Before connecting your app to the Cloud Functions emulator, make sure that you understand the overall Firebase Local Emulator Suite workflow, and that you install and configure the Local Emulator Suite and review its CLI commands.
Choose a Firebase project
The Firebase Local Emulator Suite emulates products for a single Firebase project.
To select the project to use, before you start the emulators, in the CLI run
firebase use
in your working directory. Or, you can pass
the --project
flag to each emulator
command.
Local Emulator Suite supports emulation of real Firebase projects and demo projects.
Project type | Features | Use with emulators |
---|---|---|
Real |
A real Firebase project is one you created and configured (most likely via the Firebase console). Real projects have live resources, like database instances, storage buckets, functions, or any other resource you set up for that Firebase project. |
When working with real Firebase projects, you can run emulators for any or all of the supported products. For any products you are not emulating, your apps and code will interact with the live resource (database instance, storage bucket, function, etc.). |
Demo |
A demo Firebase project has no real Firebase configuration and no live resources. These projects are usually accessed via codelabs or other tutorials. Project IDs for demo projects have the |
When working with demo Firebase projects, your apps and code interact with emulators only. If your app attempts to interact with a resource for which an emulator isn't running, that code will fail. |
We recommend you use demo projects wherever possible. Benefits include:
- Easier setup, since you can run the emulators without ever creating a Firebase project
- Stronger safety, since if your code accidentally invokes non-emulated (production) resources, there is no chance of data change, usage and billing
- Better offline support, since there is no need to access the internet to download your SDK configuration.
Instrument your app to talk to the emulators
Instrument your app for callable functions
If your prototype and test activities involve callable backend functions, configure interaction with the Cloud Functions for Firebase emulator like this:
Kotlin+KTX
// 10.0.2.2 is the special IP address to connect to the 'localhost' of // the host computer from an Android emulator. val functions = Firebase.functions functions.useEmulator("10.0.2.2", 5001)
Java
// 10.0.2.2 is the special IP address to connect to the 'localhost' of // the host computer from an Android emulator. FirebaseFunctions functions = FirebaseFunctions.getInstance(); functions.useEmulator("10.0.2.2", 5001);
Swift
Functions.functions().useFunctionsEmulator(origin: "http://127.0.0.1:5001")
Web
import { getApp } from "firebase/app"; import { getFunctions, connectFunctionsEmulator } from "firebase/functions"; const functions = getFunctions(getApp()); connectFunctionsEmulator(functions, "127.0.0.1", 5001);
Web
firebase.functions().useEmulator("127.0.0.1", 5001);
Instrument your app for HTTPS functions emulation
Each HTTPS function in your code will be served from the local emulator using the following URL format:
http://$HOST:$PORT/$PROJECT/$REGION/$NAME
For example a simple helloWorld
function with the default host port and region would be served at:
https://localhost:5001/$PROJECT/us-central1/helloWorld
Instrument your app for task queue functions emulation
The emulator automatically sets up emulated task queues based on trigger
definitions, and the Admin SDK reroutes enqueued requests to the emulator if
it detects that it is running via the CLOUD_TASKS_EMULATOR_HOST
environment
variable.
Note that the dispatch system used in production is more complex than the one implemented in the emulator, so you should not expect emulated behavior to precisely mirror production environments. The parameters within the emulator provide upper bounds to the rate at which tasks get dispatched and retried.
Instrument your app for background-triggered functions emulation
The Cloud Functions emulator supports background-triggered functions from the following sources:
- Realtime Database emulator
- Cloud Firestore emulator
- Authentication emulator
- Pub/Sub emulator
- Firebase alerts emulator
To trigger background events, modify back-end resources using the Emulator Suite UI, or by connecting your app or test code to the emulators using the SDK for your platform.
Test handlers for custom events emitted by Extensions
For functions you implement to handle Firebase Extensions custom events with Cloud Functions v2, the Cloud Functions emulator pairs with the Eventarc emulator to support Eventarc triggers.
To test custom event handlers for extensions that emit events, you must install the Cloud Functions and Eventarc emulators.
The Cloud Functions runtime sets the EVENTARC_EMULATOR
environment
variable to localhost:9299
in the current process if the Eventarc emulator
is running. The Firebase Admin SDKs automatically connect to the Eventarc
emulator when the EVENTARC_EMULATOR
environment variable is set. You can
modify the default port as discussed under Configure Local Emulator Suite.
When environment variables are properly configured, the Firebase Admin SDK automatically sends events to the Eventarc emulator. In turn, the Eventarc emulator makes a call back to the Cloud Functions emulator to trigger any registered handlers.
You can check Functions logs in the Emulator Suite UI for details on handler execution.
Configure a local testing environment
If your functions rely on dotenv-based environment configuration, you can emulate that behavior in your local testing environment.
When using a local Cloud Functions emulator, you can override environment
variables for your project by setting up a .env.local
file. Contents of
.env.local
take precedence over .env
and the project-specific .env
file.
For example, a project could include these three files containing slightly different values for development and local testing:
.env
|
.env.dev
|
.env.local
|
PLANET=Earth
AUDIENCE=Humans |
AUDIENCE=Dev Humans | AUDIENCE=Local Humans |
When started in the local context, the emulator loads the environment variables as shown:
$ firebase emulators:start
i emulators: Starting emulators: functions
# Starts emulator with following environment variables:
# PLANET=Earth
# AUDIENCE=Local Humans
Secrets and credentials in the Cloud Functions emulator
The Cloud Functions emulator supports the use of secrets to store and access sensitive configuration information. By default, the emulator will try to access your production secrets using application default credentials. In certain situations like CI environments, the emulator may fail to access secret values due to permission restrictions.
Similar to Cloud Functions emulator support for environment variables, you can
override secrets values by setting up a .secret.local
file. This makes it
easy for you to test your functions locally, especially if you don't have access
to the secret value.
What other tools for testing Cloud Functions exist?
The Cloud Functions emulator is supplemented by other prototype and test tools:
- The Cloud Functions shell, which allows for interactive, iterative functions prototyping and development. The shell employs the Cloud Functions emulator with a REPL-style interface for development. No integration with the Cloud Firestore or Realtime Database emulators is provided. Using the shell, you mock data and perform function calls to simulate interaction with products that the Local Emulator Suite does not currently support: Analytics, Remote Config, and Crashlytics.
- The Firebase Test SDK for Cloud Functions, a Node.js with mocha framework for functions development. In effect, the Cloud Functions Test SDK provides automation atop the Cloud Functions shell.
You can find more about the Cloud Functions shell and Cloud Functions Test SDK at Test functions interactively and Unit testing of Cloud Functions.
How the Cloud Functions emulator differs from production
The Cloud Functions emulator is fairly close to the production environment for the majority of use cases. We've put extensive work into ensuring everything within the Node runtime is as close to production as possible. However, the emulator does not mimic the full containerized production environment, so while your function code will execute realistically, other aspects of your environment (i.e. local files, behavior after functions crashes, etc.) will differ.
Cloud IAM
The Firebase Emulator Suite does not attempt to replicate or respect any IAM-related behavior for running. Emulators adhere to the Firebase Security Rules provided, but in situations where IAM would normally be used, for example to set Cloud Functions invoking service account and thus permissions, the emulator is not configurable and will use the globally-available account on your developer machine, similar to running a local script directly.
Memory and processor restrictions
The emulator does not enforce memory or processor restrictions for your
functions. However, the emulator does support timing out functions via the
timeoutSeconds
runtime argument.
Note that function execution time may differ from production when functions are run in the emulator. We recommend that after you've designed and tested functions with the emulator, you run limited tests in production to confirm execution times.
Planning for differences in local and production environments
Since the emulator runs on your local machine, it depends on your local environment for applications and built-in programs and utilities.
Be aware that your local environment for Cloud Functions development may differ from the Google production environment:
Applications you install locally to simulate the production environment (e.g. ImageMagick from this tutorial) may differ in behavior from production, especially if you require a different versions or develop in a non-Linux environment. Consider deploying your own binary copy of the missing program alongside your function deployment.
Similarly, built-in utilities (e.g., shell commands like
ls
,mkdir
) may differ from versions available in production, especially if you're developing in a non-Linux environment (e.g., macOS). You can handle this issue by using Node-only alternatives to native commands, or by building Linux binaries to bundle with your deployment.
Retrying
The Cloud Functions emulator does not support retrying functions on failure.
What next?
- For a curated set of videos and detailed how-to examples, follow the Firebase Emulators Training Playlist.
- Learn more about the Cloud Functions for Firebase emulator at Run functions locally.