{-# LANGUAGE TupleSections #-} module Network.HPACK.Table ( -- * Header table HeaderTable , newHeaderTableForEncoding , newHeaderTableForDecoding , printHeaderTable -- * Insertion , insertEntry -- * Lookup , HeaderCache(..) , lookupTable -- * Entry , module Network.HPACK.Table.Entry -- * Which tables , WhichTable(..) , which ) where import Control.Applicative ((<$>)) import Control.Exception (throwIO) import Data.Array.IO (IOArray, newArray, readArray, writeArray) import qualified Data.ByteString.Char8 as BS import Network.HPACK.Table.Entry import qualified Network.HPACK.Table.HashPSQ as HP import Network.HPACK.Table.Static import Network.HPACK.Types ---------------------------------------------------------------- -- | Type for header table. data HeaderTable = HeaderTable { maxNumOfEntries :: !Int , offset :: !Index , numOfEntries :: !Int , circularTable :: !(IOArray Index Entry) , headerTableSize :: !Size , maxHeaderTableSize :: !Size , reverseIndex :: Maybe (HP.HashPSQ HIndex) } adj :: Int -> Int -> Int adj maxN x = (x + maxN) `mod` maxN ---------------------------------------------------------------- -- | Printing 'HeaderTable'. printHeaderTable :: HeaderTable -> IO () printHeaderTable (HeaderTable maxN off n tbl tblsiz _ rev) = do es <- mapM (readArray tbl . adj maxN) [beg .. end] let ts = zip [1..] es mapM_ printEntry ts putStrLn $ " Table size: " ++ show tblsiz print rev where beg = off + 1 end = off + n printEntry :: (Index,Entry) -> IO () printEntry (i,e) = do putStr "[ " putStr $ show i putStr "] (s = " putStr $ show $ entrySize e putStr ") " BS.putStr $ entryHeaderName e putStr ": " BS.putStrLn $ entryHeaderValue e ---------------------------------------------------------------- -- | Which table does `Index` refer to? data WhichTable = InHeaderTable | InStaticTable deriving (Eq,Show) data HeaderCache = None | KeyOnly WhichTable Index | KeyValue WhichTable Index deriving Show ---------------------------------------------------------------- newtype HIndex = HIndex Int deriving (Eq, Ord, Show) ---------------------------------------------------------------- fromHIndexToIndex :: HeaderTable -> HIndex -> Index fromHIndexToIndex hdrtbl (HIndex hidx) = idx -- fixme :: Checkme where maxN = maxNumOfEntries hdrtbl off = offset hdrtbl idx = adj maxN (maxN + hidx - off) fromIndexToHIndex :: HeaderTable -> Index -> HIndex fromIndexToHIndex hdrtbl idx = HIndex hidx where maxN = maxNumOfEntries hdrtbl off = offset hdrtbl hidx = adj maxN (off + idx) fromSIndexToIndex :: HeaderTable -> SIndex -> Index fromSIndexToIndex hdrtbl sidx = fromStaticIndex sidx + numOfEntries hdrtbl fromIndexToSIndex :: HeaderTable -> Index -> SIndex fromIndexToSIndex hdrtbl idx = toStaticIndex sidx where sidx = idx - numOfEntries hdrtbl ---------------------------------------------------------------- -- | Creating 'HeaderTable'. -- The default maxHeaderTableSize is 4096 bytes, -- an array has 128 entries, resulting 1024 bytes in 64bit machine newHeaderTableForEncoding :: Size -> IO HeaderTable newHeaderTableForEncoding maxsiz = newHeaderTable maxsiz (Just HP.empty) -- | Creating 'HeaderTable'. -- The default maxHeaderTableSize is 4096 bytes, -- an array has 128 entries, resulting 1024 bytes in 64bit machine newHeaderTableForDecoding :: Size -> IO HeaderTable newHeaderTableForDecoding maxsiz = newHeaderTable maxsiz Nothing newHeaderTable :: Size -> Maybe (HP.HashPSQ HIndex) -> IO HeaderTable newHeaderTable maxsiz mhp = do tbl <- newArray (0,end) dummyEntry return HeaderTable { maxNumOfEntries = maxN , offset = end , numOfEntries = 0 , circularTable = tbl , headerTableSize = 0 , maxHeaderTableSize = maxsiz , reverseIndex = mhp } where maxN = maxNumbers maxsiz end = maxN - 1 ---------------------------------------------------------------- -- | Inserting 'Entry' to 'HeaderTable'. -- New 'HeaderTable' and a set of dropped OLD 'Index' -- are returned. insertEntry :: Entry -> HeaderTable -> IO (HeaderTable,[Index]) insertEntry e hdrtbl = do (hdrtbl', is, hs) <- insertOne e hdrtbl >>= adjustTableSize let hdrtbl'' = case reverseIndex hdrtbl' of Nothing -> hdrtbl' Just rev -> hdrtbl' { reverseIndex = Just (HP.deleteList hs rev) } return (hdrtbl'', is) insertOne :: Entry -> HeaderTable -> IO HeaderTable insertOne e hdrtbl@(HeaderTable maxN off n tbl tsize _ mrev) = do writeArray tbl i e return $ hdrtbl { offset = off' , numOfEntries = n + 1 , headerTableSize = tsize' , reverseIndex = mrev' } where i = off tsize' = tsize + entrySize e off' = adj maxN (off - 1) mrev' = case mrev of Nothing -> Nothing Just rev -> Just $ HP.insert (entryHeader e) (HIndex i) rev adjustTableSize :: HeaderTable -> IO (HeaderTable, [Index], [Header]) adjustTableSize hdrtbl = adjust hdrtbl [] [] adjust :: HeaderTable -> [Index] -> [Header] -> IO (HeaderTable, [Index], [Header]) adjust hdrtbl is hs | tsize <= maxtsize = return (hdrtbl, is, hs) | otherwise = do (hdrtbl', i, h) <- removeOne hdrtbl adjust hdrtbl' (i:is) (h:hs) where tsize = headerTableSize hdrtbl maxtsize = maxHeaderTableSize hdrtbl removeOne :: HeaderTable -> IO (HeaderTable,Index,Header) removeOne hdrtbl@(HeaderTable maxN off n tbl tsize _ _) = do let i = adj maxN (off + n) e <- readArray tbl i writeArray tbl i dummyEntry -- let the entry GCed let tsize' = tsize - entrySize e h = entryHeader e hdrtbl' = hdrtbl { numOfEntries = n - 1 , headerTableSize = tsize' } return (hdrtbl',n - 1, h) ---------------------------------------------------------------- lookupTable :: Header -> HeaderTable -> HeaderCache lookupTable h hdrtbl = case mrev of Nothing -> None Just rev -> case HP.search h rev of HP.N -> case HP.search h staticHashPSQ of HP.N -> None HP.K sidx -> KeyOnly InStaticTable (fromSIndexToIndex hdrtbl sidx) HP.KV sidx -> KeyValue InStaticTable (fromSIndexToIndex hdrtbl sidx) HP.K hidx -> KeyOnly InHeaderTable (fromHIndexToIndex hdrtbl hidx) HP.KV hidx -> KeyValue InHeaderTable (fromHIndexToIndex hdrtbl hidx) where mrev = reverseIndex hdrtbl ---------------------------------------------------------------- isIn :: Int -> HeaderTable -> Bool isIn idx hdrtbl = idx <= numOfEntries hdrtbl -- | Which table does 'Index' belong to? which :: HeaderTable -> Index -> IO (WhichTable, Entry) which hdrtbl idx | idx `isIn` hdrtbl = (InHeaderTable,) <$> toHeaderEntry hdrtbl hidx | isSIndexValid sidx = return (InStaticTable, toStaticEntry sidx) | otherwise = throwIO $ IndexOverrun idx where hidx = fromIndexToHIndex hdrtbl idx sidx = fromIndexToSIndex hdrtbl idx toHeaderEntry :: HeaderTable -> HIndex -> IO Entry toHeaderEntry hdrtbl (HIndex hidx) = readArray (circularTable hdrtbl) hidx