Events and Lifecycle Hooks
There are two ways to hook to the lifecycle of an entity:
- Lifecycle hooks are methods defined on an entity prototype.
- EventSubscribers are classes that can be used to hook to multiple entities or when you do not want to have the method present on an entity prototype.
Hooks are internally executed the same way as subscribers.
Hooks are executed before subscribers.
Hooks
You can use lifecycle hooks to run arbitrary code when an entity gets persisted. You can mark any of entity methods with them, and multiple methods can be marked with the same hook.
All hooks support async methods with one exception - @OnInit
.
-
@OnInit
is fired when new instance of entity is created, either manuallyem.create()
, or automatically when new entities are loaded from database -
@OnLoad
is fired when new entity is loaded into context (e.g. viaem.find()
orem.populate()
). As opposed to@OnInit
this will be fired only for fully loaded entities, not references, and this hook can be async. -
@BeforeCreate()
and@BeforeUpdate()
is fired right before you persist an entity in database -
@AfterCreate()
and@AfterUpdate()
is fired right after an entity is updated in database and merged to identity map. Since this event entity will have reference toEntityManager
and will be enabled to callwrap(entity).init()
method (including all entity references and collections). -
@BeforeDelete()
is fired right before you delete the record from database. It is fired only when removing entity or entity reference, not when deleting records by query. -
@AfterDelete()
is fired right after the record gets deleted from database and it is unset from the identity map.
@OnInit
is not fired when you create an entity manually via its constructor (new MyEntity()
)
@OnInit
can be sometimes fired twice, once when an entity reference is created, and once after its populated. To distinguish betyouen those you can usewrap(this).isInitialized()
.
Upsert hooks
em.upsert()
and em.upsertMany
cannot fire the create/update hooks, as you don't know if the query is an insert or update, those methods offer their own hooks - beforeUpsert
and afterUpsert
. The beforeUpsert
event might provide a DTO instead of entity instance, based on how you call the upsert method. You can use the EventArgs.meta
object to detect what kind of entity it belongs to. afterUpsert
event will always receive already managed entity instance.
Collections and @OnUpdate
The @OnUpdate
hook is fired when some values of an entity change and cause an UPDATE
query. This means that only changes to the scalar properties and owning sides of M:1 and 1:1 relations are considered here - changes to Collection
s won't trigger an update event.
When you modify a 1:M collection, you are in fact changing the owning side of this relation, which is the M:1 property on the other entity (which will get the event triggered).
For M:N relations with pivot entities (all SQL drivers), you won't get the update event fired on either of the sides, as the changes are made to the pivot table only. You can get the updated collection via uow.getCollectionUpdates()
, and check how their last known database state looked like via Collection.getSnapshot()
.
Limitations of lifecycle hooks
Hooks (as youll as event subscribers) are executed inside the commit action of unit of work, after all change sets are computed. This means that it is not possible to create new entities as usual from inside the hook. Calling em.flush()
from hooks will result in validation error. Calling em.persist()
can result in undefined behavior like locking errors.
The internal instance of
EntityManager
accessible underwrap(this, true).__em
is not meant for public usage.
EventSubscriber
Use EventSubscriber
to hook to multiple entities or if you do not want to pollute the entity prototype. All methods are optional, if you omit the getSubscribedEntities()
method, it means you are subscribing to all entities.
You can either register the subscribers manually in the ORM configuration (via subscribers
array where you put the instance):
MikroORM.init({
subscribers: [new AuthorSubscriber()],
});
Another example, where you register to all the events and all entities:
import { EventArgs, TransactionEventArgs, EventSubscriber } from '@mikro-orm/core';
export class EverythingSubscriber implements EventSubscriber {
// entity life cycle events
onInit<T>(args: EventArgs<T>): void { ... }
async onLoad<T>(args: EventArgs<T>): Promise<void> { ... }
async beforeCreate<T>(args: EventArgs<T>): Promise<void> { ... }
async afterCreate<T>(args: EventArgs<T>): Promise<void> { ... }
async beforeUpdate<T>(args: EventArgs<T>): Promise<void> { ... }
async afterUpdate<T>(args: EventArgs<T>): Promise<void> { ... }
async beforeUpsert<T>(args: EventArgs<T>): Promise<void> { ... }
async afterUpsert<T>(args: EventArgs<T>): Promise<void> { ... }
async beforeDelete<T>(args: EventArgs<T>): Promise<void> { ... }
async afterDelete<T>(args: EventArgs<T>): Promise<void> { ... }
// flush events
async beforeFlush<T>(args: FlushEventArgs): Promise<void> { ... }
async onFlush<T>(args: FlushEventArgs): Promise<void> { ... }
async afterFlush<T>(args: FlushEventArgs): Promise<void> { ... }
// transaction events
async beforeTransactionStart(args: TransactionEventArgs): Promise<void> { ... }
async afterTransactionStart(args: TransactionEventArgs): Promise<void> { ... }
async beforeTransactionCommit(args: TransactionEventArgs): Promise<void> { ... }
async afterTransactionCommit(args: TransactionEventArgs): Promise<void> { ... }
async beforeTransactionRollback(args: TransactionEventArgs): Promise<void> { ... }
async afterTransactionRollback(args: TransactionEventArgs): Promise<void> { ... }
}
EventArgs
As a parameter to the hook method you get EventArgs
instance. It will always contain reference to the current EntityManager
and the particular entity. Events fired from UnitOfWork
during flush operation also contain the ChangeSet
object.
interface EventArgs<T> {
entity: T;
em: EntityManager;
changeSet?: ChangeSet<T>;
}
interface ChangeSet<T> {
name: string; // entity name
collection: string; // db table name
type: ChangeSetType; // type of operation
entity: T; // up to date entity instance
payload: EntityData<T>; // changes that will be used to build the update query
persisted: boolean; // whether the changeset was already persisted/executed
originalEntity?: EntityData<T>; // snapshot of an entity when it was loaded from db
}
enum ChangeSetType {
CREATE = 'create',
UPDATE = 'update',
DELETE = 'delete',
DELETE_EARLY = 'delete_early',
}
Flush events
There is a special kind of events executed during the commit phase (flush operation). They are executed before, during and after the flush, and they are not bound to any entity in particular.
beforeFlush
is executed before change sets are computed, this is the only event where it is safe to persist new entities.onFlush
is executed after the change sets are computed.afterFlush
is executed as the last step just before theflush
call resolves. it will be executed even if there are no changes to be flushed.
Flush event args will not contain any entity instance, as they are entity agnostic. They do contain additional reference to the UnitOfWork
instance.
interface FlushEventArgs extends Omit<EventArgs<unknown>, 'entity'> {
uow?: UnitOfWork;
}
Flush events are entity agnostic, specifying
getSubscribedEntities()
method will not have any effect for those. They are fired only once per theflush
operation.
Transaction events
You can also tap into the database transaction events:
beforeTransactionStart
afterTransactionStart
beforeTransactionCommit
afterTransactionCommit
beforeTransactionRollback
afterTransactionRollback
Transaction event args will not contain any entity instance, as they are entity agnostic. They do contain additional reference to the UnitOfWork
instance and native Transaction
object (e.g. for SQL drivers it will be knex client instance).
export interface TransactionEventArgs extends Omit<EventArgs<unknown>, 'entity' | 'changeSet'> {
transaction?: Transaction;
uow?: UnitOfWork;
}
Getting the changes from UnitOfWork
You can observe all the changes that are part of given UnitOfWork via those methods:
UnitOfWork.getChangeSets(): ChangeSet<AnyEntity>[];
UnitOfWork.getOriginalEntityData(entity): EntityData<AnyEntity>;
UnitOfWork.getPersistStack(): Set<AnyEntity>;
UnitOfWork.getRemoveStack(): Set<AnyEntity>;
UnitOfWork.getCollectionUpdates(): Collection<AnyEntity>[];
UnitOfWork.getExtraUpdates(): Set<[AnyEntity, string, (AnyEntity | Reference<AnyEntity>)]>;
Using onFlush event
In following example we have 2 entities: FooBar
and FooBaz
, connected via M:1 relation. Our subscriber will automatically create new FooBaz
entity and connect it to the FooBar
when we detect it in the change sets.
We first use uow.getChangeSets()
method to look up the change set of entity we are interested in. After we create the FooBaz
instance and link it with FooBar
, we need to do two things:
- Call
uow.computeChangeSet(baz)
to compute the change set of newly createdFooBaz
entity - Call
uow.recomputeSingleChangeSet(cs.entity)
to recalculate the existing change set of theFooBar
entity.
export class FooBarSubscriber implements EventSubscriber {
async onFlush(args: FlushEventArgs): Promise<void> {
const changeSets = args.uow.getChangeSets();
const cs = changeSets.find(cs => cs.type === ChangeSetType.CREATE && cs.entity instanceof FooBar);
if (cs) {
const baz = new FooBaz();
baz.name = 'dynamic';
cs.entity.baz = baz;
args.uow.computeChangeSet(baz);
args.uow.recomputeSingleChangeSet(cs.entity);
}
}
}
const bar = new FooBar();
bar.name = 'bar';
await em.persist(bar).flush();
To create a DELETE
changeset, you can use the second parameter of uow.computeChangeSet()
:
async onFlush(args: FlushEventArgs): Promise<void> {
const changeSets = args.uow.getChangeSets();
const cs = changeSets.find(cs => cs.type === ChangeSetType.UPDATE && cs.entity instanceof FooBar);
if (cs) {
args.uow.computeChangeSet(cs.entity, ChangeSetType.DELETE);
}
}
Transaction events
Transaction events happen at the beginning and end of a transaction.
beforeTransactionStart
is executed before a transaction starts.afterTransactionStart
is executed after a transaction starts.beforeTransactionCommit
is executed before a transaction is committed.afterTransactionCommit
is executed after a transaction is committed.beforeTransactionRollback
is executed before a transaction is rolled back.afterTransactionRollback
is executed after a transaction is rolled back.
They are also entity agnostic and will only reference the transaction, UnitOfWork
instance and EntityManager
instance.