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Everything You Need to Know About AWS Lambda

Today we are launching a preview of AWS Lambda, a brand-new way to build and run applications in the cloud, one that lets you take advantage of your existing programming skills and your knowledge of AWS. With Lambda, you simply create a Lambda function, give it permission to access specific AWS resources, and then connect the function to your AWS resources. Lambda will automatically run code in response to modifications to objects uploaded to Amazon Simple Storage Service (S3) buckets, messages arriving in Amazon Kinesis streams, or table updates in Amazon DynamoDB.

Lambda is a zero-administration compute platform. You don’t have to configure, launch, or monitor EC2 instances. You don’t have to install any operating systems or language environments. You don’t need to think about scale or fault tolerance and you don’t need to request or reserve capacity. A freshly created function is ready and able to handle tens of thousands of requests per hour with absolutely no incremental effort on your part, and on a very cost-effective basis.

Let’s dig in! We’ll take a more in-depth look at Lambda, sneak a peek at the programming model and runtime environment, and then walk through a programming example. As you read through this post, keep in mind that we have plenty of items on the Lambda roadmap and that what I am able to share today is just the first step on what we expect to be an enduring and feature-filled journey.

Lambda Concepts

Everything You Need to Know About AWS Lambda

The most important Lambda concept is the Lambda function, or function for short. You write your functions in Node.js (an event-driven, server side implementation of JavaScript).

You upload your code and then specify context information to AWS Lambda to create a function. The context information specifies the execution environment (language, memory requirements, a timeout period, and IAM role) and also points to the function you’d like to invoke within your code. The code and the metadata are durably stored in AWS and can later be referred to by name or by ARN (Amazon Resource Name). You an also include any necessary third-party libraries in the upload (which takes the form of a single ZIP file per function).

After uploading, you associate your function with specific AWS resources (a particular S3 bucket, DynamoDB table, or Kinesis stream).Lambda will then arrange to route events (generally signifying that the resource has changed) to your function.

When a resource changes, Lambda will execute any functions that are associated with it. It will launch and manage compute resources as needed in order to keep up with incoming requests. You don’t need to worry about this; Lambda will manage the resources for you and will shut them down if they are no longer needed.

Lambda is accessible from the AWS Management Console, the AWS SDKs and the AWS Command Line Interface (CLI). The Lambda APIs are fully documented and can be used to connect existing code editors and other development tools to Lambda.

Lambda Programming Model

Functions are activated after the associated resource has been changed. Execution starts at the designated Node.js function and proceeds from there. The function has access (via a parameter supplied along with the POST) to a JSON data structure. This structure contains detailed information about the change (or other event) that caused the function to be activated.

Lambda will activate additional copies of function as needed in order to keep pace with changes. The functions cannot store durable state on the compute instance and should use S3 or DynamoDB instead.

Your code can make use of just about any functionality that is intrinsic to Node.js and to the underlying Linux environment. It can also use the AWS SDK for JavaScript in Node.js to make calls to other AWS services.

Lambda Runtime Environment

The context information that you supply for each function specifies a maximum execution time for the function. This is typically set fairly low (you can do a lot of work in a couple of seconds) but can be set to up 60 seconds as your needs dictate.

Lambda uses multiple IAM roles to manage access to your functions and your AWS resources. The invocation role gives Lambdapermission to run a particular function. The execution role gives a function permission to access specific AWS resources. You can use distinct roles for each function in order to implement a fine-grained set of permissions.

Lambda monitors the execution of each function and stores request count, latency, availability, and error rate metrics in Amazon CloudWatch. The metrics are retained for 30 days and can be viewed in the Console.

Here are a few things to keep in mind when as you start to think about how you will put Lambda to use:

  • The context information for a function specifies the amount of memory needed to run it. You can set this to any desired value between 128 MB and 1 GB. The memory setting also determines the amount of CPU power, network bandwidth, and I/O bandwidth that are made available to the function.
  • Each invocation of a function can make use of up to 256 processes or threads. It can consume up to 512 MB of local storage and up to 1,024 file descriptors. It can also create up to 10 simultaneous outbound network connections.
  • Lambda imposes a set of administrative limits on each AWS account. During the preview, you can have up to 25 invocation requests underway simultaneously.

Lambda in Action

Let’s step through the process of creating a simple function using the [console_u]. As I mentioned earlier, you can also do this from the SDKs and the CLI. The console displays all of my functions:

l_cons_cloud_func_list_3

I simply click on Create Function to get started. Then I fill in all of the details:

l_new_cloud_func_5

I name and describe my function:

l_name_func_1

Then I enter the code or upload a ZIP file. The console also offers a choice of sample code snippets to help me to get started:

l_enter_code_1

Now I tell Lambda which function to run and which IAM role to use when the code runs:

l_code_handler_func_4

I can also fine-tune the memory requirements and set a limit on execution time:

l_code_advanced_2

After I create my function, I can iteratively edit and test it from within the Console. As you can see, the pane on the left shows a sample of the JSON data that will be passed to my function:

aws lamba

When the function is working as expected, I can attach it to an event source such as Amazon S3 event notification. I will to provide an invocation role in order to give S3 the permission that it needs to have in order to invoke the function:

l_setup_s3_pub_2

Lambda collects a set of metrics for each of my functions and sends them to Amazon CloudWatch. I can view the metrics from the Console:

l_name_func_1
 

On the Roadmap

We have a great roadmap for Lambda! While I won’t spill all of the beans today, I will tell you that we expect to add support for additional AWS services and other languages. As always, we love your feedback; please leave a note in the Lambda Forum.

Pricing & Availability

Let’s talk about pricing a bit before wrapping up! Lambda uses a fine-grained pricing model. You pay for compute time in units of 100 milliseconds and you pay for each request. The Lambda free tier includes 1 million free requests per month and up to 3.2 million seconds of compute time per month depending on the amount of memory allocated per function.


About iTMethods

iTMethods is a leading Amazon Web Services (AWS) Advanced Consulting Partner and an Atlassian Expert partner. The company helps clients move critical workloads to the AWS cloud and successfully manage them at any scale. Grounded in years of managed services success, iTMethods understands the technological and human complexities of deploying, automating, and securing workloads in AWS 24/7.

iTMethods team members are forward-thinking individuals, dedicated to learning and sharing successes with their local and global communities. Founded in 2005, they are headquartered in Toronto, Canada.

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