{-# LANGUAGE OverloadedStrings #-} -- Copyright (C) 2010-2011 John Millikin -- -- This program is free software: you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation, either version 3 of the License, or -- any later version. -- -- This program is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with this program. If not, see . module Network.Protocol.XMPP.XML ( module Data.XML.Types -- * Constructors , element -- * Misc , contentText , escape , serialiseElement , readEvents -- * libxml-sax-0.4 API imitation , Parser , newParser , parse , eventsToElement ) where import Control.Monad (when) import Data.ByteString (ByteString) import qualified Data.Text import Data.Text (Text) import Data.XML.Types import Data.IORef (IORef, newIORef, readIORef, writeIORef) import qualified Text.XML.LibXML.SAX as SAX contentText :: Content -> Text contentText (ContentText t) = t contentText (ContentEntity e) = Data.Text.concat ["&", e, ";"] escape :: Text -> Text escape = Data.Text.concatMap escapeChar where escapeChar c = case c of '&' -> "&" '<' -> "<" '>' -> ">" '"' -> """ '\'' -> "'" _ -> Data.Text.singleton c escapeContent :: Content -> Text escapeContent (ContentText t) = escape t escapeContent (ContentEntity e) = Data.Text.concat ["&", escape e, ";"] element :: Name -> [(Name, Text)] -> [Node] -> Element element name attrs children = Element name attrs' children where attrs' = map (uncurry mkattr) attrs mkattr :: Name -> Text -> (Name, [Content]) mkattr n val = (n, [ContentText val]) -- A somewhat primitive serialisation function -- -- TODO: better namespace / prefix handling serialiseElement :: Element -> Text serialiseElement e = text where text = Data.Text.concat ["<", eName, " ", attrs, ">", contents, ""] eName = formatName (elementName e) formatName = escape . nameLocalName attrs = Data.Text.intercalate " " (map attr (elementAttributes e ++ nsattr)) attr (n, c) = Data.Text.concat ([formatName n, "=\""] ++ map escapeContent c ++ ["\""]) nsattr = case nameNamespace $ elementName e of Nothing -> [] Just ns -> [mkattr "xmlns" ns] contents = Data.Text.concat (map serialiseNode (elementNodes e)) serialiseNode (NodeElement e') = serialiseElement e' serialiseNode (NodeContent c) = escape (contentText c) serialiseNode (NodeComment _) = "" serialiseNode (NodeInstruction _) = "" -- quick-and-dirty imitation of libxml-sax-0.4 API; later, this should -- probably be rewritten to use ST and discard the list parsing data Parser = Parser (SAX.Parser IO) (IORef (Either Text [Event])) newParser :: IO Parser newParser = do ref <- newIORef (Right []) p <- SAX.newParserIO Nothing let addEvent e = do x <- readIORef ref case x of Left _ -> return () Right es -> writeIORef ref (Right (e:es)) return True SAX.setCallback p SAX.parsedBeginElement (\name attrs -> addEvent (EventBeginElement name attrs)) SAX.setCallback p SAX.parsedEndElement (addEvent . EventEndElement) SAX.setCallback p SAX.parsedCharacters (addEvent . EventContent . ContentText) SAX.setCallback p SAX.parsedComment (addEvent . EventComment) SAX.setCallback p SAX.parsedInstruction (addEvent . EventInstruction) SAX.setCallback p SAX.reportError (\err -> writeIORef ref (Left err) >> return False) return (Parser p ref) parse :: Parser -> ByteString -> Bool -> IO (Either Text [Event]) parse (Parser p ref) bytes finish = do writeIORef ref (Right []) SAX.parseBytes p bytes when finish (SAX.parseComplete p) eitherEvents <- readIORef ref return $ case eitherEvents of Left err -> Left err Right events -> Right (reverse events) readEvents :: Monad m => (Integer -> Event -> Bool) -> m [Event] -> m [Event] readEvents done nextEvents = readEvents' 0 [] where readEvents' depth acc = do events <- nextEvents let (done', depth', acc') = step events depth acc if done' then return acc' else readEvents' depth' acc' step [] depth acc = (False, depth, acc) step (e:es) depth acc = let depth' = depth + case e of (EventBeginElement _ _) -> 1 (EventEndElement _) -> (- 1) _ -> 0 acc' = e : acc in if done depth' e then (True, depth', reverse acc') else step es depth' acc' -- | Convert a list of events to a single 'Element'. If the events do not -- contain at least one valid element, 'Nothing' will be returned instead. eventsToElement :: [Event] -> Maybe Element eventsToElement es = case eventsToNodes es >>= isElement of (e:_) -> Just e _ -> Nothing eventsToNodes :: [Event] -> [Node] eventsToNodes = concatMap blockToNodes . splitBlocks -- Split event list into a sequence of "blocks", which are the events including -- and between a pair of tags. and are both -- single blocks. splitBlocks :: [Event] -> [[Event]] splitBlocks es = ret where (_, _, ret) = foldl splitBlocks' (0, [], []) es splitBlocks' (depth, accum, allAccum) e = split where split = if depth' == 0 then (depth', [], allAccum ++ [accum']) else (depth', accum', allAccum) accum' = accum ++ [e] depth' :: Integer depth' = depth + case e of (EventBeginElement _ _) -> 1 (EventEndElement _) -> (- 1) _ -> 0 blockToNodes :: [Event] -> [Node] blockToNodes [] = [] blockToNodes (begin:rest) = nodes where end = last rest nodes = case (begin, end) of (EventBeginElement name attrs, EventEndElement _) -> [node name attrs] (EventContent c, _) -> [NodeContent c] _ -> [] node n as = NodeElement (Element n as (eventsToNodes (init rest)))