2 {-# LANGUAGE OverloadedStrings #-}
3 {-# LANGUAGE ForeignFunctionInterface #-}
5 module Mate.MethodPool where
8 import Data.String.Utils
9 import qualified Data.Map as M
10 import qualified Data.Set as S
11 import qualified Data.ByteString.Lazy as B
15 import Foreign.C.Types
16 import Foreign.C.String
21 import Harpy.X86Disassembler
27 import Mate.BasicBlocks
29 import Mate.X86CodeGen
34 foreign import ccall "dynamic"
35 code_void :: FunPtr (IO ()) -> (IO ())
37 foreign export ccall getTrapType :: CUInt -> CUInt -> IO CUInt
38 getTrapType :: CUInt -> CUInt -> IO CUInt
39 getTrapType signal_from from2 = do
40 tmap <- get_trapmap >>= ptr2trapmap
41 case M.lookup (fromIntegral signal_from) tmap of
42 (Just (MI _)) -> return 0
43 (Just (VI _)) -> return 1
44 (Just (SFI _)) -> return 2
45 (Just (II _)) -> return 4
46 -- maybe we've a hit on the second `from' value
47 Nothing -> case M.lookup (fromIntegral from2) tmap of
48 (Just (VI _)) -> return 1
49 (Just (II _)) -> return 4
50 (Just _) -> error $ "getTrapType: abort #1 :-("
51 Nothing -> error $ "getTrapType: abort #2 :-("
53 foreign export ccall getMethodEntry :: CUInt -> CUInt -> IO CUInt
54 getMethodEntry :: CUInt -> CUInt -> IO CUInt
55 getMethodEntry signal_from methodtable = do
56 mmap <- get_methodmap >>= ptr2methodmap
57 tmap <- get_trapmap >>= ptr2trapmap
58 vmap <- get_virtualmap >>= ptr2virtualmap
60 let w32_from = fromIntegral signal_from
61 let mi = tmap M.! w32_from
62 let mi'@(MethodInfo method cm sig) =
65 (VI (MethodInfo methname _ msig)) ->
66 (MethodInfo methname (vmap M.! (fromIntegral methodtable)) msig)
67 (II (MethodInfo methname _ msig)) ->
68 (MethodInfo methname (vmap M.! (fromIntegral methodtable)) msig)
69 _ -> error $ "getMethodEntry: no trapInfo. abort."
70 case M.lookup mi' mmap of
72 cls <- getClassFile cm
73 printfMp "getMethodEntry(from 0x%08x): no method \"%s\" found. compile it\n" w32_from (show mi')
74 mm <- lookupMethodRecursive method [] cls
76 Just (mm', clsnames, cls') -> do
77 let flags = methodAccessFlags mm'
78 case S.member ACC_NATIVE flags of
80 hmap <- parseMethod cls' method
83 entry <- compileBB hmap' (MethodInfo method (thisClass cls') sig)
84 addMethodRef entry mi' clsnames
85 return $ fromIntegral entry
86 Nothing -> error $ (show method) ++ " not found. abort"
88 -- TODO(bernhard): cleaner please... *do'h*
89 let symbol = (replace "/" "_" $ toString cm) ++ "__" ++ (toString method) ++ "__" ++ (replace ";" "_" $ replace "/" "_" $ replace "(" "_" (replace ")" "_" $ toString $ encode sig))
90 printfMp "native-call: symbol: %s\n" symbol
91 nf <- loadNativeFunction symbol
92 let w32_nf = fromIntegral nf
93 let mmap' = M.insert mi' w32_nf mmap
94 methodmap2ptr mmap' >>= set_methodmap
96 Nothing -> error $ (show method) ++ " not found. abort"
97 Just w32 -> return (fromIntegral w32)
99 lookupMethodRecursive :: B.ByteString -> [B.ByteString] -> Class Resolved
100 -> IO (Maybe ((Method Resolved, [B.ByteString], Class Resolved)))
101 lookupMethodRecursive name clsnames cls = do
103 Just x -> return $ Just (x, nextclsn, cls)
104 Nothing -> if thisname == "java/lang/Object"
105 then return $ Nothing
107 supercl <- getClassFile (superClass cls)
108 lookupMethodRecursive name nextclsn supercl
110 res = lookupMethod name cls
111 thisname = thisClass cls
112 nextclsn :: [B.ByteString]
113 nextclsn = thisname:clsnames
115 -- TODO(bernhard): UBERHAX. ghc patch?
116 foreign import ccall safe "lookupSymbol"
117 c_lookupSymbol :: CString -> IO (Ptr a)
119 loadNativeFunction :: String -> IO (CUInt)
120 loadNativeFunction sym = do
121 _ <- loadRawObject "ffi/native.o"
122 -- TODO(bernhard): WTF
123 resolveObjs (return ())
124 ptr <- withCString sym c_lookupSymbol
126 then error $ "dyn. loading of \"" ++ sym ++ "\" failed."
127 else return $ fromIntegral $ ptrToIntPtr ptr
131 -- (entry, _) <- testCase "./tests/Fib.class" "fib"
132 -- let int_entry = ((fromIntegral $ ptrToIntPtr entry) :: Word32)
133 -- let mmap = M.insert ("fib" :: String) int_entry M.empty
134 -- mapM_ (\(x,y) -> printf "%s at 0x%08x\n" x y) $ M.toList mmap
135 -- mmap2ptr mmap >>= set_mmap
136 -- demo_mmap -- access Data.Map from C
138 initMethodPool :: IO ()
140 methodmap2ptr M.empty >>= set_methodmap
141 trapmap2ptr M.empty >>= set_trapmap
142 classmap2ptr M.empty >>= set_classmap
143 virtualmap2ptr M.empty >>= set_virtualmap
144 stringsmap2ptr M.empty >>= set_stringsmap
145 interfacesmap2ptr M.empty >>= set_interfacesmap
146 interfacemethodmap2ptr M.empty >>= set_interfacemethodmap
149 addMethodRef :: Word32 -> MethodInfo -> [B.ByteString] -> IO ()
150 addMethodRef entry (MethodInfo mmname _ msig) clsnames = do
151 mmap <- get_methodmap >>= ptr2methodmap
152 let newmap = M.fromList $ map (\x -> ((MethodInfo mmname x msig), entry)) clsnames
153 methodmap2ptr (mmap `M.union` newmap) >>= set_methodmap
156 compileBB :: MapBB -> MethodInfo -> IO Word32
157 compileBB hmap methodinfo = do
158 tmap <- get_trapmap >>= ptr2trapmap
160 cls <- getClassFile (methClassName methodinfo)
161 let ebb = emitFromBB (methName methodinfo) cls hmap
162 (_, Right right) <- runCodeGen ebb () ()
164 let ((entry, _, _, new_tmap), _) = right
165 let tmap' = M.union tmap new_tmap -- prefers elements in cmap
166 trapmap2ptr tmap' >>= set_trapmap
168 printfJit "generated code of \"%s\":\n" (toString $ methName methodinfo)
169 mapM_ (printfJit "%s\n" . showAtt) (snd right)
171 -- UNCOMMENT NEXT LINE FOR GDB FUN
173 -- (1) start it with `gdb ./mate' and then `run <classfile>'
174 -- (2) on getLine, press ctrl+c
175 -- (3) `br *0x<addr>'; obtain the address from the disasm above
176 -- (4) `cont' and press enter
177 return $ fromIntegral $ ptrToIntPtr entry
180 executeFuncPtr :: Word32 -> IO ()
181 executeFuncPtr entry =
182 code_void $ ((castPtrToFunPtr $ intPtrToPtr $ fromIntegral entry) :: FunPtr (IO ()))