Pipes
A pipe is a class annotated with the Injectable decorator. Pipes should implement the PipeMethods interface.
Pipes have two typical use cases:
- Transformation: transform input data to the desired output
- Validation: evaluate input data and if valid, simply pass it through unchanged; otherwise, throw an exception when the data is incorrect
Pipes are called when an Incoming request is handled by the controller route handler and operate on the method's parameters. It takes Request or Response object and transform theses object to the expected value.
Pipe receives the argument where it is placed. This means that each parameter can invoke a list of pipes, which can be different for each parameter.
@Get("/")
getMethod(@UsePipe(MyPipe) value: string, @UsePipe(MyPipe2) @UsePipe(MyPipe3) value2: string) {}
Finally, both transformation and validation must implement a transform()
method and return the expected value.
TIP
Pipes run inside an exception zone. It means that when a Pipe throws an exception, it will be handled by the GlobalExceptionHandler. Given the above, it should be clear that when an exception is thrown in a Pipe, no controller method is subsequently executed.
Built-in pipes
Ts.ED comes with the following pipes:
- ParseExpressionPipe,
- ValidationPipe,
- DeserializerPipe
These pipes are exported to allow pipes overriding. These decorators are commonly used by BodyParams, QueryParams, etc. In this case, the pipes are added by using UseParam on a parameter.
For example, the use of BodyParams on a parameter calls the UseParams with some options, and UseParams calls also different decorators to add Pipes:
import {mapParamsOptions, ParamTypes, UseParam} from "@tsed/platform-params";
export function BodyParams(...args: any[]): ParameterDecorator {
const {expression, useType, useMapper = true, useValidation = true} = mapParamsOptions(args);
return UseParam({
paramType: ParamTypes.BODY,
dataPath: "$ctx.request.body",
expression,
useType,
useMapper,
useValidation
});
}
import {ParamOptions, UseDeserialization, UseParamType, UseType, UseValidation} from "@tsed/platform-params";
import {useDecorators} from "@tsed/core";
export function UseParam(options: ParamOptions<any>): ParameterDecorator {
return useDecorators(
UseParamType(options),
options.useType && UseType(options.useType),
options.useValidation && UseValidation(),
options.useMapper && UseDeserialization()
) as ParameterDecorator;
}
The main idea is, you are able to combine any pipes to reach the expected behavior !
Now let's build a validation pipe from scratch to understand the pipe mechanism.
Initially, we'll have it simply take an input value and immediately return the same value, behaving like an identity function.
import {JsonParameterStore, PipeMethods} from "@tsed/schema";
import {Injectable} from "@tsed/di";
@Injectable()
export class ValidationPipe implements PipeMethods {
transform(value: any, metadata: JsonParameterStore) {
return value;
}
}
TIP
PipeMethods<T, R>
is a generic interface in which T
indicates the type of the input value, and R
indicates the return type of the transform()
method.
Every pipe has to provide the transform()
method. This method has two parameters:
value
metadata
The value
is the currently processed argument (before it is received by the route handling method), while metadata is its metadata
. The metadata object has these properties (see also ParamMetadata):
class ParamMetadata {
target: Type<any>;
propertyKey: string | symbol;
index: number;
required: boolean;
paramType: string | ParamTypes;
expression: string;
type: Type<any>;
collectionType: Type<any>;
pipes: Type<IPipe>[];
store: Store;
}
These properties describe the current processed argument.
Property | Description |
---|---|
target | The parameter's class |
propertyKey | The parameter's method |
index | The position of the parameter in the method signature |
required | Indicates whether the parameter is required or not |
paramType | ParamTypes represents the starting object used by the first pipe |
expression | Expression used to get the property from the object injected with paramType |
type | Class used to deserialize the plain object |
collectionType | Collection type used to deserialize a collection of plain object |
store | Store contains extra options collected by the decorators used on the parameter. |
WARNING
TypeScript interfaces disappear during transpilation. Thus, if a method parameter's type
is declared as an interface instead of a class, the type value will be Object
.
Validation use case
The goal of validation use case is to ensure that the input parameter is valid before using it in a method.
Officially, Ts.ED has two way to declare a JsonShema validation:
- With model decorators,
- With UseSchema decorator, it's a decorator Pipe provided by @tsed/ajv package.
We'll take the model declaration to explain the Validation pipe use case. Let's focus on the PersonModel
:
import {MinLength, Required} from "@tsed/schema";
class PersonModel {
@MinLength(3)
@Required()
firstName: string;
@MinLength(3)
@Required()
lastName: string;
}
PersonModel
will generate the following JsonSchema:
{
"type": "object",
"properties": {
"firstName": {
"type": "string",
"minLength": 3
},
"lastName": {
"type": "string",
"minLength": 3
}
},
"required": ["firstName", "lastName"]
}
We want to ensure that any incoming request to the create method contains a valid body. So we have to validate the two members of the PersonModel
object, used as type parameter:
import {Post} from "@tsed/schema";
import {Controller} from "@tsed/di";
import {BodyParams} from "./body-params";
import {PersonModel} from "../models/PersonModel";
@Controller("/persons")
export class PersonsController {
@Post("/")
save(@BodyParams() person: PersonModel) {
return person;
}
}
By using a pipe, we are able to handle the parameter, get its schema and use a validation library (here AJV) and throw an exception when the payload is not valid.
import {ValidationError} from "@tsed/platform-params";
import {getJsonSchema, JsonParameterStore, PipeMethods} from "@tsed/schema";
import {Injectable} from "@tsed/di";
import * as Ajv from "ajv";
@Injectable()
export class AjvValidationPipe implements PipeMethods {
ajv = new Ajv();
transform(value: any, metadata: JsonParameterStore): any {
const schema = getJsonSchema(metadata.type);
if (!this.ajv.validate(schema, value)) {
throw new ValidationError("Oops something is wrong", this.ajv.errors!);
}
return value;
}
}
The validation pipe is a very specific use case because Ts.ED uses it automatically when a parameter is handled by the routing request. The previous pipe example, in order to work, needs to be registered with the OverrideProvider decorator instead of Injectable.
See more details on the validation page.
Transformation use case
Validation isn't the sole use case for Pipes. At the beginning of this chapter, we mentioned that a pipe can also transform the input data to the desired output. This is possible because the value returned from the transform function completely overrides the previous value of the argument.
When is this useful? Consider that sometimes the data passed from the client needs to undergo some changes - for example converting plain object javascript to class - before it can be properly handled by the route handler method. Furthermore, some required data fields may be missing, and we would like to apply default values.
Transformer pipes can perform these functions by interposing a processing function between the client request and the request handler.
import {ValidationError} from "@tsed/platform-params";
import {JsonParameterStore, PipeMethods} from "@tsed/schema";
import {Injectable} from "@tsed/di";
@Injectable()
export class ParseIntPipe implements PipeMethods<string, number> {
transform(value: string, metadata: JsonParameterStore): number {
const val = parseInt(value, 10);
if (isNaN(val)) {
throw new ValidationError("Value must an integer or a parsable integer");
}
return val;
}
}
We can simply tie this pipe to the selected param as shown below:
import {RawPathParams, UsePipe} from "@tsed/platform-params";
import {Get} from "@tsed/schema";
import {Controller, Inject} from "@tsed/di";
import {ParseIntPipe} from "../pipes/ParseIntPipe";
import {PersonsService} from "../services/PersonsService";
@Controller("/persons")
export class PersonsController {
@Inject()
private personsService: PersonsService;
@Get(":id")
findOne(
@RawPathParams("id")
@UsePipe(ParseIntPipe)
id: number
) {
return this.personsService.findOne(id);
}
}
TIP
On the previous example, we use RawPathParams to get the raw value, without transformation or validation from existing Ts.ED Pipe.
Async transformation use case
Pipe transformation also supports async
and promise as a returned value. This is useful when you have to get data from database based on an input data like an ID.
Given this PersonModel
:
import {MinLength, Required, Property} from "@tsed/schema";
class PersonModel {
@Property()
id: string;
@MinLength(3)
@Required()
firstName: string;
@MinLength(3)
@Required()
lastName: string;
}
We can implement the following pipe to get Person data from database:
import {JsonParameterStore, PipeMethods} from "@tsed/schema";
import {Inject, Injectable} from "@tsed/di";
import {NotFound} from "@tsed/exceptions";
import {PersonModel} from "../models/PersonModel";
import {PersonsService} from "../models/PersonsService";
@Injectable()
export class PersonPipe implements PipeMethods<string, Promise<PersonModel>> {
@Inject()
personsService: PersonsService;
async transform(id: string, metadata: JsonParameterStore): Promise<PersonModel> {
const person = await this.personsService.findOne(id);
if (!person) {
throw new NotFound("Person not found");
}
return person;
}
}
Then, we can use this pipe on a parameter with UsePipe:
import {RawPathParams, UsePipe} from "@tsed/platform-params";
import {Put} from "@tsed/schema";
import {Controller} from "@tsed/di";
import {PersonModel} from "../models/PersonModel";
import {PersonPipe} from "../services/PersonPipe";
@Controller("/persons")
export class PersonsController {
@Put("/:id")
update(
@RawPathParams("id")
@UsePipe(PersonPipe)
person: PersonModel
) {
// do something
return person;
}
}
Custom pipe decorator
In the previous section, we show you how to use a Pipe on a parameter:
import {RawPathParams, UsePipe} from "@tsed/platform-params";
import {Put} from "@tsed/schema";
import {Controller} from "@tsed/di";
import {PersonModel} from "../models/PersonModel";
import {PersonPipe} from "../services/PersonPipe";
@Controller("/persons")
export class PersonsController {
@Put("/:id")
update(
@RawPathParams("id")
@UsePipe(PersonPipe)
person: PersonModel
) {
// do something
return person;
}
}
In this example, our pipe need to be called with RawPathParams two work properly, because our pipe return an instance of PersonModel
. PathParams call automatically the DeserializerPipe and it's not what we want. This is why we using RawPathParams.
To avoid future mistakes, it could be a good idea to summarize these two decorators in one as following:
import {RawPathParams, UsePipe} from "@tsed/platform-params";
import {useDecorators} from "@tsed/core";
import {PersonPipe} from "../services/PersonPipe";
export function UsePersonParam(expression: string): ParameterDecorator {
return useDecorators(RawPathParams(expression), UsePipe(PersonPipe));
}
Now, we can use our custom decorator on parameter:
import {Controller} from "@tsed/di";
import {RawPathParams, UsePipe} from "@tsed/platform-params";
import {Put} from "@tsed/schema";
import {PersonModel} from "../models/PersonModel";
import {PersonPipe} from "../services/PersonPipe";
@Controller("/persons")
export class PersonsController {
@Put("/:id")
async update(@UsePersonParam("id") person: PersonModel) {
// do something
return person;
}
}
Get options from decorator
Sometimes it might be useful to forward options from a decorator used on parameters to the registered Pipe.
Let's focus on our previous decorator example, by adding extra parameter options:
import {RawPathParams, UsePipe} from "@tsed/platform-params";
import {useDecorators} from "@tsed/core";
import {PersonPipe} from "../services/PersonPipe";
export interface IUsePersonParamOptions {
optional?: boolean;
}
export function UsePersonParam(expression: string, options: IUsePersonParamOptions = {}): ParameterDecorator {
return useDecorators(
RawPathParams(expression),
UsePipe(PersonPipe, options) // UsePipe accept second parameter to store your options
);
}
Now, we can retrieve the options by using the metadata.store
:
import {Inject, Injectable} from "@tsed/di";
import {NotFound} from "@tsed/exceptions";
import {JsonParameterStore, PipeMethods} from "@tsed/schema";
import {IUsePersonParamOptions} from "../decorators/UsePersonParam";
import {PersonModel} from "../models/PersonModel";
import {PersonsService} from "../models/PersonsService";
@Injectable()
export class PersonPipe implements PipeMethods<string, Promise<PersonModel>> {
@Inject()
personsService: PersonsService;
async transform(id: string, metadata: JsonParameterStore): Promise<PersonModel> {
const person = await this.personsService.findOne(id);
const options = metadata.store.get<IUsePersonParamOptions>(PersonPipe);
if (!person && options.optional) {
throw new NotFound("Person not found");
}
return person;
}
}
And finally, we can use our new decorator on a parameter:
import {Put} from "@tsed/schema";
import {Controller} from "@tsed/di";
import {RawPathParams, UsePipe} from "@tsed/plaform-params";
import {PersonModel} from "../models/PersonModel";
import {PersonPipe} from "../services/PersonPipe";
@Controller("/persons")
export class PersonsController {
@Put("/:id")
async update(@UsePersonParam("id", {optional: true}) person: PersonModel) {
// do something
return person;
}
}