http-conduit
Most of Yesod is about serving content over HTTP. But that’s only half the story: someone has to receive it. And even when you’re writing a web app, sometimes that someone will be you. If you want to consume content from other services or interact with RESTful APIs, you’ll need to write client code. And the recommended approach for that is http-conduit.
This chapter is not directly connected to Yesod, and will be generally useful for anyone wanting to make HTTP requests.
Synopsis
{-# LANGUAGE OverloadedStrings #-}
import Network.HTTP.Conduit -- the main module
-- The streaming interface uses conduits
import Data.Conduit
import Data.Conduit.Binary (sinkFile)
import qualified Data.ByteString.Lazy as L
import Control.Monad.IO.Class (liftIO)
import Control.Monad.Trans.Resource (runResourceT)
main :: IO ()
main = do
-- Simplest query: just download the information from the given URL as a
-- lazy ByteString.
simpleHttp "http://www.example.com/foo.txt" >>= L.writeFile "foo.txt"
-- Use the streaming interface instead. We need to run all of this inside a
-- ResourceT, to ensure that all our connections get properly cleaned up in
-- the case of an exception.
runResourceT $ do
-- We need a Manager, which keeps track of open connections. simpleHttp
-- creates a new manager on each run (i.e., it never reuses
-- connections).
manager <- liftIO $ newManager conduitManagerSettings
-- A more efficient version of the simpleHttp query above. First we
-- parse the URL to a request.
req <- liftIO $ parseUrl "http://www.example.com/foo.txt"
-- Now get the response
res <- http req manager
-- And finally stream the value to a file
responseBody res $$+- sinkFile "foo.txt"
-- Make it a POST request, don't follow redirects, and accept any
-- status code.
let req2 = req
{ method = "POST"
, redirectCount = 0
, checkStatus = \_ _ _ -> Nothing
}
res2 <- http req2 manager
responseBody res2 $$+- sinkFile "post-foo.txt"
Concepts
The simplest way to make a request in http-conduit
is with the simpleHttp
function. This function takes a String
giving a URL and returns a
ByteString
with the contents of that URL. But under the surface, there are a
few more steps:
-
A new connection
Manager
is allocated. -
The URL is parsed to a
Request
. If the URL is invalid, then an exception is thrown. -
The HTTP request is made, following any redirects from the server.
-
If the response has a status code outside the 200-range, an exception is thrown.
-
The response body is read into memory and returned.
-
runResourceT
is called, which will free up any resources (e.g., the open socket to the server).
If you want more control of what’s going on, then you can configure any of the
steps above (plus a few more) by explicitly creating a Request
value,
allocating your Manager
manually, and using the http
and httpLbs
functions.
Request
The easiest way to creating a Request
is with the parseUrl
function. This
function will return a value in any Failure
monad, such as Maybe
or IO
.
The last of those is the most commonly used, and results in a runtime exception
whenever an invalid URL is provided. However, you can use a different monad if,
for example, you want to validate user input.
import Network.HTTP.Conduit
import System.Environment (getArgs)
import qualified Data.ByteString.Lazy as L
import Control.Monad.IO.Class (liftIO)
main :: IO ()
main = do
args <- getArgs
case args of
[urlString] ->
case parseUrl urlString of
Nothing -> putStrLn "Sorry, invalid URL"
Just req -> withManager $ \manager -> do
res <- httpLbs req manager
liftIO $ L.putStr $ responseBody res
_ -> putStrLn "Sorry, please provide exactly one URL"
The Request
type is abstract so that http-conduit
can add new settings in
the future without breaking the API (see the Settings Type chapter for more
information). In order to make changes to individual records, you use record
notation. For example, a modification to our program that issues HEAD
requests and prints the response headers would be:
{-# LANGUAGE OverloadedStrings #-}
import Network.HTTP.Conduit
import System.Environment (getArgs)
import qualified Data.ByteString.Lazy as L
import Control.Monad.IO.Class (liftIO)
main :: IO ()
main = do
args <- getArgs
case args of
[urlString] ->
case parseUrl urlString of
Nothing -> putStrLn "Sorry, invalid URL"
Just req -> withManager $ \manager -> do
let reqHead = req { method = "HEAD" }
res <- http reqHead manager
liftIO $ do
print $ responseStatus res
mapM_ print $ responseHeaders res
_ -> putStrLn "Sorry, please provide example one URL"
There are a number of different configuration settings in the API, some noteworthy ones are:
- proxy
-
Allows you to pass the request through the given proxy server.
- redirectCount
-
Indicate how many redirects to follow. Default is 10.
- checkStatus
-
Check the status code of the return value. By default, gives an exception for any non-2XX response.
- requestBody
-
The request body to be sent. Be sure to also update the
method
. For the common case of url-encoded data, you can use theurlEncodedBody
function.
Manager
The connection manager allows you to reuse connections. When making multiple
queries to a single server (e.g., accessing Amazon S3), this can be critical
for creating efficient code. A manager will keep track of multiple connections
to a given server (taking into account port and SSL as well), automatically
reaping unused connections as needed. When you make a request, http-conduit
first tries to check out an existing connection. When you’re finished with the
connection (if the server allows keep-alive), the connection is returned to the
manager. If anything goes wrong, the connection is closed.
To keep our code exception-safe, we use the ResourceT
monad transformer. All
this means for you is that your code needs to be wrapped inside a call to
runResourceT
, either implicitly or explicitly, and that code inside that
block will need to liftIO
to perform normal IO actions.
There are two ways you can get ahold of a manager. newManager
will return a
manager that will not be automatically closed (you can use closeManager
to do
so manually), while withManager
will start a new ResourceT
block, allow you
to use the manager, and then automatically close the ResourceT
when you’re
done. If you want to use a ResourceT
for an entire application, and have no
need to close it, you should probably use newManager
.
One other thing to point out: you obviously don’t want to create a new manager
for each and every request; that would defeat the whole purpose. You should
create your Manager
early and then share it.
Response
The Response
datatype has three pieces of information: the status code, the
response headers, and the response body. The first two are straight-forward;
let’s discuss the body.
The Response
type has a type variable to allow the response body to be of
multiple types. If you want to use http-conduit
's streaming interface, you
want this to be a Source
. For the simple interface, it will be a lazy
ByteString
. One thing to note is that, even though we use a lazy
ByteString
, the entire response is held in memory. In other words, we
perform no lazy I/O in this package.
http and httpLbs
So let’s tie it together. The http
function gives you access to the streaming
interface (i.e., it returns a Response
using a ResumableSource
) while
httpLbs
returns a lazy ByteString
. Both of these return values in the
ResourceT
transformer so that they can access the Manager
and have
connections handled properly in the case of exceptions.