Introduction
AWS Lambda function's code consists of scripts or compiled programs and their dependencies. We use a deployment package to deploy our function code to Lambda. Lambda supports two types of deployment packages: container images and .zip file archives. We are going to use the updateLambdaFunctionCode operation to deploy the function code. The operation can deploy the function code from the AWS ECR, S3 Bucket, and local Archive directory. We can select the option to publish a new version, but by default the operation will not publish a new version. Using the environment variables file or input argument, we can also add the function environment variables. This operation also supports encryption of the variables using AWS KMS key. The operation will use the configured AWS cloud account to perform the operation.
Objective
The goal of this tutorial is to deploy the function code using the archive file from the artifact directory and publish the function version. We will use the function code and environment file present in a Git repository. We are going to add secured variables also and to encrypt these variables, we will use the AWS KMS key. These are the general steps we’ll follow:
Configuring properties e.g. Cloud account, and CLI path
Cloning the function code and create the archive file
Cloning the environment file from Git repository
Deploying the function code and adding the environment variables to the Lamba function
Verifying the function code
Checklist
Checklist | Description |
AWS Access Key | AWS Access Key of the user. |
AWS Secret Key | Password for the Access Key |
AWS Default Region | Default region can be set. eg. ap-south-1 |
AWS CLI installation | AWS CLI needs to be installed where the plugin operation shall run (FlexDeploy server) |
AWS CLI in class path | AWS CLI should be added to the class path on the FlexDeploy Server. Else the path can also be set under FlexDeploy environment level property |
AWS Lambda Function | AWS Lambda Function should be already present. |
AWS KMS Key | AWS KMS key to secured the environment variable. |
Configure Cloud Account
To connect with AWS Lambda Function, we required to configure Cloud account, with credentials details. Configure AWS Cloud Account under Integration. FlexDeploy will connect to the Lambda Function and add the environment variables.
Navigate to the Integrations
Select Cloud from the left-hand pane
Create a new Cloud account with the “+” button. Create a new Cloud account of provider type “AWS”
It should have a AWS Access Key and AWS Secret Key. The user must have relevant access to AWS Lambda Function.
AWS Secret Key is a password field and hence needs to be kept hidden. To update the same click on the pencil icon as shown below
Update the AWS Secret Key value under Secret Text. This is to make sure no one else can retrieve the password
After configuration we would be able to use the Cloud Account as a drop down from the list.
Create AWS Lambda Function
AWS Lambda is a compute service that lets you run code without provisioning or managing servers. Lambda runs your code on a high-availability compute infrastructure and performs all of the administration of the compute resources, including server and operating system maintenance, capacity provisioning and automatic scaling, and logging. With Lambda, all you need to do is supply your code in one of the language runtimes that Lambda supports. Please refer to the link for more information https://docs.aws.amazon.com/lambda/latest/dg/welcome.html
To create the Lambda Function go to the AWS console
Navigate to the Services
Select Compute from the left-hand pane
Now click on the Lambda service option
After selecting the Lambda service, new window will open and it contains detail of all the functions.
Now select the create function option, it will open window to create function and configured detail.
By default AWS creates execution role with basic Lambda permissions, we can select an existing role also. In above example we are using existing role ( basic-lambda-role ) . Please refer to the link for more information https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles.html
The role which we are selecting must have basic Lambda permissions, the role we have selected also have permission for KMS key to decrypt the secured variables. If we are using the KMS key to encrypt the secured variables then we must have to give permission to the role to use the KMS key.
In above role we can see we have one permissions policy name as kms-access, this policy allow us to use the KMS key to decrypt the variables, which we have used to encrypt the variables.
Policy detail:
Trust relationships detail: ( Entities that can assume this role under specified conditions )
Detail of the AWS Lambda function which we have created and going to use for this tutorial:
If we check the Code details of the function, then we found we have sample code. We will update the code using our AWS plugin operation.
On testing the code, using the Test option provided by AWS Lambda we will get this response:
If we check the Environment variables details under the Configuration, there is no environment variables are present. Once successful execution of the operation we should be able to see some environment variables.
Create AWS KMS Key
AWS Key Management Service (AWS KMS) is a managed service that makes it easy for us to create and control the cryptographic keys that are used to protect our data. Please refer to the link for more information https://aws.amazon.com/kms/
AWS KMS key is required to encrypt the secured variables before adding them to Lambda function. If we don’t have any secured variables in that case we don’t required to configure KMS key detail in the project. In our scenario we are adding both secured and non-secured variables to the Lambda function.
To create the Lambda Function go to the AWS console
Navigate to the Services
Select Security, Identity, & Compliance from the left-hand pane
Now click on the Key Management Service service option
Detail of the KMS key which we are using for this tutorial:
We can use Key ID or Key ARN value in the project to encrypt the variables, both are accepted.
Git Repository Structure
The Git repository contains the Environment file.
The Sample Git repository structure is given below.
Environment Variable File Structure
This is the example of environment file with json structure, please refer the document to get more details about environment variables' acceptable structure.
Pre-requisite
Configure IAM user
To access the Lambda Function we need to create an AWS IAM account with required permissions. To create the AWS IAM user navigate to the AWS Identity and Access Management (IAM) service page, and click on the Add users option. Next assign the required permission to access the Lambda Function. Once user is created, AWS secret key can be generated, this key we have to configure in Cloud account.
For more information about IAM user please ref. IAM users - AWS Identity and Access Management
CLI Installation
AWS CLI should be installed in the m/c where the plugin is to be executed. Preferably add AWS CLI path in m/c classpath.
Build and Deploy Workflows
Navigate to Workflows and create a workflow using the button as highlighted below.
Create one Build and one Deploy workflow.
Build Workflow
Below given is a sample build workflow to copy the file from Git repository.
Step-i: Clone Git Repository
This step will clone the Git repository codebase into the project execution working directory. The Git URL will be retrieved from Source Control configured under Project Configuration.
Step-ii: Create Function archive and save as Artifact
The below step will create Function archive and also check the Produces Artifact option to save the files as artifact so that can be used from Deploy workflow.
Step-iii: Copy the environment file
The below step will copy the environment file, so that it can be used from Deploy workflow.
Deploy Workflow
Below given is a sample workflow to deploy lambda function code.
Step-i: updateLambdaFunctionCode
This step will deploy Lambda function code, and also publish the function version.
The above step uses the following Inputs.
Input Name | Input Code | Type | Required | Description |
Additional Arguments | FDAWS_LAMBDA_INP_ADD_ENV_VAR_ADDITIONAL_ARG | String | No | Literal key and value pairs. e.g. --region=us-east-1 And for boolean type arguments give the option without any value. e.g --publish --debug |
Environment Variables | FDAWS_LAMBDA_INP_ENV_VAR | String | No | Environment Variables in acceptable format. |
Publish new version | FDAWS_LAMBDA_INP_PUBLISH_VERSION | Boolean | No | Select to publish a new version. Default value is false. |
Project Configuration
Navigate to the Project tab and create a Project with a logical name(AWS-Deploy-Lambda-Function-Code)
Configure the Build and Deploy workflow that has been created in previous steps as shown below.
Source Control
Configure the Source SCM repository under Source Control as shown below.
To configure Project specific Source Control one first need to navigate to the Project Configuration tab.
Next, expand the SOURCE CONTROL option from the left-hand pane.
Select the appropriate Source Control Type
Configure Source Repository. For detailed steps of Source Control configuration please refer to Configure Source Control in FlexDeploy
Project Properties
Lambda Function name: Name of the Function to add the environment variables, if lambda function name is not given name of the environment file will be use as function name.
Environment Variable File Path: Path of the file which contains list of the environment variables.
Please refer to the document for more details about Lambda function name and Environment Variable File path . AWS Lambda - Environment Variable File and zip File location options
KMS detail: Key Id or Key ARN details, both are accepted. Please refer to the document for more details. AWS Key Management Service - AWS Key Management Service
Artifact File Path: Path of the Artifact file to deploy the function code.
Please refer to the document for more details about Lambda function name and Artifact File path . AWS Lambda - Environment Variable File and zip File location options
Target Properties
Select Topology from the menu and then select Targets. Select the target group and environment, provide the properties detail, according to the description.
Properties | Mandatory field | Description |
Cloud Account | Optional | Select the Cloud Account to connect the Lambda Function. |
CLI Path | Optional | Directory where Cloud CLI is installed. |
AWS Region | Optional | Value of the AWS Region. |
Below given are the environment-specific values which need to be updated.
Cloud Account
The AWS Cloud account needs to be set here from the drop-down. It will show all Cloud Accounts configured under Topology, which we have already mentioned earlier.
CLI Path
AWS CLI path can be set as environment property, if it’s not set then by default plugin will check for CLI in system classpath.
Override Properties at Project level
Let assume a scenario, where we want to change Cloud account for any specific project. Apart from setting at environment level, it can also be set at project properties by using Override Property. Please check below mentioned steps.
Navigate to the Project Configuration tab as shown above.
Next, select the PROPERTIES option from the left-hand pane.
Click on the OVERRIDE option.
Select the Cloud Account option from Property.
Select the Environment from the drop down list.
Select the Target Group from the drop down list.
Build and Deploy Execution
For detailed steps on how to perform build and deploy, please refer to document. Deploy through FlexDeploy for AWS plugin
After Deploy Execution
Once the updateLambdaFunctionCode operation successful we can see the updated code and published version from the plugin output and AWS Lambda console.
Updated code details from AWS Lambda console.
Published version detail from AWS Lambda console.
Published version detail from the plugin output.
We can see the variable details on the AWS Lambda Function console.
Sample code to Retrieve the Secured Variables
We have also added some non-secured variables ( Password and Mysql_Connection_String ) to the Lambda Function and to encrypt these variables we have used AWS KMS key, to get the values of secured variables we can use the sample code provided by AWS Lambda according to the Function code language. In our case we are using java script, below is the sample code to get the value of secured and non-secured variables and creating the response to print the values.
const AWS = require('aws-sdk'); AWS.config.update({ region: 'us-east-1' }); const functionName = process.env.AWS_LAMBDA_FUNCTION_NAME; let password; let userName; let connectionString; function processEvent(event) { } exports.handler = async (event) => { const kms = new AWS.KMS(); try { password = process.env['Password']; userName = process.env['UserName']; connectionString = process.env['Mysql_Connection_String']; let req = { CiphertextBlob: Buffer.from(password, 'base64'), EncryptionContext: { LambdaFunctionName: functionName }, }; let data = await kms.decrypt(req).promise(); password= data.Plaintext.toString('ascii'); req = { CiphertextBlob: Buffer.from(connectionString, 'base64'), EncryptionContext: { LambdaFunctionName: functionName }, }; data = await kms.decrypt(req).promise(); connectionString = data.Plaintext.toString('ascii'); } catch (err) { console.log('Decrypt error:', err); throw err; } processEvent(event); const response = { UserName: userName, Password: password, ConnectionString: connectionString }; return { "isBase64Encoded": false, "statusCode": 200, "body": JSON.stringify(response), "headers": { "content-type": "application/json" } }; };
We can use the test option of the AWS-Lambda to test our function code, in our case test response will be:
Please refer to the link, for more details about encryption and decryption of the secured variables AWS KMS --encryption-context understanding