Copyright | (c) Nike Inc. 2018 |
---|---|
License | BSD3 |
Maintainer | nathan.fairhurst@nike.com, fernando.freire@nike.com |
Stability | stable |
Safe Haskell | None |
Language | Haskell2010 |
These are runtimes designed for AWS Lambda, which accept a handler and return an application that will retreive and execute events as long as a container continues to exist.
These runtimes expect handlers that accept a parsed JSON AST
(Value
) as the input, instead some particular type with a FromJSON
instance. Handlers using these runtimes must take care of the conversion and
handle errors explicitly. Handlers that should throw an exception or never
expect to be invoked with an invalid payload, should simply use the runtimes in
the AWS.Lambda.Runtime module.
Each example shows the conversion from the Value type to the target FromJSON type.
Many of these runtimes use AWS.Lambda.Combinators under the hood. For those interested in peeking below the abstractions provided here, please refer to that module.
Synopsis
- pureRuntime :: ToJSON result => (Value -> result) -> IO ()
- pureRuntimeWithContext :: ToJSON result => (LambdaContext -> Value -> result) -> IO ()
- fallibleRuntime :: ToJSON result => (Value -> Either String result) -> IO ()
- fallibleRuntimeWithContext :: ToJSON result => (LambdaContext -> Value -> Either String result) -> IO ()
- ioRuntime :: ToJSON result => (Value -> IO (Either String result)) -> IO ()
- ioRuntimeWithContext :: ToJSON result => (LambdaContext -> Value -> IO (Either String result)) -> IO ()
- readerTRuntime :: ToJSON result => (Value -> ReaderT LambdaContext IO result) -> IO ()
- mRuntimeWithContext :: (HasLambdaContext r, MonadCatch m, MonadReader r m, MonadIO m, ToJSON result) => (Value -> m result) -> m ()
Documentation
pureRuntime :: ToJSON result => (Value -> result) -> IO () Source #
For pure functions that can never fail.
Use this for simple handlers that just translate input to output without side-effects.
{-# LANGUAGE NamedFieldPuns, DeriveGeneric #-} module Main where import AWS.Lambda.Runtime (pureRuntime) import Data.Aeson (Value, FromJSON, parseJSON) import Data.Aeson.Types (parseMaybe) import GHC.Generics (Generic) data Named = Named { name :: String } deriving Generic instance FromJSON Named myHandler :: Value -> String myHandler jsonAst = case parseMaybe parseJSON jsonAst of Nothing -> "My name is HAL, what's yours?" Just Named { name } -> "Hello, " ++ name ++ "!" main :: IO () main = pureRuntime myHandler
pureRuntimeWithContext :: ToJSON result => (LambdaContext -> Value -> result) -> IO () Source #
For pure functions that can never fail that also need access to the context.
Use this for simple handlers that just translate input to output without side-effects, but that need the AWS Lambda Context as input.
{-# LANGUAGE NamedFieldPuns, DeriveGeneric #-} module Main where import AWS.Lambda.Context (LambdaContext(..)) import AWS.Lambda.Runtime (pureRuntimeWithContext) import Data.Aeson (Value, FromJSON, parseJSON) import Data.Aeson.Types (parseMaybe) import Data.Text (unpack) import GHC.Generics (Generic) data Named = Named { name :: String } deriving Generic instance FromJSON Named myHandler :: LambdaContext -> Value -> Either String String myHandler (LambdaContext { functionName }) jsonAst = case parseMaybe parseJSON jsonAst of Nothing -> Right "My name is HAL, what's yours?" Just Named { name } -> Right $ "Hello, " ++ name ++ " from " ++ unpack functionName ++ "!" main :: IO () main = pureRuntimeWithContext myHandler
fallibleRuntime :: ToJSON result => (Value -> Either String result) -> IO () Source #
For pure functions that can still fail.
Use this for simple handlers that just translate input to output without side-effects, but can fail.
{-# LANGUAGE NamedFieldPuns, DeriveGeneric #-} module Main where import AWS.Lambda.Runtime (fallibleRuntime) import Data.Aeson (Value, FromJSON, parseJSON) import Data.Aeson.Types (parseMaybe) import GHC.Generics (Generic) data Named = Named { name :: String } deriving Generic instance FromJSON Named myHandler :: Value -> Either String String myHandler jsonAst = case parseMaybe parseJSON jsonAst of Nothing -> Right "My name is HAL, what's yours?" Just Named { name } -> if name == "World" then Right "Hello, World!" else Left "Can only greet the world." main :: IO () main = fallibleRuntime myHandler
fallibleRuntimeWithContext :: ToJSON result => (LambdaContext -> Value -> Either String result) -> IO () Source #
For pure functions that can still fail.
Use this for simple handlers that just translate input to output without side-effects, but can fail and need the AWS Lambda Context as input.
{-# LANGUAGE NamedFieldPuns, DeriveGeneric #-} module Main where import AWS.Lambda.Context (LambdaContext(..)) import AWS.Lambda.Runtime (fallibleRuntimeWithContext) import Data.Aeson (Value, FromJSON, parseJSON) import Data.Aeson.Types (parseMaybe) import Data.Text (unpack) import GHC.Generics (Generic) data Named = Named { name :: String } deriving Generic instance FromJSON Named myHandler :: LambdaContext -> Value -> Either String String myHandler (LambdaContext { functionName }) jsonAst = case parseMaybe parseJSON jsonAst of Nothing -> Right "My name is HAL, what's yours?" Just Named { name } -> if name == "World" then Right $ "Hello, World from " ++ unpack functionName ++ "!" else Left "Can only greet the world." main :: IO () main = fallibleRuntimeWithContext myHandler
ioRuntime :: ToJSON result => (Value -> IO (Either String result)) -> IO () Source #
For functions with IO that can fail in a pure way (or via throw).
Use this for handlers that need any form of side-effect such as reading environment variables or making network requests. However, do not use this runtime if you need stateful (caching) behaviors.
{-# LANGUAGE NamedFieldPuns, DeriveGeneric #-} module Main where import AWS.Lambda.Runtime (ioRuntime) import Control.Monad.Trans (liftIO) import Data.Aeson (Value, FromJSON, parseJSON) import Data.Aeson.Types (parseMaybe) import System.Environment (getEnv) import GHC.Generics (Generic) data Named = Named { name :: String } deriving Generic instance FromJSON Named myHandler :: Value -> IO (Either String String) myHandler jsonAst = case parseMaybe parseJSON jsonAst of Nothing -> return $ pure "My name is HAL, what's yours?" Just Named { name } -> do greeting <- liftIO $ getEnv "GREETING" return $ pure $ greeting ++ name main :: IO () main = ioRuntime myHandler
ioRuntimeWithContext :: ToJSON result => (LambdaContext -> Value -> IO (Either String result)) -> IO () Source #
For functions with IO that can fail in a pure way (or via throw).
Use this for handlers that need any form of side-effect such as reading environment variables or making network requests, and also need the AWS Lambda Context as input. However, do not use this runtime if you need stateful (caching) behaviors.
{-# LANGUAGE NamedFieldPuns, DeriveGeneric #-} module Main where import AWS.Lambda.Context (LambdaContext(..)) import AWS.Lambda.Runtime (ioRuntimeWithContext) import Control.Monad.Trans (liftIO) import Data.Aeson (Value, FromJSON, parseJSON) import Data.Aeson.Types (parseMaybe) import Data.Text (unpack) import System.Environment (getEnv) import GHC.Generics (Generic) data Named = Named { name :: String } deriving Generic instance FromJSON Named myHandler :: LambdaContext -> Value -> IO (Either String String) myHandler (LambdaContext { functionName }) jsonAst = case parseMaybe parseJSON jsonAst of Nothing -> return $ pure "My name is HAL, what's yours?" Just Named { name } -> do greeting <- liftIO $ getEnv "GREETING" return $ pure $ greeting ++ name ++ " from " ++ unpack functionName ++ "!" main :: IO () main = ioRuntimeWithContext myHandler
readerTRuntime :: ToJSON result => (Value -> ReaderT LambdaContext IO result) -> IO () Source #
For functions that can read the lambda context and use IO within the same monad.
Use this for handlers that need any form of side-effect such as reading environment variables or making network requests, and prefer to access the AWS Lambda Context in the same monad. However, do not use this runtime if you need stateful (caching) behaviors.
{-# LANGUAGE NamedFieldPuns, DeriveGeneric #-} module Main where import AWS.Lambda.Context (LambdaContext(..)) import AWS.Lambda.Runtime (readerTRuntime) import Control.Monad.Reader (ReaderT, ask) import Control.Monad.Trans (liftIO) import Data.Aeson (Value, FromJSON, parseJSON) import Data.Aeson.Types (parseMaybe) import Data.Text (unpack) import System.Environment (getEnv) import GHC.Generics (Generic) data Named = Named { name :: String } deriving Generic instance FromJSON Named myHandler :: Value -> ReaderT LambdaContext IO String myHandler jsonAst = case parseMaybe parseJSON jsonAst of Nothing -> return $ "My name is HAL, what's yours?" Just Named { name } -> do LambdaContext { functionName } <- ask greeting <- liftIO $ getEnv "GREETING" return $ greeting ++ name ++ " from " ++ unpack functionName ++ "!" main :: IO () main = readerTRuntime myHandler
mRuntimeWithContext :: (HasLambdaContext r, MonadCatch m, MonadReader r m, MonadIO m, ToJSON result) => (Value -> m result) -> m () Source #
For any monad that supports IOcatchReader LambdaContext.
Use this if you need caching behavours or are comfortable manipulating monad transformers and want full control over your monadic interface.
{-# LANGUAGE NamedFieldPuns, DeriveGeneric #-} module Main where import AWS.Lambda.Context (LambdaContext(..), runReaderTLambdaContext) import AWS.Lambda.Runtime (mRuntimeWithContext) import Control.Monad.Reader (ReaderT, ask) import Control.Monad.State.Lazy (StateT, evalStateT, get, put) import Control.Monad.Trans (liftIO) import Data.Aeson (Value, FromJSON, parseJSON) import Data.Aeson.Types (parseMaybe) import Data.Text (unpack) import System.Environment (getEnv) import GHC.Generics (Generic) data Named = Named { name :: String } deriving Generic instance FromJSON Named myHandler :: Value -> StateT Int (ReaderT LambdaContext IO) String myHandler jsonAst = case parseMaybe parseJSON jsonAst of Nothing -> return $ "My name is HAL, what's yours?" Just Named { name } -> do LambdaContext { functionName } <- ask greeting <- liftIO $ getEnv "GREETING" greetingCount <- get put $ greetingCount + 1 return $ greeting ++ name ++ " (" ++ show greetingCount ++ ") from " ++ unpack functionName ++ "!" main :: IO () main = runReaderTLambdaContext (evalStateT (mRuntimeWithContext myHandler) 0)