module GHCi.InfoTable
(
mkConInfoTable
) where
import Prelude
import Foreign
import Foreign.C
import GHC.Ptr
import GHC.Exts
import GHC.Exts.Heap
ghciTablesNextToCode :: Bool
ghciTablesNextToCode = True
mkConInfoTable
:: Int
-> Int
-> Int
-> Int
-> [Word8]
-> IO (Ptr StgInfoTable)
mkConInfoTable ptr_words nonptr_words tag ptrtag con_desc =
castFunPtrToPtr <$> newExecConItbl itbl con_desc
where
entry_addr = interpConstrEntry !! ptrtag
code' = mkJumpToAddr entry_addr
itbl = StgInfoTable {
entry = if ghciTablesNextToCode
then Nothing
else Just entry_addr,
ptrs = fromIntegral ptr_words,
nptrs = fromIntegral nonptr_words,
tipe = CONSTR,
srtlen = fromIntegral tag,
code = if ghciTablesNextToCode
then Just code'
else Nothing
}
funPtrToInt :: FunPtr a -> Int
funPtrToInt (FunPtr a) = I# (addr2Int# a)
data Arch = ArchSPARC
| ArchPPC
| ArchX86
| ArchX86_64
| ArchAlpha
| ArchARM
| ArchARM64
| ArchPPC64
| ArchPPC64LE
| ArchUnknown
deriving Show
platform :: Arch
platform =
ArchX86_64
mkJumpToAddr :: EntryFunPtr -> ItblCodes
mkJumpToAddr a = case platform of
ArchSPARC ->
let w32 = fromIntegral (funPtrToInt a)
hi22, lo10 :: Word32 -> Word32
lo10 x = x .&. 0x3FF
hi22 x = (x `shiftR` 10) .&. 0x3FFFF
in Right [ 0x07000000 .|. (hi22 w32),
0x8610E000 .|. (lo10 w32),
0x81C0C000,
0x01000000 ]
ArchPPC ->
let w32 = fromIntegral (funPtrToInt a)
hi16 x = (x `shiftR` 16) .&. 0xFFFF
lo16 x = x .&. 0xFFFF
in Right [ 0x3D800000 .|. hi16 w32,
0x618C0000 .|. lo16 w32,
0x7D8903A6, 0x4E800420 ]
ArchX86 ->
let w32 = fromIntegral (funPtrToInt a) :: Word32
insnBytes :: [Word8]
insnBytes
= [0xB8, byte0 w32, byte1 w32,
byte2 w32, byte3 w32,
0xFF, 0xE0]
in
Left insnBytes
ArchX86_64 ->
let w64 = fromIntegral (funPtrToInt a) :: Word64
insnBytes :: [Word8]
insnBytes
= [0xff, 0x25, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00,
byte0 w64, byte1 w64, byte2 w64, byte3 w64,
byte4 w64, byte5 w64, byte6 w64, byte7 w64]
in
Left insnBytes
ArchAlpha ->
let w64 = fromIntegral (funPtrToInt a) :: Word64
in Right [ 0xc3800000
, 0xa79c000c
, 0x6bfc0000
, 0x47ff041f
, fromIntegral (w64 .&. 0x0000FFFF)
, fromIntegral ((w64 `shiftR` 32) .&. 0x0000FFFF) ]
ArchARM { } ->
let w32 = fromIntegral (funPtrToInt a) :: Word32
in Left [ 0x00, 0x10, 0x9f, 0xe5
, 0x11, 0xff, 0x2f, 0xe1
, byte0 w32, byte1 w32, byte2 w32, byte3 w32]
ArchARM64 { } ->
let w64 = fromIntegral (funPtrToInt a) :: Word64
in Right [ 0x58000041
, 0xd61f0020
, fromIntegral w64
, fromIntegral (w64 `shiftR` 32) ]
ArchPPC64 ->
let w32 = fromIntegral (funPtrToInt a)
hi16 x = (x `shiftR` 16) .&. 0xFFFF
lo16 x = x .&. 0xFFFF
in Right [ 0x3D800000 .|. hi16 w32,
0x618C0000 .|. lo16 w32,
0xE96C0000,
0xE84C0008,
0x7D6903A6,
0xE96C0010,
0x4E800420]
ArchPPC64LE ->
let w32 = fromIntegral (funPtrToInt a)
hi16 x = (x `shiftR` 16) .&. 0xFFFF
lo16 x = x .&. 0xFFFF
in Right [ 0x3D800000 .|. hi16 w32,
0x618C0000 .|. lo16 w32,
0x7D8903A6, 0x4E800420 ]
ArchUnknown -> error "mkJumpToAddr: ArchUnknown is unsupported"
byte0 :: (Integral w) => w -> Word8
byte0 w = fromIntegral w
byte1, byte2, byte3, byte4, byte5, byte6, byte7
:: (Integral w, Bits w) => w -> Word8
byte1 w = fromIntegral (w `shiftR` 8)
byte2 w = fromIntegral (w `shiftR` 16)
byte3 w = fromIntegral (w `shiftR` 24)
byte4 w = fromIntegral (w `shiftR` 32)
byte5 w = fromIntegral (w `shiftR` 40)
byte6 w = fromIntegral (w `shiftR` 48)
byte7 w = fromIntegral (w `shiftR` 56)
foreign import ccall "&stg_interp_constr1_entry" stg_interp_constr1_entry :: EntryFunPtr
foreign import ccall "&stg_interp_constr2_entry" stg_interp_constr2_entry :: EntryFunPtr
foreign import ccall "&stg_interp_constr3_entry" stg_interp_constr3_entry :: EntryFunPtr
foreign import ccall "&stg_interp_constr4_entry" stg_interp_constr4_entry :: EntryFunPtr
foreign import ccall "&stg_interp_constr5_entry" stg_interp_constr5_entry :: EntryFunPtr
foreign import ccall "&stg_interp_constr6_entry" stg_interp_constr6_entry :: EntryFunPtr
foreign import ccall "&stg_interp_constr7_entry" stg_interp_constr7_entry :: EntryFunPtr
interpConstrEntry :: [EntryFunPtr]
interpConstrEntry = [ error "pointer tag 0"
, stg_interp_constr1_entry
, stg_interp_constr2_entry
, stg_interp_constr3_entry
, stg_interp_constr4_entry
, stg_interp_constr5_entry
, stg_interp_constr6_entry
, stg_interp_constr7_entry ]
data StgConInfoTable = StgConInfoTable {
conDesc :: Ptr Word8,
infoTable :: StgInfoTable
}
pokeConItbl
:: Ptr StgConInfoTable -> Ptr StgConInfoTable -> StgConInfoTable
-> IO ()
pokeConItbl wr_ptr _ex_ptr itbl = do
let con_desc_offset = conDesc itbl `minusPtr` (_ex_ptr `plusPtr` conInfoTableSizeB)
((\hsc_ptr -> pokeByteOff hsc_ptr 0)) wr_ptr con_desc_offset
pokeItbl (wr_ptr `plusPtr` ((8))) (infoTable itbl)
sizeOfEntryCode :: Int
sizeOfEntryCode
| not ghciTablesNextToCode = 0
| otherwise =
case mkJumpToAddr undefined of
Left xs -> sizeOf (head xs) * length xs
Right xs -> sizeOf (head xs) * length xs
newExecConItbl :: StgInfoTable -> [Word8] -> IO (FunPtr ())
newExecConItbl obj con_desc
= alloca $ \pcode -> do
let lcon_desc = length con_desc + 1
sz = fromIntegral (conInfoTableSizeB + sizeOfEntryCode)
wr_ptr <- _allocateExec (sz + fromIntegral lcon_desc) pcode
ex_ptr <- peek pcode
let cinfo = StgConInfoTable { conDesc = ex_ptr `plusPtr` fromIntegral sz
, infoTable = obj }
pokeConItbl wr_ptr ex_ptr cinfo
pokeArray0 0 (castPtr wr_ptr `plusPtr` fromIntegral sz) con_desc
_flushExec sz ex_ptr
return (castPtrToFunPtr (ex_ptr `plusPtr` conInfoTableSizeB))
foreign import ccall unsafe "allocateExec"
_allocateExec :: CUInt -> Ptr (Ptr a) -> IO (Ptr a)
foreign import ccall unsafe "flushExec"
_flushExec :: CUInt -> Ptr a -> IO ()
wORD_SIZE :: Int
wORD_SIZE = (8)
conInfoTableSizeB :: Int
conInfoTableSizeB = wORD_SIZE + itblSize