Awesome
serverless-cloudside-plugin
Serverless plugin for using cloudside resources when developing functions locally.
This plugin allows you to use AWS CloudFormation intrinsic functions (such as !Ref
and !GetAtt
) to reference cloud resources during local development. When added to your environment
variables, these values are replaced with the same identifiers used when deployed to the cloud. You can invoke your functions locally, use the serverless-offline
plugin, or use a compatible test runner that uses the serverless invoke test
command. You can now keep your serverless.yml
files free from pseudo variables and other concatenated strings and simply use the built-in CloudFormation features.
Installation
Install using Serverless plugin manager
serverless plugin install --name serverless-cloudside-plugin
Install using npm
Install the module using npm:
npm install serverless-cloudside-plugin --save-dev
Add serverless-cloudside-plugin
to the plugin list of your serverless.yml
file:
plugins:
- serverless-cloudside-plugin
Usage
When executing your function locally, the serverless-cloudside-plugin
will replace any environment variable that contains either a !Ref
or a !GetAtt
that references a CloudFormation resource within your serverless.yml
file.
In the example below, we are creating an SQS Queue named myQueue
and referencing it (using a CloudFormation intrinsic function) in an environment variable named QUEUE
.
functions:
myFunction:
handler: myFunction.handler
environment:
QUEUE: !Ref myQueue
resources:
Resources:
myQueue:
Type: AWS::SQS::Queue
Properties:
QueueName: ${self:service}-${self:provider.stage}-myQueue
If we deploy this to the cloud, our !Ref myQueue
will be replaced with a QueueUrl
(e.g. https://sqs.us-east-1.amazonaws.com/1234567890/sample-service-dev-myQueue). We can then use that when invoking the AWS SDK and working with our queue.
However, if we were to invoke this function locally using sls invoke local -f myFunction
, our QUEUE
environment variable would return [object Object]
instead of our QueueUrl
. This is because the Serverless Framework is actually replacing our !Ref
with: { "Ref": "myQueue" }
.
There are workarounds to this, typically involving using pseudo variables to construct our own URL. But this method is error prone and requires us to hardcode formats for the different service types. Using the serverless-cloudside-plugin
, you can now use the simple reference format above, and always retrieve the correct PhysicalResourceId
for the resource.
Invoking a function locally
Once the plugin is installed, you will have a new invoke
option named invoke cloudside
. Simply run this command with a function and it will resolve all of your cloud variables and then execute the standard invoke local
command.
sls invoke cloudside -f myFunction
PLEASE NOTE that in order for resources to be referenced, you must deploy your service to the cloud at least initially. References to non-deployed resources will be populated with "RESOURCE NOT DEPLOYED".
All invoke local
parameters are supported such as --stage
and --path
, as well as the new --docker
flag that lets you run your function locally in a Docker container. This mimics the Lambda environment much more closely than your local machine.
By default, the plugin will reference resources from your current CloudFormation stack (including your "stage" if it is part of your stack name). You can change the cloudside stage by using the --cloudStage
option and supplying the stage name that you'd like to use. For example, if you are developing in your dev
stage locally, but want to use a DynamoDB table that is deployed to the test
stage, you can do the following:
sls invoke cloudside -f myFunction -s dev --cloudStage test
This will populate any ${opt:stage}
references with dev
, but your !Ref
values will use the ones from your test
stage.
You might also want to pull values from an entirely different CloudFormation stack. You can do this by using the --stackName
option and supplying the complete stack name. For example:
sls invoke cloudside -f myFunction --stackName someOtherStack-dev
Using with the serverless-offline plugin
The serverless-offline
plugin is a great tool for testing your serverless APIs locally, but it has the same problem referencing CloudFormation resources. The serverless-cloudside-plugin
lets you run serverless-offline
with all of your cloud variables correctly replaced.
sls offline cloudside
To enable hot-reload when running the server, use the --reloadHandler
flag:
sls offline cloudside --reloadHandler
The above command will start the API Gateway emulator and allow you to test your functions locally. The --cloudStage
and --stackName
options are supported as well as all of the serverless-offline
options.
Using with a test runner
You can use this plugin with other test runner plugins such as serverless-mocha-plugin
. This will make it easier to run integration tests (including in your CI/CD systems) before deploying. Simply run the following when invoking your tests:
sls invoke test cloudside -f myFunction
This plugin extends the invoke test
command, so any test runner plugin that uses that format should work correctly. All plugin options should remain available.
Available Functions
This plugin currently supports the !Ref
function that returns the PhysicalResourceId
from CloudFormation. For most resources, this is the value you will need to interact with the corresponding service in the AWS SDK (e.g. QueueUrl
for SQS, TopicArn
for SNS, etc.).
There is also initial (and limited) support for using !GetAtt
to retrieve an ARN. For example, you may use !GetAtt myQueue.Arn
to retrieve the ARN for myQueue
. The plugin generates the ARN based on the service type. For supported types, it will return a properly formatted ARN. For others, it will replace the value with "FUNCTION NOT SUPPORTED". In most cases, it should be possible to support generating an ARN for a resource, but the format will need to be added to the plugin.
Contributions
Contributions, ideas and bug reports are welcome and greatly appreciated. Please add issues for suggestions and bug reports or create a pull request.