Awesome
faas-cli
faas-cli is the official CLI for OpenFaaS
Run a demo with faas-cli --help
The CLI can be used to build and deploy functions to OpenFaaS. You can build OpenFaaS functions from a set of supported language templates (such as Node.js, Python, CSharp and Ruby). That means you just write a handler file such as (handler.py/handler.js) and the CLI does the rest to create a Docker image.
New user? See how it works: Morning coffee with the faas-cli Already an OpenFaaS user? Try 5 tips and tricks for the OpenFaaS CLI
Get started: Install the CLI
You can install the CLI with a curl
utility script, brew
or by downloading the binary from the releases page. Once installed you'll get the faas-cli
command and faas
alias.
Utility script with curl
:
$ curl -sSL https://cli.openfaas.com | sudo sh
Non-root with curl (requires further actions as advised after downloading):
$ curl -sSL https://cli.openfaas.com | sh
Via brew:
$ brew install faas-cli
Note: The brew
release may not run the latest minor release but is updated regularly.
Via npm (coming soon):
$ npm install --global @openfaas/faas-cli
Note: See npm
specific installation instructions and usage in the npm README.md
Windows
To install the faas-cli on Windows go to Releases and download the latest faas-cli.exe.
Or in PowerShell:
$version = (Invoke-WebRequest "https://api.github.com/repos/openfaas/faas-cli/releases/latest" | ConvertFrom-Json)[0].tag_name
(New-Object System.Net.WebClient).DownloadFile("https://github.com/openfaas/faas-cli/releases/download/$version/faas-cli.exe", "faas-cli.exe")
Build from source
The contributing guide has instructions for building from source and for configuring a Golang development environment.
Run the CLI
The main commands supported by the CLI are:
-
faas-cli new
- creates a new function via a template in the current directory -
faas-cli login
- stores basic auth credentials for OpenFaaS gateway (supports multiple gateways) -
faas-cli logout
- removes basic auth credentials for a given gateway -
faas-cli up
- a combination ofbuild/push and deploy
-
faas-cli build
- builds Docker images from the supported language types -
faas-cli push
- pushes Docker images into a registry -
faas-cli deploy
- deploys the functions into a local or remote OpenFaaS gateway -
faas-cli publish
- build and push multi-arch images for CI and release artifacts -
faas-cli remove
- removes the functions from a local or remote OpenFaaS gateway -
faas-cli invoke
- invokes the functions and reads from STDIN for the body of the request -
faas-cli store
- allows browsing and deploying OpenFaaS store functions -
faas-cli secret
- manage secrets for your functions -
faas-cli pro auth
- initiates an OAuth2 authorization flow to obtain a token -
faas-cli registry-login
- generate registry auth file in correct format by providing username and password for docker/ecr/self hosted registry
The default gateway URL of 127.0.0.1:8080
can be overridden in three places including an environmental variable.
- 1st priority
--gateway
flag - 2nd priority
--yaml
/-f
flag orstack.yml
if in current directory - 3rd priority
OPENFAAS_URL
environmental variable
For Kubernetes users you may want to set this in your .bash_rc
file:
export OPENFAAS_URL=http://127.0.0.1:31112
Did you know? By setting
FAAS_DEBUG=1
, the CLI will print out the HTTP request that it's making to the OpenFaaS Gateway.
Advanced commands:
faas-cli template pull
- pull in templates from a remote git repository Detailed Documentation
The default template URL of https://github.com/openfaas/templates.git
can be overridden in two places including an environmental variable
- 1st priority CLI input
- 2nd priority
OPENFAAS_TEMPLATE_URL
environmental variable
Help for all of the commands supported by the CLI can be found by running:
faas-cli help
orfaas-cli [command] --help
You can chose between using a programming language template where you only need to provide a handler file, or a Docker that you can build yourself.
faas-cli pro auth
The auth
command is only licensed for OpenFaaS Pro customers.
Use the auth
command to obtain a JWT to use as a Bearer token.
code
grant - default
Use this flow to obtain a token for interactive use from your workstation.
The code grant flow uses the PKCE extension.
At this time the token
cannot be saved or retained in your OpenFaaS config file. You can pass the token using a CLI flag of --token=$TOKEN
.
Example:
faas-cli pro auth \
--auth-url https://tenant0.eu.auth0.com/authorize \
--token-url https://tenant0.eu.auth0.com/oauth/token \
--audience http://gw.example.com \
--client-id "${OAUTH_CLIENT_ID}"
client_credentials
grant
Use this flow for machine to machine communication such as when you want to deploy a function to a gateway that uses OAuth2 / OIDC.
Example:
faas-cli pro auth \
--grant client_credentials \
--auth-url https://tenant0.eu.auth0.com/oauth/token \
--client-id "${OAUTH_CLIENT_ID}" \
--client-secret "${OAUTH_CLIENT_SECRET}"\
--audience http://gw.example.com
Environment variable substitution
The CLI supports the use of envsubst
-style templates. This means that you can have a single file with multiple configuration options such as for different user accounts, versions or environments.
Here is an example use-case, in your project there is an official and a development Docker Hub username/account. For the CI server images are always pushed to exampleco
, but in development you may want to push to your own account such as alexellis2
.
functions:
url-ping:
lang: python
handler: ./sample/url-ping
image: ${DOCKER_USER:-exampleco}/faas-url-ping:0.2
Use the default:
$ faas-cli build
$ DOCKER_USER="" faas-cli build
Override with "alexellis2":
$ DOCKER_USER="alexellis2" faas-cli build
See also: envsubst package from Drone.
Build templates
Command: faas-cli new FUNCTION_NAME --lang python/node/go/ruby/Dockerfile/etc
In your YAML you can also specify lang: node/python/go/csharp/ruby
-
Supports common languages
-
Quick and easy - just write one file
-
Specify dependencies on Gemfile / requirements.txt or package.json etc
-
Customise the provided templates
Perhaps you need to have gcc
or another dependency in your Python template? That's not a problem.
You can customise the Dockerfile or code for any of the templates. Just create a new directory and copy in the templates folder from this repository. The templates in your current working directory are always used for builds.
See also: faas-cli new --help
Third-party community templates
Templates created and maintained by a third-party can be added to your local system using the faas-cli template pull
command.
Read more on community templates here.
Templates store
The template store is a great way to find official, incubator and third-party templates.
Find templates with: faas-cli template store list
Note: You can set your own custom store location with
--url
flag or setOPENFAAS_TEMPLATE_STORE_URL
environmental variable
To pull templates from the store just write the name of the template you want faas-cli template store pull go
or the repository and name faas-cli template store pull openfaas/go
To get more detail on a template just use the template store describe
command and pick a template of your choice, example with go
would look like this faas-cli template store describe go
Note: This feature is still in experimental stage and in the future the CLI verbs might be changed
HMAC
It is possible to sign a faas-cli invoke
request using a sha1 HMAC. To do this, the name of a header to hold the code during transmission should be specified using the --sign
flag, and the shared secret used to hash the message should be provided through --key
. E.g.
$ echo -n OpenFaaS | faas-cli invoke env --sign X-Hub-Signature --key yoursecret
Results in the following header being added:
Http_X_Hub_Signature=sha1=2fc4758f8755f57f6e1a59799b56f8a6cf33b13f
Docker image as a function
Specify lang: Dockerfile
if you want the faas-cli to execute a build or skip_build: true
for pre-built images.
- Ultimate versatility and control
- Package anything
- If you are using a stack file add the
skip_build: true
attribute - Use one of the samples as a basis
Read the blog post/tutorial: Turn Any CLI into a Function with OpenFaaS
faas-cli registry-login
This command allows to generate the registry auth file in the correct format in the location ./credentials/config.json
Prepare your Docker registry (if not using AWS ECR)
If you are using Dockerhub you only need to supply your --username and --password-stdin (or --password, but this leaves the password in history).
faas-cli registry-login --username <your-registry-username> --password-stdin
(then enter your password and use ctrl+d to finish input)
You could also have you password in a file, or environment variable and echo/cat this instead of entering interactively
If you are using a different registry (that is not ECR) then also provide a --server
as well.
Prepare your Docker registry (if using AWS ECR)
faas-cli registry-login --ecr --region <your-aws-region> --account-id <your-account-id>
Private registries
Use faas-cli in CI environments
If you're running faas-cli in a CI environment like Github Actions, CircleCI, or Travis, chances are you get the env var CI
set to true.
If the CI
env var is set to true
or 1
, faas-cli change the location of the OpenFaaS config from the default ~/.openfaas/config.yml
to .openfaas/config.yml
with elevated permissions for the config.yml
and the shrinkwrapped build
dir (if there is one).
This is really useful when running faas-cli as a container image. The recommended image type to use in a CI environment is the root variant, tagged with -root
suffix.
CI environments like Github Actions require you to use Docker images having a root user. Learn more about it here.
Use a YAML stack file
Read the YAML reference guide in the OpenFaaS docs.
Quick guide
A YAML stack file groups functions together and also saves on typing.
You can define individual functions or a set of them within a YAML file. This makes the CLI easier to use and means you can use this file to deploy to your OpenFaaS instance. By default the faas-cli will attempt to load stack.yaml
from the current directory.
Here is an example file using the stack.yml
file included in the repository.
provider:
name: openfaas
gateway: http://127.0.0.1:8080
functions:
url-ping:
lang: python
handler: ./sample/url-ping
image: alexellis2/faas-urlping
This url-ping function is defined in the sample/url-ping folder makes use of Python. All we had to do was to write a handler.py
file and then to list off any Python modules in requirements.txt
.
- Build the files in the .yml file:
$ faas-cli build
-f
specifies the file or URL to download your YAML file from. The long version of the-f
flag is:--yaml
.
You can also download over HTTP(s):
$ faas-cli build -f https://raw.githubusercontent.com/openfaas/faas-cli/master/stack.yml
Docker along with a Python template will be used to build an image named alexellis2/faas-urlping.
- Deploy your function
Now you can use the following command to deploy your function(s):
$ faas-cli deploy
Access functions with curl
You can initiate a HTTP POST via curl
:
- with the
-d
flag i.e.-d "my data here"
- or with
--data-binary @filename.txt
to send a whole file including newlines - if you want to pass input from STDIN then use
--data-binary @-
$ curl -d '{"hello": "world"}' http://127.0.0.1:8080/function/nodejs-echo
{ nodeVersion: 'v6.9.1', input: '{"hello": "world"}' }
$ curl --data-binary @README.md http://127.0.0.1:8080/function/nodejs-echo
$ uname -a | curl http://127.0.0.1:8080/function/nodejs-echo--data-binary @-
For further instructions on the manual CLI flags (without using a YAML file) read manual_cli.md
Environment variable overrides
OPENFAAS_TEMPLATE_URL
- to set the default URL to pull templates fromOPENFAAS_PREFIX
- for use withfaas-cli new
- this can act in place of--prefix
OPENFAAS_URL
- to override the default gateway URLOPENFAAS_CONFIG
- to override the location of the configuration folder, which contains auth configuration.CI
- to override the location of the configuration folder, when true, the configuration folder is.openfaas
in the current working directory. This value is ignored ifOPENFAAS_CONFIG
is set.
Contributing
See contributing guide.
License
Portions of this project are licensed under the OpenFaaS Pro EULA.
The remaining source unless annotated is licensed under the MIT License.