{-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE OverloadedStrings #-} -- | -- -- = Simpler API -- -- The API below is rather low-level. The "Network.HTTP.Simple" module provides -- a higher-level API with built-in support for things like JSON request and -- response bodies. For most users, this will be an easier place to start. You -- can read the tutorial at: -- -- -- -- = Lower-level API -- -- This module contains everything you need to initiate HTTP connections. If -- you want a simple interface based on URLs, you can use 'simpleHttp'. If you -- want raw power, 'http' is the underlying workhorse of this package. Some -- examples: -- -- > -- Just download an HTML document and print it. -- > import Network.HTTP.Conduit -- > import qualified Data.ByteString.Lazy as L -- > -- > main = simpleHttp "http://www.haskell.org/" >>= L.putStr -- -- This example uses interleaved IO to write the response body to a file in -- constant memory space. -- -- > import Data.Conduit.Binary (sinkFile) -- Exported from the package conduit-extra -- > import Network.HTTP.Conduit -- > import Conduit (runConduit, (.|)) -- > import Control.Monad.Trans.Resource (runResourceT) -- > -- > main :: IO () -- > main = do -- > request <- parseRequest "http://google.com/" -- > manager <- newManager tlsManagerSettings -- > runResourceT $ do -- > response <- http request manager -- > runConduit $ responseBody response .| sinkFile "google.html" -- -- The following headers are automatically set by this module, and should not -- be added to 'requestHeaders': -- -- * Cookie -- -- * Content-Length -- -- * Transfer-Encoding -- -- Note: In previous versions, the Host header would be set by this module in -- all cases. Starting from 1.6.1, if a Host header is present in -- @requestHeaders@, it will be used in place of the header this module would -- have generated. This can be useful for calling a server which utilizes -- virtual hosting. -- -- Use `cookieJar` If you want to supply cookies with your request: -- -- > {-# LANGUAGE OverloadedStrings #-} -- > import Network.HTTP.Conduit -- > import Network -- > import Data.Time.Clock -- > import Data.Time.Calendar -- > import qualified Control.Exception as E -- > import Network.HTTP.Types.Status (statusCode) -- > -- > past :: UTCTime -- > past = UTCTime (ModifiedJulianDay 56200) (secondsToDiffTime 0) -- > -- > future :: UTCTime -- > future = UTCTime (ModifiedJulianDay 562000) (secondsToDiffTime 0) -- > -- > cookie :: Cookie -- > cookie = Cookie { cookie_name = "password_hash" -- > , cookie_value = "abf472c35f8297fbcabf2911230001234fd2" -- > , cookie_expiry_time = future -- > , cookie_domain = "example.com" -- > , cookie_path = "/" -- > , cookie_creation_time = past -- > , cookie_last_access_time = past -- > , cookie_persistent = False -- > , cookie_host_only = False -- > , cookie_secure_only = False -- > , cookie_http_only = False -- > } -- > -- > main = do -- > request' <- parseRequest "http://example.com/secret-page" -- > manager <- newManager tlsManagerSettings -- > let request = request' { cookieJar = Just $ createCookieJar [cookie] } -- > fmap Just (httpLbs request manager) `E.catch` -- > (\ex -> case ex of -- > HttpExceptionRequest _ (StatusCodeException res _) -> -- > if statusCode (responseStatus res) == 403 -- > then (putStrLn "login failed" >> return Nothing) -- > else return Nothing -- > _ -> E.throw ex) -- -- Cookies are implemented according to RFC 6265. -- -- Note that by default, the functions in this package will throw exceptions -- for non-2xx status codes. If you would like to avoid this, you should use -- 'checkStatus', e.g.: -- -- > import Data.Conduit.Binary (sinkFile) -- > import Network.HTTP.Conduit -- > import qualified Data.Conduit as C -- > import Network -- > -- > main :: IO () -- > main = do -- > request' <- parseRequest "http://www.yesodweb.com/does-not-exist" -- > let request = request' { checkStatus = \_ _ _ -> Nothing } -- > manager <- newManager tlsManagerSettings -- > res <- httpLbs request manager -- > print res -- -- By default, when connecting to websites using HTTPS, functions in this -- package will throw an exception if the TLS certificate doesn't validate. To -- continue the HTTPS transaction even if the TLS cerficate validation fails, -- you should use 'mkManagerSetttings' as follows: -- -- > import Network.Connection (TLSSettings (..)) -- > import Network.HTTP.Conduit -- > -- > main :: IO () -- > main = do -- > request <- parseRequest "https://github.com/" -- > let settings = mkManagerSettings (TLSSettingsSimple True False False) Nothing -- > manager <- newManager settings -- > res <- httpLbs request manager -- > print res -- -- For more information, please be sure to read the documentation in the -- "Network.HTTP.Client" module. module Network.HTTP.Conduit ( -- * Perform a request simpleHttp , httpLbs , http -- * Datatypes , Proxy (..) , RequestBody (..) -- ** Request , Request , method , secure , host , port , path , queryString , requestHeaders , requestBody , proxy , hostAddress , rawBody , decompress , redirectCount #if MIN_VERSION_http_client(0,6,2) , shouldStripHeaderOnRedirect #endif , checkResponse , responseTimeout , cookieJar , requestVersion , HCC.setQueryString -- *** Request body , requestBodySource , requestBodySourceChunked , requestBodySourceIO , requestBodySourceChunkedIO -- * Response , Response , responseStatus , responseVersion , responseHeaders , responseBody , responseCookieJar -- * Manager , Manager , newManager , closeManager -- ** Settings , ManagerSettings , tlsManagerSettings , mkManagerSettings , managerConnCount , managerResponseTimeout , managerTlsConnection -- ** Response timeout , HC.ResponseTimeout , HC.responseTimeoutMicro , HC.responseTimeoutNone , HC.responseTimeoutDefault -- * Cookies , Cookie(..) , CookieJar , createCookieJar , destroyCookieJar -- * Utility functions , parseUrl , parseUrlThrow , parseRequest , parseRequest_ , defaultRequest , applyBasicAuth , addProxy , lbsResponse , getRedirectedRequest -- * Decompression predicates , alwaysDecompress , browserDecompress -- * Request bodies -- | "Network.HTTP.Client.MultipartFormData" provides an API for building -- form-data request bodies. , urlEncodedBody -- * Exceptions , HttpException (..) , HCC.HttpExceptionContent (..) ) where import qualified Data.ByteString as S import qualified Data.ByteString.Lazy as L import Data.Conduit import qualified Data.Conduit.List as CL import Data.IORef (readIORef, writeIORef, newIORef) import Data.Int (Int64) import Control.Applicative as A ((<$>)) import Control.Monad.IO.Unlift (MonadIO (liftIO)) import Control.Monad.Trans.Resource import qualified Network.HTTP.Client as Client (httpLbs, responseOpen, responseClose) import qualified Network.HTTP.Client as HC import qualified Network.HTTP.Client.Conduit as HCC import Network.HTTP.Client.Internal (createCookieJar, destroyCookieJar) import Network.HTTP.Client.Internal (Manager, ManagerSettings, closeManager, managerConnCount, managerResponseTimeout, managerTlsConnection, newManager) import Network.HTTP.Client (parseUrl, parseUrlThrow, urlEncodedBody, applyBasicAuth, defaultRequest, parseRequest, parseRequest_) import Network.HTTP.Client.Internal (addProxy, alwaysDecompress, browserDecompress) import Network.HTTP.Client.Internal (getRedirectedRequest) import Network.HTTP.Client.TLS (mkManagerSettings, tlsManagerSettings) import Network.HTTP.Client.Internal (Cookie (..), CookieJar (..), HttpException (..), Proxy (..), Request (..), RequestBody (..), Response (..)) -- | Download the specified 'Request', returning the results as a 'Response'. -- -- This is a simplified version of 'http' for the common case where you simply -- want the response data as a simple datatype. If you want more power, such as -- interleaved actions on the response body during download, you'll need to use -- 'http' directly. This function is defined as: -- -- @httpLbs = 'lbsResponse' <=< 'http'@ -- -- Even though the 'Response' contains a lazy bytestring, this -- function does /not/ utilize lazy I/O, and therefore the entire -- response body will live in memory. If you want constant memory -- usage, you'll need to use @conduit@ packages's -- 'C.Source' returned by 'http'. -- -- This function will 'throwIO' an 'HttpException' for any -- response with a non-2xx status code (besides 3xx redirects up -- to a limit of 10 redirects). This behavior can be modified by -- changing the 'checkStatus' field of your request. -- -- Note: Unlike previous versions, this function will perform redirects, as -- specified by the 'redirectCount' setting. httpLbs :: MonadIO m => Request -> Manager -> m (Response L.ByteString) httpLbs r m = liftIO $ Client.httpLbs r m -- | Download the specified URL, following any redirects, and -- return the response body. -- -- This function will 'throwIO' an 'HttpException' for any -- response with a non-2xx status code (besides 3xx redirects up -- to a limit of 10 redirects). It uses 'parseUrlThrow' to parse the -- input. This function essentially wraps 'httpLbs'. -- -- Note: Even though this function returns a lazy bytestring, it -- does /not/ utilize lazy I/O, and therefore the entire response -- body will live in memory. If you want constant memory usage, -- you'll need to use the @conduit@ package and 'http' directly. -- -- Note: This function creates a new 'Manager'. It should be avoided -- in production code. simpleHttp :: MonadIO m => String -> m L.ByteString simpleHttp url = liftIO $ do man <- newManager tlsManagerSettings req <- liftIO $ parseUrlThrow url responseBody A.<$> httpLbs (setConnectionClose req) man setConnectionClose :: Request -> Request setConnectionClose req = req{requestHeaders = ("Connection", "close") : requestHeaders req} lbsResponse :: Monad m => Response (ConduitM () S.ByteString m ()) -> m (Response L.ByteString) lbsResponse res = do bss <- runConduit $ responseBody res .| CL.consume return res { responseBody = L.fromChunks bss } http :: MonadResource m => Request -> Manager -> m (Response (ConduitM i S.ByteString m ())) http req man = do (key, res) <- allocate (Client.responseOpen req man) Client.responseClose return res { responseBody = do HCC.bodyReaderSource $ responseBody res release key } requestBodySource :: Int64 -> ConduitM () S.ByteString (ResourceT IO) () -> RequestBody requestBodySource size = RequestBodyStream size . srcToPopper requestBodySourceChunked :: ConduitM () S.ByteString (ResourceT IO) () -> RequestBody requestBodySourceChunked = RequestBodyStreamChunked . srcToPopper srcToPopper :: ConduitM () S.ByteString (ResourceT IO) () -> HCC.GivesPopper () srcToPopper src f = runResourceT $ do (rsrc0, ()) <- src $$+ return () irsrc <- liftIO $ newIORef rsrc0 is <- getInternalState let popper :: IO S.ByteString popper = do rsrc <- readIORef irsrc (rsrc', mres) <- runInternalState (rsrc $$++ await) is writeIORef irsrc rsrc' case mres of Nothing -> return S.empty Just bs | S.null bs -> popper | otherwise -> return bs liftIO $ f popper requestBodySourceIO :: Int64 -> ConduitM () S.ByteString IO () -> RequestBody requestBodySourceIO = HCC.requestBodySource requestBodySourceChunkedIO :: ConduitM () S.ByteString IO () -> RequestBody requestBodySourceChunkedIO = HCC.requestBodySourceChunked