'Difference between SAM template and Cloudformation template
I'm finding it hard to understand the difference between SAM template and Cloudformation template. I know that SAM template can be used to define Serverless Applications like Lambda, but how does that make it different from Cloudformation template? Is the syntax different? I can still specify the Lambda definitions in cloudformation template. So, my question is why should I care about SAM? Won't knowing about just cloud formation template be sufficient?
Solution 1:[1]
From CloudFormation's perspective, SAM is a transform. Meaning: SAM templates are syntactically equivalent, but they allow you to define your serverless app with more brevity. The SAM template eventually gets expanded into full CFN behind the scenes. If you already know CFN, but want to write less YAML code, SAM may be beneficial to you. The idea is to reduce your effort.
Solution 2:[2]
SAM templates are a superset of Cloudformation. Any Cloudformation template can be run through SAM unchanged, and it will work. SAM supports all the types available in Cloudformation templates, so you can think of SAM as "CloudFormation++".
However, SAM also gives you additional "transforms" that allow you to define certain concepts succinctly, and SAM will figure out what you mean and fill in the the missing pieces to create a full, expanded, legal Cloudformation template.
Example: For SAM (and Serverless Framework) users, who deal mostly in Lambda functions, one of the more most useful transforms is the Events
property on the Lambda function -- SAM will add all the objects needs to access that function through an API path in API Gateway.
Resources:
HelloWorldFunction:
Type: AWS::Serverless::Function
Properties:
CodeUri: HelloWorldFunction
Handler: app.lambdaHandler
Runtime: nodejs12.x
Events: # <--- "Events" property is not a real Cloudformation Lambda property
HelloWorld:
Type: Api
Properties:
Path: /hello
Method: get
The SAM template snippet shown above gets transformed/expanded into several API Gateway objects (a RestApi, a deployment, and a stage). The AWS::Serverless::Function
type used in this snippet is not a real Cloudformation type -- you won't find it in the docs. SAM expands it into a Cloudformation template containing a AWS::Lambda::Function
object and several different AWS::ApiGateway::*
objects that Cloudformation understands.
To give you an idea of how much manual coding this saves you, here's what the expanded version of the above SAM template looks like as a full Cloudformation template:
Resources:
HelloWorldFunctionHelloWorldPermissionProd:
Type: AWS::Lambda::Permission
Properties:
Action: lambda:InvokeFunction
Principal: apigateway.amazonaws.com
FunctionName:
Ref: HelloWorldFunction
SourceArn:
Fn::Sub:
- arn:aws:execute-api:${AWS::Region}:${AWS::AccountId}:${__ApiId__}/${__Stage__}/GET/hello
- __Stage__: "*"
__ApiId__:
Ref: ServerlessRestApi
HelloWorldFunctionRole:
Type: AWS::IAM::Role
Properties:
AssumeRolePolicyDocument:
Version: '2012-10-17'
Statement:
- Action:
- sts:AssumeRole
Effect: Allow
Principal:
Service:
- lambda.amazonaws.com
ManagedPolicyArns:
- arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole
Tags:
- Value: SAM
Key: lambda:createdBy
ServerlessRestApiProdStage:
Type: AWS::ApiGateway::Stage
Properties:
DeploymentId:
Ref: ServerlessRestApiDeployment_NNN
RestApiId:
Ref: ServerlessRestApi
StageName: Prod
ServerlessRestApiDeployment_NNN:
Type: AWS::ApiGateway::Deployment
Properties:
RestApiId:
Ref: ServerlessRestApi
Description: 'RestApi deployment id: ???'
StageName: Stage
ServerlessRestApi:
Type: AWS::ApiGateway::RestApi
Properties:
Body:
info:
version: '1.0'
title:
Ref: AWS::StackName
paths:
"/hello":
get:
x-amazon-apigateway-integration:
httpMethod: POST
type: aws_proxy
uri:
Fn::Sub: arn:aws:apigateway:${AWS::Region}:lambda:path/2015-03-31/functions/${HelloWorldFunction.Arn}/invocations
responses: {}
swagger: '2.0'
HelloWorldFunction:
Type: AWS::Lambda::Function
Properties:
Code:
S3Bucket: aws-sam-cli-managed-default-samclisourcebucket-???
S3Key: temp/???
Tags:
- Value: SAM
Key: lambda:createdBy
Handler: app.lambdaHandler
Role:
Fn::GetAtt:
- HelloWorldFunctionRole
- Arn
Timeout: 3
Runtime: nodejs12.x
Previously, if you were authoring pure Cloudformation, you would have had to code all this by hand, over and over, for each API Gateway endpoint that you wanted to create. Now, with a SAM template, you define the API as an "Event" property of the Lambda function, and SAM (or Serverless Framework) takes care of the drudgery.
In the old days, when we had to do all this by hand, it totally sucked. But now, everything is glorious again.
Solution 3:[3]
Like @Luis Colon said, SAM is a transform. What that means, is that at the top of a SAM Template there is a Transform statement that lets CloudFormation know to run an intrinsic function, Transform, on this SAM template to turn it into a CloudFormation template. So, all SAM Templates will eventually be converted into CF templates, but for the end-user in most cases it is easier to just use the SAM template. For instance, for a simple application with Lambdas triggered by a new API you're creating, the SAM template will let you accomplish this in fewer lines than CloudFormation.
To extend this, the Serverless Framework behaves similarly. Serverless is designed to work across platforms (AWS, Azure, etc.). It's syntax looks very similar to SAM, and it too converts the template into the target platform's (ie. AWS) fuller version of the template (ie. CloudFormation template).
Solution 4:[4]
You can imagine SAM as an extended form of CloudFormation. SAM makes Serverless/Lambda deployments easier.
Even CloudFormation can deploy lambda scripts using inline scripts but it has a limitation of 4096 characters and you cannot pack custom dependencies, python libraries.
So to make Lambda/Serverless deployments easy SAM is used. SAM is a CLI tool. You cannot find SAM in AWS Console.
In case of python deployment, sam will read the requirements.txt
file build a package, and will deploy the package when you wish to sam deploy
So at the end of the day you can write as much lengthy Lambda Code, use as many libraries you want and even import your custom libraries i.e. complete flexibility.
Sources
This article follows the attribution requirements of Stack Overflow and is licensed under CC BY-SA 3.0.
Source: Stack Overflow
Solution | Source |
---|---|
Solution 1 | Luis Colon |
Solution 2 | |
Solution 3 | dalumiller |
Solution 4 | Shivam Anand |