Version 2.x supports Eslint version <=7.x and typescript eslint parser 4
Version 3.x supports Eslint version >=8.x and typescript eslint parser 5+
There were many breaking changes between these versions.
(more details for each specific rule are available in sections below)
Nest Modules and Dependency Injection
- provided-injected-should-match-factory-parameters
- injectable-should-be-provided
Nest Swagger
- api-property-matches-property-optionality
- controllers-should-supply-api-tags
- api-method-should-specify-api-response
- api-enum-property-best-practices
- api-property-returning-array-should-set-array
Preventing bugs
- param-decorator-name-matches-route-param
- validate-nested-of-array-should-set-each
- validated-non-primitive-property-needs-type-decorator
- all-properties-are-whitelisted
Security
- should-specify-forbid-unknown-values
If you use NestJs (https://nestjs.com/) then these rules will help you to prevent common bugs and issues. They mostly check that you are using decorators correctly.
See the following summaries
There are some things you don't want to forget when working with Nest dependency injection.
The Nest DI is declarative and if you forget to provide an injectable you wont see an error until run time. Nest is good at telling you where these are but sometimes it's not.
In particular if you're using custom providers the errors can be really tricky to figure out because they won't explicitly error about mismatched injected items, you will just get unexpected operation.
These are described in the "Common Errors" section of the nest js docs.
When working with NestJS I generate my front end client and models using the swagger generated from the nest controllers and models.
I have a bunch of rules here that are mostly for strict typing with decorators for those controllers and models.
These rules are somewhat opinionated, but necessary for clean model generation if using an Open Api model generator.
There are some tightly coupled but untyped decorators and things like that in nest that will catch you out if your not careful. There are some rules to help prevent issues that have caught me out before.
There is a CVE for class-transformer when using random javascript objects. You need to be careful about configuring the ValidationPipe in NestJs. See https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2019-18413 typestack/class-validator#438
npm install --save-dev @darraghor/eslint-plugin-nestjs-typed
Then update your eslint with the plugin import and add the recommended rule set
module.exports = {
env: {
es6: true,
},
extends: ["plugin:@darraghor/nestjs-typed/recommended"],
parser: "@typescript-eslint/parser",
parserOptions: {
project: ["./tsconfig.json"],
sourceType: "module",
ecmaVersion: "es2019",
},
plugins: ["@darraghor/nestjs-typed"],
};Note: the injectables test scans your whole project. It's best to filter out ts things that don't matter - use filterFromPaths configuration setting for this. There are some defaults already applied. See details below.
Note: You can easily turn off all the swagger rules if you don't use swagger by adding the no-swagger rule set AFTER the recommended rule set.
// all the other config
extends: ["plugin:@darraghor/nestjs-typed/recommended",
"plugin:@darraghor/nestjs-typed/no-swagger"
],
// more configDisable a single rule with the full name e.g. in your eslint configuration...
rules: {
"@darraghor/nestjs-typed/api-property-returning-array-should-set-array":
"off",
}
You should forbid non-whitelisted properties in your DTOs.
If you have a DTO that has one property with a class-validator decorator, it's very unlikely that the same DTO will have any properties without a decorator - i.e. ALL DTO properties should be validated or explicitly whitelisted with @Allow().
This rule will flag any properties that are not whitelisted as expected because it's probably a mistake.
This PASSES - all properties are decorated
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@ValidateNested({each: true})
members!: MyClass[];
@ApiProperty()
@Allow()
otherProperty!: MyClass;
@ApiProperty()
@IsString()
someStringProperty!: string;
}This FAILS - one property here is missing a validation decorator. This is likely a mistake.
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@ValidateNested({each: true})
members!: MyClass[];
@ApiProperty()
otherProperty!: MyClass;
}If you use the @ValidateNested decorator you should specify the {each: true} option if the property is an array.
This PASSES because it's an array and each is set
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@ValidateNested({each: true})
members!: MyClass[];
}This PASSES because it's an array and each is set
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@ValidateNested({each: true})
members!: Array<MyClass>;
}This PASSES because it's not an array and each is not set
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@ValidateNested()
members!: MyClass;
}This FAILS because it's not an array and each is set
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@ValidateNested({each: true})
members!: MyClass;
}If you use any of the class validator decorators on a property that is not a primitive, you should tell class-transformer how to transform it into a class first.
This PASSES because we're validating a Person class and we have added the @Type decorator.
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@IsDefined()
@Type(() => Person)
members!: Person;
}This PASSES because it is a primitive type (boolean, string, number). We don't need to tell class-transformer how to transform those.
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@ValidateNested({each: true})
@IsBoolean()
members!: boolean;
}This PASSES because we only check properties that have a class-validator decorator (e.g. @IsDefined())
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
members!: Person | Date;
}This PASSES because it is a primitive array. These don't need @Type() decorators.
class ExampleDto {
@ApiProperty({
isArray: true,
})
@Allow()
exampleProperty!: string[];
}
```
This FAILS because you should always tell class-transformer the type for an array
```ts
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@ValidateNested({each: true})
@IsArray()
members!: (Person | Date)[];
}This FAILS because Date is not a primitive type (string, number, boolean)
export class CreateOrganisationDto {
@ApiProperty({type: Person, isArray: true})
@ValidateNested({each: true})
@IsDate()
members!: Date;
}This rule will verify you have entered a Param("name") that has a matching url parameter in a controller or method decorator
NOTE: nestjs allows for fuzzy matching params in paths with _+?()* as regex params. This rule doesn't support parsing paths with regex so we will ignore any routes with these characters in them.
this PASSES because the uuid param is in the Get() decorator
@Controller("custom-bot")
export class CustomBotController {
constructor() {}
@Get(":uuid")
@ApiOkResponse({type: CustomBot})
findOne(
@Param("uuid") uuid: string,
@Request() request: RequestWithUser
): Promise<CustomBot> {
return this.customBotService.findOne(uuid, request.user.uuid);
}
}this PASSES because the uuid param is in the Controller() decorator
@Controller("custom-bot/:uuid")
export class CustomBotController {
constructor() {}
@Get()
@ApiOkResponse({type: CustomBot})
findOne(
@Param("uuid") uuid: string,
@Request() request: RequestWithUser
): Promise<CustomBot> {
return this.customBotService.findOne(uuid, request.user.uuid);
}
}This FAILS because there is a typo in the param decorator
@Controller("custom-bot")
export class CustomBotController {
constructor() {}
@Get(":uuid")
@ApiOkResponse({type: CustomBot})
findOne(
@Param("uui") uuid: string,
@Request() request: RequestWithUser
): Promise<CustomBot> {
return this.customBotService.findOne(uuid, request.user.uuid);
}
}this FAILS because you shouldn't put the : in the param decorator
@Controller("custom-bot")
export class CustomBotController {
constructor() {}
@Get(":uuid")
@ApiOkResponse({type: CustomBot})
findOne(
@Param(":uuid") uuid: string,
@Request() request: RequestWithUser
): Promise<CustomBot> {
return this.customBotService.findOne(uuid, request.user.uuid);
}
}This checks when if you are setting ValidationPipe parameters you set forbidUnknownValues to true.
There is a CVE for class-transformer when using random javascript objects. You need to be careful about configuring the ValidationPipe in NestJs. See https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2019-18413 typestack/class-validator#438
e.g. this PASSES because the property is set
const validationPipeB = new ValidationPipe({
forbidNonWhitelisted: true,
forbidUnknownValues: true,
});this FAILS because property is not set
const validationPipeB = new ValidationPipe({
forbidNonWhitelisted: true,
});this FAILS because property is set to false
const validationPipeB = new ValidationPipe({
forbidNonWhitelisted: false,
});this PASSES because the default values seem to work ok
const validationPipeB = new ValidationPipe();Checks that there are the same number of injected items in a Provider that are passed to the factory method
PASSES because Myservice injected and myservice used in factory params
export const MyOtherInjectableProvider: NotAProvider = {
provide: MyOtherInjectable,
useFactory: async (config: MyService): Promise<MyOtherInjectable> => {
return new MyOtherInjectable();
},
inject: [MyService],
};FAILS because SecondService is not used in the factory - this is probably a developer error where they meant to inject the second service.
export const MyOtherInjectableProvider: Provider = {
provide: MyOtherInjectable,
useFactory: async (config: MyService): Promise<MyOtherInjectable> => {
return new MyOtherInjectable();
},
inject: [MyService, SecondService],
};FAILS because SecondService isn't injected in the factory - this is probably a developer error where they meant to inject the second service.
Of course you can ignore this warning if SecondService is @Global()
export const MyOtherInjectableProvider: Provider = {
provide: MyOtherInjectable,
useFactory: async (
config: MyService,
secondService: SecondService
): Promise<MyOtherInjectable> => {
return new MyOtherInjectable();
},
inject: [MyService],
};Checks that a class marked with @Injectable is injected somewhere in a module or used in a provider.
NestJS will catch these at runtime but I prefer to get a nudge during development in my IDE. This will only check if the service is injected once. It won't check that the correct things are injected to the correct modules. So you might still get occasional runtime issues if you forget to import a module.
Fails if a thing marked as @Injectable is not in the providers of a module or provides in a provider.
There is some additional configuration you can provide for this rule. This is the default setting. You should overrride this with your src directory and any strings to filter out from paths (note that the filterFromPaths are NOT globs - just matched strings).
"@darraghor/nestjs-typed/injectable-should-be-provided": [
"error",
{
src: ["src/**/*.ts"],
filterFromPaths: ["node_modules", ".test.", ".spec."],
},
],This checks that you have added the correct api property decorator for your swagger documents.
There are specific, distinct decorators for optional properties and mandatory properties.
Using the correct one affects Open Api doc generation.
The following FAILS because this is an optional property and should have @ApiPropertyOptional
class TestClass {
@Expose()
@ApiProperty()
thisIsAStringProp?: string;
}The following FAILS because this is an optional property and should have @ApiPropertyOptional
class TestClass {
@Expose()
@ApiProperty()
thisIsAStringProp: string | undefined;
}The following FAILS because this is a required property and should have @ApiProperty. It's not really an optional property but it is from an api DTO transformation perspective.
class TestClass {
@Expose()
@ApiPropertyOptional()
thisIsAStringProp!: string;
}If you have more than a handful of api methods the swagger UI is difficult to navigate. It's easier to group api methods by using tags.
This enforces api tags on controllers.
This PASSES because it has api tags
@ApiTags("my-group-of-methods")
@Controller("my-controller")
class TestClass {}The following FAILS because it's missing api tags
@Controller("my-controller")
class TestClass {}If you have an api method like @Get() you should specify the return status code (and type!) by using @ApiResponse and the other expected responses.
Note: I often leave out 400s and 500s because it's kind of assumed, but these decorators should be used if the return type changes in your api for 400/500 etc!
This PASSES
class TestClass {
@Get()
@ApiResponse({status: 200, type: String})
@ApiBadRequestResponse({description: "Bad Request"})
public getAll(): Promise<string[]> {
return [];
}
}The following FAILS because it's missing api response decorators
class TestClass {
@Get()
public getAll(): Promise<string[]> {
return [];
}
}If you use enums on properties you should set the correct open api properties in the ApiProperty decorator.
If you don't use enum open api won't use the enum correctly.
If you don't use enumName then Open api will create a new enum for each api method. e.g. ControllerNameEnumName, This is awful to use as a consumer of a generated client.
You don't need to use type: any more. This used to be necessary in old versions to get enum strings correctly output.
The enumName should match the enum type you specify. It's easier to match them up when working on BE and FE. And it reduces chance for typos resulting in duplicate enums.
PASSES - This is a perfect enum description
class TestClass {
@ApiPropertyOptional({enum: MyEnum, enumName: "MyEnum"})
thisIsAnEnumProp?: MyEnum;
}FAILS - you don't need type
class TestClass {
@ApiPropertyOptional({type: MyEnum, enum: MyEnum, enumName: "MyEnum"})
thisIsAnEnumProp?: MyEnum;
}FAILS - you need to add a name
class TestClass {
@ApiPropertyOptional({enum: MyEnum})
thisIsAnEnumProp?: MyEnum;
}FAILS - the enumName doesn't match the enumType
class MyClass {
@ApiProperty({enumName: "MyEnumTYPO", enum: MyEnum})
public myProperty!: MyEnum;
}If you return an array you should indicate this in the api property. There are two ways to do this
ApiProperty({type:[String]}) OR ApiProperty({type:String, isArray:true})
I enforce the second long way! You can turn this rule off if you prefer the shorthand way, but you won't get warned if you missed the array specification.
This PASSES - property is array and specifies isArray
class TestClass {
@ApiPropertyOptional({enumName: "MyEnum" isArray:true})
thisIsAProp!: MyEnum[];
}This PASSES - property is array and specifies isArray
class TestClass {
@ApiPropertyOptional({type: String, isArray: true})
thisIsAProp!: Array<string>;
}This FAILS - missing isArray
class TestClass {
@ApiPropertyOptional({type: String})
thisIsAProp!: Array<string>;
}This FAILS - doesn't need isArray
class TestClass {
@ApiPropertyOptional({type: String, isArray: true})
thisIsAProp!: string;
}