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https://github.com/yuzu-emu/unicorn.git
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74aaf3b321
These Haskell bindings make large use of c2hs to generate much of the code, so Unicorn's const_generator is not used. The emulator is based on the Either monad transformer. The IO monad is used to run the underlying Unicorn library, while the Either monad is used to handle errors. Instructions on how to build the bindings are located in bindings/haskell/README.TXT. The same samples found in samples/ can be found in bindings/haskell/samples. They should produce the same output, with slight differences in their error handling and messaging.
676 lines
22 KiB
Haskell
676 lines
22 KiB
Haskell
-- Sample code to demonstrate how to emulate X86 code
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import Unicorn
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import Unicorn.Hook
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import qualified Unicorn.CPU.X86 as X86
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import Control.Monad.Trans.Class (lift)
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import qualified Data.ByteString as BS
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import Data.Word
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import qualified Numeric as N (showHex)
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import System.Environment
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-- Code to be emulated
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--
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-- inc ecx; dec edx
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x86Code32 :: BS.ByteString
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x86Code32 = BS.pack [0x41, 0x4a]
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-- jmp 4; nop; nop; nop; nop; nop; nop
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x86Code32Jump :: BS.ByteString
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x86Code32Jump = BS.pack [0xeb, 0x02, 0x90, 0x90, 0x90, 0x90, 0x90, 0x90]
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-- inc ecx; dec edx; jmp self-loop
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x86Code32Loop :: BS.ByteString
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x86Code32Loop = BS.pack [0x41, 0x4a, 0xeb, 0xfe]
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-- mov [0xaaaaaaaa], ecx; inc ecx; dec edx
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x86Code32MemWrite :: BS.ByteString
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x86Code32MemWrite = BS.pack [0x89, 0x0d, 0xaa, 0xaa, 0xaa, 0xaa, 0x41, 0x4a]
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-- mov ecx, [0xaaaaaaaa]; inc ecx; dec edx
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x86Code32MemRead :: BS.ByteString
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x86Code32MemRead = BS.pack [0x8b, 0x0d, 0xaa, 0xaa, 0xaa, 0xaa, 0x41, 0x4a]
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-- jmp ouside; inc ecx; dec edx
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x86Code32JmpInvalid :: BS.ByteString
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x86Code32JmpInvalid = BS.pack [0xe9, 0xe9, 0xee, 0xee, 0xee, 0x41, 0x4a]
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-- inc ecx; in al, 0x3f; dec edx; out 0x46, al; inc ebx
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x86Code32InOut :: BS.ByteString
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x86Code32InOut = BS.pack [0x41, 0xe4, 0x3f, 0x4a, 0xe6, 0x46, 0x43]
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x86Code64 :: BS.ByteString
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x86Code64 = BS.pack [0x41, 0xbc, 0x3b, 0xb0, 0x28, 0x2a, 0x49, 0x0f, 0xc9,
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0x90, 0x4d, 0x0f, 0xad, 0xcf, 0x49, 0x87, 0xfd, 0x90,
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0x48, 0x81, 0xd2, 0x8a, 0xce, 0x77, 0x35, 0x48, 0xf7,
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0xd9, 0x4d, 0x29, 0xf4, 0x49, 0x81, 0xc9, 0xf6, 0x8a,
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0xc6, 0x53, 0x4d, 0x87, 0xed, 0x48, 0x0f, 0xad, 0xd2,
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0x49, 0xf7, 0xd4, 0x48, 0xf7, 0xe1, 0x4d, 0x19, 0xc5,
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0x4d, 0x89, 0xc5, 0x48, 0xf7, 0xd6, 0x41, 0xb8, 0x4f,
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0x8d, 0x6b, 0x59, 0x4d, 0x87, 0xd0, 0x68, 0x6a, 0x1e,
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0x09, 0x3c, 0x59]
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-- add byte ptr [bx + si], al
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x86Code16 :: BS.ByteString
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x86Code16 = BS.pack [0x00, 0x00]
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-- SYSCALL
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x86Code64Syscall :: BS.ByteString
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x86Code64Syscall = BS.pack [0x0f, 0x05]
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-- Memory address where emulation starts
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address :: Word64
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address = 0x1000000
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-- Pretty-print integral as hex
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showHex :: (Integral a, Show a) => a -> String
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showHex i =
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N.showHex (fromIntegral i :: Word64) ""
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-- Pretty-print byte string as hex
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showHexBS :: BS.ByteString -> String
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showHexBS =
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concatMap (flip N.showHex "") . reverse . BS.unpack
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-- Write a string (with a newline character) to standard output in the emulator
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emuPutStrLn :: String -> Emulator ()
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emuPutStrLn =
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lift . putStrLn
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-- Calculate code length
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codeLength :: Num a => BS.ByteString -> a
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codeLength =
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fromIntegral . BS.length
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-- Callback for tracing basic blocks
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hookBlock :: BlockHook ()
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hookBlock _ addr size _ =
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putStrLn $ ">>> Tracing basic block at 0x" ++ showHex addr ++
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", block size = 0x" ++ (maybe "0" showHex size)
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-- Callback for tracing instruction
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hookCode :: CodeHook ()
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hookCode uc addr size _ = do
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runEmulator $ do
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emuPutStrLn $ ">>> Tracing instruction at 0x" ++ showHex addr ++
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", instruction size = 0x" ++ (maybe "0" showHex size)
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eflags <- regRead uc X86.Eflags
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emuPutStrLn $ ">>> --- EFLAGS is 0x" ++ showHex eflags
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return ()
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-- Callback for tracing instruction
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hookCode64 :: CodeHook ()
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hookCode64 uc addr size _ = do
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runEmulator $ do
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rip <- regRead uc X86.Rip
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emuPutStrLn $ ">>> Tracing instruction at 0x" ++ showHex addr ++
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", instruction size = 0x" ++ (maybe "0" showHex size)
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emuPutStrLn $ ">>> RIP is 0x" ++ showHex rip
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return ()
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-- Callback for tracing memory access (READ or WRITE)
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hookMemInvalid :: MemoryEventHook ()
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hookMemInvalid uc MemWriteUnmapped addr size (Just value) _ = do
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runEmulator $ do
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emuPutStrLn $ ">>> Missing memory is being WRITE at 0x" ++
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showHex addr ++ ", data size = " ++ show size ++
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", data value = 0x" ++ showHex value
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memMap uc 0xaaaa0000 (2 * 1024 * 1024) [ProtAll]
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return True
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hookMemInvalid _ _ _ _ _ _ =
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return False
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hookMem64 :: MemoryHook ()
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hookMem64 _ MemRead addr size _ _ =
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putStrLn $ ">>> Memory is being READ at 0x" ++ showHex addr ++
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", data size = " ++ show size
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hookMem64 _ MemWrite addr size (Just value) _ =
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putStrLn $ ">>> Memory is being WRITE at 0x" ++ showHex addr ++
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", data size = " ++ show size ++ ", data value = 0x" ++
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showHex value
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-- Callback for IN instruction (X86)
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-- This returns the data read from the port
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hookIn :: InHook ()
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hookIn uc port size _ = do
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result <- runEmulator $ do
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eip <- regRead uc X86.Eip
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emuPutStrLn $ "--- reading from port 0x" ++ showHex port ++
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", size: " ++ show size ++ ", address: 0x" ++ showHex eip
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case size of
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-- Read 1 byte to AL
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1 -> return 0xf1
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-- Read 2 byte to AX
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2 -> return 0xf2
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-- Read 4 byte to EAX
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4 -> return 0xf4
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-- Should never reach this
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_ -> return 0
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case result of
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Right r -> return r
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Left _ -> return 0
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-- Callback for OUT instruction (X86)
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hookOut :: OutHook ()
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hookOut uc port size value _ = do
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runEmulator $ do
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eip <- regRead uc X86.Eip
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emuPutStrLn $ "--- writing to port 0x" ++ showHex port ++ ", size: " ++
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show size ++ ", value: 0x" ++ showHex value ++
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", address: 0x" ++ showHex eip
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-- Confirm that value is indeed the value of AL/AX/EAX
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case size of
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1 -> do
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tmp <- regRead uc X86.Al
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emuPutStrLn $ "--- register value = 0x" ++ showHex tmp
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2 -> do
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tmp <- regRead uc X86.Ax
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emuPutStrLn $ "--- register value = 0x" ++ showHex tmp
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4 -> do
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tmp <- regRead uc X86.Eax
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emuPutStrLn $ "--- register value = 0x" ++ showHex tmp
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-- Should never reach this
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_ -> return ()
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return ()
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-- Callback for SYSCALL instruction (X86)
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hookSyscall :: SyscallHook ()
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hookSyscall uc _ = do
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runEmulator $ do
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rax <- regRead uc X86.Rax
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if rax == 0x100 then
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regWrite uc X86.Rax 0x200
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else
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emuPutStrLn $ "ERROR: was not expecting rax=0x" ++ showHex rax ++
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" in syscall"
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return ()
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testI386 :: IO ()
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testI386 = do
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putStrLn "Emulate i386 code"
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result <- runEmulator $ do
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-- Initialize emulator in X86-32bit mode
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uc <- open ArchX86 [Mode32]
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-- Map 2MB memory for this emulation
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memMap uc address (2 * 1024 * 1024) [ProtAll]
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-- Write machine code to be emulated to memory
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memWrite uc address x86Code32
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-- Initialize machine registers
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regWrite uc X86.Ecx 0x1234
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regWrite uc X86.Edx 0x7890
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-- Tracing all basic blocks with customized callback
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blockHookAdd uc hookBlock () 1 0
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-- Tracing all instruction by having @begin > @end
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codeHookAdd uc hookCode () 1 0
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-- Emulate machine code in infinite time
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let codeLen = codeLength x86Code32
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start uc address (address + codeLen) Nothing Nothing
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-- Now print out some registers
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emuPutStrLn ">>> Emulation done. Below is the CPU context"
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ecx <- regRead uc X86.Ecx
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edx <- regRead uc X86.Edx
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emuPutStrLn $ ">>> ECX = 0x" ++ showHex ecx
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emuPutStrLn $ ">>> EDX = 0x" ++ showHex edx
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-- Read from memory
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tmp <- memRead uc address 4
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emuPutStrLn $ ">>> Read 4 bytes from [0x" ++ showHex address ++
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"] = 0x" ++ showHexBS tmp
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case result of
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Right _ -> return ()
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Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
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strerror err
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testI386Jump :: IO ()
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testI386Jump = do
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putStrLn "==================================="
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putStrLn "Emulate i386 code with jump"
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result <- runEmulator $ do
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-- Initialize emulator in X86-32bit mode
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uc <- open ArchX86 [Mode32]
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-- Map 2MB memory for this emulation
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memMap uc address (2 * 1024 * 1024) [ProtAll]
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-- Write machine code to be emulated to memory
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memWrite uc address x86Code32Jump
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-- Tracing 1 basic block with customized callback
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blockHookAdd uc hookBlock () address address
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-- Tracing 1 instruction at address
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codeHookAdd uc hookCode () address address
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-- Emulate machine code ininfinite time
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let codeLen = codeLength x86Code32Jump
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start uc address (address + codeLen) Nothing Nothing
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emuPutStrLn ">>> Emulation done. Below is the CPU context"
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case result of
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Right _ -> return ()
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Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
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strerror err
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-- Emulate code that loop forever
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testI386Loop :: IO ()
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testI386Loop = do
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putStrLn "==================================="
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putStrLn "Emulate i386 code that loop forever"
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result <- runEmulator $ do
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-- Initialize emulator in X86-32bit mode
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uc <- open ArchX86 [Mode32]
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-- Map 2MB memory for this emulation
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memMap uc address (2 * 1024 * 1024) [ProtAll]
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-- Write machine code to be emulated in memory
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memWrite uc address x86Code32Loop
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-- Initialize machine registers
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regWrite uc X86.Ecx 0x1234
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regWrite uc X86.Edx 0x7890
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-- Emulate machine code in 2 seconds, so we can quit even if the code
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-- loops
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let codeLen = codeLength x86Code32Loop
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start uc address (address + codeLen) (Just $ 2 * 1000000) Nothing
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-- Now print out some registers
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emuPutStrLn ">>> Emulation done. Below is the CPU context"
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ecx <- regRead uc X86.Ecx
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edx <- regRead uc X86.Edx
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emuPutStrLn $ ">>> ECX = 0x" ++ showHex ecx
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emuPutStrLn $ ">>> EDX = 0x" ++ showHex edx
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case result of
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Right _ -> return ()
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Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
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strerror err
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-- Emulate code that read invalid memory
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testI386InvalidMemRead :: IO ()
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testI386InvalidMemRead = do
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putStrLn "==================================="
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putStrLn "Emulate i386 code that read from invalid memory"
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result <- runEmulator $ do
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-- Initialize emulator in X86-32bit mode
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uc <- open ArchX86 [Mode32]
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-- Map 2MB memory for this emulation
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memMap uc address (2 * 1024 * 1024) [ProtAll]
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-- Write machine code to be emulated to memory
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memWrite uc address x86Code32MemRead
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-- Initialize machine registers
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regWrite uc X86.Ecx 0x1234
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regWrite uc X86.Edx 0x7890
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-- Tracing all basic block with customized callback
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blockHookAdd uc hookBlock () 1 0
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-- Tracing all instructions by having @beegin > @end
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codeHookAdd uc hookCode () 1 0
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-- Emulate machine code in infinite time
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let codeLen = codeLength x86Code32MemRead
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start uc address (address + codeLen) Nothing Nothing
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-- Now print out some registers
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emuPutStrLn ">>> Emulation done. Below is the CPU context"
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ecx <- regRead uc X86.Ecx
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edx <- regRead uc X86.Edx
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emuPutStrLn $ ">>> ECX = 0x" ++ showHex ecx
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emuPutStrLn $ ">>> EDX = 0x" ++ showHex edx
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case result of
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Right _ -> return ()
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Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
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strerror err
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-- Emulate code that write invalid memory
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testI386InvalidMemWrite :: IO ()
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testI386InvalidMemWrite = do
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putStrLn "==================================="
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putStrLn "Emulate i386 code that write to invalid memory"
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result <- runEmulator $ do
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-- Initialize emulator in X86-32bit mode
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uc <- open ArchX86 [Mode32]
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-- Map 2MB memory for this emulation
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memMap uc address (2 * 1024 * 1024) [ProtAll]
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-- Write machine code to be emulated to memory
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memWrite uc address x86Code32MemWrite
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-- Initialize machine registers
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regWrite uc X86.Ecx 0x1234
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regWrite uc X86.Edx 0x7890
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-- Tracing all basic blocks with customized callback
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blockHookAdd uc hookBlock () 1 0
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-- Tracing all instruction by having @begin > @end
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codeHookAdd uc hookCode () 1 0
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-- Intercept invalid memory events
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memoryEventHookAdd uc HookMemReadUnmapped hookMemInvalid () 1 0
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memoryEventHookAdd uc HookMemWriteUnmapped hookMemInvalid () 1 0
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-- Emulate machine code in infinite time
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let codeLen = codeLength x86Code32MemWrite
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start uc address (address + codeLen) Nothing Nothing
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-- Now print out some registers
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emuPutStrLn ">>> Emulation done. Below is the CPU context"
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ecx <- regRead uc X86.Ecx
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edx <- regRead uc X86.Edx
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emuPutStrLn $ ">>> ECX = 0x" ++ showHex ecx
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emuPutStrLn $ ">>> EDX = 0x" ++ showHex edx
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-- Read from memory
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tmp <- memRead uc 0xaaaaaaaa 4
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emuPutStrLn $ ">>> Read 4 bytes from [0x" ++ showHex 0xaaaaaaaa ++
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"] = 0x" ++ showHexBS tmp
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tmp <- memRead uc 0xffffffaa 4
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emuPutStrLn $ ">>> Read 4 bytes from [0x" ++ showHex 0xffffffaa ++
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"] = 0x" ++ showHexBS tmp
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case result of
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Right _ -> return ()
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Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
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strerror err
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-- Emulate code that jump to invalid memory
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testI386JumpInvalid :: IO ()
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testI386JumpInvalid = do
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putStrLn "==================================="
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putStrLn "Emulate i386 code that jumps to invalid memory"
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result <- runEmulator $ do
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-- Initialize emulator in X86-32bit mode
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uc <- open ArchX86 [Mode32]
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-- Map 2MB memory for this emulation
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memMap uc address (2 * 1024 * 1024) [ProtAll]
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-- Write machine code to be emulated to memory
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memWrite uc address x86Code32JmpInvalid
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-- Initialize machine registers
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regWrite uc X86.Ecx 0x1234
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regWrite uc X86.Edx 0x7890
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-- Tracing all basic blocks with customized callback
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blockHookAdd uc hookBlock () 1 0
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-- Tracing all instructions by having @begin > @end
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codeHookAdd uc hookCode () 1 0
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-- Emulate machine code in infinite time
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let codeLen = codeLength x86Code32JmpInvalid
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start uc address (address + codeLen) Nothing Nothing
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-- Now print out some registers
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emuPutStrLn ">>> Emulation done. Below is the CPU context"
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ecx <- regRead uc X86.Ecx
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edx <- regRead uc X86.Edx
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emuPutStrLn $ ">>> ECX = 0x" ++ showHex ecx
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emuPutStrLn $ ">>> EDX = 0x" ++ showHex edx
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case result of
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Right _ -> return ()
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Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
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strerror err
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testI386InOut :: IO ()
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testI386InOut = do
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putStrLn "==================================="
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putStrLn "Emulate i386 code with IN/OUT instructions"
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result <- runEmulator $ do
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-- Initialize emulator in X86-32bit mode
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uc <- open ArchX86 [Mode32]
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-- Map 2MB memory for this emulation
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memMap uc address (2 * 1024 * 1024) [ProtAll]
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-- Write machine code to be emulated to memory
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memWrite uc address x86Code32InOut
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-- Initialize machine registers
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regWrite uc X86.Eax 0x1234
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regWrite uc X86.Ecx 0x6789
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-- Tracing all basic blocks with customized callback
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blockHookAdd uc hookBlock () 1 0
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-- Tracing all instructions
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codeHookAdd uc hookCode () 1 0
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-- uc IN instruction
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inHookAdd uc hookIn () 1 0
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-- uc OUT instruction
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outHookAdd uc hookOut () 1 0
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-- Emulate machine code in infinite time
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let codeLen = codeLength x86Code32InOut
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start uc address (address + codeLen) Nothing Nothing
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-- Now print out some registers
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emuPutStrLn ">>> Emulation done. Below is the CPU context"
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eax <- regRead uc X86.Eax
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ecx <- regRead uc X86.Ecx
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emuPutStrLn $ ">>> EAX = 0x" ++ showHex eax
|
|
emuPutStrLn $ ">>> ECX = 0x" ++ showHex ecx
|
|
case result of
|
|
Right _ -> return ()
|
|
Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
|
|
strerror err
|
|
|
|
testX8664 :: IO ()
|
|
testX8664 = do
|
|
putStrLn "Emulate x86_64 code"
|
|
|
|
result <- runEmulator $ do
|
|
-- Initialize emualator in X86-64bit mode
|
|
uc <- open ArchX86 [Mode64]
|
|
|
|
-- Map 2MB memory for this emulation
|
|
memMap uc address (2 * 1024 * 1024) [ProtAll]
|
|
|
|
-- Write machine code to be emulated to memory
|
|
memWrite uc address x86Code64
|
|
|
|
-- Initialize machine registers
|
|
regWrite uc X86.Rsp (fromIntegral address + 0x200000)
|
|
|
|
regWrite uc X86.Rax 0x71f3029efd49d41d
|
|
regWrite uc X86.Rbx 0xd87b45277f133ddb
|
|
regWrite uc X86.Rcx 0xab40d1ffd8afc461
|
|
regWrite uc X86.Rdx 0x919317b4a733f01
|
|
regWrite uc X86.Rsi 0x4c24e753a17ea358
|
|
regWrite uc X86.Rdi 0xe509a57d2571ce96
|
|
regWrite uc X86.R8 0xea5b108cc2b9ab1f
|
|
regWrite uc X86.R9 0x19ec097c8eb618c1
|
|
regWrite uc X86.R10 0xec45774f00c5f682
|
|
regWrite uc X86.R11 0xe17e9dbec8c074aa
|
|
regWrite uc X86.R12 0x80f86a8dc0f6d457
|
|
regWrite uc X86.R13 0x48288ca5671c5492
|
|
regWrite uc X86.R14 0x595f72f6e4017f6e
|
|
regWrite uc X86.R15 0x1efd97aea331cccc
|
|
|
|
-- Tracing all basic blocks with customized callback
|
|
blockHookAdd uc hookBlock () 1 0
|
|
|
|
-- Tracing all instructions in the range [address, address+20]
|
|
codeHookAdd uc hookCode64 () address (address + 20)
|
|
|
|
-- Tracing all memory WRITE access (with @begin > @end)
|
|
memoryHookAdd uc HookMemWrite hookMem64 () 1 0
|
|
|
|
-- Tracing all memory READ access (with @begin > @end)
|
|
memoryHookAdd uc HookMemRead hookMem64 () 1 0
|
|
|
|
-- Emulate machine code in infinite time (last param = Nothing), or
|
|
-- when finishing all the code
|
|
let codeLen = codeLength x86Code64
|
|
start uc address (address + codeLen) Nothing Nothing
|
|
|
|
-- Now print out some registers
|
|
emuPutStrLn ">>> Emulation done. Below is the CPU context"
|
|
|
|
rax <- regRead uc X86.Rax
|
|
rbx <- regRead uc X86.Rbx
|
|
rcx <- regRead uc X86.Rcx
|
|
rdx <- regRead uc X86.Rdx
|
|
rsi <- regRead uc X86.Rsi
|
|
rdi <- regRead uc X86.Rdi
|
|
r8 <- regRead uc X86.R8
|
|
r9 <- regRead uc X86.R9
|
|
r10 <- regRead uc X86.R10
|
|
r11 <- regRead uc X86.R11
|
|
r12 <- regRead uc X86.R12
|
|
r13 <- regRead uc X86.R13
|
|
r14 <- regRead uc X86.R14
|
|
r15 <- regRead uc X86.R15
|
|
|
|
emuPutStrLn $ ">>> RAX = 0x" ++ showHex rax
|
|
emuPutStrLn $ ">>> RBX = 0x" ++ showHex rbx
|
|
emuPutStrLn $ ">>> RCX = 0x" ++ showHex rcx
|
|
emuPutStrLn $ ">>> RDX = 0x" ++ showHex rdx
|
|
emuPutStrLn $ ">>> RSI = 0x" ++ showHex rsi
|
|
emuPutStrLn $ ">>> RDI = 0x" ++ showHex rdi
|
|
emuPutStrLn $ ">>> R8 = 0x" ++ showHex r8
|
|
emuPutStrLn $ ">>> R9 = 0x" ++ showHex r9
|
|
emuPutStrLn $ ">>> R10 = 0x" ++ showHex r10
|
|
emuPutStrLn $ ">>> R11 = 0x" ++ showHex r11
|
|
emuPutStrLn $ ">>> R12 = 0x" ++ showHex r12
|
|
emuPutStrLn $ ">>> R13 = 0x" ++ showHex r13
|
|
emuPutStrLn $ ">>> R14 = 0x" ++ showHex r14
|
|
emuPutStrLn $ ">>> R15 = 0x" ++ showHex r15
|
|
case result of
|
|
Right _ -> return ()
|
|
Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
|
|
strerror err
|
|
|
|
testX8664Syscall :: IO ()
|
|
testX8664Syscall = do
|
|
putStrLn "==================================="
|
|
putStrLn "Emulate x86_64 code with 'syscall' instruction"
|
|
|
|
result <- runEmulator $ do
|
|
-- Initialize emulator in X86-64bit mode
|
|
uc <- open ArchX86 [Mode64]
|
|
|
|
-- Map 2MB memory for this emulation
|
|
memMap uc address (2 * 1024 * 1024) [ProtAll]
|
|
|
|
-- Write machine code to be emulated to memory
|
|
memWrite uc address x86Code64Syscall
|
|
|
|
-- Hook interrupts for syscall
|
|
syscallHookAdd uc hookSyscall () 1 0
|
|
|
|
-- Initialize machine registers
|
|
regWrite uc X86.Rax 0x100
|
|
|
|
-- Emulate machine code in infinite time (last param = Nothing), or
|
|
-- when finishing all code
|
|
let codeLen = codeLength x86Code64Syscall
|
|
start uc address (address + codeLen) Nothing Nothing
|
|
|
|
-- Now print out some registers
|
|
emuPutStrLn ">>> Emulation done. Below is the CPU context"
|
|
|
|
rax <- regRead uc X86.Rax
|
|
emuPutStrLn $ ">>> RAX = 0x" ++ showHex rax
|
|
case result of
|
|
Right _ -> return ()
|
|
Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
|
|
strerror err
|
|
|
|
testX8616 :: IO ()
|
|
testX8616 = do
|
|
putStrLn "Emulate x86 16-bit code"
|
|
|
|
result <- runEmulator $ do
|
|
-- Initialize emulator in X86-16bit mode
|
|
uc <- open ArchX86 [Mode16]
|
|
|
|
-- Map 8KB memory for this emulation
|
|
memMap uc 0 (8 * 1024) [ProtAll]
|
|
|
|
-- Write machine code to be emulated in memory
|
|
memWrite uc 0 x86Code16
|
|
|
|
-- Initialize machine registers
|
|
regWrite uc X86.Eax 7
|
|
regWrite uc X86.Ebx 5
|
|
regWrite uc X86.Esi 6
|
|
|
|
-- Emulate machine code in infinite time (last param = Nothing), or
|
|
-- when finishing all the code
|
|
let codeLen = codeLength x86Code16
|
|
start uc 0 codeLen Nothing Nothing
|
|
|
|
-- Now print out some registers
|
|
emuPutStrLn ">>> Emulation done. Below is the CPU context"
|
|
|
|
-- Read from memory
|
|
tmp <- memRead uc 11 1
|
|
emuPutStrLn $ ">>> Read 1 bytes from [0x" ++ showHex 11 ++
|
|
"] = 0x" ++ showHexBS tmp
|
|
case result of
|
|
Right _ -> return ()
|
|
Left err -> putStrLn $ "Failed with error " ++ show err ++ ": " ++
|
|
strerror err
|
|
|
|
main :: IO ()
|
|
main = do
|
|
progName <- getProgName
|
|
args <- getArgs
|
|
case args of
|
|
["-32"] -> do
|
|
testI386
|
|
testI386InOut
|
|
testI386Jump
|
|
testI386Loop
|
|
testI386InvalidMemRead
|
|
testI386InvalidMemWrite
|
|
testI386JumpInvalid
|
|
["-64"] -> do
|
|
testX8664
|
|
testX8664Syscall
|
|
["-16"] -> testX8616
|
|
-- Test memleak
|
|
["-0"] -> testI386
|
|
_ -> putStrLn $ "Syntax: " ++ progName ++ " <-16|-32|-64>"
|
|
|