-{-# LANGUAGE CPP #-}
{-# LANGUAGE OverloadedStrings #-}
-{-# LANGUAGE ForeignFunctionInterface #-}
-#include "debug.h"
module Mate.ClassPool (
getClassInfo,
+ classLoaded,
getClassFile,
getMethodTable,
getObjectSize,
getMethodOffset,
getFieldOffset,
getStaticFieldAddr,
- getInterfaceMethodOffset
+ getInterfaceMethodOffset,
+ addClassPath,
+ addClassPathJAR
) where
import Data.Int
-import Data.Word
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
-#ifdef DEBUG
-import Text.Printf
-#endif
-#ifdef DBG_CLASS
-import JVM.Dump
-#endif
+-- import JVM.Dump
import Foreign.Ptr
import Foreign.C.Types
import Foreign.Storable
+import Data.IORef
+import System.IO.Unsafe
+import System.Directory
+
import JVM.ClassFile
import JVM.Converter
+import Java.ClassPath hiding (Directory)
+import Java.JAR
import Mate.BasicBlocks
import {-# SOURCE #-} Mate.MethodPool
import Mate.Types
-import Mate.Utilities
import Mate.Debug
import Mate.GarbageAlloc
+import Mate.NativeSizes
getClassInfo :: B.ByteString -> IO ClassInfo
getClassInfo path = do
- class_map <- get_classmap >>= ptr2classmap
+ class_map <- getClassMap
case M.lookup path class_map of
Nothing -> loadAndInitClass path
Just ci -> return ci
-getClassFile :: B.ByteString -> IO (Class Resolved)
+classLoaded :: B.ByteString -> IO Bool
+classLoaded path = do
+ class_map <- getClassMap
+ return $ M.member path class_map
+
+getClassFile :: B.ByteString -> IO (Class Direct)
getClassFile path = do
ci <- getClassInfo path
return $ ciFile ci
-getStaticFieldOffset :: B.ByteString -> B.ByteString -> IO (CUInt)
+getStaticFieldOffset :: B.ByteString -> B.ByteString -> IO CPtrdiff
getStaticFieldOffset path field = do
ci <- getClassInfo path
- return $ fromIntegral $ (ciStaticMap ci) M.! field
+ return $ fromIntegral $ ciStaticMap ci M.! field
-getFieldOffset :: B.ByteString -> B.ByteString -> IO (Int32)
+getFieldOffset :: B.ByteString -> B.ByteString -> IO Int32
getFieldOffset path field = do
ci <- getClassInfo path
- return $ (ciFieldMap ci) M.! field
+ return $ ciFieldMap ci M.! field
-- method + signature plz!
-getMethodOffset :: B.ByteString -> B.ByteString -> IO (Word32)
+getMethodOffset :: B.ByteString -> B.ByteString -> IO NativeWord
getMethodOffset path method = do
ci <- getClassInfo path
- -- (4+) one slot for "interface-table-ptr"
- return $ (+4) $ fromIntegral $ (ciMethodMap ci) M.! method
+ -- (+ ptrSize) one slot for "interface-table-ptr"
+ return $ (+ ptrSize) $ fromIntegral $ ciMethodMap ci M.! method
-getMethodTable :: B.ByteString -> IO (Word32)
+getMethodTable :: B.ByteString -> IO NativeWord
getMethodTable path = do
ci <- getClassInfo path
return $ ciMethodBase ci
-getObjectSize :: B.ByteString -> IO (Word32)
+getObjectSize :: B.ByteString -> IO NativeWord
getObjectSize path = do
ci <- getClassInfo path
-- TODO(bernhard): correct sizes for different types...
let fsize = fromIntegral $ M.size $ ciFieldMap ci
-- one slot for "method-table-ptr"
- return $ (1 + fsize) * 4
+ return $ (1 + fsize) * ptrSize
-foreign export ccall getStaticFieldAddr :: CUInt -> Ptr () -> IO CUInt
-getStaticFieldAddr :: CUInt -> Ptr () -> IO CUInt
-getStaticFieldAddr from ptr_trapmap = do
- trapmap <- ptr2trapmap ptr_trapmap
+getStaticFieldAddr :: CPtrdiff -> IO CPtrdiff
+getStaticFieldAddr from = do
+ trapmap <- getTrapMap
let w32_from = fromIntegral from
let sfi = trapmap M.! w32_from
+ setTrapMap $ M.delete w32_from trapmap
case sfi of
- (SFI (StaticFieldInfo cls field)) -> do
- 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)
+getInterfaceMethodOffset :: B.ByteString -> B.ByteString -> B.ByteString -> IO NativeWord
getInterfaceMethodOffset ifname meth sig = do
loadInterface ifname
- ifmmap <- get_interfacemethodmap >>= ptr2interfacemethodmap
+ ifmmap <- getInterfaceMethodMap
let k = ifname `B.append` meth `B.append` sig
case M.lookup k ifmmap of
- Just w32 -> return $ (+4) w32
- Nothing -> error $ "getInterfaceMethodOffset: no offset set"
-
-
-loadClass :: B.ByteString -> IO ClassInfo
-loadClass path = do
- let rpath = toString $ path `B.append` ".class"
- cfile <- parseClassFile rpath
-#ifdef DBG_CLASS
- dumpClass cfile
-#endif
- -- load all interfaces, which are implemented by this class
- sequence_ [ loadInterface i | i <- interfaces cfile ]
- superclass <- case (path /= "java/lang/Object") of
- True -> do
- sc <- loadClass $ superClass cfile
- return $ Just $ sc
- False -> return $ Nothing
-
- (staticmap, fieldmap) <- calculateFields cfile superclass
- (methodmap, mbase) <- calculateMethodMap cfile superclass
- immap <- get_interfacemethodmap >>= ptr2interfacemethodmap
-
- -- allocate interface offset table for this class
- -- TODO(bernhard): we have some duplicates in immap (i.e. some
- -- entries have the same offset), so we could
- -- save some memory here.
- iftable <- mallocClassData ((4*) $ M.size immap)
- let w32_iftable = fromIntegral $ ptrToIntPtr iftable :: Word32
- -- store interface-table at offset 0 in method-table
- pokeElemOff (intPtrToPtr $ fromIntegral mbase) 0 w32_iftable
- printf_cp "staticmap: %s @ %s\n" (show staticmap) (toString path)
- printf_cp "fieldmap: %s @ %s\n" (show fieldmap) (toString path)
- printf_cp "methodmap: %s @ %s\n" (show methodmap) (toString path)
- printf_cp "mbase: 0x%08x\n" mbase
- printf_cp "interfacemethod: %s @ %s\n" (show immap) (toString path)
- printf_cp "iftable: 0x%08x\n" w32_iftable
- virtual_map <- get_virtualmap >>= ptr2virtualmap
- let virtual_map' = M.insert mbase path virtual_map
- virtualmap2ptr virtual_map' >>= set_virtualmap
-
- class_map <- get_classmap >>= ptr2classmap
- let new_ci = ClassInfo path cfile staticmap fieldmap methodmap mbase False
- let class_map' = M.insert path new_ci class_map
- classmap2ptr class_map' >>= set_classmap
- return new_ci
+ Just w32 -> return $ w32 + 4
+ Nothing -> error "getInterfaceMethodOffset: no offset set"
+
+
+readClass :: B.ByteString -> IO ClassInfo
+readClass path = do
+ class_map' <- getClassMap
+ case M.lookup path class_map' of
+ Just cm -> return cm
+ Nothing -> do
+ cfile <- readClassFile $ toString path
+ -- TODO(bernhard): hDumpClass
+ -- dumpClass cfile
+ -- load all interfaces, which are implemented by this class
+ sequence_ [ loadInterface i | i <- interfaces cfile ]
+ superclass <- if path /= "java/lang/Object"
+ then do
+ sc <- readClass $ superClass cfile
+ return $ Just sc
+ else return Nothing
+
+ (staticmap, fieldmap) <- calculateFields cfile superclass
+ (methodmap, mbase) <- calculateMethodMap cfile superclass
+ immap <- getInterfaceMethodMap
+
+ -- allocate interface offset table for this class
+ -- TODO(bernhard): we have some duplicates in immap (i.e. some
+ -- entries have the same offset), so we could
+ -- save some memory here.
+ iftable <- mallocClassData ((4*) $ M.size immap)
+ let wn_iftable = fromIntegral $ ptrToIntPtr iftable :: NativeWord
+ -- store interface-table at offset 0 in method-table
+ pokeElemOff (intPtrToPtr $ fromIntegral mbase) 0 wn_iftable
+ let hexDumpMap :: Integral v => String -> M.Map B.ByteString v -> IO ()
+ hexDumpMap header mmap = do
+ let printValue :: B.ByteString -> IO ()
+ printValue key = printfCp $ printf "\t%-70s: 0x%08x\n" (toString key) val
+ where val = fromIntegral (mmap M.! key) :: NativeWord
+ printfCp $ printf "%s\n" header
+ mapM_ printValue (M.keys mmap)
+ if mateDEBUG
+ then do
+ let strpath = toString path
+ hexDumpMap ("staticmap @ " ++ strpath) staticmap
+ hexDumpMap ("fieldmap @ " ++ strpath) fieldmap
+ hexDumpMap ("methodmap @ " ++ strpath) methodmap
+ hexDumpMap ("interfacemap @ " ++ strpath) immap
+ printfCp $ printf "mbase: 0x%08x\n" mbase
+ printfCp $ printf "iftable: 0x%08x\n" wn_iftable
+ else return ()
+ virtual_map <- getVirtualMap
+ setVirtualMap $ M.insert mbase path virtual_map
+
+ class_map <- getClassMap
+ let new_ci = ClassInfo path cfile staticmap fieldmap methodmap mbase False
+ setClassMap $ M.insert path new_ci class_map
+ return new_ci
loadInterface :: B.ByteString -> IO ()
loadInterface path = do
- imap <- get_interfacesmap >>= ptr2interfacesmap
+ imap <- getInterfaceMap
-- interface already loaded?
case M.lookup path imap of
Just _ -> return ()
Nothing -> do
- printf_cp "interface: loading \"%s\"\n" $ toString path
- let ifpath = toString $ path `B.append` ".class"
- cfile <- parseClassFile ifpath
+ printfCp $ printf "interface: loading \"%s\"\n" $ toString path
+ cfile <- readClassFile $ toString path
-- load "superinterfaces" first
sequence_ [ loadInterface i | i <- interfaces cfile ]
- immap <- get_interfacemethodmap >>= ptr2interfacemethodmap
+ immap <- getInterfaceMethodMap
-- load map again, because there could be new entries now
-- due to loading superinterfaces
- imap' <- get_interfacesmap >>= ptr2interfacesmap
- let max_off = fromIntegral $ (M.size immap) * 4
+ imap' <- getInterfaceMap
+ let max_off = fromIntegral $ M.size immap * 4
-- create index of methods by this interface
let mm = zipbase max_off (classMethods cfile)
-- create for each method from *every* superinterface a entry to,
-- but just put in the same offset as it is already in the map
- let (ifnames, methodnames) = unzip $ concat $
+ let (ifnames, methodnames) = unzip $ concat
[ zip (repeat ifname) (classMethods $ imap' M.! ifname)
| ifname <- interfaces cfile ]
- let sm = zipWith (\x y -> (entry y, immap M.! (getname x y))) ifnames methodnames
+ let sm = zipWith (\x y -> (entry y, immap M.! getname x y)) ifnames methodnames
-- merge all offset tables
- let methodmap = (M.fromList sm) `M.union` (M.fromList mm) `M.union` immap
- interfacemethodmap2ptr methodmap >>= set_interfacemethodmap
-
- interfacesmap2ptr (M.insert path cfile imap') >>= set_interfacesmap
+ 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 Resolved -> Maybe ClassInfo -> IO (FieldMap, FieldMap)
+calculateFields :: Class Direct -> Maybe ClassInfo -> IO (FieldMap, FieldMap)
calculateFields cf superclass = do
-- TODO(bernhard): correct sizes. int only atm
- let (sfields, ifields) = span (S.member ACC_STATIC . fieldAccessFlags) (classFields cf)
+ 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 = (fromIntegral $ (M.size sc_im) * 4) + 4
+ 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
getsupermap superclass getter = case superclass of Just x -> getter x; Nothing -> M.empty
-calculateMethodMap :: Class Resolved -> Maybe ClassInfo -> IO (FieldMap, Word32)
+calculateMethodMap :: Class Direct -> Maybe ClassInfo -> IO (FieldMap, NativeWord)
calculateMethodMap cf superclass = do
let methods = filter
(\x -> (not . S.member ACC_STATIC . methodAccessFlags) x &&
((/=) "<init>" . methodName) x)
(classMethods cf)
let sc_mm = getsupermap superclass ciMethodMap
- let max_off = fromIntegral $ (M.size sc_mm) * 4
+ let max_off = fromIntegral $ M.size sc_mm * 4
let mm = zipbase max_off methods
- let methodmap = (M.fromList mm) `M.union` sc_mm
+ let methodmap = M.fromList mm `M.union` sc_mm
-- (+1): one slot for the interface-table-ptr
methodbase <- mallocClassData (((+1) $ fromIntegral $ M.size methodmap) * 4)
- return (methodmap, fromIntegral $ ptrToIntPtr $ methodbase)
+ return (methodmap, fromIntegral $ ptrToIntPtr methodbase)
where zipbase base = zipWith (\x y -> (entry y, x + base)) [0,4..]
- where entry y = (methodName y) `B.append` (encode $ methodSignature y)
+ where entry y = methodName y `B.append` encode (methodSignature y)
loadAndInitClass :: B.ByteString -> IO ClassInfo
loadAndInitClass path = do
- class_map <- get_classmap >>= ptr2classmap
+ class_map <- getClassMap
ci <- case M.lookup path class_map of
- Nothing -> loadClass path
+ Nothing -> readClass path
Just x -> return x
-- first try to execute class initializer of superclass
- when (path /= "java/lang/Object") ((loadAndInitClass $ superClass $ ciFile ci) >> return ())
+ when (path /= "java/lang/Object") (void $ loadAndInitClass $ superClass $ ciFile ci)
-- execute class initializer
case lookupMethod "<clinit>" (ciFile ci) of
Just m -> do
- hmap <- parseMethod (ciFile ci) "<clinit>"
- case hmap of
- Just hmap' -> do
- let mi = (MethodInfo "<clinit>" path (methodSignature m))
- entry <- compileBB hmap' mi
- addMethodRef entry mi [path]
- printf_cp "executing static initializer from %s now\n" (toString path)
- executeFuncPtr entry
- printf_cp "static initializer from %s done\n" (toString path)
- Nothing -> error $ "loadClass: 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 $ printf "executing static initializer from %s now\n" (toString path)
+ executeFuncPtr entry
+ printfCp $ printf "static initializer from %s done\n" (toString path)
Nothing -> return ()
- class_map' <- get_classmap >>= ptr2classmap
+ class_map' <- getClassMap
let new_ci = ci { ciInitDone = True }
- let class_map'' = M.insert path new_ci class_map'
- classmap2ptr class_map'' >>= set_classmap
+ setClassMap $ M.insert path new_ci class_map'
return new_ci
+
+
+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 $ printf "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 $ printf "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 |
+ JAR [Tree CPEntry]
+
+classPaths :: IORef [MClassPath]
+{-# NOINLINE classPaths #-}
+classPaths = unsafePerformIO $ newIORef []
+
+addClassPath :: String -> IO ()
+addClassPath x = do
+ cps <- readIORef classPaths
+ writeIORef classPaths (Directory x:cps)
+
+addClassPathJAR :: String -> IO ()
+addClassPathJAR x = do
+ cps <- readIORef classPaths
+ t <- execClassPath $ addJAR x
+ writeIORef classPaths (JAR t:cps)