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2.10.0 • Public • Published

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Node.js GraphQL Framework for building APIs with strong conventions through auto-generated code. With Warthog, set up your data models and resolvers, and it does the rest.

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Warthog is a Node.js GraphQL API framework for quickly building consistent GraphQL APIs that have sorting, filtering and pagination out of the box. It is written in TypeScript and makes heavy use of decorators for concise, declarative code.

Note: Upgrading from 1.0 to 2.0

Warthog is now on version 2.0! There were a few breaking changes that you should consider while upgrading. Also, we tried to keep all new features development on v1, but did end up adding JSON filtering directly to 2.0 as it was much easier given some foundation refactors.

Expand for Breaking change details

More specific scalars

A few fields have been updated to use more specific GraphQL scalars:

  • ID fields: previously these were represented by type String. Dates now use type ID
  • Date fields: previously these were represented by type String. Dates now use type DateTime

Since your GraphQL schema has changed and so have the associated TypeScript types in classes.ts, there might be changes in your server code and even perhaps some associated client code if you use these generated classes in your client code.

mockDBConnection has been removed

The old codegen pipeline used TypeORM's metadata in order to generate the GraphQL schema since Warthog didn't also capture this metadata. Warthog now captures the necessary metadata, so we no longer need to lean on TypeORM and therefore we don't need the mockDBConnection we previously used during codegen. Searching your codebase for mockDBConnection and WARTHOG_MOCK_DATABASE/MOCK_DATABASE should do it. If you've been using the Warthog CLI for codegen, you shouldn't have anything to do here.

Project Dependencies Updated

Staying on the latest versions of libraries is good for security, performance and new features. We've bumped to the latest stable versions of each of Warthog's dependencies. This might require some changes to your package.json.


Cannot get connection "default" from the connection manager

If you get an error like:

Cannot get connection "default" from the connection manager. Make sure you have created such connection. Also make sure you have called useContainer(Container) in your application before you established a connection and importing any entity.

It could be caused by 2 things:

Remove explicit Container injection

In V1 of Warthog, the README suggested that you should explicitly create your DI containers and pass them into your App instance like so:

import { Container } from 'typedi'; // REMOVE this
import { useContainer } from 'typeorm'; // REMOVE this
import { App } from 'warthog';
async function run() {
  useContainer(Container); // REMOVE this
  const app = new App({ container: Container }); // REMOVE the container option here
  await app.start();

In V2, it is recommended that you no longer do this unless you explicitly need access to the Container.

Remove references to Warthog's dependencies

It can sometimes cause problems to explicitly require Warthog's depdendencies (ie type-graphql, typedi, typeorm and typeorm-typedi-extensions). In future versions, remove these explicit dependencies from package.json:

- "type-graphql": "...",
- "typedi": "...",
- "typeorm": "...",
- "typeorm-typedi-extensions": "...",


This library is intentionally opinionated and generates as much code as possible. When teams build products quickly, even if they have strong conventions and good linters, the GraphQL can quickly become inconsistent, making it difficult for clients to consume the APIs in a reusable way.

To do this, Warthog automatically generates the following:

  • Database schema - generated by TypeORM
  • Your entire GraphQL Schema including:
    • types to match your entities - generated by TypeGraphQL
    • GraphQL inputs for consistent creates, updates, filtering, and pagination inspired by Prisma's conventions
  • A graphql-binding for type-safe programmatic access to your APIs.
  • TypeScript classes for the generated GraphQL schema for type-safety while developing.

Further, it covers the following concerns by hooking into best-in-class open source libraries:

  • Validation: Automatic validation before data is saved using any of the decorators available in the class-validator library.


Warthog currently only supports PostgreSQL as a DB engine, so you must have Postgres installed before getting Warthog set up. (Note: Postgres 12 is not currently supported)

Expand for Postgres installation options

Homebrew (OSX)

If you're on OSX and have homebrew and homebrew-cask installed, you can simply run:

brew cask install postgres

Or you can install Homebrew's official version:

brew install postgresql
`brew --prefix`/opt/postgres/bin/createuser -s postgres

Postgres.app (OSX)

Otherwise, you can install Postgres.app manually.


See the warthog-starter project for how to use Docker to run Postgres.

Getting Started

Warthog comes with a CLI that makes it easy to get started.

Create new project with the CLI

To install in an existing project, you'll need to create several files in place and then you'll need to call a few Warthog CLI commands that:

  • Generate a new resource
  • Create a database
  • Create a DB migration and run it
  • Run the server

The following code will get you bootstrapped. You should read through this before running:

# Add warthog so that we can use the CLI 
yarn add warthog
# Bootstrap a new application using Warthog CLI 
yarn warthog new
# Install dependencies from generated package.json 
# Generate a resource (model, resolver and service) 
yarn warthog generate user name! nickname age:int! verified:bool!
# Generate typescript classes and GraphQL schema 
yarn warthog codegen
# Create your DB 
yarn warthog db:create
# Generate the DB migration for your newly generated model 
yarn warthog db:migrate:generate --name=create-user-table
# Run the DB migration 
yarn warthog db:migrate
# Start the server 
yarn start:dev

Here's what this looks like in action:


This will open up GraphQL Playground, where you can execute queries and mutations against your API.

First, add a user by entering the following in the window:

mutation {
  createUser(data: { name: "Test User", age: 25, verified: false }) {

Then, query for this user:

query {
  users {

See introducing-graphql-playground for more info about GraphQL Playground.

Expand for other options for how to play with Warthog

Cloning the warthog-starter project

Another way to start playing with Warthog is to clone the warthog-starter repo. To get the starter project up and running, do the following:

git clone git@github.com:goldcaddy77/warthog-starter.git
cd warthog-starter
yarn bootstrap

Running the examples in the Warthog repo

You can also clone the Warthog repo and run the examples in the examples folder.

git clone git@github.com:goldcaddy77/warthog.git
cd warthog/examples/01-simple-model
yarn bootstrap
yarn db:seed:dev
yarn start

This has a simple example in place to get you started. There are also a bunch of examples in the folder for more advanced use cases.

Note that the examples in the examples folder use relative import paths to call into Warthog. In your projects, you won't need to set this config value as it's only set to deal with the fact that it's using the Warthog core files without consuming the package from NPM. In your projects, you can omit this as I do in warthog-starter.

Warthog Constructs Explained


A model represents both a GraphQL type and a DB table. Warthog exposes a BaseModel class that provides the following columns for free: id, createdAt, createdById, updatedAt, updatedById, deletedAt, deletedById, version. If you use BaseModel in conjunction with BaseService (see below), all of these columns will be updated as you'd expect. The Warthog server will find all models that match the following glob - '/**/*.model.ts'. Ex: user.model.ts

Custom TypeORM and TypeGraphQL options may be passed into the Model decorator using the following signature.

@Model({ api: { description: 'Custom description' }, db: { name: 'customtablename' } })


A Warthog resolver exposes queries (reading data) and mutations (writing data). They interact with the DB through services (described below) and typically make use of a bunch of auto-generated TypeScript types in the generated folder for things like sorting and filtering. Warthog will find all resolvers that match the following glob - '/**/*.resolver.ts'. Ex: user.resolver.ts


Services are the glue between resolvers and models. Warthog exposes a class called BaseService that exposes the following methods: find, findOne, create, update, delete. For the find operator, it also maps the auto-generated WhereInput attributes to the appropriate TypeORM Query Builders. Warthog's convention is to name services <model-name>.service.ts. Ex: user.service.ts

Generated Folder

When you start your server, there will be a new generated folder that Warthog creates automatically. The folder contains:

  • classes.ts: Warthog auto-generates this file from the metadata it collects (from decorators like Model, Query, Resolver, StringField, etc...). Resolvers will import items from here instead of having to manually create them.
  • schema.graphql: This is auto-generated from our resolvers, models and classes.ts above. Check out this example's schema.graphql to show the additional GraphQL schema Warthog autogenerates.
  • ormconfig.ts: a TypeORM ormconfig file.
  • binding.ts - a graphql-binding for type-safe programmatic access to your API (making real API calls)

Server API (appOptions)

Most of the config in Warthog is done via environment variables (see Config - Environment Variables below). However, more complex/dynamic objects should be passed via the server config.

attribute description default
container TypeDI container. Warthog uses dependency injection under the hood. empty container
authChecker An instance of an AuthChecker to secure your resolvers.
context Context getter of form (request: Request) => Promise<object> empty
logger Logger debug
middlewares TypeGraphQL middlewares to add to your server none
onBeforeGraphQLMiddleware Callback executed just before the Graphql server is started. The Express app is passed. none
onAfterGraphQLMiddleware Callback executed just after the Graphql server is started. The Express app is passed. none

Config - Environment Variables

Almost all config in Warthog is driven by environment variables. The following items are available:

variable value default
WARTHOG_APP_HOST App server host none
WARTHOG_APP_PORT App server port 4000
WARTHOG_APP_PROTOCOL App server protocol DEV: http, PROD: https
WARTHOG_AUTO_GENERATE_FILES Auto-generate files DEV: true, PROD: false
WARTHOG_AUTO_OPEN_PLAYGROUND Open playground on server start DEV: true, PROD: false
WARTHOG_CLI_GENERATE_PATH Where should CLI generate files ./src
WARTHOG_DB_ENTITIES Where should warthog look for models src/**/*.model.ts
WARTHOG_DB_MIGRATIONS What DB migrations should TypeORM run db/migrations/**/*.ts
WARTHOG_DB_MIGRATIONS_DIR Where should generated migrations be placed db/migrations
WARTHOG_DB_LOGGER TypeORM logger advanced-console
WARTHOG_DB_SYNCHRONIZE DB automatically migrated false
WARTHOG_FILTER_BY_DEFAULT Should all filters and sorts be generated by default? true
WARTHOG_GENERATED_FOLDER Where should generated code be placed ./generated
WARTHOG_HEADERS_TIMEOUT_MS See Node server.headersTimeout 60000
WARTHOG_INTROSPECTION Allow server to be introspected true
WARTHOG_KEEP_ALIVE_TIMEOUT_MS See Node server.keepAliveTimeout 30000
WARTHOG_RESOLVERS_PATH Where should Warthog look for resolvers src/**/*.resolver.ts
WARTHOG_SUBSCRIPTIONS Should we enable subscriptions and open a websocket port false
WARTHOG_VALIDATE_RESOLVERS TypeGraphQL validation enabled? false

Field/Column Decorators

All of the auto-generation magic comes from the decorators added to the attributes on your models. Warthog decorators are convenient wrappers around TypeORM decorators (to create DB schema) and TypeGraphQL (to create GraphQL schema). You can find a list of decorators available in the src/decorators folder. Most of these are also used in the examples folder in this project.


There are a few ways to handle transactions in the framework, depending if you want to use BaseService or use your repositories directly.

Using BaseService

To wrap BaseService operations in a transaction, you do 3 things:

  1. Create a function decorated with the @Transaction method decorator
  2. Inject @TransactionManager as a function parameter
  3. Pass the @TransactionManager into calls to BaseService

@Transaction method decorator

The @Transaction decorator opens up a new transaction that is then available via the @TransactionManager. It will automatically close the transaction when the function returns, so it is important to await your service calls and not return a promise in this function.

  async createTwoItems() {
    // ...

@TransactionManager decorator

The @TransactionManager is essentially the same as a TypeORM EntityManger, except it wraps everything inside of it's transaction.

  async createTwoItems(
        @TransactionManager() manager?: EntityManager
  ) {
    // ...

Pass manager to BaseService

You can pass the entity manager into any of the BaseService methods to ensure they're part of the transaction.

  async createTwoItems(
        @TransactionManager() manager?: EntityManager
  ) {
    this.create(data, userId, { manager })


export class UserService extends BaseService<User> {
  constructor(@InjectRepository(User) protected readonly repository: Repository<User>) {
    super(User, repository);
  // GOOD: successful transaction
  async successfulTransaction(
    data: DeepPartial<User>,
    userId: string,
    @TransactionManager() manager?: EntityManager
  ): Promise<User[]> {
    return Promise.all([
      this.create(data, userId, { manager }),
      this.create(data, userId, { manager })
  // GOOD: successful rollback when something errors
  async failedTransaction(
    data: DeepPartial<User>,
    userId: string,
    @TransactionManager() manager?: EntityManager
  ): Promise<User[]> {
    const invalidUserData = {};
    const users = await Promise.all([
      this.create(data, userId, { manager }),
      this.create(invalidUserData, userId, { manager }) // This one fails
    return users;
  // BAD: you can't return a promise here.  The function will return and the first
  // user will be saved even though the 2nd one fails
  async failedTransaction(
    data: DeepPartial<User>,
    userId: string,
    @TransactionManager() manager?: EntityManager
  ): Promise<User[]> {
    return await Promise.all([
      this.create(data, userId, { manager }),
      this.create(invalidUserData, userId, { manager })

See the TypeORM Transaction Docs for more info.

Complex use cases

Warthog makes building simple CRUD endpoints incredibly easy. In addition, since it is built on top of TypeORM and TypeGraphQL it is flexible enough to handle complex use cases as well. If you need a field to be exposed to either the DB or API, but not both, do the following:


If you need to add a column to the DB that does not need to be exposed via the API, you should pass the dbOnly option to your decorator:

  @StringField({ dbOnly: true })

Note that you could also just use the TypeORM Column Decorator as well. However, if Warthog adds additional capabilities in this space, we would not have this column metadata, so it is recommended you use the dbOnly option.


If you need to add a field that is exposed via the API that is not database-backed, use the apiOnly option:

  @StringField({ apiOnly: true })

Custom Query

See the feature-flag example for an example of where we'd want to build something beyond the standard CRUD actions. In this example we want to add a custom query that makes a complex DB call.

  • First add the query to the resolver - link to code
  • Then add the custom query input in the resolver - link to code
  • Then add the custom service method that fetches the data link to code

Warthog will generate the correct GraphQL query and InputType automatically.


Warthog ships with the following commands that can be accessed by running yarn warthog <command>.

See the warthog-starter project's package.json for example usage.

Command Args Description
codegen none autogenerates code from decorated models and resolvers and places in generated folder
db:create none creates DB based on DB specified in config file
db:drop none drops DB based on DB specified in config file
generate See below generates a model, service and resolver
db:migrate none migrates DB (proxies through TypeORM CLI)
db:migrate:create none auto-generates DB migration based on new code additions (proxies through TypeORM CLI)

generate Command in depth

The generate command will create a new resolver, service and model for a given resource. Let's start with a complex example and we'll break it down:

yarn warthog generate user name! nickname numLogins:int! verified:bool! registeredAt:date balance:float! --folder my_generated_folder
  • user - this is the name of the new resource (required)
  • ...args - each of the remaining args until --folder is a field on the resource
  • name! - the name field is of type string by default since no data type is specified. The ! states that it's required
  • numLogins:int! - numLogins states that it is of type int - also required
  • registeredAt:date - registeredAt is of type date (which correlates to an ISO8601 datetime). The absence of the ! means it is optional.
  • ...the rest of the args are self-explanatory. Possible types are bool, date, int, float and string. If you need to use other types, just add them as strings and update the models manually.
  • --folder - this allows you to explicitly set the folder where the generated files should go. This is not recommended and instead you should use the .rc file (see below)

warthogrc config file

Warthog uses cosmiconfig for config that shouldn't change between environments (so typically file paths). This means you can put any of the following config files in your project root:

  • .warthogrc.json
  • .warthogrc.yaml
  • .warthogrc.js
  • warthog.config.js file (exporting a JS object)

The following config options are currently available:

Config Key Description Equivalent Environment Variable
generatedFolder Relative location to generated folder (relative path from the config file) WARTHOG_GENERATED_FOLDER
cliGeneratePath Where should CLI place generated files? (relative path from the config file) WARTHOG_CLI_GENERATE_PATH
resolversPath Where should Warthog look for resolvers? (comma-delimited list of regexes) WARTHOG_RESOLVERS_PATH

Note that for cliGeneratePath, you can interpolate in the following strings to generate dynamic paths:

  • className (pascal case)
  • camelName (camel case)
  • kebabName (kebab case)


  "cliGeneratePath": "./src/${kebabName}"

Running yarn warthog generate featureFlag would create 3 files in the ./src/feature-flag/ folder. See feature-flag example for a live example.

Usage in Production

It is recommended that you not run Warthog's TypeScript files via ts-node in Production as we do in development as ts-node has been known to cause issues in some smaller AWS instances. Instead, compile down to JS and run in node. For a full project example (using dotenvi for config management), see warthog-starter


PRs accepted, fire away! Or add issues if you have use cases Warthog doesn't cover.

Before contributing, make sure you have Postgres installed and running with a user named postgres with an empty password. If you don't have this local Postgres user, you'll need to update the .env files in the examples folders to point to a user that can run DB migrations.

Once you have this user set up, you can build a specific example by navigating to that folder and running yarn bootstrap.

If you want to build all examples, you can run yarn bootstrap from the Warthog root folder.

It's helpful to add a new feature to the Warthog and make use of it in one of the examples folders until you've determined how it's going to work. Once you have it working, you can add tests.

Intentionally Opinionated

Warthog is intentionally opinionated to accelerate development and make use of technology-specific features:

  • Postgres - currently the only database supported. This could be changed, but choosing Postgres allows adding a docker container and other goodies easily.
  • Jest - other harnesses will work, but if you use Jest, we will not open the GraphQL playground when the server starts, for example.
  • Soft deletes - no records are ever deleted, only "soft deleted". The base service used in resolvers filters out the deleted records by default.


Special thanks to:

Warthog is essentially a really opinionated composition of TypeORM and TypeGraphQL that uses similar GraphQL conventions to the Prisma project.


MIT © Dan Caddigan


npm i [email protected]





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