### Overview
This PR builds upon #5153, adding the ability to get a repository for
custom objects. The `entitySchema` is now generated for both standard
and custom objects based on metadata stored in the database instead of
the decorated `WorkspaceEntity` in the code. This change ensures that
standard objects with custom fields and relations can also support
custom objects.
### Implementation Details
#### Key Changes:
- **Dynamic Schema Generation:** The `entitySchema` for standard and
custom objects is now dynamically generated from the metadata stored in
the database. This shift allows for greater flexibility and
adaptability, particularly for standard objects with custom fields and
relations.
- **Custom Object Repository Retrieval:** A repository for a custom
object can be retrieved using `TwentyORMManager` based on the object's
name. Here's an example of how this can be achieved:
```typescript
const repository = await this.twentyORMManager.getRepository('custom');
/*
* `repository` variable will be typed as follows, ensuring that standard
fields and relations are properly typed:
* const repository: WorkspaceRepository<CustomWorkspaceEntity & {
* [key: string]: any;
* }>
*/
const res = await repository.find({});
```
Fix#6179
---------
Co-authored-by: Charles Bochet <charles@twenty.com>
Co-authored-by: Weiko <corentin@twenty.com>
## Context
LabelIdentifier and ImageIdentifier are metadata info attached to
objectMetadata that are used to display a record in a more readable way.
Those columns point to existing fields that are part of the object.
For example, for a relation picker of a person, we will show a record
using the "name" labelIdentifier and the "avatarUrl" imageIdentifier.
<img width="215" alt="Screenshot 2024-07-11 at 18 45 51"
src="https://github.com/twentyhq/twenty/assets/1834158/488f8294-0d7c-4209-b763-2499716ef29d">
Currently, the FE has a specific logic for company and people objects
and we have a way to update this value via the API for custom objects,
but the code is not flexible enough to change other standard objects.
This PR updates the WorkspaceEntity API so we can now provide the
labelIdentifier and imageIdentifier in the WorkspaceEntity decorator.
Example:
```typescript
@WorkspaceEntity({
standardId: STANDARD_OBJECT_IDS.activity,
namePlural: 'activities',
labelSingular: 'Activity',
labelPlural: 'Activities',
description: 'An activity',
icon: 'IconCheckbox',
labelIdentifierStandardId: ACTIVITY_STANDARD_FIELD_IDS.title,
})
@WorkspaceIsSystem()
export class ActivityWorkspaceEntity extends BaseWorkspaceEntity {
@WorkspaceField({
standardId: ACTIVITY_STANDARD_FIELD_IDS.title,
type: FieldMetadataType.TEXT,
label: 'Title',
description: 'Activity title',
icon: 'IconNotes',
})
title: string;
...
```
- Refactor connected account module
- Move blocklist into it's own module
- Move contact-creation-manager into it's own module
---------
Co-authored-by: Charles Bochet <charles@twenty.com>
## Context
We want to add an index on our foreign keys since PG does not do it for
us. An index can sometimes be expensive and not always meaningful
depending on different usages but in our case we decided to apply an
index for every foreign keys.
```typescript
@WorkspaceIndex()
@WorkspaceJoinColumn('author')
authorId: string;
```
This syntax is valid but since we want to apply it to every join column
I've decided to update the code of WorkspaceJoinColumn so it properly
registers a new index at the same time which is less error-prone.
Note: We had a bug on index name generation since postgres index names
are unique per schema and not table, the object metadata id (hashed) has
been added to the formula that generates the name of the index
## Test
Sync metadata. We have 45 join columns as of today per workspace, we
should see 45 rows inside IndexMetadata table
- Refactor calendar modules and some messaging modules to better
organize them by business rules and decouple them
- Work toward a common architecture for the different calendar providers
by introducing interfaces for the drivers
- Modify cron job to use the new sync statuses and stages
This PR introduce a new decorator named `@WorkspaceJoinColumn`, the goal
of this one is to manually declare the join columns inside the workspace
entities, so we don't have to rely on `ObjectRecord` type.
This decorator can be used that way:
```typescript
@WorkspaceRelation({
standardId: ACTIVITY_TARGET_STANDARD_FIELD_IDS.company,
type: RelationMetadataType.MANY_TO_ONE,
label: 'Company',
description: 'ActivityTarget company',
icon: 'IconBuildingSkyscraper',
inverseSideTarget: () => CompanyWorkspaceEntity,
inverseSideFieldKey: 'activityTargets',
})
@WorkspaceIsNullable()
company: Relation<CompanyWorkspaceEntity> | null;
// The argument is the name of the relation above
@WorkspaceJoinColumn('company')
companyId: string | null;
```
#### Overview
This PR introduces a new API for dynamically registering and executing
pre and post query hooks in the Workspace Query Hook system using the
`@WorkspaceQueryHook` decorator. This approach eliminates the need for
manual provider registration, and fix the issue of `undefined` or `null`
repository using `@InjectWorkspaceRepository`.
#### New API
**Define a Hook**
Use the `@WorkspaceQueryHook` decorator to define pre or post hooks:
```typescript
@WorkspaceQueryHook({
key: `calendarEvent.findMany`,
scope: Scope.REQUEST,
})
export class CalendarEventFindManyPreQueryHook implements WorkspaceQueryHookInstance {
async execute(userId: string, workspaceId: string, payload: FindManyResolverArgs): Promise<void> {
if (!payload?.filter?.id?.eq) {
throw new BadRequestException('id filter is required');
}
// Implement hook logic here
}
}
```
This API simplifies the registration and execution of query hooks,
providing a more flexible and maintainable approach.
---------
Co-authored-by: Weiko <corentin@twenty.com>
## Context
Our Flexible Schema engine dynamically generates entities/tables/APIs
for us but was not flexible enough to build indexes in the DB. With more
and more features involving heavy queries such as Messaging, we are now
adding a new WorkspaceIndex() decorator for our standard objects (will
come later for custom objects). This decorator will give enough
information to the workspace sync metadata manager to generate the
proper migrations that will create or drop indexes on demand.
To be aligned with the rest of the engine, we are adding 2 new tables:
IndexMetadata and IndexFieldMetadata, that will store the info of our
indexes.
## Implementation
```typescript
@WorkspaceEntity({
standardId: STANDARD_OBJECT_IDS.person,
namePlural: 'people',
labelSingular: 'Person',
labelPlural: 'People',
description: 'A person',
icon: 'IconUser',
})
export class PersonWorkspaceEntity extends BaseWorkspaceEntity {
@WorkspaceField({
standardId: PERSON_STANDARD_FIELD_IDS.email,
type: FieldMetadataType.EMAIL,
label: 'Email',
description: 'Contact’s Email',
icon: 'IconMail',
})
@WorkspaceIndex()
email: string;
```
By simply adding the WorkspaceIndex decorator, sync-metadata command
will create a new index for that column.
We can also add composite indexes, note that the order is important for
PSQL.
```typescript
@WorkspaceEntity({
standardId: STANDARD_OBJECT_IDS.person,
namePlural: 'people',
labelSingular: 'Person',
labelPlural: 'People',
description: 'A person',
icon: 'IconUser',
})
@WorkspaceIndex(['phone', 'email'])
export class PersonWorkspaceEntity extends BaseWorkspaceEntity {
```
Currently composite fields and relation fields are not handled by
@WorkspaceIndex() and you will need to use this notation instead
```typescript
@WorkspaceIndex(['companyId', 'nameFirstName'])
export class PersonWorkspaceEntity extends BaseWorkspaceEntity {
```
<img width="700" alt="Screenshot 2024-06-21 at 15 15 45"
src="https://github.com/twentyhq/twenty/assets/1834158/ac6da1d9-d315-40a4-9ba6-6ab9ae4709d4">
Next step: We might need to implement more complex index expressions,
this is why we have an expression column in IndexMetadata.
What I had in mind for the decorator, still open to discussion
```typescript
@WorkspaceIndex(['nameFirstName', 'nameLastName'], { expression: "$1 || ' ' || $2"})
export class PersonWorkspaceEntity extends BaseWorkspaceEntity {
```
---------
Co-authored-by: Charles Bochet <charles@twenty.com>
This PR is replacing and removing all the raw queries and repositories
with the new `TwentyORM` and injection system using
`@InjectWorkspaceRepository`.
Some logic that was contained inside repositories has been moved to the
services.
In this PR we're only replacing repositories for calendar feature.
---------
Co-authored-by: Weiko <corentin@twenty.com>
Co-authored-by: bosiraphael <raphael.bosi@gmail.com>
Co-authored-by: Charles Bochet <charles@twenty.com>
### Overview
This PR introduces significant enhancements to the MessageQueue module
by integrating `@Processor`, `@Process`, and `@InjectMessageQueue`
decorators. These changes streamline the process of defining and
managing queue processors and job handlers, and also allow for
request-scoped handlers, improving compatibility with services that rely
on scoped providers like TwentyORM repositories.
### Key Features
1. **Decorator-based Job Handling**: Use `@Processor` and `@Process`
decorators to define job handlers declaratively.
2. **Request Scope Support**: Job handlers can be scoped per request,
enhancing integration with request-scoped services.
### Usage
#### Defining Processors and Job Handlers
The `@Processor` decorator is used to define a class that processes jobs
for a specific queue. The `@Process` decorator is applied to methods
within this class to define specific job handlers.
##### Example 1: Specific Job Handlers
```typescript
import { Processor, Process, InjectMessageQueue } from 'src/engine/integrations/message-queue';
@Processor('taskQueue')
export class TaskProcessor {
@Process('taskA')
async handleTaskA(job: { id: string, data: any }) {
console.log(`Handling task A with data:`, job.data);
// Logic for task A
}
@Process('taskB')
async handleTaskB(job: { id: string, data: any }) {
console.log(`Handling task B with data:`, job.data);
// Logic for task B
}
}
```
In the example above, `TaskProcessor` is responsible for processing jobs
in the `taskQueue`. The `handleTaskA` method will only be called for
jobs with the name `taskA`, while `handleTaskB` will be called for
`taskB` jobs.
##### Example 2: General Job Handler
```typescript
import { Processor, Process, InjectMessageQueue } from 'src/engine/integrations/message-queue';
@Processor('generalQueue')
export class GeneralProcessor {
@Process()
async handleAnyJob(job: { id: string, name: string, data: any }) {
console.log(`Handling job ${job.name} with data:`, job.data);
// Logic for any job
}
}
```
In this example, `GeneralProcessor` handles all jobs in the
`generalQueue`, regardless of the job name. The `handleAnyJob` method
will be invoked for every job added to the `generalQueue`.
#### Adding Jobs to a Queue
You can use the `@InjectMessageQueue` decorator to inject a queue into a
service and add jobs to it.
##### Example:
```typescript
import { Injectable } from '@nestjs/common';
import { InjectMessageQueue, MessageQueue } from 'src/engine/integrations/message-queue';
@Injectable()
export class TaskService {
constructor(
@InjectMessageQueue('taskQueue') private readonly taskQueue: MessageQueue,
) {}
async addTaskA(data: any) {
await this.taskQueue.add('taskA', data);
}
async addTaskB(data: any) {
await this.taskQueue.add('taskB', data);
}
}
```
In this example, `TaskService` adds jobs to the `taskQueue`. The
`addTaskA` and `addTaskB` methods add jobs named `taskA` and `taskB`,
respectively, to the queue.
#### Using Scoped Job Handlers
To utilize request-scoped job handlers, specify the scope in the
`@Processor` decorator. This is particularly useful for services that
use scoped repositories like those in TwentyORM.
##### Example:
```typescript
import { Processor, Process, InjectMessageQueue, Scope } from 'src/engine/integrations/message-queue';
@Processor({ name: 'scopedQueue', scope: Scope.REQUEST })
export class ScopedTaskProcessor {
@Process('scopedTask')
async handleScopedTask(job: { id: string, data: any }) {
console.log(`Handling scoped task with data:`, job.data);
// Logic for scoped task, which might use request-scoped services
}
}
```
Here, the `ScopedTaskProcessor` is associated with `scopedQueue` and
operates with request scope. This setup is essential when the job
handler relies on services that need to be instantiated per request,
such as scoped repositories.
### Migration Notes
- **Decorators**: Refactor job handlers to use `@Processor` and
`@Process` decorators.
- **Request Scope**: Utilize the scope option in `@Processor` if your
job handlers depend on request-scoped services.
Fix#5628
---------
Co-authored-by: Weiko <corentin@twenty.com>
This PR is updating all object metadata entities with the new
decorators, and deleting the old ones.
This way we can use the new TwentyORM with all the standard objects.
---------
Co-authored-by: Weiko <corentin@twenty.com>
This PR is a follow up of PR #5153.
This one introduce some changes on how we're querying composite fields.
We can do:
```typescript
export class CompanyService {
constructor(
@InjectWorkspaceRepository(CompanyObjectMetadata)
private readonly companyObjectMetadataRepository: WorkspaceRepository<CompanyObjectMetadata>,
) {}
async companies(): Promise<CompanyObjectMetadata[]> {
// Old way
// const companiesFilteredByLinkLabel = await this.companyObjectMetadataRepository.find({
// where: { xLinkLabel: 'MyLabel' },
// });
// Result will return xLinkLabel property
// New way
const companiesFilteredByLinkLabel = await this.companyObjectMetadataRepository.find({
where: { xLink: { label: 'MyLabel' } },
});
// Result will return { xLink: { label: 'MyLabel' } } property instead of { xLinkLabel: 'MyLabel' }
return companiesFilteredByLinkLabel;
}
}
```
Also we can now inject `TwentyORMManage` class to manually create a
repository based on a given `workspaceId` using
`getRepositoryForWorkspace` function that way:
```typescript
export class CompanyService {
constructor(
// TwentyORMModule should be initialized
private readonly twentyORMManager,
) {}
async companies(): Promise<CompanyObjectMetadata[]> {
const repository = await this.twentyORMManager.getRepositoryForWorkspace(
'8bb6e872-a71f-4341-82b5-6b56fa81cd77',
CompanyObjectMetadata,
);
const companies = await repository.find();
return companies;
}
}
```
## Introduction
This PR introduces "TwentyORM," a custom ORM module designed to
streamline database interactions within our workspace schema, reducing
the need for raw SQL queries. The API mirrors TypeORM's to provide a
familiar interface while integrating enhancements specific to our
project's needs.
To facilitate this integration, new decorators prefixed with `Workspace`
have been implemented. These decorators are used to define entity
metadata more explicitly and are critical in constructing our schema
dynamically.
## New Features
- **Custom ORM System**: Named "TwentyORM," which aligns closely with
TypeORM for ease of use but is tailored to our application's specific
requirements.
- **Decorator-Driven Configuration**: Entities are now configured with
`Workspace`-prefixed decorators that clearly define schema mappings and
relationships directly within the entity classes.
- **Injectable Repositories**: Repositories can be injected similarly to
TypeORM, allowing for flexible and straightforward data management.
## Example Implementations
### Decorated Entity Definitions
Entities are defined with new decorators that outline table and field
metadata, relationships, and constraints. Here are examples of these
implementations:
#### Company Metadata Object
```typescript
@WorkspaceObject({
standardId: STANDARD_OBJECT_IDS.company,
namePlural: 'companies',
labelSingular: 'Company',
labelPlural: 'Companies',
description: 'A company',
icon: 'IconBuildingSkyscraper',
})
export class CompanyObjectMetadata extends BaseObjectMetadata {
@WorkspaceField({
standardId: COMPANY_STANDARD_FIELD_IDS.name,
type: FieldMetadataType.TEXT,
label: 'Name',
description: 'The company name',
icon: 'IconBuildingSkyscraper',
})
name: string;
@WorkspaceField({
standardId: COMPANY_STANDARD_FIELD_IDS.xLink,
type: FieldMetadataType.LINK,
label: 'X',
description: 'The company Twitter/X account',
icon: 'IconBrandX',
})
@WorkspaceIsNullable()
xLink: LinkMetadata;
@WorkspaceField({
standardId: COMPANY_STANDARD_FIELD_IDS.position,
type: FieldMetadataType.POSITION,
label: 'Position',
description: 'Company record position',
icon: 'IconHierarchy2',
})
@WorkspaceIsSystem()
@WorkspaceIsNullable()
position: number;
@WorkspaceRelation({
standardId: COMPANY_STANDARD_FIELD_IDS.accountOwner,
label: 'Account Owner',
description: 'Your team member responsible for managing the company account',
type: RelationMetadataType.MANY_TO_ONE,
inverseSideTarget: () => WorkspaceMemberObjectMetadata,
inverseSideFieldKey: 'accountOwnerForCompanies',
onDelete: RelationOnDeleteAction.SET_NULL,
})
@WorkspaceIsNullable()
accountOwner: WorkspaceMemberObjectMetadata;
}
```
#### Workspace Member Metadata Object
```typescript
@WorkspaceObject({
standardId: STANDARD_OBJECT_IDS.workspaceMember,
namePlural: 'workspaceMembers',
labelSingular: 'Workspace Member',
labelPlural: 'Workspace Members',
description: 'A workspace member',
icon: 'IconUserCircle',
})
@WorkspaceIsSystem()
@WorkspaceIsNotAuditLogged()
export class WorkspaceMemberObjectMetadata extends BaseObjectMetadata {
@WorkspaceField({
standardId: WORKSPACE_MEMBER_STANDARD_FIELD_IDS.name,
type: FieldMetadataType.FULL_NAME,
label: 'Name',
description: 'Workspace member name',
icon: 'IconCircleUser',
})
name: FullNameMetadata;
@WorkspaceRelation({
standardId: WORKSPACE_MEMBER_STANDARD_FIELD_IDS.accountOwnerForCompanies,
label: 'Account Owner For Companies',
description: 'Account owner for companies',
icon: 'IconBriefcase',
type: RelationMetadataType.ONE_TO_MANY,
inverseSideTarget: () => CompanyObjectMetadata,
inverseSideFieldKey: 'accountOwner',
onDelete: RelationOnDeleteAction.SET_NULL,
})
accountOwnerForCompanies: Relation
<CompanyObjectMetadata[]>;
}
```
### Injectable Repository Usage
Repositories can be directly injected into services, allowing for
streamlined query operations:
```typescript
export class CompanyService {
constructor(
@InjectWorkspaceRepository(CompanyObjectMetadata)
private readonly companyObjectMetadataRepository: WorkspaceRepository<CompanyObjectMetadata>,
) {}
async companies(): Promise<CompanyObjectMetadata[]> {
// Example queries demonstrating simple and relation-loaded operations
const simpleCompanies = await this.companyObjectMetadataRepository.find({});
const companiesWithOwners = await this.companyObjectMetadataRepository.find({
relations: ['accountOwner'],
});
const companiesFilteredByLinkLabel = await this.companyObjectMetadataRepository.find({
where: { xLinkLabel: 'MyLabel' },
});
return companiesFilteredByLinkLabel;
}
}
```
## Conclusions
This PR sets the foundation for a decorator-driven ORM layer that
simplifies data interactions and supports complex entity relationships
while maintaining clean and manageable code architecture. This is not
finished yet, and should be extended.
All the standard objects needs to be migrated and all the module using
the old decorators too.
---------
Co-authored-by: Weiko <corentin@twenty.com>
