module System.EntropyNix
( CryptHandle
, openHandle
, hGetEntropy
, closeHandle
) where
import Control.Monad (liftM, when)
import Data.ByteString as B
import System.IO.Error (mkIOError, eofErrorType, ioeSetErrorString)
import Data.Bits (xor)
import Foreign (allocaBytes)
import Foreign.Ptr
import Foreign.C.Types
import Data.ByteString.Internal as B
#ifdef arch_i386
#undef HAVE_RDRAND
#endif
import System.Posix (openFd, closeFd, fdReadBuf, OpenMode(..), defaultFileFlags, Fd)
source :: FilePath
source = "/dev/urandom"
data CryptHandle
= CH Fd
#ifdef HAVE_RDRAND
| UseRdRand Fd
#endif
openHandle :: IO CryptHandle
openHandle = do
#ifdef HAVE_RDRAND
b <- cpuHasRdRand
if b then UseRdRand `fmap` nonRDRandHandle
else CH `fmap` nonRDRandHandle
#else
CH `fmap` nonRDRandHandle
#endif
where
nonRDRandHandle :: IO Fd
nonRDRandHandle = openFd source ReadOnly Nothing defaultFileFlags
closeHandle :: CryptHandle -> IO ()
closeHandle (CH h) = closeFd h
#ifdef HAVE_RDRAND
closeHandle (UseRdRand h) = closeFd h
#endif
hGetEntropy :: CryptHandle -> Int -> IO B.ByteString
hGetEntropy (CH h) = fdReadBS h
#ifdef HAVE_RDRAND
hGetEntropy (UseRdRand h) = \n ->
do bsURandom <- fdReadBS h n
bsRDRAND <- B.create n $ \ptr -> do
r <- c_get_rand_bytes (castPtr ptr) (fromIntegral n)
when (r /= 0)
(fail "RDRand failed to gather entropy")
return $ B.pack $ B.zipWith xor bsURandom bsRDRAND
#endif
fdReadBS :: Fd -> Int -> IO B.ByteString
fdReadBS fd n =
allocaBytes n $ \buf -> go buf n
where
go buf 0 = B.packCStringLen (castPtr buf, fromIntegral n)
go buf cnt | cnt <= n = do
rc <- fdReadBuf fd (plusPtr buf (n cnt)) (fromIntegral cnt)
case rc of
0 -> ioError (ioeSetErrorString (mkIOError eofErrorType "fdRead" Nothing Nothing) "EOF")
n' -> go buf (cnt fromIntegral n')
go _ _ = error "Impossible! The count of bytes left to read is greater than the request or less than zero!"
#ifdef HAVE_RDRAND
foreign import ccall unsafe "cpu_has_rdrand"
c_cpu_has_rdrand :: IO CInt
foreign import ccall unsafe "get_rand_bytes"
c_get_rand_bytes :: Ptr CUChar -> CSize -> IO CInt
cpuHasRdRand :: IO Bool
cpuHasRdRand = (/= 0) `fmap` c_cpu_has_rdrand
#endif