-----------------------------------------------------------------------------
-- |
-- Module : Documentation.SBV.Examples.Existentials.CRCPolynomial
-- Copyright : (c) Levent Erkok
-- License : BSD3
-- Maintainer: erkokl@gmail.com
-- Stability : experimental
--
-- This program demonstrates the use of the existentials and the QBVF (quantified
-- bit-vector solver). We generate CRC polynomials of degree 16 that can be used
-- for messages of size 48-bits. The query finds all such polynomials that have hamming
-- distance is at least 4. That is, if the CRC can't tell two different 48-bit messages
-- apart, then they must differ in at least 4 bits.
-----------------------------------------------------------------------------
module Documentation.SBV.Examples.Existentials.CRCPolynomial where
import Data.SBV
import Data.SBV.Tools.Polynomial
-----------------------------------------------------------------------------
-- * Modeling 48 bit words
-----------------------------------------------------------------------------
-- | SBV doesn't support 48 bit words natively. So, we represent them
-- as a tuple, 32 high-bits and 16 low-bits.
type SWord48 = (SWord32, SWord16)
-- | Compute the 16 bit CRC of a 48 bit message, using the given polynomial
crc_48_16 :: SWord48 -> SWord16 -> [SBool]
crc_48_16 msg poly = crcBV 16 msgBits polyBits
where (hi, lo) = msg
msgBits = blastBE hi ++ blastBE lo
polyBits = blastBE poly
-- | Count the differing bits in the message and the corresponding CRC
diffCount :: (SWord48, [SBool]) -> (SWord48, [SBool]) -> SWord8
diffCount ((h1, l1), crc1) ((h2, l2), crc2) = count xorBits
where bits1 = blastBE h1 ++ blastBE l1 ++ crc1
bits2 = blastBE h2 ++ blastBE l2 ++ crc2
-- xor will give us a false if bits match, true if they differ
xorBits = zipWith (.<+>) bits1 bits2
count [] = 0
count (b:bs) = let r = count bs in ite b (1+r) r
-- | Given a hamming distance value @hd@, 'crcGood' returns @true@ if
-- the 16 bit polynomial can distinguish all messages that has at most
-- @hd@ different bits. Note that we express this conversely: If the
-- @sent@ and @received@ messages are different, then it must be the
-- case that that must differ from each other (including CRCs), in
-- more than @hd@ bits.
crcGood :: SWord8 -> SWord16 -> SWord48 -> SWord48 -> SBool
crcGood hd poly sent received =
sent ./= received .=> diffCount (sent, crcSent) (received, crcReceived) .>= hd
where crcSent = crc_48_16 sent poly
crcReceived = crc_48_16 received poly
-- | Generate good CRC polynomials for 48-bit words, given the hamming distance @hd@.
genPoly :: SWord8 -> IO ()
genPoly hd = do res <- allSat $ do
-- the polynomial is existentially specified
p <- exists "polynomial"
-- sent word, universal
s <- do sh <- forall "sh"
sl <- forall "sl"
return (sh, sl)
-- received word, universal
r <- do rh <- forall "rh"
rl <- forall "rl"
return (rh, rl)
-- assert that the polynomial @p@ is good. Note
-- that we also supply the extra information that
-- the least significant bit must be set in the
-- polynomial, as all CRC polynomials have the "+1"
-- term in them set. This simplifies the query.
return $ sTestBit p 0 .&& crcGood hd p s r
cnt <- displayModels disp res
putStrLn $ "Found: " ++ show cnt ++ " polynomail(s)."
where disp :: Int -> (Bool, Word16) -> IO ()
disp n (_, s) = putStrLn $ "Polynomial #" ++ show n ++ ". x^16 + " ++ showPolynomial False s
-- | Find and display all degree 16 polynomials with hamming distance at least 4, for 48 bit messages.
--
-- When run, this function prints:
--
-- @
-- Polynomial #1. x^16 + x^2 + x + 1
-- Polynomial #2. x^16 + x^15 + x^2 + 1
-- Polynomial #3. x^16 + x^15 + x^2 + x + 1
-- Polynomial #4. x^16 + x^14 + x^10 + 1
-- Polynomial #5. x^16 + x^14 + x^9 + 1
-- ...
-- @
--
-- Note that different runs can produce different results, depending on the random
-- numbers used by the solver, solver version, etc. (Also, the solver will take some
-- time to generate these results. On my machine, the first five polynomials were
-- generated in about 5 minutes.)
findHD4Polynomials :: IO ()
findHD4Polynomials = genPoly 4
{-# ANN crc_48_16 ("HLint: ignore Use camelCase" :: String) #-}