{-# LANGUAGE MultiParamTypeClasses, GeneralizedNewtypeDeriving, CPP, FlexibleContexts #-} {- | Module : Network.Browser Copyright : See LICENSE file License : BSD Maintainer : Ganesh Sittampalam Stability : experimental Portability : non-portable (not tested) Session-level interactions over HTTP. The "Network.Browser" goes beyond the basic "Network.HTTP" functionality in providing support for more involved, and real, request/response interactions over HTTP. Additional features supported are: * HTTP Authentication handling * Transparent handling of redirects * Cookie stores + transmission. * Transaction logging * Proxy-mediated connections. Example use: > do > (_, rsp) > <- Network.Browser.browse $ do > setAllowRedirects True -- handle HTTP redirects > request $ getRequest "http://www.haskell.org/" > return (take 100 (rspBody rsp)) -} module Network.Browser ( BrowserState , BrowserAction -- browser monad, effectively a state monad. , Proxy(..) , browse -- :: BrowserAction a -> IO a , request -- :: Request -> BrowserAction Response , getBrowserState -- :: BrowserAction t (BrowserState t) , withBrowserState -- :: BrowserState t -> BrowserAction t a -> BrowserAction t a , setAllowRedirects -- :: Bool -> BrowserAction t () , getAllowRedirects -- :: BrowserAction t Bool , setMaxRedirects -- :: Int -> BrowserAction t () , getMaxRedirects -- :: BrowserAction t (Maybe Int) , Authority(..) , getAuthorities , setAuthorities , addAuthority , Challenge(..) , Qop(..) , Algorithm(..) , getAuthorityGen , setAuthorityGen , setAllowBasicAuth , getAllowBasicAuth , setMaxErrorRetries -- :: Maybe Int -> BrowserAction t () , getMaxErrorRetries -- :: BrowserAction t (Maybe Int) , setMaxPoolSize -- :: Int -> BrowserAction t () , getMaxPoolSize -- :: BrowserAction t (Maybe Int) , setMaxAuthAttempts -- :: Maybe Int -> BrowserAction t () , getMaxAuthAttempts -- :: BrowserAction t (Maybe Int) , setCookieFilter -- :: (URI -> Cookie -> IO Bool) -> BrowserAction t () , getCookieFilter -- :: BrowserAction t (URI -> Cookie -> IO Bool) , defaultCookieFilter -- :: URI -> Cookie -> IO Bool , userCookieFilter -- :: URI -> Cookie -> IO Bool , Cookie(..) , getCookies -- :: BrowserAction t [Cookie] , setCookies -- :: [Cookie] -> BrowserAction t () , addCookie -- :: Cookie -> BrowserAction t () , setErrHandler -- :: (String -> IO ()) -> BrowserAction t () , setOutHandler -- :: (String -> IO ()) -> BrowserAction t () , setEventHandler -- :: (BrowserEvent -> BrowserAction t ()) -> BrowserAction t () , BrowserEvent(..) , BrowserEventType(..) , RequestID , setProxy -- :: Proxy -> BrowserAction t () , getProxy -- :: BrowserAction t Proxy , setCheckForProxy -- :: Bool -> BrowserAction t () , getCheckForProxy -- :: BrowserAction t Bool , setDebugLog -- :: Maybe String -> BrowserAction t () , getUserAgent -- :: BrowserAction t String , setUserAgent -- :: String -> BrowserAction t () , out -- :: String -> BrowserAction t () , err -- :: String -> BrowserAction t () , ioAction -- :: IO a -> BrowserAction a , defaultGETRequest , defaultGETRequest_ , formToRequest , uriDefaultTo -- old and half-baked; don't use: , Form(..) , FormVar ) where import Network.URI ( URI(..) , URIAuth(..) , parseURI, parseURIReference, relativeTo ) import Network.StreamDebugger (debugByteStream) import Network.HTTP hiding ( sendHTTP_notify ) import Network.HTTP.HandleStream ( sendHTTP_notify ) import Network.HTTP.Auth import Network.HTTP.Cookie import Network.HTTP.Proxy import Network.Stream ( ConnError(..), Result ) import Network.BufferType import Data.Char (toLower) import Data.List (isPrefixOf) import Data.Maybe (fromMaybe, listToMaybe, catMaybes ) import Control.Applicative (Applicative (..), (<$>)) #ifdef MTL1 import Control.Monad (filterM, forM_, when, ap) #else import Control.Monad (filterM, forM_, when) #endif import Control.Monad.State (StateT (..), MonadIO (..), modify, gets, withStateT, evalStateT, MonadState (..)) import qualified System.IO ( hSetBuffering, hPutStr, stdout, stdin, hGetChar , BufferMode(NoBuffering, LineBuffering) ) import Data.Time.Clock ( UTCTime, getCurrentTime ) ------------------------------------------------------------------ ----------------------- Cookie Stuff ----------------------------- ------------------------------------------------------------------ -- | @defaultCookieFilter@ is the initial cookie acceptance filter. -- It welcomes them all into the store @:-)@ defaultCookieFilter :: URI -> Cookie -> IO Bool defaultCookieFilter _url _cky = return True -- | @userCookieFilter@ is a handy acceptance filter, asking the -- user if he/she is willing to accept an incoming cookie before -- adding it to the store. userCookieFilter :: URI -> Cookie -> IO Bool userCookieFilter url cky = do do putStrLn ("Set-Cookie received when requesting: " ++ show url) case ckComment cky of Nothing -> return () Just x -> putStrLn ("Cookie Comment:\n" ++ x) let pth = maybe "" ('/':) (ckPath cky) putStrLn ("Domain/Path: " ++ ckDomain cky ++ pth) putStrLn (ckName cky ++ '=' : ckValue cky) System.IO.hSetBuffering System.IO.stdout System.IO.NoBuffering System.IO.hSetBuffering System.IO.stdin System.IO.NoBuffering System.IO.hPutStr System.IO.stdout "Accept [y/n]? " x <- System.IO.hGetChar System.IO.stdin System.IO.hSetBuffering System.IO.stdin System.IO.LineBuffering System.IO.hSetBuffering System.IO.stdout System.IO.LineBuffering return (toLower x == 'y') -- | @addCookie c@ adds a cookie to the browser state, removing duplicates. addCookie :: Cookie -> BrowserAction t () addCookie c = modify (\b -> b{bsCookies = c : filter (/=c) (bsCookies b) }) -- | @setCookies cookies@ replaces the set of cookies known to -- the browser to @cookies@. Useful when wanting to restore cookies -- used across 'browse' invocations. setCookies :: [Cookie] -> BrowserAction t () setCookies cs = modify (\b -> b { bsCookies=cs }) -- | @getCookies@ returns the current set of cookies known to -- the browser. getCookies :: BrowserAction t [Cookie] getCookies = gets bsCookies -- ...get domain specific cookies... -- ... this needs changing for consistency with rfc2109... -- ... currently too broad. getCookiesFor :: String -> String -> BrowserAction t [Cookie] getCookiesFor dom path = do cks <- getCookies return (filter cookiematch cks) where cookiematch :: Cookie -> Bool cookiematch = cookieMatch (dom,path) -- | @setCookieFilter fn@ sets the cookie acceptance filter to @fn@. setCookieFilter :: (URI -> Cookie -> IO Bool) -> BrowserAction t () setCookieFilter f = modify (\b -> b { bsCookieFilter=f }) -- | @getCookieFilter@ returns the current cookie acceptance filter. getCookieFilter :: BrowserAction t (URI -> Cookie -> IO Bool) getCookieFilter = gets bsCookieFilter ------------------------------------------------------------------ ----------------------- Authorisation Stuff ---------------------- ------------------------------------------------------------------ {- The browser handles 401 responses in the following manner: 1) extract all WWW-Authenticate headers from a 401 response 2) rewrite each as a Challenge object, using "headerToChallenge" 3) pick a challenge to respond to, usually the strongest challenge understood by the client, using "pickChallenge" 4) generate a username/password combination using the browsers "bsAuthorityGen" function (the default behaviour is to ask the user) 5) build an Authority object based upon the challenge and user data, store this new Authority in the browser state 6) convert the Authority to a request header and add this to a request using "withAuthority" 7) send the amended request Note that by default requests are annotated with authority headers before the first sending, based upon previously generated Authority objects (which contain domain information). Once a specific authority is added to a rejected request this predictive annotation is suppressed. 407 responses are handled in a similar manner, except a) Authorities are not collected, only a single proxy authority is kept by the browser b) If the proxy used by the browser (type Proxy) is NoProxy, then a 407 response will generate output on the "err" stream and the response will be returned. Notes: - digest authentication so far ignores qop, so fails to authenticate properly with qop=auth-int challenges - calculates a1 more than necessary - doesn't reverse authenticate - doesn't properly receive AuthenticationInfo headers, so fails to use next-nonce etc -} -- | Return authorities for a given domain and path. -- Assumes "dom" is lower case getAuthFor :: String -> String -> BrowserAction t [Authority] getAuthFor dom pth = getAuthorities >>= return . (filter match) where match :: Authority -> Bool match au@AuthBasic{} = matchURI (auSite au) match au@AuthDigest{} = or (map matchURI (auDomain au)) matchURI :: URI -> Bool matchURI s = (uriToAuthorityString s == dom) && (uriPath s `isPrefixOf` pth) -- | @getAuthorities@ return the current set of @Authority@s known -- to the browser. getAuthorities :: BrowserAction t [Authority] getAuthorities = gets bsAuthorities -- @setAuthorities as@ replaces the Browser's known set -- of 'Authority's to @as@. setAuthorities :: [Authority] -> BrowserAction t () setAuthorities as = modify (\b -> b { bsAuthorities=as }) -- @addAuthority a@ adds 'Authority' @a@ to the Browser's -- set of known authorities. addAuthority :: Authority -> BrowserAction t () addAuthority a = modify (\b -> b { bsAuthorities=a:bsAuthorities b }) -- | @getAuthorityGen@ returns the current authority generator getAuthorityGen :: BrowserAction t (URI -> String -> IO (Maybe (String,String))) getAuthorityGen = gets bsAuthorityGen -- | @setAuthorityGen genAct@ sets the auth generator to @genAct@. setAuthorityGen :: (URI -> String -> IO (Maybe (String,String))) -> BrowserAction t () setAuthorityGen f = modify (\b -> b { bsAuthorityGen=f }) -- | @setAllowBasicAuth onOff@ enables\/disables HTTP Basic Authentication. setAllowBasicAuth :: Bool -> BrowserAction t () setAllowBasicAuth ba = modify (\b -> b { bsAllowBasicAuth=ba }) getAllowBasicAuth :: BrowserAction t Bool getAllowBasicAuth = gets bsAllowBasicAuth -- | @setMaxAuthAttempts mbMax@ sets the maximum number of authentication attempts -- to do. If @Nothing@, rever to default max. setMaxAuthAttempts :: Maybe Int -> BrowserAction t () setMaxAuthAttempts mb | fromMaybe 0 mb < 0 = return () | otherwise = modify (\ b -> b{bsMaxAuthAttempts=mb}) -- | @getMaxAuthAttempts@ returns the current max auth attempts. If @Nothing@, -- the browser's default is used. getMaxAuthAttempts :: BrowserAction t (Maybe Int) getMaxAuthAttempts = gets bsMaxAuthAttempts -- | @setMaxErrorRetries mbMax@ sets the maximum number of attempts at -- transmitting a request. If @Nothing@, rever to default max. setMaxErrorRetries :: Maybe Int -> BrowserAction t () setMaxErrorRetries mb | fromMaybe 0 mb < 0 = return () | otherwise = modify (\ b -> b{bsMaxErrorRetries=mb}) -- | @getMaxErrorRetries@ returns the current max number of error retries. getMaxErrorRetries :: BrowserAction t (Maybe Int) getMaxErrorRetries = gets bsMaxErrorRetries -- TO BE CHANGED!!! pickChallenge :: Bool -> [Challenge] -> Maybe Challenge pickChallenge allowBasic [] | allowBasic = Just (ChalBasic "/") -- manufacture a challenge if one missing; more robust. pickChallenge _ ls = listToMaybe ls -- | Retrieve a likely looking authority for a Request. anticipateChallenge :: Request ty -> BrowserAction t (Maybe Authority) anticipateChallenge rq = let uri = rqURI rq in do { authlist <- getAuthFor (uriAuthToString $ reqURIAuth rq) (uriPath uri) ; return (listToMaybe authlist) } -- | Asking the user to respond to a challenge challengeToAuthority :: URI -> Challenge -> BrowserAction t (Maybe Authority) challengeToAuthority uri ch | not (answerable ch) = return Nothing | otherwise = do -- prompt user for authority prompt <- getAuthorityGen userdetails <- liftIO $ prompt uri (chRealm ch) case userdetails of Nothing -> return Nothing Just (u,p) -> return (Just $ buildAuth ch u p) where answerable :: Challenge -> Bool answerable ChalBasic{} = True answerable chall = (chAlgorithm chall) == Just AlgMD5 buildAuth :: Challenge -> String -> String -> Authority buildAuth (ChalBasic r) u p = AuthBasic { auSite=uri , auRealm=r , auUsername=u , auPassword=p } -- note to self: this is a pretty stupid operation -- to perform isn't it? ChalX and AuthX are so very -- similar. buildAuth (ChalDigest r d n o _stale a q) u p = AuthDigest { auRealm=r , auUsername=u , auPassword=p , auDomain=d , auNonce=n , auOpaque=o , auAlgorithm=a , auQop=q } ------------------------------------------------------------------ ------------------ Browser State Actions ------------------------- ------------------------------------------------------------------ -- | @BrowserState@ is the (large) record type tracking the current -- settings of the browser. data BrowserState connection = BS { bsErr, bsOut :: String -> IO () , bsCookies :: [Cookie] , bsCookieFilter :: URI -> Cookie -> IO Bool , bsAuthorityGen :: URI -> String -> IO (Maybe (String,String)) , bsAuthorities :: [Authority] , bsAllowRedirects :: Bool , bsAllowBasicAuth :: Bool , bsMaxRedirects :: Maybe Int , bsMaxErrorRetries :: Maybe Int , bsMaxAuthAttempts :: Maybe Int , bsMaxPoolSize :: Maybe Int , bsConnectionPool :: [connection] , bsCheckProxy :: Bool , bsProxy :: Proxy , bsDebug :: Maybe String , bsEvent :: Maybe (BrowserEvent -> BrowserAction connection ()) , bsRequestID :: RequestID , bsUserAgent :: Maybe String } instance Show (BrowserState t) where show bs = "BrowserState { " ++ shows (bsCookies bs) ("\n" {- ++ show (bsAuthorities bs) ++ "\n"-} ++ "AllowRedirects: " ++ shows (bsAllowRedirects bs) "} ") -- | @BrowserAction@ is the IO monad, but carrying along a 'BrowserState'. newtype BrowserAction conn a = BA { unBA :: StateT (BrowserState conn) IO a } #ifdef MTL1 deriving (Functor, Monad, MonadIO, MonadState (BrowserState conn)) instance Applicative (BrowserAction conn) where pure = return (<*>) = ap #else deriving (Functor, Applicative, Monad, MonadIO, MonadState (BrowserState conn)) #endif runBA :: BrowserState conn -> BrowserAction conn a -> IO a runBA bs = flip evalStateT bs . unBA -- | @browse act@ is the toplevel action to perform a 'BrowserAction'. -- Example use: @browse (request (getRequest yourURL))@. browse :: BrowserAction conn a -> IO a browse = runBA defaultBrowserState -- | The default browser state has the settings defaultBrowserState :: BrowserState t defaultBrowserState = res where res = BS { bsErr = putStrLn , bsOut = putStrLn , bsCookies = [] , bsCookieFilter = defaultCookieFilter , bsAuthorityGen = \ _uri _realm -> do bsErr res "No action for prompting/generating user+password credentials provided (use: setAuthorityGen); returning Nothing" return Nothing , bsAuthorities = [] , bsAllowRedirects = True , bsAllowBasicAuth = False , bsMaxRedirects = Nothing , bsMaxErrorRetries = Nothing , bsMaxAuthAttempts = Nothing , bsMaxPoolSize = Nothing , bsConnectionPool = [] , bsCheckProxy = defaultAutoProxyDetect , bsProxy = noProxy , bsDebug = Nothing , bsEvent = Nothing , bsRequestID = 0 , bsUserAgent = Nothing } {-# DEPRECATED getBrowserState "Use Control.Monad.State.get instead." #-} -- | @getBrowserState@ returns the current browser config. Useful -- for restoring state across 'BrowserAction's. getBrowserState :: BrowserAction t (BrowserState t) getBrowserState = get -- | @withBrowserAction st act@ performs @act@ with 'BrowserState' @st@. withBrowserState :: BrowserState t -> BrowserAction t a -> BrowserAction t a withBrowserState bs = BA . withStateT (const bs) . unBA -- | @nextRequest act@ performs the browser action @act@ as -- the next request, i.e., setting up a new request context -- before doing so. nextRequest :: BrowserAction t a -> BrowserAction t a nextRequest act = do let updReqID st = let rid = succ (bsRequestID st) in rid `seq` st{bsRequestID=rid} modify updReqID act -- | Lifts an IO action into the 'BrowserAction' monad. {-# DEPRECATED ioAction "Use Control.Monad.Trans.liftIO instead." #-} ioAction :: IO a -> BrowserAction t a ioAction = liftIO -- | @setErrHandler@ sets the IO action to call when -- the browser reports running errors. To disable any -- such, set it to @const (return ())@. setErrHandler :: (String -> IO ()) -> BrowserAction t () setErrHandler h = modify (\b -> b { bsErr=h }) -- | @setOutHandler@ sets the IO action to call when -- the browser chatters info on its running. To disable any -- such, set it to @const (return ())@. setOutHandler :: (String -> IO ()) -> BrowserAction t () setOutHandler h = modify (\b -> b { bsOut=h }) out, err :: String -> BrowserAction t () out s = do { f <- gets bsOut ; liftIO $ f s } err s = do { f <- gets bsErr ; liftIO $ f s } -- | @setAllowRedirects onOff@ toggles the willingness to -- follow redirects (HTTP responses with 3xx status codes). setAllowRedirects :: Bool -> BrowserAction t () setAllowRedirects bl = modify (\b -> b {bsAllowRedirects=bl}) -- | @getAllowRedirects@ returns current setting of the do-chase-redirects flag. getAllowRedirects :: BrowserAction t Bool getAllowRedirects = gets bsAllowRedirects -- | @setMaxRedirects maxCount@ sets the maxiumum number of forwarding hops -- we are willing to jump through. A no-op if the count is negative; if zero, -- the max is set to whatever default applies. Notice that setting the max -- redirects count does /not/ enable following of redirects itself; use -- 'setAllowRedirects' to do so. setMaxRedirects :: Maybe Int -> BrowserAction t () setMaxRedirects c | fromMaybe 0 c < 0 = return () | otherwise = modify (\b -> b{bsMaxRedirects=c}) -- | @getMaxRedirects@ returns the current setting for the max-redirect count. -- If @Nothing@, the "Network.Browser"'s default is used. getMaxRedirects :: BrowserAction t (Maybe Int) getMaxRedirects = gets bsMaxRedirects -- | @setMaxPoolSize maxCount@ sets the maximum size of the connection pool -- that is used to cache connections between requests setMaxPoolSize :: Maybe Int -> BrowserAction t () setMaxPoolSize c = modify (\b -> b{bsMaxPoolSize=c}) -- | @getMaxPoolSize@ gets the maximum size of the connection pool -- that is used to cache connections between requests. -- If @Nothing@, the "Network.Browser"'s default is used. getMaxPoolSize :: BrowserAction t (Maybe Int) getMaxPoolSize = gets bsMaxPoolSize -- | @setProxy p@ will disable proxy usage if @p@ is @NoProxy@. -- If @p@ is @Proxy proxyURL mbAuth@, then @proxyURL@ is interpreted -- as the URL of the proxy to use, possibly authenticating via -- 'Authority' information in @mbAuth@. setProxy :: Proxy -> BrowserAction t () setProxy p = -- Note: if user _explicitly_ sets the proxy, we turn -- off any auto-detection of proxies. modify (\b -> b {bsProxy = p, bsCheckProxy=False}) -- | @getProxy@ returns the current proxy settings. If -- the auto-proxy flag is set to @True@, @getProxy@ will -- perform the necessary getProxy :: BrowserAction t Proxy getProxy = do p <- gets bsProxy case p of -- Note: if there is a proxy, no need to perform any auto-detect. -- Presumably this is the user's explicit and preferred proxy server. Proxy{} -> return p NoProxy{} -> do flg <- gets bsCheckProxy if not flg then return p else do np <- liftIO $ fetchProxy True{-issue warning on stderr if ill-formed...-} -- note: this resets the check-proxy flag; a one-off affair. setProxy np return np -- | @setCheckForProxy flg@ sets the one-time check for proxy -- flag to @flg@. If @True@, the session will try to determine -- the proxy server is locally configured. See 'Network.HTTP.Proxy.fetchProxy' -- for details of how this done. setCheckForProxy :: Bool -> BrowserAction t () setCheckForProxy flg = modify (\ b -> b{bsCheckProxy=flg}) -- | @getCheckForProxy@ returns the current check-proxy setting. -- Notice that this may not be equal to @True@ if the session has -- set it to that via 'setCheckForProxy' and subsequently performed -- some HTTP protocol interactions. i.e., the flag return represents -- whether a proxy will be checked for again before any future protocol -- interactions. getCheckForProxy :: BrowserAction t Bool getCheckForProxy = gets bsCheckProxy -- | @setDebugLog mbFile@ turns off debug logging iff @mbFile@ -- is @Nothing@. If set to @Just fStem@, logs of browser activity -- is appended to files of the form @fStem-url-authority@, i.e., -- @fStem@ is just the prefix for a set of log files, one per host/authority. setDebugLog :: Maybe String -> BrowserAction t () setDebugLog v = modify (\b -> b {bsDebug=v}) -- | @setUserAgent ua@ sets the current @User-Agent:@ string to @ua@. It -- will be used if no explicit user agent header is found in subsequent requests. -- -- A common form of user agent string is @\"name\/version (details)\"@. For -- example @\"cabal-install/0.10.2 (HTTP 4000.1.2)\"@. Including the version -- of this HTTP package can be helpful if you ever need to track down HTTP -- compatability quirks. This version is available via 'httpPackageVersion'. -- For more info see . -- setUserAgent :: String -> BrowserAction t () setUserAgent ua = modify (\b -> b{bsUserAgent=Just ua}) -- | @getUserAgent@ returns the current @User-Agent:@ default string. getUserAgent :: BrowserAction t String getUserAgent = do n <- gets bsUserAgent return (maybe defaultUserAgent id n) -- | @RequestState@ is an internal tallying type keeping track of various -- per-connection counters, like the number of authorization attempts and -- forwards we've gone through. data RequestState = RequestState { reqDenies :: Int -- ^ number of 401 responses so far , reqRedirects :: Int -- ^ number of redirects so far , reqRetries :: Int -- ^ number of retries so far , reqStopOnDeny :: Bool -- ^ whether to pre-empt 401 response } type RequestID = Int -- yeah, it will wrap around. nullRequestState :: RequestState nullRequestState = RequestState { reqDenies = 0 , reqRedirects = 0 , reqRetries = 0 , reqStopOnDeny = True } -- | @BrowserEvent@ is the event record type that a user-defined handler, set -- via 'setEventHandler', will be passed. It indicates various state changes -- encountered in the processing of a given 'RequestID', along with timestamps -- at which they occurred. data BrowserEvent = BrowserEvent { browserTimestamp :: UTCTime , browserRequestID :: RequestID , browserRequestURI :: {-URI-}String , browserEventType :: BrowserEventType } -- | 'BrowserEventType' is the enumerated list of events that the browser -- internals will report to a user-defined event handler. data BrowserEventType = OpenConnection | ReuseConnection | RequestSent | ResponseEnd ResponseData | ResponseFinish {- not yet, you will have to determine these via the ResponseEnd event. | Redirect | AuthChallenge | AuthResponse -} -- | @setEventHandler onBrowserEvent@ configures event handling. -- If @onBrowserEvent@ is @Nothing@, event handling is turned off; -- setting it to @Just onEv@ causes the @onEv@ IO action to be -- notified of browser events during the processing of a request -- by the Browser pipeline. setEventHandler :: Maybe (BrowserEvent -> BrowserAction ty ()) -> BrowserAction ty () setEventHandler mbH = modify (\b -> b { bsEvent=mbH}) buildBrowserEvent :: BrowserEventType -> {-URI-}String -> RequestID -> IO BrowserEvent buildBrowserEvent bt uri reqID = do ct <- getCurrentTime return BrowserEvent { browserTimestamp = ct , browserRequestID = reqID , browserRequestURI = uri , browserEventType = bt } reportEvent :: BrowserEventType -> {-URI-}String -> BrowserAction t () reportEvent bt uri = do st <- get case bsEvent st of Nothing -> return () Just evH -> do evt <- liftIO $ buildBrowserEvent bt uri (bsRequestID st) evH evt -- if it fails, we fail. -- | The default number of hops we are willing not to go beyond for -- request forwardings. defaultMaxRetries :: Int defaultMaxRetries = 4 -- | The default number of error retries we are willing to perform. defaultMaxErrorRetries :: Int defaultMaxErrorRetries = 4 -- | The default maximum HTTP Authentication attempts we will make for -- a single request. defaultMaxAuthAttempts :: Int defaultMaxAuthAttempts = 2 -- | The default setting for auto-proxy detection. -- You may change this within a session via 'setAutoProxyDetect'. -- To avoid initial backwards compatibility issues, leave this as @False@. defaultAutoProxyDetect :: Bool defaultAutoProxyDetect = False -- | @request httpRequest@ tries to submit the 'Request' @httpRequest@ -- to some HTTP server (possibly going via a /proxy/, see 'setProxy'.) -- Upon successful delivery, the URL where the response was fetched from -- is returned along with the 'Response' itself. request :: HStream ty => Request ty -> BrowserAction (HandleStream ty) (URI,Response ty) request req = nextRequest $ do res <- request' nullVal initialState req reportEvent ResponseFinish (show (rqURI req)) case res of Right r -> return r Left e -> do let errStr = ("Network.Browser.request: Error raised " ++ show e) err errStr fail errStr where initialState = nullRequestState nullVal = buf_empty bufferOps -- | Internal helper function, explicitly carrying along per-request -- counts. request' :: HStream ty => ty -> RequestState -> Request ty -> BrowserAction (HandleStream ty) (Result (URI,Response ty)) request' nullVal rqState rq = do let uri = rqURI rq failHTTPS uri let uria = reqURIAuth rq -- add cookies to request cookies <- getCookiesFor (uriAuthToString uria) (uriPath uri) {- Not for now: (case uriUserInfo uria of "" -> id xs -> case chopAtDelim ':' xs of (_,[]) -> id (usr,pwd) -> withAuth AuthBasic{ auUserName = usr , auPassword = pwd , auRealm = "/" , auSite = uri }) $ do -} when (not $ null cookies) (out $ "Adding cookies to request. Cookie names: " ++ unwords (map ckName cookies)) -- add credentials to request rq' <- if not (reqStopOnDeny rqState) then return rq else do auth <- anticipateChallenge rq case auth of Nothing -> return rq Just x -> return (insertHeader HdrAuthorization (withAuthority x rq) rq) let rq'' = if not $ null cookies then insertHeaders [cookiesToHeader cookies] rq' else rq' p <- getProxy def_ua <- gets bsUserAgent let defaultOpts = case p of NoProxy -> defaultNormalizeRequestOptions{normUserAgent=def_ua} Proxy _ ath -> defaultNormalizeRequestOptions { normForProxy = True , normUserAgent = def_ua , normCustoms = maybe [] (\ authS -> [\ _ r -> insertHeader HdrProxyAuthorization (withAuthority authS r) r]) ath } let final_req = normalizeRequest defaultOpts rq'' out ("Sending:\n" ++ show final_req) e_rsp <- case p of NoProxy -> dorequest (reqURIAuth rq'') final_req Proxy str _ath -> do let notURI | null pt || null hst = URIAuth{ uriUserInfo = "" , uriRegName = str , uriPort = "" } | otherwise = URIAuth{ uriUserInfo = "" , uriRegName = hst , uriPort = pt } -- If the ':' is dropped from port below, dorequest will assume port 80. Leave it! where (hst, pt) = span (':'/=) str -- Proxy can take multiple forms - look for http://host:port first, -- then host:port. Fall back to just the string given (probably a host name). let proxyURIAuth = maybe notURI (\parsed -> maybe notURI id (uriAuthority parsed)) (parseURI str) out $ "proxy uri host: " ++ uriRegName proxyURIAuth ++ ", port: " ++ uriPort proxyURIAuth dorequest proxyURIAuth final_req mbMx <- getMaxErrorRetries case e_rsp of Left v | (reqRetries rqState < fromMaybe defaultMaxErrorRetries mbMx) && (v == ErrorReset || v == ErrorClosed) -> do --empty connnection pool in case connection has become invalid modify (\b -> b { bsConnectionPool=[] }) request' nullVal rqState{reqRetries=succ (reqRetries rqState)} rq | otherwise -> return (Left v) Right rsp -> do out ("Received:\n" ++ show rsp) -- add new cookies to browser state handleCookies uri (uriAuthToString $ reqURIAuth rq) (retrieveHeaders HdrSetCookie rsp) -- Deal with "Connection: close" in response. handleConnectionClose (reqURIAuth rq) (retrieveHeaders HdrConnection rsp) mbMxAuths <- getMaxAuthAttempts case rspCode rsp of (4,0,1) -- Credentials not sent or refused. | reqDenies rqState > fromMaybe defaultMaxAuthAttempts mbMxAuths -> do out "401 - credentials again refused; exceeded retry count (2)" return (Right (uri,rsp)) | otherwise -> do out "401 - credentials not supplied or refused; retrying.." let hdrs = retrieveHeaders HdrWWWAuthenticate rsp flg <- getAllowBasicAuth case pickChallenge flg (catMaybes $ map (headerToChallenge uri) hdrs) of Nothing -> do out "no challenge" return (Right (uri,rsp)) {- do nothing -} Just x -> do au <- challengeToAuthority uri x case au of Nothing -> do out "no auth" return (Right (uri,rsp)) {- do nothing -} Just au' -> do out "Retrying request with new credentials" request' nullVal rqState{ reqDenies = succ(reqDenies rqState) , reqStopOnDeny = False } (insertHeader HdrAuthorization (withAuthority au' rq) rq) (4,0,7) -- Proxy Authentication required | reqDenies rqState > fromMaybe defaultMaxAuthAttempts mbMxAuths -> do out "407 - proxy authentication required; max deny count exceeeded (2)" return (Right (uri,rsp)) | otherwise -> do out "407 - proxy authentication required" let hdrs = retrieveHeaders HdrProxyAuthenticate rsp flg <- getAllowBasicAuth case pickChallenge flg (catMaybes $ map (headerToChallenge uri) hdrs) of Nothing -> return (Right (uri,rsp)) {- do nothing -} Just x -> do au <- challengeToAuthority uri x case au of Nothing -> return (Right (uri,rsp)) {- do nothing -} Just au' -> do pxy <- gets bsProxy case pxy of NoProxy -> do err "Proxy authentication required without proxy!" return (Right (uri,rsp)) Proxy px _ -> do out "Retrying with proxy authentication" setProxy (Proxy px (Just au')) request' nullVal rqState{ reqDenies = succ(reqDenies rqState) , reqStopOnDeny = False } rq (3,0,x) | x `elem` [2,3,1,7] -> do out ("30" ++ show x ++ " - redirect") allow_redirs <- allowRedirect rqState case allow_redirs of False -> return (Right (uri,rsp)) _ -> do case retrieveHeaders HdrLocation rsp of [] -> do err "No Location: header in redirect response" return (Right (uri,rsp)) (Header _ u:_) -> case parseURIReference u of Nothing -> do err ("Parse of Location: header in a redirect response failed: " ++ u) return (Right (uri,rsp)) Just newURI | {-uriScheme newURI_abs /= uriScheme uri && -}(not (supportedScheme newURI_abs)) -> do err ("Unable to handle redirect, unsupported scheme: " ++ show newURI_abs) return (Right (uri, rsp)) | otherwise -> do out ("Redirecting to " ++ show newURI_abs ++ " ...") -- Redirect using GET request method, depending on -- response code. let toGet = x `elem` [2,3] method = if toGet then GET else rqMethod rq rq1 = rq { rqMethod=method, rqURI=newURI_abs } rq2 = if toGet then (replaceHeader HdrContentLength "0") (rq1 {rqBody = nullVal}) else rq1 request' nullVal rqState{ reqDenies = 0 , reqRedirects = succ(reqRedirects rqState) , reqStopOnDeny = True } rq2 where newURI_abs = uriDefaultTo newURI uri (3,0,5) -> case retrieveHeaders HdrLocation rsp of [] -> do err "No Location header in proxy redirect response." return (Right (uri,rsp)) (Header _ u:_) -> case parseURIReference u of Nothing -> do err ("Parse of Location header in a proxy redirect response failed: " ++ u) return (Right (uri,rsp)) Just newuri -> do out ("Retrying with proxy " ++ show newuri ++ "...") setProxy (Proxy (uriToAuthorityString newuri) Nothing) request' nullVal rqState{ reqDenies = 0 , reqRedirects = 0 , reqRetries = succ (reqRetries rqState) , reqStopOnDeny = True } rq _ -> return (Right (uri,rsp)) -- | The internal request handling state machine. dorequest :: (HStream ty) => URIAuth -> Request ty -> BrowserAction (HandleStream ty) (Result (Response ty)) dorequest hst rqst = do pool <- gets bsConnectionPool let uPort = uriAuthPort Nothing{-ToDo: feed in complete URL-} hst conn <- liftIO $ filterM (\c -> c `isTCPConnectedTo` EndPoint (uriRegName hst) uPort) pool rsp <- case conn of [] -> do out ("Creating new connection to " ++ uriAuthToString hst) reportEvent OpenConnection (show (rqURI rqst)) c <- liftIO $ openStream (uriRegName hst) uPort updateConnectionPool c dorequest2 c rqst (c:_) -> do out ("Recovering connection to " ++ uriAuthToString hst) reportEvent ReuseConnection (show (rqURI rqst)) dorequest2 c rqst case rsp of Right (Response a b c _) -> reportEvent (ResponseEnd (a,b,c)) (show (rqURI rqst)) ; _ -> return () return rsp where dorequest2 c r = do dbg <- gets bsDebug st <- get let onSendComplete = maybe (return ()) (\evh -> do x <- buildBrowserEvent RequestSent (show (rqURI r)) (bsRequestID st) runBA st (evh x) return ()) (bsEvent st) liftIO $ maybe (sendHTTP_notify c r onSendComplete) (\ f -> do c' <- debugByteStream (f++'-': uriAuthToString hst) c sendHTTP_notify c' r onSendComplete) dbg updateConnectionPool :: HStream hTy => HandleStream hTy -> BrowserAction (HandleStream hTy) () updateConnectionPool c = do pool <- gets bsConnectionPool let len_pool = length pool maxPoolSize <- fromMaybe defaultMaxPoolSize <$> gets bsMaxPoolSize when (len_pool > maxPoolSize) (liftIO $ close (last pool)) let pool' | len_pool > maxPoolSize = init pool | otherwise = pool when (maxPoolSize > 0) $ modify (\b -> b { bsConnectionPool=c:pool' }) return () -- | Default maximum number of open connections we are willing to have active. defaultMaxPoolSize :: Int defaultMaxPoolSize = 5 cleanConnectionPool :: HStream hTy => URIAuth -> BrowserAction (HandleStream hTy) () cleanConnectionPool uri = do let ep = EndPoint (uriRegName uri) (uriAuthPort Nothing uri) pool <- gets bsConnectionPool bad <- liftIO $ mapM (\c -> c `isTCPConnectedTo` ep) pool let tmp = zip bad pool newpool = map snd $ filter (not . fst) tmp toclose = map snd $ filter fst tmp liftIO $ forM_ toclose close modify (\b -> b { bsConnectionPool = newpool }) handleCookies :: URI -> String -> [Header] -> BrowserAction t () handleCookies _ _ [] = return () -- cut short the silliness. handleCookies uri dom cookieHeaders = do when (not $ null errs) (err $ unlines ("Errors parsing these cookie values: ":errs)) when (not $ null newCookies) (out $ foldl (\x y -> x ++ "\n " ++ show y) "Cookies received:" newCookies) filterfn <- getCookieFilter newCookies' <- liftIO (filterM (filterfn uri) newCookies) when (not $ null newCookies') (out $ "Accepting cookies with names: " ++ unwords (map ckName newCookies')) mapM_ addCookie newCookies' where (errs, newCookies) = processCookieHeaders dom cookieHeaders handleConnectionClose :: HStream hTy => URIAuth -> [Header] -> BrowserAction (HandleStream hTy) () handleConnectionClose _ [] = return () handleConnectionClose uri headers = do let doClose = any (== "close") $ map headerToConnType headers when doClose $ cleanConnectionPool uri where headerToConnType (Header _ t) = map toLower t ------------------------------------------------------------------ ----------------------- Miscellaneous ---------------------------- ------------------------------------------------------------------ allowRedirect :: RequestState -> BrowserAction t Bool allowRedirect rqState = do rd <- getAllowRedirects mbMxRetries <- getMaxRedirects return (rd && (reqRedirects rqState <= fromMaybe defaultMaxRetries mbMxRetries)) -- | Return @True@ iff the package is able to handle requests and responses -- over it. supportedScheme :: URI -> Bool supportedScheme u = uriScheme u == "http:" -- | @uriDefaultTo a b@ returns a URI that is consistent with the first -- argument URI @a@ when read in the context of the second URI @b@. -- If the second argument is not sufficient context for determining -- a full URI then anarchy reins. uriDefaultTo :: URI -> URI -> URI #if MIN_VERSION_network(2,4,0) uriDefaultTo a b = a `relativeTo` b #else uriDefaultTo a b = maybe a id (a `relativeTo` b) #endif -- This form junk is completely untested... type FormVar = (String,String) data Form = Form RequestMethod URI [FormVar] formToRequest :: Form -> Request_String formToRequest (Form m u vs) = let enc = urlEncodeVars vs in case m of GET -> Request { rqMethod=GET , rqHeaders=[ Header HdrContentLength "0" ] , rqBody="" , rqURI=u { uriQuery= '?' : enc } -- What about old query? } POST -> Request { rqMethod=POST , rqHeaders=[ Header HdrContentType "application/x-www-form-urlencoded", Header HdrContentLength (show $ length enc) ] , rqBody=enc , rqURI=u } _ -> error ("unexpected request: " ++ show m)