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|
{-|
Module : Verismith.Tool.Icarus
Description : Icarus verilog module.
Copyright : (c) 2018-2019, Yann Herklotz
License : BSD-3
Maintainer : yann [at] yannherklotz [dot] com
Stability : experimental
Portability : POSIX
Icarus verilog module.
-}
module Verismith.Tool.Icarus
( Icarus(..)
, defaultIcarus
, runSimIc
, runSimIcEC
)
where
import Control.DeepSeq (NFData, rnf, rwhnf)
import Control.Lens
import Control.Monad (void)
import Crypto.Hash (Digest, hash)
import Crypto.Hash.Algorithms (SHA256)
import Data.Binary (encode)
import Data.Bits
import qualified Data.ByteArray as BA (convert)
import Data.ByteString (ByteString)
import qualified Data.ByteString as B
import Data.ByteString.Lazy (toStrict)
import qualified Data.ByteString.Lazy as L (ByteString)
import Data.Char (digitToInt)
import Data.Foldable (fold)
import Data.List (transpose)
import Data.Maybe (listToMaybe)
import Data.Text (Text)
import qualified Data.Text as T
import Numeric (readInt)
import Prelude hiding (FilePath)
import Shelly
import Shelly.Lifted (liftSh)
import Verismith.CounterEg (CounterEg (..))
import Verismith.Result
import Verismith.Tool.Internal
import Verismith.Tool.Template
import Verismith.Verilog.AST
import Verismith.Verilog.BitVec
import Verismith.Verilog.CodeGen
import Verismith.Verilog.Internal
import Verismith.Verilog.Mutate
data Icarus = Icarus { icarusPath :: FilePath
, vvpPath :: FilePath
}
deriving (Eq)
instance Show Icarus where
show _ = "iverilog"
instance Tool Icarus where
toText _ = "iverilog"
instance Simulator Icarus where
runSim = runSimIcarus
runSimWithFile = runSimIcarusWithFile
instance NFData Icarus where
rnf = rwhnf
defaultIcarus :: Icarus
defaultIcarus = Icarus "iverilog" "vvp"
addDisplay :: [Statement] -> [Statement]
addDisplay s = concat $ transpose
[ s
, replicate l $ TimeCtrl 1 Nothing
, replicate l . SysTaskEnable $ Task "display" ["%b", Id "y"]
]
where l = length s
assignFunc :: [Port] -> ByteString -> Statement
assignFunc inp bs =
NonBlockAssign
. Assign conc Nothing
. Number
. BitVec (B.length bs * 8)
$ bsToI bs
where conc = RegConcat (portToExpr <$> inp)
convert :: Text -> ByteString
convert =
toStrict
. (encode :: Integer -> L.ByteString)
. maybe 0 fst
. listToMaybe
. readInt 2 (`elem` ("01" :: String)) digitToInt
. T.unpack
mask :: Text -> Text
mask = T.replace "x" "0"
callback :: ByteString -> Text -> ByteString
callback b t = b <> convert (mask t)
runSimIcarus :: Icarus -> SourceInfo -> [ByteString] -> ResultSh ByteString
runSimIcarus sim rinfo bss = do
let tb = ModDecl
"main"
[]
[]
[ Initial
$ fold (addDisplay $ assignFunc (_modInPorts m) <$> bss)
<> (SysTaskEnable $ Task "finish" [])
]
[]
let newtb = instantiateMod m tb
let modWithTb = Verilog [newtb, m]
liftSh . writefile "main.v" $ genSource modWithTb
annotate (SimFail mempty) $ runSimWithFile sim "main.v" bss
where m = rinfo ^. mainModule
runSimIcarusWithFile
:: Icarus -> FilePath -> [ByteString] -> ResultSh ByteString
runSimIcarusWithFile sim f _ = annotate (SimFail mempty) . liftSh $ do
dir <- pwd
logCommand_ dir "icarus"
$ run (icarusPath sim) ["-o", "main", toTextIgnore f]
B.take 8 . BA.convert . (hash :: ByteString -> Digest SHA256) <$> logCommand
dir
"vvp"
(runFoldLines (mempty :: ByteString) callback (vvpPath sim) ["main"])
fromBytes :: ByteString -> Integer
fromBytes = B.foldl' f 0 where f a b = a `shiftL` 8 .|. fromIntegral b
tbModule :: [ByteString] -> ModDecl -> Verilog
tbModule bss top =
Verilog [ instantiateMod top $ ModDecl "testbench" [] []
[ Initial
$ fold [ BlockAssign (Assign "clk" Nothing 0)
, BlockAssign (Assign inConcat Nothing 0)
]
<> fold ((\r -> TimeCtrl 10
(Just $ BlockAssign (Assign inConcat Nothing r)))
. fromInteger . fromBytes <$> bss)
<> (SysTaskEnable $ Task "finish" [])
, Always . TimeCtrl 5 . Just $ BlockAssign
(Assign "clk" Nothing (UnOp UnNot (Id "clk")))
, Always . EventCtrl (EPosEdge "clk") . Just . SysTaskEnable
$ Task "strobe" ["%b", Id "y"]
] []
]
where
inConcat = (RegConcat . filter (/= (Id "clk")) $ (Id . fromPort <$> (top ^. modInPorts)))
counterTestBench :: CounterEg -> ModDecl -> Verilog
counterTestBench (CounterEg _ states) m = tbModule filtered m
where
filtered = convert . fold . fmap snd . filter ((/= "clk") . fst) <$> states
runSimIc' :: (Synthesiser b) => ([ByteString] -> ModDecl -> Verilog)
-> FilePath
-> Icarus
-> b
-> SourceInfo
-> [ByteString]
-> Maybe ByteString
-> ResultSh ByteString
runSimIc' fun datadir sim1 synth1 srcInfo bss bs = do
dir <- liftSh pwd
let top = srcInfo ^. mainModule
let tb = fun bss top
liftSh . writefile tbname $ icarusTestbench datadir tb synth1
liftSh $ exe dir "icarus" "iverilog" ["-o", exename, toTextIgnore tbname]
s <- liftSh
$ B.take 8
. BA.convert
. (hash :: ByteString -> Digest SHA256)
<$> logCommand
dir
"vvp"
(runFoldLines (mempty :: ByteString)
callback
(vvpPath sim1)
[exename])
case (bs, s) of
(Nothing, s') -> ResultT . return $ Pass s'
(Just bs', s') -> if bs' == s'
then ResultT . return $ Pass s'
else ResultT . return $ Fail (SimFail s')
where
exe dir name e = void . errExit False . logCommand dir name . timeout e
tbname = fromText $ toText synth1 <> "_testbench.v"
exename = toText synth1 <> "_main"
runSimIc :: (Synthesiser b)
=> FilePath -- ^ Data directory.
-> Icarus -- ^ Icarus simulator.
-> b -- ^ Synthesis tool to be tested.
-> SourceInfo -- ^ Original generated program to test.
-> [ByteString] -- ^ Test vectors to be passed as inputs to the generated Verilog.
-> Maybe ByteString -- ^ What the correct output should be. If
-- 'Nothing' is passed, then just return 'Pass
-- ByteString' with the answer.
-> ResultSh ByteString
runSimIc = runSimIc' tbModule
runSimIcEC :: (Synthesiser b) => FilePath -> Icarus -> b
-> SourceInfo -> CounterEg -> Maybe ByteString -> ResultSh ByteString
runSimIcEC a b c d e = runSimIc' (const $ counterTestBench e) a b c d []
|