) - ECDSA keys with - P256 curve - P384 curve - P512 curve - ED25519 keys # How the Problems Are Solved Keys are serialized for storage using the JSON web key format from the `jose` library. This is the format that will be used by OIDC for signing, verification and publication. Each instance can have a number of key pairs. All existing public keys are meant to be used for token verification and publication the keys endpoint. Keys can be activated and the active private key is meant to sign new tokens. There is always exactly 1 active signing key: 1. When the first key for an instance is generated, it is automatically activated. 2. Activation of the next key automatically deactivates the previously active key. 3. Keys cannot be manually deactivated from the API 4. Active keys cannot be deleted # Additional Changes - Query methods that later will be used by the OIDC package are already implemented. Preparation for #8031 - Fix indentation in french translation for instance event - Move user_schema translations to consistent positions in all translation files # Additional Context - Closes #8030 - Part of #7809 --------- Co-authored-by: Elio Bischof <elio@zitadel.com>
2024-08-14 14:18:14 +00:00
WebKey *bool
DebugOIDCParentError *bool
OIDCSingleV1SessionTermination *bool
perf(oidc): disable push of user token meta-event (#8691) # Which Problems Are Solved When executing many concurrent authentication requests on a single machine user, there were performance issues. As the same aggregate is being searched and written to concurrently, we traced it down to a locking issue on the used index. We already optimized the token endpoint by creating a separate OIDC aggregate. At the time we decided to push a single event to the user aggregate, for the user audit log. See [technical advisory 10010](https://zitadel.com/docs/support/advisory/a10010) for more details. However, a recent security fix introduced an additional search query on the user aggregate, causing the locking issue we found. # How the Problems Are Solved Add a feature flag which disables pushing of the `user.token.v2.added`. The event has no importance and was only added for informational purposes on the user objects. The `oidc_session.access_token.added` is the actual payload event and is pushed on the OIDC session aggregate and can still be used for audit trail. # Additional Changes - Fix an event mapper type for `SystemOIDCSingleV1SessionTerminationEventType` # Additional Context - Reported by support request - https://github.com/zitadel/zitadel/pull/7822 changed the token aggregate - https://github.com/zitadel/zitadel/pull/8631 introduced user state check Load test trace graph with `user.token.v2.added` **enabled**. Query times are steadily increasing: ![image](https://github.com/user-attachments/assets/4aa25055-8721-4e93-b695-625560979909) Load test trace graph with `user.token.v2.added` **disabled**. Query times constant: ![image](https://github.com/user-attachments/assets/a7657f6c-0c55-401b-8291-453da5d5caf9) --------- Co-authored-by: Livio Spring <livio.a@gmail.com>
2024-09-26 13:55:41 +00:00
DisableUserTokenEvent *bool
feat(OIDC): add back channel logout (#8837) # Which Problems Are Solved Currently ZITADEL supports RP-initiated logout for clients. Back-channel logout ensures that user sessions are terminated across all connected applications, even if the user closes their browser or loses connectivity providing a more secure alternative for certain use cases. # How the Problems Are Solved If the feature is activated and the client used for the authentication has a back_channel_logout_uri configured, a `session_logout.back_channel` will be registered. Once a user terminates their session, a (notification) handler will send a SET (form POST) to the registered uri containing a logout_token (with the user's ID and session ID). - A new feature "back_channel_logout" is added on system and instance level - A `back_channel_logout_uri` can be managed on OIDC applications - Added a `session_logout` aggregate to register and inform about sent `back_channel` notifications - Added a `SecurityEventToken` channel and `Form`message type in the notification handlers - Added `TriggeredAtOrigin` fields to `HumanSignedOut` and `TerminateSession` events for notification handling - Exported various functions and types in the `oidc` package to be able to reuse for token signing in the back_channel notifier. - To prevent that current existing session termination events will be handled, a setup step is added to set the `current_states` for the `projections.notifications_back_channel_logout` to the current position - [x] requires https://github.com/zitadel/oidc/pull/671 # Additional Changes - Updated all OTEL dependencies to v1.29.0, since OIDC already updated some of them to that version. - Single Session Termination feature is correctly checked (fixed feature mapping) # Additional Context - closes https://github.com/zitadel/zitadel/issues/8467 - TODO: - Documentation - UI to be done: https://github.com/zitadel/zitadel/issues/8469 --------- Co-authored-by: Hidde Wieringa <hidde@hiddewieringa.nl>
2024-10-31 14:57:17 +00:00
EnableBackChannelLogout *bool
}
func (m *InstanceFeatures) isEmpty() bool {
return m.LoginDefaultOrg == nil &&
m.TriggerIntrospectionProjections == nil &&
m.LegacyIntrospection == nil &&
m.UserSchema == nil &&
m.TokenExchange == nil &&
m.Actions == nil &&
// nil check to allow unset improvements
feat(v3alpha): web key resource (#8262) # Which Problems Are Solved Implement a new API service that allows management of OIDC signing web keys. This allows users to manage rotation of the instance level keys. which are currently managed based on expiry. The API accepts the generation of the following key types and parameters: - RSA keys with 2048, 3072 or 4096 bit in size and: - Signing with SHA-256 (RS256) - Signing with SHA-384 (RS384) - Signing with SHA-512 (RS512) - ECDSA keys with - P256 curve - P384 curve - P512 curve - ED25519 keys # How the Problems Are Solved Keys are serialized for storage using the JSON web key format from the `jose` library. This is the format that will be used by OIDC for signing, verification and publication. Each instance can have a number of key pairs. All existing public keys are meant to be used for token verification and publication the keys endpoint. Keys can be activated and the active private key is meant to sign new tokens. There is always exactly 1 active signing key: 1. When the first key for an instance is generated, it is automatically activated. 2. Activation of the next key automatically deactivates the previously active key. 3. Keys cannot be manually deactivated from the API 4. Active keys cannot be deleted # Additional Changes - Query methods that later will be used by the OIDC package are already implemented. Preparation for #8031 - Fix indentation in french translation for instance event - Move user_schema translations to consistent positions in all translation files # Additional Context - Closes #8030 - Part of #7809 --------- Co-authored-by: Elio Bischof <elio@zitadel.com>
2024-08-14 14:18:14 +00:00
m.ImprovedPerformance == nil &&
m.WebKey == nil &&
m.DebugOIDCParentError == nil &&
perf(oidc): disable push of user token meta-event (#8691) # Which Problems Are Solved When executing many concurrent authentication requests on a single machine user, there were performance issues. As the same aggregate is being searched and written to concurrently, we traced it down to a locking issue on the used index. We already optimized the token endpoint by creating a separate OIDC aggregate. At the time we decided to push a single event to the user aggregate, for the user audit log. See [technical advisory 10010](https://zitadel.com/docs/support/advisory/a10010) for more details. However, a recent security fix introduced an additional search query on the user aggregate, causing the locking issue we found. # How the Problems Are Solved Add a feature flag which disables pushing of the `user.token.v2.added`. The event has no importance and was only added for informational purposes on the user objects. The `oidc_session.access_token.added` is the actual payload event and is pushed on the OIDC session aggregate and can still be used for audit trail. # Additional Changes - Fix an event mapper type for `SystemOIDCSingleV1SessionTerminationEventType` # Additional Context - Reported by support request - https://github.com/zitadel/zitadel/pull/7822 changed the token aggregate - https://github.com/zitadel/zitadel/pull/8631 introduced user state check Load test trace graph with `user.token.v2.added` **enabled**. Query times are steadily increasing: ![image](https://github.com/user-attachments/assets/4aa25055-8721-4e93-b695-625560979909) Load test trace graph with `user.token.v2.added` **disabled**. Query times constant: ![image](https://github.com/user-attachments/assets/a7657f6c-0c55-401b-8291-453da5d5caf9) --------- Co-authored-by: Livio Spring <livio.a@gmail.com>
2024-09-26 13:55:41 +00:00
m.OIDCSingleV1SessionTermination == nil &&
feat(OIDC): add back channel logout (#8837) # Which Problems Are Solved Currently ZITADEL supports RP-initiated logout for clients. Back-channel logout ensures that user sessions are terminated across all connected applications, even if the user closes their browser or loses connectivity providing a more secure alternative for certain use cases. # How the Problems Are Solved If the feature is activated and the client used for the authentication has a back_channel_logout_uri configured, a `session_logout.back_channel` will be registered. Once a user terminates their session, a (notification) handler will send a SET (form POST) to the registered uri containing a logout_token (with the user's ID and session ID). - A new feature "back_channel_logout" is added on system and instance level - A `back_channel_logout_uri` can be managed on OIDC applications - Added a `session_logout` aggregate to register and inform about sent `back_channel` notifications - Added a `SecurityEventToken` channel and `Form`message type in the notification handlers - Added `TriggeredAtOrigin` fields to `HumanSignedOut` and `TerminateSession` events for notification handling - Exported various functions and types in the `oidc` package to be able to reuse for token signing in the back_channel notifier. - To prevent that current existing session termination events will be handled, a setup step is added to set the `current_states` for the `projections.notifications_back_channel_logout` to the current position - [x] requires https://github.com/zitadel/oidc/pull/671 # Additional Changes - Updated all OTEL dependencies to v1.29.0, since OIDC already updated some of them to that version. - Single Session Termination feature is correctly checked (fixed feature mapping) # Additional Context - closes https://github.com/zitadel/zitadel/issues/8467 - TODO: - Documentation - UI to be done: https://github.com/zitadel/zitadel/issues/8469 --------- Co-authored-by: Hidde Wieringa <hidde@hiddewieringa.nl>
2024-10-31 14:57:17 +00:00
m.DisableUserTokenEvent == nil &&
m.EnableBackChannelLogout == nil
}
func (c *Commands) SetInstanceFeatures(ctx context.Context, f *InstanceFeatures) (*domain.ObjectDetails, error) {
if f.isEmpty() {
return nil, zerrors.ThrowInvalidArgument(nil, "COMMAND-Vigh1", "Errors.NoChangesFound")
}
wm := NewInstanceFeaturesWriteModel(authz.GetInstance(ctx).InstanceID())
if err := c.eventstore.FilterToQueryReducer(ctx, wm); err != nil {
return nil, err
}
feat(v3alpha): web key resource (#8262) # Which Problems Are Solved Implement a new API service that allows management of OIDC signing web keys. This allows users to manage rotation of the instance level keys. which are currently managed based on expiry. The API accepts the generation of the following key types and parameters: - RSA keys with 2048, 3072 or 4096 bit in size and: - Signing with SHA-256 (RS256) - Signing with SHA-384 (RS384) - Signing with SHA-512 (RS512) - ECDSA keys with - P256 curve - P384 curve - P512 curve - ED25519 keys # How the Problems Are Solved Keys are serialized for storage using the JSON web key format from the `jose` library. This is the format that will be used by OIDC for signing, verification and publication. Each instance can have a number of key pairs. All existing public keys are meant to be used for token verification and publication the keys endpoint. Keys can be activated and the active private key is meant to sign new tokens. There is always exactly 1 active signing key: 1. When the first key for an instance is generated, it is automatically activated. 2. Activation of the next key automatically deactivates the previously active key. 3. Keys cannot be manually deactivated from the API 4. Active keys cannot be deleted # Additional Changes - Query methods that later will be used by the OIDC package are already implemented. Preparation for #8031 - Fix indentation in french translation for instance event - Move user_schema translations to consistent positions in all translation files # Additional Context - Closes #8030 - Part of #7809 --------- Co-authored-by: Elio Bischof <elio@zitadel.com>
2024-08-14 14:18:14 +00:00
if err := c.setupWebKeyFeature(ctx, wm, f); err != nil {
return nil, err
}
commands := wm.setCommands(ctx, f)
if len(commands) == 0 {
return writeModelToObjectDetails(wm.WriteModel), nil
}
events, err := c.eventstore.Push(ctx, commands...)
if err != nil {
return nil, err
}
return pushedEventsToObjectDetails(events), nil
}
func prepareSetFeatures(instanceID string, f *InstanceFeatures) preparation.Validation {
return func() (preparation.CreateCommands, error) {
return func(ctx context.Context, _ preparation.FilterToQueryReducer) ([]eventstore.Command, error) {
wm := NewInstanceFeaturesWriteModel(instanceID)
return wm.setCommands(ctx, f), nil
}, nil
}
}
feat(v3alpha): web key resource (#8262) # Which Problems Are Solved Implement a new API service that allows management of OIDC signing web keys. This allows users to manage rotation of the instance level keys. which are currently managed based on expiry. The API accepts the generation of the following key types and parameters: - RSA keys with 2048, 3072 or 4096 bit in size and: - Signing with SHA-256 (RS256) - Signing with SHA-384 (RS384) - Signing with SHA-512 (RS512) - ECDSA keys with - P256 curve - P384 curve - P512 curve - ED25519 keys # How the Problems Are Solved Keys are serialized for storage using the JSON web key format from the `jose` library. This is the format that will be used by OIDC for signing, verification and publication. Each instance can have a number of key pairs. All existing public keys are meant to be used for token verification and publication the keys endpoint. Keys can be activated and the active private key is meant to sign new tokens. There is always exactly 1 active signing key: 1. When the first key for an instance is generated, it is automatically activated. 2. Activation of the next key automatically deactivates the previously active key. 3. Keys cannot be manually deactivated from the API 4. Active keys cannot be deleted # Additional Changes - Query methods that later will be used by the OIDC package are already implemented. Preparation for #8031 - Fix indentation in french translation for instance event - Move user_schema translations to consistent positions in all translation files # Additional Context - Closes #8030 - Part of #7809 --------- Co-authored-by: Elio Bischof <elio@zitadel.com>
2024-08-14 14:18:14 +00:00
// setupWebKeyFeature generates the initial web keys for the instance,
// if the feature is enabled in the request and the feature wasn't enabled already in the writeModel.
// [Commands.GenerateInitialWebKeys] checks if keys already exist and does nothing if that's the case.
// The default config of a RSA key with 2048 and the SHA256 hasher is assumed.
// Users can customize this after using the webkey/v3 API.
func (c *Commands) setupWebKeyFeature(ctx context.Context, wm *InstanceFeaturesWriteModel, f *InstanceFeatures) error {
if !gu.Value(f.WebKey) || gu.Value(wm.WebKey) {
return nil
}
return c.GenerateInitialWebKeys(ctx, &crypto.WebKeyRSAConfig{
Bits: crypto.RSABits2048,
Hasher: crypto.RSAHasherSHA256,
})
}
func (c *Commands) ResetInstanceFeatures(ctx context.Context) (*domain.ObjectDetails, error) {
instanceID := authz.GetInstance(ctx).InstanceID()
wm := NewInstanceFeaturesWriteModel(instanceID)
if err := c.eventstore.FilterToQueryReducer(ctx, wm); err != nil {
return nil, err
}
if wm.isEmpty() {
return writeModelToObjectDetails(wm.WriteModel), nil
}
aggregate := feature_v2.NewAggregate(instanceID, instanceID)
events, err := c.eventstore.Push(ctx, feature_v2.NewResetEvent(ctx, aggregate, feature_v2.InstanceResetEventType))
if err != nil {
return nil, err
}
return pushedEventsToObjectDetails(events), nil
}