- Provide a type-safe and intuitive way to config your Nest projects, just as smooth as request DTO.
- Load your configuration with environment variables, json/yaml/toml configuration files or remote endpoints.
- Validate your configuration with class-validator and class-transformer.
- Provide easy to use options by default, meanwhile everything is customizable.
$ npm i --save nest-typed-config
Nest-typed-config
will install the dependencies for all loaders by default. If you care about dependency size and bootstrap time, please checkout the guide to skip optional dependencies.
There are various popular configuration modules for Nest framework, such as the official configuration module, nestjs-config and nestjs-easyconfig. These modules can help to manage configurations, validate them, and load them through the ConfigService
. But that's when type-safety is gone. For example:
// @nestjs/config, with type-casting
const dbUser = this.configService.get<string>('DATABASE_USER');
// nestjs-config, returns `any` type
const env = this.config.get('app.environment');
// nestjs-easyconfig, only string is supported
const value = this.config.get('key');
Writing type casting is a pain and hard to maintain, and it's common to use non-string configurations in real-world projects. This module aims to provide an intuitive and type-safe way to load, validate and use configurations. Just import any config model, and inject it with full TypeScript support. In a nutshell:
// config.ts
export class Config {
@IsString()
public readonly host!: string;
@IsNumber()
public readonly port!: number;
}
// app.service.ts
import { Config } from './config';
@Injectable()
export class AppService {
constructor(private readonly config: Config) {}
show() {
console.log(`http://${this.config.host}:${this.config.port}`);
}
}
Let's define the configuration model first. It can be nested at arbitrary depth.
// config.ts
import { Allow } from 'class-validator';
// validator is omitted for simplicity
export class TableConfig {
@Allow()
public readonly name!: string;
}
export class DatabaseConfig {
@Type(() => TableConfig)
@Allow()
public readonly table!: TableConfig;
}
export class RootConfig {
@Type(() => DatabaseConfig)
@Allow()
public readonly database!: DatabaseConfig;
}
Then, add a configuration file such as .env.yaml
under project root directory:
database:
table:
name: example
After creating the configuration file, import TypedConfigModule
and fileLoader
to load configuration from file system.
// app.module.ts
import { Module } from '@nestjs/common';
import { TypedConfigModule, fileLoader } from 'nest-typed-config';
import { AppController } from './app.controller';
import { AppService } from './app.service';
import { RootConfig } from './config';
// Register TypedConfigModule
@Module({
imports: [
TypedConfigModule.forRoot({
schema: RootConfig,
load: fileLoader(),
}),
],
providers: [AppService],
controllers: [AppController],
})
export class AppModule {}
That's it! You can use any config or sub-config you defined as injectable services now!
// app.service.ts
import { Injectable } from '@nestjs/common';
import { RootConfig, DatabaseConfig, TableConfig } from './config';
@Injectable()
export class AppService {
// inject any config or sub-config you like
constructor(
private config: RootConfig,
private databaseConfig: DatabaseConfig,
private tableConfig: TableConfig,
) {}
// enjoy type safety!
public show(): any {
const out = [
`root.name: ${this.config.name}`,
`root.database.name: ${this.databaseConfig.name}`,
`root.database.table.name: ${this.tableConfig.name}`,
].join('\n');
return `${out}\n`;
}
}
For a full example, please visit CodeSandbox, or our examples folder.
The dotenvLoader
function allows you to load configuration with dotenv, which is similar to the official configuration module. You can use this loader to load configuration from .env
files or environment variables.
TypedConfigModule.forRoot({
schema: RootConfig,
load: dotenvLoader({
/* options */
}),
});
The dotenvLoader
function optionally expects a DotenvLoaderOptions
object as a first parameter:
export interface DotenvLoaderOptions {
/**
* If set, use the separator to parse environment variables to objects.
*
* @example
*
* ```bash
* app__port=8080
* db__host=127.0.0.1
* db__port=3000
* ```
*
* if `separator` is set to `__`, environment variables above will be parsed as:
*
* ```json
* {
* "app": {
* "port": 8080
* },
* "db": {
* "host": "127.0.0.1",
* "port": 3000
* }
* }
* ```
*/
separator?: string;
/**
* If "true", environment files (`.env`) will be ignored.
*/
ignoreEnvFile?: boolean;
/**
* If "true", predefined environment variables will not be validated.
*/
ignoreEnvVars?: boolean;
/**
* Path to the environment file(s) to be loaded.
*/
envFilePath?: string | string[];
/**
* A boolean value indicating the use of expanded variables.
* If .env contains expanded variables, they'll only be parsed if
* this property is set to true.
*
* Internally, dotenv-expand is used to expand variables.
*/
expandVariables?: boolean;
}
The fileLoader
function allows you to load configuration with cosmiconfig. You can use this loader to load configuration from files with various extensions, such as .json
, .yaml
, .toml
or .js
.
By default, fileLoader
searches for .env.{ext}
(ext = json, yaml, toml, js) configuration file starting at process.cwd()
, and continues to search up the directory tree until it finds some acceptable configuration (or hits the home directory). Moreover, configuration of current environment takes precedence over general configuration (.env.development.toml
is loaded instead of .env.toml
when NODE_ENV=development
)
TypedConfigModule.forRoot({
schema: RootConfig,
load: fileLoader({
/* options */
}),
});
The fileLoader
function optionally expects a FileLoaderOptions
object as a first parameter:
import { OptionsSync } from 'cosmiconfig';
export interface FileLoaderOptions extends Partial<OptionsSync> {
/**
* basename of config file, defaults to `.env`.
*
* In other words, `.env.yaml`, `.env.yml`, `.env.json`, `.env.toml`, `.env.js`
* will be searched by default.
*/
basename?: string;
/**
* Use given file directly, instead of recursively searching in directory tree.
*/
absolutePath?: string;
/**
* The directory to search from, defaults to `process.cwd()`. See: https://github.com/davidtheclark/cosmiconfig#explorersearch
*/
searchFrom?: string;
/**
* If "true", ignore environment variable substitution.
* Default: true
*/
ignoreEnvironmentVariableSubstitution?: boolean;
}
If you want to add support for other extensions, you can use loaders
property provided by cosmiconfig
:
TypedConfigModule.forRoot({
schema: RootConfig,
load: fileLoader({
// .env.ini has the highest priority now
loaders: {
'.ini': iniLoader,
},
}),
});
The directoryLoader
function allows you to load configuration within a given directory.
The basename of files will be interpreted as config namespace, for example:
.
└─config
├── app.toml
└── db.toml
// app.toml
foo = 1
// db.toml
bar = 1
The folder above will generate configuration as follows:
{
"app": {
"foo": 1
},
"db": {
"bar": 1
}
}
TypedConfigModule.forRoot({
schema: RootConfig,
load: directoryLoader({
directory: '/absolute/path/to/config/directory',
/* other cosmiconfig options */
}),
});
The directoryLoader
function optionally expects a DirectoryLoaderOptions
object as a first parameter:
import { OptionsSync } from 'cosmiconfig';
export interface DirectoryLoaderOptions extends OptionsSync {
/**
* The directory containing all configuration files.
*/
directory: string;
/**
* File regex to include.
*/
include?: RegExp;
/**
* If "true", ignore environment variable substitution.
* Default: true
*/
ignoreEnvironmentVariableSubstitution?: boolean;
/**
* If "true", disallow undefined environment variables.
* Default: true
*/
disallowUndefinedEnvironmentVariables?: boolean;
}
If you want to add support for other extensions, you can use loaders
property provided by cosmiconfig
:
TypedConfigModule.forRoot({
schema: RootConfig,
load: directoryLoader({
directory: '/path/to/configuration',
// .env.ini has the highest priority now
loaders: {
'.ini': iniLoader,
},
}),
});
The remoteLoader
function allows you to load configuration from a remote endpoint, such as configuration center. Internally @nestjs/axios is used to perform http requests.
// forRootAsync should be used when loading configuration asynchronously
TypedConfigModule.forRootAsync({
schema: RootConfig,
load: remoteLoader('http://localhost:8080', {
/* options */
}),
});
The remoteLoader
function optionally expects a RemoteLoaderOptions
object as a second parameter, which accepts all axios
request configuration except url
.
export interface RemoteLoaderOptions extends AxiosRequestConfigWithoutUrl {
/**
* Config file type
*/
type?: ((response: any) => RemoteLoaderConfigType) | RemoteLoaderConfigType;
/**
* A function that maps http response body to corresponding config object
*/
mapResponse?: (config: any) => Promise<any> | any;
/**
* A function that determines if the request should be retried
*/
shouldRetry?: (response: AxiosResponse) => boolean;
/**
* Number of retries to perform, defaults to 3
*/
retries?: number;
/**
* Interval in milliseconds between each retry
*/
retryInterval?: number;
}
You can use the mapResponse
function to preprocess the server response before parsing with type
, and use shouldRetry
function to determine whether server response is valid or not. When server response is not valid, you can use retries
and retryInterval
to adjust retry strategies. For example:
/*
Example server response:
{
"code": 0,
"fileName": ".env.yaml",
"fileType": "yaml",
"fileContent": "database:\n table:\n name: example"
}
*/
TypedConfigModule.forRootAsync({
schema: RootConfig,
load: remoteLoader('http://localhost:8080', {
type: response => response.fileType,
mapResponse: response => response.fileContent
// retry when http status is not 200, or response code is not zero
shouldRetry: response => response.data.code !== 0
retries: 3,
retryInterval: 3000
}),
})
Loading configuration from file system is convenient for development, but when it comes to deployment, you may need to load configuration from environment variables, especially in a dockerized environment. This can be easily achieved by providing multiple loaders. For example:
TypedConfigModule.forRoot({
schema: RootConfig,
// Loaders having larger index take precedence over smaller ones,
// make sure dotenvLoader comes after fileLoader ensures that
// environment variables always have the highest priority
load: [
fileLoader({
/* options */
}),
dotenvLoader({
/* options */
}),
],
});
If native loaders provided by nest-typed-config
can't meet your needs, you can implement a custom loader. This can be achieved by providing a function which returns the configuration object synchronously or asynchronously through the load
option. For example:
TypedConfigModule.forRoot({
schema: RootConfig,
load: async () => {
return {
host: '127.0.0.1',
port: 3000,
};
},
});
The ${PORT}
substitution feature lets you use environment variable in some nice ways.
If you have config file with like the below one
database:
host: 127.0.0.1
port: ${PORT}
And you have set environment variable for port
PORT=9000
then fileloader
will resolve ${PORT}
placeholder and replace with environment variable.
And you will get new config like below one
database:
host: 127.0.0.1
port: 9000
Just define your default values in config schema, and you are ready to go:
// config.ts
export class Config {
@IsString()
public readonly host: string = '127.0.0.1';
@IsNumber()
public readonly port: number = 3000;
}
Environment variables are always loaded as strings, but configuration schemas are not. In such case, you can transform the raw config with normalize
function:
// config.ts
export class Config {
@IsString()
public readonly host: string;
@IsNumber()
public readonly port: number;
}
// app.module.ts
TypedConfigModule.forRoot({
schema: RootConfig,
load: dotenvLoader(),
normalize(config) {
config.port = parseInt(config.port, 10);
return config;
},
});
You can define custom getters on config schema to extract common logic:
export class Config {
@IsString()
public readonly host: string = '127.0.0.1';
@IsNumber()
public readonly port: number = 3000;
@IsString()
public get url(): string {
return `http://${this.host}:${this.port}`;
}
}
Just call TypedConfigModule.forRoot
multiple times, and you're ready to go!
PS: Please do not share any class or sub-class between schemas, or Nest.js won't know which class to inject.
// config.ts
export class FooConfig {
@IsString()
foo!: string;
}
export class BazConfig {
@IsString()
baz!: string;
}
// app.module.ts
@Module({
imports: [
// load FooConfig from config file
TypedConfigModule.forRoot({
schema: FooConfig,
load: fileLoader(),
}),
// load BazConfig from environment variables
TypedConfigModule.forRoot({
schema: BazConfig,
load: dotenvLoader(),
}),
],
})
export class AppModule {}
If the default validate
function doesn't suite your use case, you can provide it like in the example below:
TypedConfigModule.forRoot({
schema: RootConfig,
validate: (rawConfig: any) => {
const config = plainToClass(RootConfig, rawConfig);
const schemaErrors = validateSync(config, {
forbidUnknownValues: true,
whitelist: true,
});
if (schemaErrors.length) {
throw new Error(TypedConfigModule.getConfigErrorMessage(schemaErrors));
}
return config as RootConfig;
},
});
Using config outside Nest's IoC container will:
- make you struggle harder writing unit tests.
- force you to register
TypedConfigModule
synchronously usingforRoot
, since asynchronous configuration loading doesn't make sense under this situation.
Due to the nature of JavaScript loading modules, decorators are executed before Nest's module initialization. If you want to get config value in decorators like @Controller()
or @WebSocketGateway()
, config module should be initialized before application bootstrap.
Suppose we need to inject routing information from the configuration, then we can define the configuration like this:
// config.ts
import { Type } from 'class-transformer';
import { IsDefined, IsNumber, IsString } from 'class-validator';
export class RouteConfig {
@IsString()
public readonly app!: string;
}
export class RootConfig {
@IsDefined()
@Type(() => RouteConfig)
public readonly route!: RouteConfig;
}
Then create a configuration file:
route:
app: /app
After creating the configuration file, we can initialize our ConfigModule
with TypedConfigModule
, and select RootConfig
from ConfigModule
using selectConfig
method.
// config.module.ts
import { TypedConfigModule, fileLoader, selectConfig } from 'nest-typed-config';
import { RouteConfig } from './config';
export const ConfigModule = TypedConfigModule.forRoot({
schema: RootConfig,
load: fileLoader(),
});
export const rootConfig = selectConfig(ConfigModule, RootConfig);
export const routeConfig = selectConfig(ConfigModule, RouteConfig);
That's it! You can use rootConfig
and routeConfig
anywhere in your app now!
If target configuration model is marked with
@Optional()
, you should callselectConfig
with{ allowOptional: true }
to allow optional configuration.
// app.controller.ts
import { Controller, Get } from '@nestjs/common';
import { AppService } from './app.service';
import { rootConfig } from './config.module';
@Controller(routeConfig.app)
export class AppController {
constructor(private readonly appService: AppService) {}
@Get()
show(): void {
return this.appService.show();
}
}
For a full example, please visit CodeSandbox, or our examples folder.
Please refer to our API website for full documentation.
Please refer to changelog.md
MIT.