42

I've made Lambda functions before but not in Python. I know in Javascript Lambda supports the handler function being asynchronous, but I get an error if I try it in Python.

Here is the code I am trying to test:

async def handler(event, context):
    print(str(event))
    return { 
        'message' : 'OK'
    }

And this is the error I get:

An error occurred during JSON serialization of response: <coroutine object handler at 0x7f63a2d20308> is not JSON serializable
Traceback (most recent call last):
  File "/var/lang/lib/python3.6/json/__init__.py", line 238, in dumps
    **kw).encode(obj)
  File "/var/lang/lib/python3.6/json/encoder.py", line 199, in encode
    chunks = self.iterencode(o, _one_shot=True)
  File "/var/lang/lib/python3.6/json/encoder.py", line 257, in iterencode
    return _iterencode(o, 0)
  File "/var/runtime/awslambda/bootstrap.py", line 149, in decimal_serializer
    raise TypeError(repr(o) + " is not JSON serializable")
TypeError: <coroutine object handler at 0x7f63a2d20308> is not JSON serializable

/var/runtime/awslambda/bootstrap.py:312: RuntimeWarning: coroutine 'handler' was never awaited
  errortype, result, fatal = report_fault(invokeid, e)

EDIT 2021:

Since this question seems to be gaining traction, I assume people are coming here trying to figure out how to get async to work with AWS Lambda as I was. The bad news is that even now more than a year later, there still isn't any support by AWS to have an asynchronous handler in a Python-based Lambda function. (I have no idea why, as NodeJS-based Lambda functions can handle it perfectly fine.)

The good news is that since Python 3.7, there is a simple workaround in the form of asyncio.run:

import asyncio

def lambda_handler(event, context):
    # Use asyncio.run to synchronously "await" an async function
    result = asyncio.run(async_handler(event, context))
    
    return {
        'statusCode': 200,
        'body': result
    }

async def async_handler(event, context):
    # Put your asynchronous code here
    await asyncio.sleep(1)
    
    return 'Success'

Note: The selected answer says that using asyncio.run is not the proper way of starting an asynchronous task in Lambda. In general, they are correct because if some other resource in your Lambda code creates an event loop (a database/HTTP client, etc.), it's wasteful to create another loop and it's better to operate on the existing loop using asyncio.get_event_loop.

However, if an event loop does not yet exist when your code begins running, asyncio.run becomes the only (simple) course of action.

10
  • 2
    Not that I'm aware of. The programming documentation only indicates the synchronous def handler(event, context) option.
    – jarmod
    Feb 28, 2020 at 18:26
  • asyncio.run is not a correct way! You will encounter Event loop closed exception at a time of a subsequent invocation. See details in my answer below. Sep 12, 2021 at 19:04
  • 2
    @AntonBryzgalov I don't know if it's an issue of the Lambda runtime being changed since your answer was written, but when I used asyncio.get_event_loop(), it threw an error since there was no existing event loop to get. So you would manually have to create the event loop as well as close it, which was a real pain to manage, which is why I used asyncio.run as it handled creating and closing a loop for you. I ran it several times on every supported Python runtime 3.7+ and never got an Event loop closed exception.
    – Abion47
    Sep 14, 2021 at 15:20
  • 2
    @AntonBryzgalov Then how do you ensure a loop exists when your lambda doesn't contain any such resources or connections?
    – Abion47
    Sep 20, 2021 at 15:13
  • 2
    @AntonBryzgalov One is not always created, I just told you that in my own experimentation, asyncio.get_event_loop threw an error because there was no event loop to get which is why I needed to use asyncio.run in the first place.
    – Abion47
    Sep 26, 2021 at 18:45

3 Answers 3

57

Not at all. Async Python handlers are not supported by AWS Lambda.

If you need to use async/await functionality in your AWS Lambda, you have to define an async function in your code (either in Lambda files or a Lambda Layer) and call asyncio.get_event_loop().run_until_complete(your_async_handler()) inside your regular sync Lambda handler:

import asyncio
import aioboto3

# To reduce execution time for subsequent invocations,
#   open a reusable resource in a global scope
dynamodb = aioboto3.Session().resource('dynamodb')

async def async_handler(event, context):
    # Put your asynchronous code here
    table = await dynamodb.Table('test')
    await table.put_item(
        Item={'pk': 'test1', 'col1': 'some_data'},
    )
    return {'statusCode': 200, 'body': '{"ok": true}'}

# Point to this function as a handler in the Lambda configuration
def lambda_handler(event, context):
    loop = asyncio.get_event_loop()
    # DynamoDB resource defined above is attached to this loop:
    #   if you use asyncio.run instead
    #   you will encounter "Event loop closed" exception
    return loop.run_until_complete(async_handler(event, context))

Please note that asyncio.run (introduced in Python 3.7) is not a proper way to call an async handler in AWS Lambda execution environment since Lambda tries to reuse the execution context for subsequent invocations. The problem here is that asyncio.run creates a new EventLoop and closes the previous one. If you have opened any resources or created coroutines attached to the closed EventLoop from previous Lambda invocation you will get «Event loop closed» error. asyncio.get_event_loop().run_until_complete allows you to reuse the same loop. See related StackOverflow question.

AWS Lambda documentation misleads its readers a little by introducing synchronous and asynchronous invocations. Do not mix it up with sync/async Python functions. Synchronous refers to invoking AWS Lambda with further waiting for the result (blocking operation). The function is called immediately and you get the response as soon as possible. Whereas using an asynchronous invocation you ask Lambda to schedule the function execution and do not wait for the response at all. When the time comes, Lambda still will call the handler function synchronously.

6
  • 1
    I'm not convinced the asyncio.run is not a proper way of doing this. Does it close the previous one? From documentation it seems the current invocation takes care of closing the current one. It does not leak so that the subsequent run has to close the previous one. (Ofc I'm talking about situation where only asyncio.run has been used to create any loops.) Nov 2, 2021 at 9:12
  • 1
    @KrzysztofSzularz closing the current loop (aka the loop from the previous invocation) disallows you to reuse resources attached to the current loop (e.g. aiohttp session, database connection). See our discussion in the question comments. Nov 4, 2021 at 16:34
  • An AWS Lambda function by design processes only a single request at a time. Lambda achieves concurrency by spinning up multiple functions that each processes a single request at a time, so it does not need async handlers. Check out ben11kehoe.medium.com/…
    – Yusuf
    Mar 29, 2023 at 13:51
  • 2
    @Yusuf async code execution not only allows to serve multiple Lambda requests in parallel, but also to parallelize intra-Lambda IO-bound activities such as calls to AWS services (e.g. writing multiple S3 objects in parallel within a single Lambda call). So, the question is not about serving requests in parallel by a single Lambda function, but about using async capabilities of Python within Lambda execution environment. Apr 5, 2023 at 10:37
  • This answer: stackoverflow.com/a/73367187/1278365 mentions: "Note that run_until_complete, unlike asyncio.run, does not clean up async generators. This is documented in the standard docs." How should we run the async_handler and have the async generators cleaned up? Thanks in advance!
    – gmagno
    Jul 24, 2023 at 18:09
1

Don't use run() method and call run_until_complete()

import json
import asyncio


async def my_async_method():
    await some_async_functionality()


def lambda_handler(event, context):
    loop = asyncio.get_event_loop()    
    result = loop.run_until_complete(my_async_method())
    return {
        'statusCode': 200,
        'body': json.dumps('Hello Lambda')
    }
1
  • This is identical to the chosen answer, and see the comments under the question. The problem with this approach is that it assumes there is an existing event loop to get which is not always the case, hence the need to use run to create an event loop.
    – Abion47
    Feb 21, 2023 at 14:16
0

Lambda spins up a python process and keeps it around in case you re-invoke the function.

That means your file is going to be parsed/interpreted once, and then the handler may be called multiple times.

What's needed is to start an event loop when your code is first interpreted. Then each time the handler is called we check its state, and potentially start a new one. Lastly, our handler should run until async work is completed. The next invocation will encounter a closed loop and start a new one.

import asyncio

async def async_handler(event, context):
   ...


loop = asyncio.new_event_loop()

def lambda_handler(event, context):
    global loop
    if loop.is_closed():
        loop = asyncio.new_event_loop()
    return loop.run_until_complete(async_handler(event, context))

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