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# Which Problems Are Solved Currently ZITADEL defines organization and instance member roles and permissions in defaults.yaml. The permission check is done on API call level. For example: "is this user allowed to make this call on this org". This makes sense on the V1 API where the API is permission-level shaped. For example, a search for users always happens in the context of the organization. (Either the organization the calling user belongs to, or through member ship and the x-zitadel-orgid header. However, for resource based APIs we must be able to resolve permissions by object. For example, an IAM_OWNER listing users should be able to get all users in an instance based on the query filters. Alternatively a user may have user.read permissions on one or more orgs. They should be able to read just those users. # How the Problems Are Solved ## Role permission mapping The role permission mappings defined from `defaults.yaml` or local config override are synchronized to the database on every run of `zitadel setup`: - A single query per **aggregate** builds a list of `add` and `remove` actions needed to reach the desired state or role permission mappings from the config. - The required events based on the actions are pushed to the event store. - Events define search fields so that permission checking can use the indices and is strongly consistent for both query and command sides. The migration is split in the following aggregates: - System aggregate for for roles prefixed with `SYSTEM` - Each instance for roles not prefixed with `SYSTEM`. This is in anticipation of instance level management over the API. ## Membership Current instance / org / project membership events now have field table definitions. Like the role permissions this ensures strong consistency while still being able to use the indices of the fields table. A migration is provided to fill the membership fields. ## Permission check I aimed keeping the mental overhead to the developer to a minimal. The provided implementation only provides a permission check for list queries for org level resources, for example users. In the `query` package there is a simple helper function `wherePermittedOrgs` which makes sure the underlying database function is called as part of the `SELECT` query and the permitted organizations are part of the `WHERE` clause. This makes sure results from non-permitted organizations are omitted. Under the hood: - A Pg/PlSQL function searches for a list of organization IDs the passed user has the passed permission. - When the user has the permission on instance level, it returns early with all organizations. - The functions uses a number of views. The views help mapping the fields entries into relational data and simplify the code use for the function. The views provide some pre-filters which allow proper index usage once the final `WHERE` clauses are set by the function. # Additional Changes # Additional Context Closes #9032 Closes https://github.com/zitadel/zitadel/issues/9014 https://github.com/zitadel/zitadel/issues/9188 defines follow-ups for the new permission framework based on this concept.
115 lines
4.0 KiB
Go
115 lines
4.0 KiB
Go
package command
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import (
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"context"
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"github.com/muhlemmer/gu"
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"github.com/zitadel/zitadel/internal/api/authz"
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"github.com/zitadel/zitadel/internal/command/preparation"
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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/feature"
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"github.com/zitadel/zitadel/internal/repository/feature/feature_v2"
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"github.com/zitadel/zitadel/internal/zerrors"
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)
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type InstanceFeatures struct {
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LoginDefaultOrg *bool
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TriggerIntrospectionProjections *bool
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LegacyIntrospection *bool
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UserSchema *bool
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TokenExchange *bool
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Actions *bool
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ImprovedPerformance []feature.ImprovedPerformanceType
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WebKey *bool
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DebugOIDCParentError *bool
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OIDCSingleV1SessionTermination *bool
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DisableUserTokenEvent *bool
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EnableBackChannelLogout *bool
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LoginV2 *feature.LoginV2
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PermissionCheckV2 *bool
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}
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func (m *InstanceFeatures) isEmpty() bool {
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return m.LoginDefaultOrg == nil &&
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m.TriggerIntrospectionProjections == nil &&
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m.LegacyIntrospection == nil &&
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m.UserSchema == nil &&
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m.TokenExchange == nil &&
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m.Actions == nil &&
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// nil check to allow unset improvements
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m.ImprovedPerformance == nil &&
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m.WebKey == nil &&
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m.DebugOIDCParentError == nil &&
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m.OIDCSingleV1SessionTermination == nil &&
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m.DisableUserTokenEvent == nil &&
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m.EnableBackChannelLogout == nil &&
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m.LoginV2 == nil &&
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m.PermissionCheckV2 == nil
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}
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func (c *Commands) SetInstanceFeatures(ctx context.Context, f *InstanceFeatures) (*domain.ObjectDetails, error) {
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if f.isEmpty() {
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return nil, zerrors.ThrowInvalidArgument(nil, "COMMAND-Vigh1", "Errors.NoChangesFound")
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}
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wm := NewInstanceFeaturesWriteModel(authz.GetInstance(ctx).InstanceID())
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if err := c.eventstore.FilterToQueryReducer(ctx, wm); err != nil {
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return nil, err
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}
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if err := c.setupWebKeyFeature(ctx, wm, f); err != nil {
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return nil, err
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}
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commands := wm.setCommands(ctx, f)
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if len(commands) == 0 {
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return writeModelToObjectDetails(wm.WriteModel), nil
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}
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events, err := c.eventstore.Push(ctx, commands...)
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if err != nil {
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return nil, err
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}
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return pushedEventsToObjectDetails(events), nil
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}
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func prepareSetFeatures(instanceID string, f *InstanceFeatures) preparation.Validation {
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return func() (preparation.CreateCommands, error) {
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return func(ctx context.Context, _ preparation.FilterToQueryReducer) ([]eventstore.Command, error) {
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wm := NewInstanceFeaturesWriteModel(instanceID)
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return wm.setCommands(ctx, f), nil
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}, nil
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}
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}
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// setupWebKeyFeature generates the initial web keys for the instance,
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// if the feature is enabled in the request and the feature wasn't enabled already in the writeModel.
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// [Commands.GenerateInitialWebKeys] checks if keys already exist and does nothing if that's the case.
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// The default config of a RSA key with 2048 and the SHA256 hasher is assumed.
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// Users can customize this after using the webkey/v3 API.
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func (c *Commands) setupWebKeyFeature(ctx context.Context, wm *InstanceFeaturesWriteModel, f *InstanceFeatures) error {
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if !gu.Value(f.WebKey) || gu.Value(wm.WebKey) {
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return nil
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}
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return c.GenerateInitialWebKeys(ctx, &crypto.WebKeyRSAConfig{
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Bits: crypto.RSABits2048,
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Hasher: crypto.RSAHasherSHA256,
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})
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}
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func (c *Commands) ResetInstanceFeatures(ctx context.Context) (*domain.ObjectDetails, error) {
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instanceID := authz.GetInstance(ctx).InstanceID()
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wm := NewInstanceFeaturesWriteModel(instanceID)
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if err := c.eventstore.FilterToQueryReducer(ctx, wm); err != nil {
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return nil, err
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}
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if wm.isEmpty() {
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return writeModelToObjectDetails(wm.WriteModel), nil
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}
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aggregate := feature_v2.NewAggregate(instanceID, instanceID)
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events, err := c.eventstore.Push(ctx, feature_v2.NewResetEvent(ctx, aggregate, feature_v2.InstanceResetEventType))
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if err != nil {
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return nil, err
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}
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return pushedEventsToObjectDetails(events), nil
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}
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