{-# LANGUAGE RecordWildCards #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE CPP #-} module Network.HTTP.Client.Response ( getRedirectedRequest , getResponse , lbsResponse ) where import Control.Monad ((>=>)) import Control.Exception (throwIO) import qualified Data.ByteString.Char8 as S8 import qualified Data.ByteString.Lazy as L import Data.Default.Class (def) import qualified Network.HTTP.Types as W import Network.URI (parseURIReference) import Network.HTTP.Client.Types import Network.HTTP.Client.Request import Network.HTTP.Client.Util import Network.HTTP.Client.Body import Network.HTTP.Client.Headers import System.Timeout (timeout) -- | If a request is a redirection (status code 3xx) this function will create -- a new request from the old request, the server headers returned with the -- redirection, and the redirection code itself. This function returns 'Nothing' -- if the code is not a 3xx, there is no 'location' header included, or if the -- redirected response couldn't be parsed with 'parseUrl'. -- -- If a user of this library wants to know the url chain that results from a -- specific request, that user has to re-implement the redirect-following logic -- themselves. An example of that might look like this: -- -- > myHttp req man = do -- > (res, redirectRequests) <- (`runStateT` []) $ -- > 'httpRedirect' -- > 9000 -- > (\req' -> do -- > res <- http req'{redirectCount=0} man -- > modify (\rqs -> req' : rqs) -- > return (res, getRedirectedRequest req' (responseHeaders res) (responseCookieJar res) (W.statusCode (responseStatus res)) -- > ) -- > 'lift' -- > req -- > applyCheckStatus (checkStatus req) res -- > return redirectRequests getRedirectedRequest :: Request -> W.ResponseHeaders -> CookieJar -> Int -> Maybe Request getRedirectedRequest req hs cookie_jar code | 300 <= code && code < 400 = do l' <- lookup "location" hs req' <- setUriRelative req =<< parseURIReference (S8.unpack l') return $ if code == 302 || code == 303 -- According to the spec, this should *only* be for status code -- 303. However, almost all clients mistakenly implement it for -- 302 as well. So we have to be wrong like everyone else... then req' { method = "GET" , requestBody = RequestBodyBS "" , cookieJar = cookie_jar' } else req' {cookieJar = cookie_jar'} | otherwise = Nothing where cookie_jar' = fmap (const cookie_jar) $ cookieJar req -- | Convert a 'Response' that has a 'Source' body to one with a lazy -- 'L.ByteString' body. lbsResponse :: Response BodyReader -> IO (Response L.ByteString) lbsResponse res = do bss <- brConsume $ responseBody res return res { responseBody = L.fromChunks bss } getResponse :: ConnRelease -> Maybe Int -> Request -> Connection -> IO (Response BodyReader) getResponse connRelease timeout'' req@(Request {..}) conn = do let timeout' = case timeout'' of Nothing -> id Just t -> timeout t >=> maybe (throwIO ResponseTimeout) return StatusHeaders s version hs <- timeout' $ parseStatusHeaders conn let mcl = lookup "content-length" hs >>= readDec . S8.unpack -- should we put this connection back into the connection manager? toPut = Just "close" /= lookup "connection" hs && version > W.HttpVersion 1 0 cleanup bodyConsumed = connRelease $ if toPut && bodyConsumed then Reuse else DontReuse body <- -- RFC 2616 section 4.4_1 defines responses that must not include a body if hasNoBody method (W.statusCode s) || mcl == Just 0 then do cleanup True return brEmpty else do let isChunked = ("transfer-encoding", "chunked") `elem` hs body1 <- if isChunked then makeChunkedReader rawBody conn else case mcl of Just len -> makeLengthReader len conn Nothing -> makeUnlimitedReader conn body2 <- if needsGunzip req hs then makeGzipReader body1 else return body1 return $ brAddCleanup (cleanup True) body2 return Response { responseStatus = s , responseVersion = version , responseHeaders = hs , responseBody = body , responseCookieJar = def , responseClose' = ResponseClose (cleanup False) }