import Data.Binary
import qualified Data.Map as M
import qualified Data.Set as S
+import Data.List
import qualified Data.ByteString.Lazy as B
import Data.String.Utils
import Control.Monad
let sfi = trapmap M.! w32_from
setTrapMap $ M.delete w32_from trapmap
case sfi of
- (SFI (StaticFieldInfo cls field)) -> getStaticFieldOffset cls field
- _ -> error "getFieldAddr: no trapInfo. abort"
+ (StaticField (StaticFieldInfo cls field)) -> getStaticFieldOffset cls field
+ _ -> error "getFieldAddr: no TrapCause found. abort"
-- interface + method + signature plz!
getInterfaceMethodOffset :: B.ByteString -> B.ByteString -> B.ByteString -> IO Word32
setInterfaceMethodMap $ M.fromList sm `M.union` M.fromList mm `M.union` immap
setInterfaceMap $ M.insert path cfile imap'
where
- zipbase base = zipWith (\x y -> (entry y, x + base)) [0,4..]
- entry = getname path
- getname p y = p `B.append` methodName y `B.append` encode (methodSignature y)
+ zipbase base = zipWith (\x y -> (entry y, x + base)) [0,4..]
+ entry = getname path
+ getname p y = p `B.append` methodName y `B.append` encode (methodSignature y)
calculateFields :: Class Direct -> Maybe ClassInfo -> IO (FieldMap, FieldMap)
calculateFields cf superclass = do
-- TODO(bernhard): correct sizes. int only atm
- -- TODO(bernhard): nicer replacement for `myspan'
- let (sfields, ifields) = myspan (S.member ACC_STATIC . fieldAccessFlags) (classFields cf)
- myspan :: (a -> Bool) -> [a] -> ([a], [a])
- myspan _ [] = ([],[])
- myspan p (x:xs)
- | p x = (x:ns, ni)
- | otherwise = (ns, x:ni)
- where (ns,ni) = myspan p xs
+ let (sfields, ifields) = partition (S.member ACC_STATIC . fieldAccessFlags) (classFields cf)
- staticbase <- mallocClassData $ fromIntegral (length sfields) * 4
- let i_sb = fromIntegral $ ptrToIntPtr staticbase
- let sm = zipbase i_sb sfields
let sc_sm = getsupermap superclass ciStaticMap
+ staticbase <- mallocClassData $ fromIntegral (length sfields) * 4
+ let sm = zipbase (fromIntegral $ ptrToIntPtr staticbase) sfields
-- new fields "overwrite" old ones, if they have the same name
- let staticmap = M.fromList sm `M.union` sc_sm
+ let staticmap = sm `M.union` sc_sm
let sc_im = getsupermap superclass ciFieldMap
-- "+ 4" for the method table pointer
let max_off = (4+) $ fromIntegral $ M.size sc_im * 4
let im = zipbase max_off ifields
-- new fields "overwrite" old ones, if they have the same name
- let fieldmap = M.fromList im `M.union` sc_im
+ let fieldmap = im `M.union` sc_im
return (staticmap, fieldmap)
where
- zipbase base = zipWith (\x y -> (fieldName y, x + base)) [0,4..]
+ zipbase :: Int32 -> [Field Direct] -> FieldMap
+ zipbase base = foldr (\(x,y) -> M.insert (fieldName y) (x + base)) M.empty . zip [0,4..]
-- helper
getsupermap :: Maybe ClassInfo -> (ClassInfo -> FieldMap) -> FieldMap
-- execute class initializer
case lookupMethod "<clinit>" (ciFile ci) of
Just m -> do
- hmap <- parseMethod (ciFile ci) "<clinit>" $ MethodSignature [] ReturnsVoid
- case hmap of
- Just hmap' -> do
- let mi = MethodInfo "<clinit>" path (methodSignature m)
- entry <- compileBB hmap' mi
- addMethodRef entry mi [path]
- printfCp "executing static initializer from %s now\n" (toString path)
- executeFuncPtr entry
- printfCp "static initializer from %s done\n" (toString path)
- Nothing -> error "readClass: static initializer not found (WTF?). abort"
+ rawmethod <- parseMethod (ciFile ci) "<clinit>" $ MethodSignature [] ReturnsVoid
+ let mi = MethodInfo "<clinit>" path (methodSignature m)
+ entry <- compileBB rawmethod mi
+ addMethodRef entry mi [path]
+ printfCp "executing static initializer from %s now\n" (toString path)
+ executeFuncPtr entry
+ printfCp "static initializer from %s done\n" (toString path)
Nothing -> return ()
class_map' <- getClassMap
readClassFile :: String -> IO (Class Direct)
readClassFile path' = readIORef classPaths >>= rcf
where
- path = replace "." "/" path'
- rcf :: [MClassPath] -> IO (Class Direct)
- rcf [] = error $ "readClassFile: Class \"" ++ show path ++ "\" not found."
- rcf (Directory pre:xs) = do
- let cf = pre ++ path ++ ".class"
- printfCp "rcf: searching @ %s for %s\n" (show pre) (show path)
- b <- doesFileExist cf
- if b
- then parseClassFile cf
- else rcf xs
- rcf (JAR p:xs) = do
- printfCp "rcf: searching %s in JAR\n" (show path)
- entry <- getEntry p path
- case entry of
- Just (LoadedJAR _ cls) -> return cls
- Nothing -> rcf xs
- _ -> error $ "readClassFile: Class \"" ++ show path ++ "\" in JAR not found. #1"
+ path = replace "." "/" path'
+ rcf :: [MClassPath] -> IO (Class Direct)
+ rcf [] = error $ "readClassFile: Class \"" ++ show path ++ "\" not found."
+ rcf (Directory pre:xs) = do
+ let cf = pre ++ path ++ ".class"
+ printfCp "rcf: searching @ %s for %s\n" (show pre) (show path)
+ b <- doesFileExist cf
+ if b
+ then parseClassFile cf
+ else rcf xs
+ rcf (JAR p:xs) = do
+ printfCp "rcf: searching %s in JAR\n" (show path)
+ entry <- getEntry p path
+ case entry of
+ Just (LoadedJAR _ cls) -> return cls
+ Nothing -> rcf xs
+ _ -> error $ "readClassFile: Class \"" ++ show path ++ "\" in JAR not found. #1"
data MClassPath =
Directory String |