-- #prune
-- |This is the Resource Monad; monadic actions to define the behavior
--- of each resources. The 'Resource' Monad is a kind of IO Monad thus
--- it implements MonadIO class. It is also a state machine.
+-- of each resources. The 'Resource' Monad is a kind of 'Prelude.IO'
+-- Monad thus it implements 'Control.Monad.Trans.MonadIO' class. It is
+-- also a state machine.
--
-- Request Processing Flow:
--
(
-- * Monad
Resource
+ , runRes -- private
-- * Actions
-- |These actions can be computed regardless of the current state,
-- and they don't change the state.
, getConfig
+ , getRemoteAddr
+ , getRemoteAddr'
, getRequest
, getMethod
, getRequestURI
+ , getRequestVersion
, getResourcePath
, getPathInfo
, getQueryForm
, getHeader
, getAccept
+ , getAcceptEncoding
+ , isEncodingAcceptable
, getContentType
-- ** Finding an entity
-- Body/.
, input
, inputChunk
- , inputBS
- , inputChunkBS
+ , inputLBS
+ , inputChunkLBS
, inputForm
, defaultLimit
, redirect
, setContentType
, setLocation
+ , setContentEncoding
-- ** Writing a response body
-- Body/.
, output
, outputChunk
- , outputBS
- , outputChunkBS
+ , outputLBS
+ , outputChunkLBS
, driftTo
)
import Control.Concurrent.STM
import Control.Monad.Reader
+import Data.Bits
+import Data.ByteString.Base (LazyByteString)
import qualified Data.ByteString.Lazy.Char8 as B
-import Data.ByteString.Lazy.Char8 (ByteString)
import Data.List
import Data.Maybe
-import GHC.Conc (unsafeIOToSTM)
import Network.HTTP.Lucu.Abortion
import Network.HTTP.Lucu.Config
+import Network.HTTP.Lucu.ContentCoding
import Network.HTTP.Lucu.DefaultPage
import Network.HTTP.Lucu.ETag
import qualified Network.HTTP.Lucu.Headers as H
import Network.HTTP.Lucu.Response
import Network.HTTP.Lucu.MIMEType
import Network.HTTP.Lucu.Utils
+import Network.Socket
import Network.URI
import System.Time
--- |The 'Resource' monad. /Interaction/ is an internal state thus it
--- is not exposed to users. This monad implements 'MonadIO' so it can
--- do any IO actions.
-type Resource a = ReaderT Interaction IO a
+-- |The 'Resource' monad. This monad implements
+-- 'Control.Monad.Trans.MonadIO' so it can do any 'Prelude.IO'
+-- actions.
+newtype Resource a = Resource { unRes :: ReaderT Interaction IO a }
+
+instance Functor Resource where
+ fmap f c = Resource (fmap f (unRes c))
+
+instance Monad Resource where
+ c >>= f = Resource (unRes c >>= unRes . f)
+ return = Resource . return
+ fail = Resource . fail
+
+instance MonadIO Resource where
+ liftIO = Resource . liftIO
+
+
+runRes :: Resource a -> Interaction -> IO a
+runRes r itr
+ = runReaderT (unRes r) itr
+
+
+getInteraction :: Resource Interaction
+getInteraction = Resource ask
+
-- |Get the 'Network.HTTP.Lucu.Config.Config' value which is used for
-- the httpd.
getConfig :: Resource Config
-getConfig = do itr <- ask
- return $ itrConfig itr
+getConfig = do itr <- getInteraction
+ return $! itrConfig itr
+
+
+-- |Get the 'Network.Socket.SockAddr' of the remote host. If you want
+-- a string representation instead of 'Network.Socket.SockAddr', use
+-- 'getRemoteAddr''.
+getRemoteAddr :: Resource SockAddr
+getRemoteAddr = do itr <- getInteraction
+ return $! itrRemoteAddr itr
+
+
+-- |Get the string representation of the address of remote host. If
+-- you want a 'Network.Socket.SockAddr' instead of String, use
+-- 'getRemoteAddr'.
+getRemoteAddr' :: Resource String
+getRemoteAddr' = do addr <- getRemoteAddr
+ case addr of
+ -- Network.Socket は IPv6 を考慮してゐないやうだ…
+ (SockAddrInet _ v4addr)
+ -> let b1 = (v4addr `shiftR` 24) .&. 0xFF
+ b2 = (v4addr `shiftR` 16) .&. 0xFF
+ b3 = (v4addr `shiftR` 8) .&. 0xFF
+ b4 = v4addr .&. 0xFF
+ in
+ return $ concat $ intersperse "." $ map show [b1, b2, b3, b4]
+ (SockAddrUnix path)
+ -> return path
+
-- |Get the 'Network.HTTP.Lucu.Request.Request' value which represents
-- the request header. In general you don't have to use this action.
getRequest :: Resource Request
-getRequest = do itr <- ask
- req <- liftIO $ atomically $ readItr itr itrRequest fromJust
+getRequest = do itr <- getInteraction
+ req <- liftIO $! atomically $! readItr itr itrRequest fromJust
return req
-- |Get the 'Network.HTTP.Lucu.Request.Method' value of the request.
getMethod :: Resource Method
getMethod = do req <- getRequest
- return $ reqMethod req
+ return $! reqMethod req
-- |Get the URI of the request.
getRequestURI :: Resource URI
getRequestURI = do req <- getRequest
- return $ reqURI req
+ return $! reqURI req
+
+-- |Get the HTTP version of the request.
+getRequestVersion :: Resource HttpVersion
+getRequestVersion = do req <- getRequest
+ return $! reqVersion req
-- |Get the path of this 'Resource' (to be exact,
-- 'Network.HTTP.Lucu.Resource.Tree.ResourceDef') in the
-- > , ...
-- > }
getResourcePath :: Resource [String]
-getResourcePath = do itr <- ask
- return $ fromJust $ itrResourcePath itr
+getResourcePath = do itr <- getInteraction
+ return $! fromJust $! itrResourcePath itr
-- |This is an analogy of CGI PATH_INFO. Its result is always @[]@ if
-- る。rsrcPath は全部一致してゐるに決まってゐる(でな
-- ければこの Resource が撰ばれた筈が無い)ので、
-- rsrcPath の長さの分だけ削除すれば良い。
- return $ drop (length rsrcPath) reqPath
+ return $! drop (length rsrcPath) reqPath
-- | Assume the query part of request URI as
-- application\/x-www-form-urlencoded, and parse it. This action
-- doesn't parse the request body. See 'inputForm'.
getQueryForm :: Resource [(String, String)]
getQueryForm = do reqURI <- getRequestURI
- return $ parseWWWFormURLEncoded $ uriQuery reqURI
+ return $! parseWWWFormURLEncoded $ uriQuery reqURI
-- |Get a value of given request header. Comparison of header name is
-- case-insensitive. Note that this action is not intended to be used
-- so frequently: there should be actions like 'getContentType' for
-- every common headers.
getHeader :: String -> Resource (Maybe String)
-getHeader name = do req <- getRequest
- return $ H.getHeader name req
+getHeader name = name `seq`
+ do req <- getRequest
+ return $! H.getHeader name req
-- |Get a list of 'Network.HTTP.Lucu.MIMEType.MIMEType' enumerated on
-- header \"Accept\".
getAccept :: Resource [MIMEType]
-getAccept = do accept <- getHeader "Accept"
- if accept == Nothing then
- return []
- else
- case parseStr mimeTypeListP $ fromJust accept of
- (Success xs, _) -> return xs
- _ -> return []
+getAccept = do acceptM <- getHeader "Accept"
+ case acceptM of
+ Nothing
+ -> return []
+ Just accept
+ -> case parseStr mimeTypeListP accept of
+ (# Success xs, _ #) -> return xs
+ (# _ , _ #) -> abort BadRequest []
+ (Just $ "Unparsable Accept: " ++ accept)
+
+-- |Get a list of @(contentCoding, qvalue)@ enumerated on header
+-- \"Accept-Encoding\". The list is sorted in descending order by
+-- qvalue.
+getAcceptEncoding :: Resource [(String, Maybe Double)]
+getAcceptEncoding
+ = do accEncM <- getHeader "Accept-Encoding"
+ case accEncM of
+ Nothing
+ -- HTTP/1.0 には Accept-Encoding が無い場合の規定が無い
+ -- ので安全の爲 identity が指定された事にする。HTTP/1.1
+ -- の場合は何でも受け入れて良い事になってゐるので "*" が
+ -- 指定された事にする。
+ -> do ver <- getRequestVersion
+ case ver of
+ HttpVersion 1 0 -> return [("identity", Nothing)]
+ HttpVersion 1 1 -> return [("*" , Nothing)]
+ Just ""
+ -- identity のみが許される。
+ -> return [("identity", Nothing)]
+ Just accEnc
+ -> case parseStr acceptEncodingListP accEnc of
+ (# Success x, _ #) -> return $ reverse $ sortBy orderAcceptEncodings x
+ (# _ , _ #) -> abort BadRequest []
+ (Just $ "Unparsable Accept-Encoding: " ++ accEnc)
+
+-- |Check whether a given content-coding is acceptable.
+isEncodingAcceptable :: String -> Resource Bool
+isEncodingAcceptable coding
+ = do accList <- getAcceptEncoding
+ return (flip any accList $ \ (c, q) ->
+ (c == "*" || c `noCaseEq` coding) && q /= Just 0)
+
-- |Get the header \"Content-Type\" as
-- 'Network.HTTP.Lucu.MIMEType.MIMEType'.
getContentType :: Resource (Maybe MIMEType)
-getContentType = do cType <- getHeader "Content-Type"
- if cType == Nothing then
- return Nothing
- else
- case parseStr mimeTypeP $ fromJust cType of
- (Success t, _) -> return $ Just t
- _ -> return Nothing
-
+getContentType
+ = do cTypeM <- getHeader "Content-Type"
+ case cTypeM of
+ Nothing
+ -> return Nothing
+ Just cType
+ -> case parseStr mimeTypeP cType of
+ (# Success t, _ #) -> return $ Just t
+ (# _ , _ #) -> abort BadRequest []
+ (Just $ "Unparsable Content-Type: " ++ cType)
{- ExaminingRequest 時に使用するアクション群 -}
-- \"ETag\" and \"Last-Modified\" headers into the response.
foundEntity :: ETag -> ClockTime -> Resource ()
foundEntity tag timeStamp
- = do driftTo ExaminingRequest
+ = tag `seq` timeStamp `seq`
+ do driftTo ExaminingRequest
method <- getMethod
when (method == GET || method == HEAD)
- $ setHeader' "Last-Modified" $ formatHTTPDateTime timeStamp
+ $ setHeader' "Last-Modified" $! formatHTTPDateTime timeStamp
when (method == POST)
$ abort InternalServerError []
(Just "Illegal computation of foundEntity for POST request.")
-- 'foundETag' doesn't (and can't) put \"Last-Modified\" header into
-- the response.
--
--- This action is not preferred. You should use 'foundEntity' when
+-- This action is not preferred. You should use 'foundEntity' whenever
-- possible.
foundETag :: ETag -> Resource ()
foundETag tag
- = do driftTo ExaminingRequest
+ = tag `seq`
+ do driftTo ExaminingRequest
method <- getMethod
when (method == GET || method == HEAD)
- $ setHeader' "ETag" $ show tag
+ $ setHeader' "ETag" $! show tag
when (method == POST)
$ abort InternalServerError []
(Just "Illegal computation of foundETag for POST request.")
Nothing -> return ()
Just "*" -> return ()
Just list -> case parseStr eTagListP list of
- (Success tags, _)
+ (# Success tags, _ #)
-- tags の中に一致するものが無ければ
-- PreconditionFailed で終了。
-> when (not $ any (== tag) tags)
$ abort PreconditionFailed []
- $ Just ("The entity tag doesn't match: " ++ list)
- _ -> abort BadRequest [] $ Just ("Unparsable If-Match: " ++ fromJust ifMatch)
+ $! Just ("The entity tag doesn't match: " ++ list)
+ (# _, _ #)
+ -> abort BadRequest [] $! Just ("Unparsable If-Match: " ++ fromJust ifMatch)
let statusForNoneMatch = if method == GET || method == HEAD then
NotModified
ifNoneMatch <- getHeader "If-None-Match"
case ifNoneMatch of
Nothing -> return ()
- Just "*" -> abort statusForNoneMatch [] $ Just ("The entity tag matches: *")
+ Just "*" -> abort statusForNoneMatch [] $! Just ("The entity tag matches: *")
Just list -> case parseStr eTagListP list of
- (Success tags, _)
+ (# Success tags, _ #)
-> when (any (== tag) tags)
- $ abort statusForNoneMatch [] $ Just ("The entity tag matches: " ++ list)
- _ -> abort BadRequest [] $ Just ("Unparsable If-None-Match: " ++ list)
+ $ abort statusForNoneMatch [] $! Just ("The entity tag matches: " ++ list)
+ (# _, _ #)
+ -> abort BadRequest [] $! Just ("Unparsable If-None-Match: " ++ list)
driftTo GettingBody
-- modification time are unsafe because it is possible to mess up such
-- tests by modifying the entity twice in a second.
--
--- This action is not preferred. You should use 'foundEntity' when
+-- This action is not preferred. You should use 'foundEntity' whenever
-- possible.
foundTimeStamp :: ClockTime -> Resource ()
foundTimeStamp timeStamp
- = do driftTo ExaminingRequest
+ = timeStamp `seq`
+ do driftTo ExaminingRequest
method <- getMethod
when (method == GET || method == HEAD)
- $ setHeader' "Last-Modified" $ formatHTTPDateTime timeStamp
+ $ setHeader' "Last-Modified" $! formatHTTPDateTime timeStamp
when (method == POST)
$ abort InternalServerError []
(Just "Illegal computation of foundTimeStamp for POST request.")
Just lastTime
-> when (timeStamp <= lastTime)
$ abort statusForIfModSince []
- $ Just ("The entity has not been modified since " ++ str)
+ $! Just ("The entity has not been modified since " ++ str)
Nothing
-> return () -- 不正な時刻は無視
Nothing -> return ()
Just lastTime
-> when (timeStamp > lastTime)
$ abort PreconditionFailed []
- $ Just ("The entity has not been modified since " ++ str)
+ $! Just ("The entity has not been modified since " ++ str)
Nothing
-> return () -- 不正な時刻は無視
Nothing -> return ()
-- 'foundNoEntity' always aborts with status \"404 Not Found\".
foundNoEntity :: Maybe String -> Resource ()
foundNoEntity msgM
- = do driftTo ExaminingRequest
+ = msgM `seq`
+ do driftTo ExaminingRequest
method <- getMethod
when (method /= PUT)
-- ('Network.HTTP.Lucu.Config.cnfMaxEntityLength') is used. See
-- 'defaultLimit'.
--
--- Note that 'inputBS' is more efficient than 'input' so you should
+-- Note that 'inputLBS' is more efficient than 'input' so you should
-- use it whenever possible.
input :: Int -> Resource String
-input limit = inputBS limit >>= return . B.unpack
+input limit = limit `seq`
+ inputLBS limit >>= return . B.unpack
-- | This is mostly the same as 'input' but is more
--- efficient. 'inputBS' returns a lazy ByteString but it's not really
--- lazy: reading from the socket just happens at the computation of
--- 'inputBS', not at the lazy evaluation of the ByteString. The same
--- goes for 'inputChunkBS'.
-inputBS :: Int -> Resource ByteString
-inputBS limit
- = do driftTo GettingBody
- itr <- ask
- hasBody <- liftIO $ atomically $ readItr itr itrRequestHasBody id
+-- efficient. 'inputLBS' returns a
+-- 'Data.ByteString.Base.LazyByteString' but it's not really lazy:
+-- reading from the socket just happens at the computation of
+-- 'inputLBS', not at the evaluation of the
+-- 'Data.ByteString.Base.LazyByteString'. The same goes for
+-- 'inputChunkLBS'.
+inputLBS :: Int -> Resource LazyByteString
+inputLBS limit
+ = limit `seq`
+ do driftTo GettingBody
+ itr <- getInteraction
+ hasBody <- liftIO $! atomically $! readItr itr itrRequestHasBody id
chunk <- if hasBody then
askForInput itr
else
return B.empty
return chunk
where
- askForInput :: Interaction -> Resource ByteString
+ askForInput :: Interaction -> Resource LazyByteString
askForInput itr
- = do let defaultLimit = cnfMaxEntityLength $ itrConfig itr
+ = itr `seq`
+ do let defaultLimit = cnfMaxEntityLength $ itrConfig itr
actualLimit = if limit <= 0 then
defaultLimit
else
limit
when (actualLimit <= 0)
- $ fail ("inputBS: limit must be positive: " ++ show actualLimit)
+ $ fail ("inputLBS: limit must be positive: " ++ show actualLimit)
-- Reader にリクエスト
- liftIO $ atomically
- $ do chunkLen <- readItr itr itrReqChunkLength id
- writeItr itr itrWillReceiveBody True
- if fmap (> actualLimit) chunkLen == Just True then
- -- 受信前から多過ぎる事が分かってゐる
- tooLarge actualLimit
- else
- writeItr itr itrReqBodyWanted $ Just actualLimit
+ liftIO $! atomically
+ $! do chunkLen <- readItr itr itrReqChunkLength id
+ writeItr itr itrWillReceiveBody True
+ if fmap (> actualLimit) chunkLen == Just True then
+ -- 受信前から多過ぎる事が分かってゐる
+ tooLarge actualLimit
+ else
+ writeItr itr itrReqBodyWanted $ Just actualLimit
-- 應答を待つ。トランザクションを分けなければ當然デッドロック。
- chunk <- liftIO $ atomically
- $ do chunk <- readItr itr itrReceivedBody id
- chunkIsOver <- readItr itr itrReqChunkIsOver id
- if B.length chunk < fromIntegral actualLimit then
- -- 要求された量に滿たなくて、まだ殘り
- -- があるなら再試行。
- unless chunkIsOver
- $ retry
- else
- -- 制限値一杯まで讀むやうに指示したの
- -- にまだ殘ってゐるなら、それは多過ぎ
- -- る。
- unless chunkIsOver
- $ tooLarge actualLimit
- -- 成功。itr 内にチャンクを置いたままにす
- -- るとメモリの無駄になるので除去。
- writeItr itr itrReceivedBody B.empty
- return chunk
+ chunk <- liftIO $! atomically
+ $! do chunk <- readItr itr itrReceivedBody id
+ chunkIsOver <- readItr itr itrReqChunkIsOver id
+ if B.length chunk < fromIntegral actualLimit then
+ -- 要求された量に滿たなくて、まだ殘り
+ -- があるなら再試行。
+ unless chunkIsOver
+ $ retry
+ else
+ -- 制限値一杯まで讀むやうに指示したの
+ -- にまだ殘ってゐるなら、それは多過ぎ
+ -- る。
+ unless chunkIsOver
+ $ tooLarge actualLimit
+ -- 成功。itr 内にチャンクを置いたままにす
+ -- るとメモリの無駄になるので除去。
+ writeItr itr itrReceivedBody B.empty
+ return chunk
driftTo DecidingHeader
return chunk
tooLarge :: Int -> STM ()
- tooLarge lim = abortSTM RequestEntityTooLarge []
- $ Just ("Request body must be smaller than "
- ++ show lim ++ " bytes.")
+ tooLarge lim = lim `seq`
+ abortSTM RequestEntityTooLarge []
+ $! Just ("Request body must be smaller than "
+ ++ show lim ++ " bytes.")
-- | Computation of @'inputChunk' limit@ attempts to read a part of
-- request body up to @limit@ bytes. You can read any large request by
-- ('Network.HTTP.Lucu.Config.cnfMaxEntityLength') is used. See
-- 'defaultLimit'.
--
--- Note that 'inputChunkBS' is more efficient than 'inputChunk' so you
+-- Note that 'inputChunkLBS' is more efficient than 'inputChunk' so you
-- should use it whenever possible.
inputChunk :: Int -> Resource String
-inputChunk limit = inputChunkBS limit >>= return . B.unpack
+inputChunk limit = limit `seq`
+ inputChunkLBS limit >>= return . B.unpack
-- | This is mostly the same as 'inputChunk' but is more
--- efficient. See 'inputBS'.
-inputChunkBS :: Int -> Resource ByteString
-inputChunkBS limit
- = do driftTo GettingBody
- itr <- ask
+-- efficient. See 'inputLBS'.
+inputChunkLBS :: Int -> Resource LazyByteString
+inputChunkLBS limit
+ = limit `seq`
+ do driftTo GettingBody
+ itr <- getInteraction
hasBody <- liftIO $ atomically $ readItr itr itrRequestHasBody id
chunk <- if hasBody then
askForInput itr
return B.empty
return chunk
where
- askForInput :: Interaction -> Resource ByteString
+ askForInput :: Interaction -> Resource LazyByteString
askForInput itr
- = do let defaultLimit = cnfMaxEntityLength $ itrConfig itr
+ = itr `seq`
+ do let defaultLimit = cnfMaxEntityLength $! itrConfig itr
actualLimit = if limit < 0 then
defaultLimit
else
limit
when (actualLimit <= 0)
- $ fail ("inputChunkBS: limit must be positive: " ++ show actualLimit)
+ $ fail ("inputChunkLBS: limit must be positive: " ++ show actualLimit)
-- Reader にリクエスト
- liftIO $ atomically
- $ do writeItr itr itrReqBodyWanted $ Just actualLimit
- writeItr itr itrWillReceiveBody True
+ liftIO $! atomically
+ $! do writeItr itr itrReqBodyWanted $! Just actualLimit
+ writeItr itr itrWillReceiveBody True
-- 應答を待つ。トランザクションを分けなければ當然デッドロック。
- chunk <- liftIO $ atomically
+ chunk <- liftIO $! atomically
$ do chunk <- readItr itr itrReceivedBody id
-- 要求された量に滿たなくて、まだ殘りがあ
-- るなら再試行。
-- it is not (yet) done.
inputForm :: Int -> Resource [(String, String)]
inputForm limit
- = do cTypeM <- getContentType
+ = limit `seq`
+ do cTypeM <- getContentType
case cTypeM of
Nothing
-> abort BadRequest [] (Just "Missing Content-Type")
Just (MIMEType "multipart" "form-data" _)
-> readMultipartFormData
Just cType
- -> abort UnsupportedMediaType [] (Just $ "Unsupported media type: "
+ -> abort UnsupportedMediaType [] (Just $! "Unsupported media type: "
++ show cType)
where
readWWWFormURLEncoded
readMultipartFormData -- FIXME: 未對應
= abort UnsupportedMediaType []
- (Just $ "Sorry, inputForm does not currently support multipart/form-data.")
+ (Just $! "Sorry, inputForm does not currently support multipart/form-data.")
--- | This is just a constant -1. It's better to say @'input'
+-- | This is just a constant @-1@. It's better to say @'input'
-- 'defaultLimit'@ than to say @'input' (-1)@ but these are exactly
-- the same.
defaultLimit :: Int
-- the status code will be defaulted to \"200 OK\".
setStatus :: StatusCode -> Resource ()
setStatus code
- = do driftTo DecidingHeader
- itr <- ask
- liftIO $ atomically $ updateItr itr itrResponse
- $ \ res -> res {
- resStatus = code
- }
+ = code `seq`
+ do driftTo DecidingHeader
+ itr <- getInteraction
+ liftIO $! atomically $! updateItr itr itrResponse
+ $! \ res -> res {
+ resStatus = code
+ }
-- | Set a value of given resource header. Comparison of header name
-- is case-insensitive. Note that this action is not intended to be
-- a part of header of the next response.
setHeader :: String -> String -> Resource ()
setHeader name value
- = driftTo DecidingHeader >> setHeader' name value
+ = name `seq` value `seq`
+ driftTo DecidingHeader >> setHeader' name value
-setHeader' :: String -> String -> Resource()
+setHeader' :: String -> String -> Resource ()
setHeader' name value
- = do itr <- ask
+ = name `seq` value `seq`
+ do itr <- getInteraction
liftIO $ atomically
$ updateItr itr itrResponse
$ H.setHeader name value
-- | Computation of @'redirect' code uri@ sets the response status to
--- @code@ and \"Location\" header to @uri@. @code@ must satisfy
+-- @code@ and \"Location\" header to @uri@. The @code@ must satisfy
-- 'Network.HTTP.Lucu.Response.isRedirection' or it causes an error.
redirect :: StatusCode -> URI -> Resource ()
redirect code uri
- = do when (code == NotModified || not (isRedirection code))
+ = code `seq` uri `seq`
+ do when (code == NotModified || not (isRedirection code))
$ abort InternalServerError []
- $ Just ("Attempted to redirect with status " ++ show code)
+ $! Just ("Attempted to redirect with status " ++ show code)
setStatus code
setLocation uri
+{-# INLINE redirect #-}
+
-- | Computation of @'setContentType' mType@ sets the response header
-- \"Content-Type\" to @mType@.
setContentType :: MIMEType -> Resource ()
setContentType mType
- = setHeader "Content-Type" $ show mType
+ = setHeader "Content-Type" $! show mType
-- | Computation of @'setLocation' uri@ sets the response header
-- \"Location\" to @uri@.
setLocation uri
= setHeader "Location" $ uriToString id uri $ ""
+-- |Computation of @'setContentEncoding' codings@ sets the response
+-- header \"Content-Encoding\" to @codings@.
+setContentEncoding :: [String] -> Resource ()
+setContentEncoding codings
+ = do ver <- getRequestVersion
+ let tr = case ver of
+ HttpVersion 1 0 -> unnormalizeCoding
+ HttpVersion 1 1 -> id
+ setHeader "Content-Encoding" $ joinWith ", " $ map tr codings
+
{- DecidingBody 時に使用するアクション群 -}
-- apply 'output' to an infinite string, such as a lazy stream of
-- \/dev\/random.
--
--- Note that 'outputBS' is more efficient than 'output' so you should
+-- Note that 'outputLBS' is more efficient than 'output' so you should
-- use it whenever possible.
output :: String -> Resource ()
-output = outputBS . B.pack
+output str = outputLBS $! B.pack str
+{-# INLINE output #-}
-- | This is mostly the same as 'output' but is more efficient.
-outputBS :: ByteString -> Resource ()
-outputBS str = do outputChunkBS str
- driftTo Done
+outputLBS :: LazyByteString -> Resource ()
+outputLBS str = do outputChunkLBS str
+ driftTo Done
+{-# INLINE outputLBS #-}
-- | Computation of @'outputChunk' str@ writes @str@ as a part of
-- response body. You can compute this action multiple times to write
-- a body little at a time. It is safe to apply 'outputChunk' to an
-- infinite string.
--
--- Note that 'outputChunkBS' is more efficient than 'outputChunk' so
+-- Note that 'outputChunkLBS' is more efficient than 'outputChunk' so
-- you should use it whenever possible.
outputChunk :: String -> Resource ()
-outputChunk = outputChunkBS . B.pack
+outputChunk str = outputChunkLBS $! B.pack str
+{-# INLINE outputChunk #-}
-- | This is mostly the same as 'outputChunk' but is more efficient.
-outputChunkBS :: ByteString -> Resource ()
-outputChunkBS str
- = do driftTo DecidingBody
- itr <- ask
+outputChunkLBS :: LazyByteString -> Resource ()
+outputChunkLBS str
+ = str `seq`
+ do driftTo DecidingBody
+ itr <- getInteraction
let limit = cnfMaxOutputChunkLength $ itrConfig itr
when (limit <= 0)
$ liftIO $ atomically $
writeItr itr itrBodyIsNull False
where
- {- チャンクの大きさは Config で制限されてゐる。もし例へば
- /dev/zero を B.readFile して作った ByteString をそのまま
- ResponseWriter に渡したりすると大變な事が起こる。何故なら
- ResponseWriter はTransfer-Encoding: chunked の時、ヘッダを書く
- 爲にチャンクの大きさを測るから、その時に起こるであらう事は言ふ
- までも無い。 -}
- sendChunks :: ByteString -> Int -> Resource ()
+ -- チャンクの大きさは Config で制限されてゐる。もし例へば
+ -- "/dev/zero" を B.readFile して作った LazyByteString をそのまま
+ -- ResponseWriter に渡したりすると大變な事が起こる。何故なら
+ -- ResponseWriter は Transfer-Encoding: chunked の時、ヘッダを書
+ -- く爲にチャンクの大きさを測る。
+ sendChunks :: LazyByteString -> Int -> Resource ()
sendChunks str limit
| B.null str = return ()
| otherwise = do let (chunk, remaining) = B.splitAt (fromIntegral limit) str
- itr <- ask
+ itr <- getInteraction
liftIO $ atomically $
do buf <- readItr itr itrBodyToSend id
if B.null buf then
driftTo :: InteractionState -> Resource ()
driftTo newState
- = do itr <- ask
+ = newState `seq`
+ do itr <- getInteraction
liftIO $ atomically $ do oldState <- readItr itr itrState id
if newState < oldState then
throwStateError oldState newState