{-| Copyright : (C) 2018, Google Inc. 2019, Myrtle Software Ltd 2022-2024, QBayLogic B.V. License : BSD2 (see the file LICENSE) Maintainer : QBayLogic B.V. Utilities for tracing signals and dumping them in various ways. Example usage: @ import Clash.Prelude hiding (writeFile) import Data.Text.IO (writeFile) -- | Count and wrap around subCounter :: SystemClockResetEnable => Signal System (Index 3) subCounter = traceSignal1 "sub" counter where counter = register 0 (fmap succ' counter) succ' c | c == maxBound = 0 | otherwise = c + 1 -- | Count, but only when my subcounter is wrapping around mainCounter :: SystemClockResetEnable => Signal System (Signed 64) mainCounter = traceSignal1 "main" counter where counter = register 0 (fmap succ' $ bundle (subCounter,counter)) succ' (sc, c) | sc == maxBound = c + 1 | otherwise = c -- | Collect traces, and dump them to a VCD file. main :: IO () main = do let cntrOut = exposeClockResetEnable mainCounter systemClockGen systemResetGen enableGen vcd <- dumpVCD (0, 100) cntrOut ["main", "sub"] case vcd of Left msg -> error msg Right contents -> writeFile "mainCounter.vcd" contents @ -} {-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE NamedFieldPuns #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE TypeFamilies #-} {-# OPTIONS_GHC -fplugin GHC.TypeLits.KnownNat.Solver #-} {-# OPTIONS_GHC -fplugin GHC.TypeLits.Normalise #-} module Clash.Signal.Trace ( -- * Tracing functions -- ** Simple traceSignal1 , traceVecSignal1 -- ** Tracing in a multi-clock environment , traceSignal , traceVecSignal -- * VCD dump functions , dumpVCD -- * Replay functions , dumpReplayable , replay -- * Internal -- ** Types , Period , Changed , Value , Width , TraceMap , TypeRepBS -- ** Functions , traceSignal# , traceVecSignal# , dumpVCD# , dumpVCD## , waitForTraces# , traceMap# ) where -- Clash: import Clash.Annotations.Primitive (hasBlackBox) import Clash.Signal.Internal (fromList) import Clash.Signal (KnownDomain(..), SDomainConfiguration(..), Signal, bundle, unbundle) import Clash.Sized.Vector (Vec, iterateI) import qualified Clash.Sized.Vector as Vector import Clash.Class.BitPack (BitPack, BitSize, pack, unpack) import Clash.Promoted.Nat (snatToNum, SNat(..)) import Clash.Signal.Internal (Signal ((:-)), sample) import Clash.XException (deepseqX, NFDataX) import Clash.Sized.Internal.BitVector (BitVector(BV)) -- Haskell / GHC: import Control.Monad (foldM) import Data.Bits (testBit) import Data.Binary (encode, decodeOrFail) import Data.ByteString.Lazy (ByteString) import qualified Data.ByteString.Lazy as ByteStringLazy import Data.Char (ord, chr) import Data.IORef (IORef, atomicModifyIORef', atomicWriteIORef, newIORef, readIORef) #if !MIN_VERSION_base(4,20,0) import Data.List (foldl') #endif import Data.List (foldl1', unzip4, transpose, uncons) import qualified Data.Map.Strict as Map import Data.Maybe (fromMaybe, catMaybes) import qualified Data.Text as Text import Data.Time.Clock (UTCTime, getCurrentTime) import Data.Time.Format (formatTime, defaultTimeLocale) import GHC.Natural (Natural) import GHC.Stack (HasCallStack) import GHC.TypeLits (KnownNat, type (+)) import System.IO.Unsafe (unsafePerformIO) import Type.Reflection (Typeable, TypeRep, typeRep) #ifdef CABAL import qualified Data.Version import qualified Paths_clash_prelude #endif type Period = Int type Changed = Bool type Value = (Natural, Natural) -- (Mask, Value) type Width = Int -- | Serialized TypeRep we need to store for dumpReplayable / replay type TypeRepBS = ByteString type TraceMap = Map.Map String (TypeRepBS, Period, Width, [Value]) -- | Map of traces used by the non-internal trace and dumpvcd functions. traceMap# :: IORef TraceMap traceMap# = unsafePerformIO (newIORef Map.empty) -- See: https://github.com/clash-lang/clash-compiler/pull/2511 {-# CLASH_OPAQUE traceMap# #-} mkTrace :: HasCallStack => BitPack a => NFDataX a => Signal dom a -> [Value] mkTrace signal = sample (unsafeToTup . pack <$> signal) where unsafeToTup (BV mask value) = (mask, value) -- | Trace a single signal. Will emit an error if a signal with the same name -- was previously registered. traceSignal# :: forall dom a . ( BitPack a , NFDataX a , Typeable a ) => IORef TraceMap -- ^ Map to store the trace -> Int -- ^ The associated clock period for the trace -> String -- ^ Name of signal in the VCD output -> Signal dom a -- ^ Signal to trace -> IO (Signal dom a) traceSignal# traceMap period traceName signal = atomicModifyIORef' traceMap $ \m -> if Map.member traceName m then error $ "Already tracing a signal with the name: '" ++ traceName ++ "'." else ( Map.insert traceName ( encode (typeRep @a) , period , width , mkTrace signal) m , signal) where width = snatToNum (SNat @(BitSize a)) -- See: https://github.com/clash-lang/clash-compiler/pull/2511 {-# CLASH_OPAQUE traceSignal# #-} -- | Trace a single vector signal: each element in the vector will show up as -- a different trace. If the trace name already exists, this function will emit -- an error. traceVecSignal# :: forall dom n a . ( KnownNat n , BitPack a , NFDataX a , Typeable a ) => IORef TraceMap -- ^ Map to store the traces -> Int -- ^ Associated clock period for the trace -> String -- ^ Name of signal in the VCD output. Will be appended by _0, _1, ..., _n. -> Signal dom (Vec (n+1) a) -- ^ Signal to trace -> IO (Signal dom (Vec (n+1) a)) traceVecSignal# traceMap period vecTraceName (unbundle -> vecSignal) = fmap bundle . sequenceA $ Vector.zipWith trace' (iterateI succ (0 :: Int)) vecSignal where trace' i s = traceSignal# traceMap period (name' i) s name' i = vecTraceName ++ "_" ++ show i -- See: https://github.com/clash-lang/clash-compiler/pull/2511 {-# CLASH_OPAQUE traceVecSignal# #-} -- | Trace a single signal. Will emit an error if a signal with the same name -- was previously registered. -- -- __NB__: Works correctly when creating VCD files from traced signal in -- multi-clock circuits. However 'traceSignal1' might be more convenient to -- use when the domain of your circuit is polymorphic. traceSignal :: forall dom a . ( KnownDomain dom , BitPack a , NFDataX a , Typeable a ) => String -- ^ Name of signal in the VCD output -> Signal dom a -- ^ Signal to trace -> Signal dom a traceSignal traceName signal = case knownDomain @dom of SDomainConfiguration{sPeriod} -> unsafePerformIO $ traceSignal# traceMap# (snatToNum sPeriod) traceName signal -- See: https://github.com/clash-lang/clash-compiler/pull/2511 {-# CLASH_OPAQUE traceSignal #-} {-# ANN traceSignal hasBlackBox #-} -- | Trace a single signal. Will emit an error if a signal with the same name -- was previously registered. -- -- __NB__: Associates the traced signal with a clock period of /1/, which -- results in incorrect VCD files when working with circuits that have -- multiple clocks. Use 'traceSignal' when working with circuits that have -- multiple clocks. traceSignal1 :: ( BitPack a , NFDataX a , Typeable a ) => String -- ^ Name of signal in the VCD output -> Signal dom a -- ^ Signal to trace -> Signal dom a traceSignal1 traceName signal = unsafePerformIO (traceSignal# traceMap# 1 traceName signal) -- See: https://github.com/clash-lang/clash-compiler/pull/2511 {-# CLASH_OPAQUE traceSignal1 #-} {-# ANN traceSignal1 hasBlackBox #-} -- | Trace a single vector signal: each element in the vector will show up as -- a different trace. If the trace name already exists, this function will emit -- an error. -- -- __NB__: Works correctly when creating VCD files from traced signal in -- multi-clock circuits. However 'traceSignal1' might be more convenient to -- use when the domain of your circuit is polymorphic. traceVecSignal :: forall dom a n . ( KnownDomain dom , KnownNat n , BitPack a , NFDataX a , Typeable a ) => String -- ^ Name of signal in debugging output. Will be appended by _0, _1, ..., _n. -> Signal dom (Vec (n+1) a) -- ^ Signal to trace -> Signal dom (Vec (n+1) a) traceVecSignal traceName signal = case knownDomain @dom of SDomainConfiguration{sPeriod} -> unsafePerformIO $ traceVecSignal# traceMap# (snatToNum sPeriod) traceName signal -- See: https://github.com/clash-lang/clash-compiler/pull/2511 {-# CLASH_OPAQUE traceVecSignal #-} {-# ANN traceVecSignal hasBlackBox #-} -- | Trace a single vector signal: each element in the vector will show up as -- a different trace. If the trace name already exists, this function will emit -- an error. -- -- __NB__: Associates the traced signal with a clock period of /1/, which -- results in incorrect VCD files when working with circuits that have -- multiple clocks. Use 'traceSignal' when working with circuits that have -- multiple clocks. traceVecSignal1 :: ( KnownNat n , BitPack a , NFDataX a , Typeable a ) => String -- ^ Name of signal in debugging output. Will be appended by _0, _1, ..., _n. -> Signal dom (Vec (n+1) a) -- ^ Signal to trace -> Signal dom (Vec (n+1) a) traceVecSignal1 traceName signal = unsafePerformIO $ traceVecSignal# traceMap# 1 traceName signal -- See: https://github.com/clash-lang/clash-compiler/pull/2511 {-# CLASH_OPAQUE traceVecSignal1 #-} {-# ANN traceVecSignal1 hasBlackBox #-} iso8601Format :: UTCTime -> String iso8601Format = formatTime defaultTimeLocale "%Y-%m-%dT%H:%M:%S" toPeriodMap :: TraceMap -> Map.Map Period [(String, Width, [Value])] toPeriodMap m = foldl' go Map.empty (Map.assocs m) where go periodMap (traceName, (_rep, period, width, values)) = Map.alter (Just . go') period periodMap where go' = ((traceName, width, values):) . (fromMaybe []) flattenMap :: Map.Map a [b] -> [(a, b)] flattenMap m = concat [[(a, b) | b <- bs] | (a, bs) <- Map.assocs m] printable :: Char -> Bool printable (ord -> c) = 33 <= c && c <= 126 -- | Same as @dumpVCD@, but supplied with a custom tracemap and a custom timestamp dumpVCD## :: (Int, Int) -- ^ (offset, number of samples) -> TraceMap -> UTCTime -> Either String Text.Text dumpVCD## (offset, cycles) traceMap now | offset < 0 = error $ "dumpVCD: offset was " ++ show offset ++ ", but cannot be negative." | cycles < 0 = error $ "dumpVCD: cycles was " ++ show cycles ++ ", but cannot be negative." | null traceMap = error $ "dumpVCD: no traces found. Extend the given trace names." | Map.size traceMap > 126 - 33 = Left $ "Tracemap contains more than 93 traces, which is not supported by VCD." | (nm:_) <- offensiveNames = Left $ unwords [ "Trace '" ++ nm ++ "' contains" , "non-printable ASCII characters, which is not" , "supported by VCD." ] | otherwise = Right $ Text.unlines [ Text.unwords headerDate , Text.unwords headerVersion , Text.unwords headerComment , Text.pack $ unwords headerTimescale , "$scope module logic $end" , Text.intercalate "\n" headerWires , "$upscope $end" , "$enddefinitions $end" , "#0" , "$dumpvars" , Text.intercalate "\n" initValues , "$end" , Text.intercalate "\n" $ catMaybes bodyParts ] where offensiveNames = filter (any (not . printable)) traceNames labels = map chr [33..126] timescale = foldl1' gcd (Map.keys periodMap) periodMap = toPeriodMap traceMap -- Normalize traces until they have the "same" period. That is, assume -- we have two traces; trace A with a period of 20 ps and trace B with -- a period of 40 ps: -- -- A: [A1, A2, A3, ...] -- B: [B1, B2, B3, ...] -- -- After normalization these look like: -- -- A: [A1, A2, A3, A4, A5, A6, ...] -- B: [B1, B1, B2, B2, B3, B3, ...] -- -- ..because B is "twice as slow" as A. (periods, traceNames, widths, valuess) = unzip4 $ map (\(a, (b, c, d)) -> (a, b, c, d)) (flattenMap periodMap) periods' = map (`quot` timescale) periods valuess' = map slice $ zipWith normalize periods' valuess normalize period values = concatMap (replicate period) values slice values = drop offset $ take cycles values headerDate = ["$date", Text.pack $ iso8601Format now, "$end"] #ifdef CABAL clashVer = Data.Version.showVersion Paths_clash_prelude.version #else clashVer = "development" #endif headerVersion = ["$version", "Generated by Clash", Text.pack clashVer , "$end"] headerComment = ["$comment", "No comment", "$end"] headerTimescale = ["$timescale", (show timescale) ++ "ps", "$end"] headerWires = [ Text.unwords $ headerWire w l n | (w, l, n) <- (zip3 widths labels traceNames)] headerWire w l n = map Text.pack ["$var wire", show w, [l], n, "$end"] initValues = map Text.pack $ zipWith ($) formatters inits formatters = zipWith format widths labels inits = map (maybe (error "dumpVCD##: empty value") fst . uncons) valuess' tails = map changed valuess' -- | Format single value according to VCD spec format :: Width -> Char -> Value -> String format 1 label (0,0) = ['0', label, '\n'] format 1 label (0,1) = ['1', label, '\n'] format 1 label (1,_) = ['x', label, '\n'] format 1 label (mask,val) = error $ "Can't format 1 bit wide value for " ++ show label ++ ": value " ++ show val ++ " and mask " ++ show mask format n label (mask,val) = "b" ++ map digit (reverse [0..n-1]) ++ " " ++ [label] where digit d = case (testBit mask d, testBit val d) of (False,False) -> '0' (False,True) -> '1' (True,_) -> 'x' -- | Given a list of values, return a list of list of bools indicating -- if a value changed. The first value is *not* included in the result. changed :: [Value] -> [(Changed, Value)] changed (s:ss) = zip (zipWith (/=) (s:ss) ss) ss changed [] = [] bodyParts :: [Maybe Text.Text] bodyParts = zipWith go [0..] (map bodyPart (Data.List.transpose tails)) where go :: Int -> Maybe Text.Text -> Maybe Text.Text go (Text.pack . show -> n) t = let pre = Text.concat ["#", n, "\n"] in fmap (Text.append pre) t bodyPart :: [(Changed, Value)] -> Maybe Text.Text bodyPart values = let formatted = [(c, f v) | (f, (c,v)) <- zip formatters values] formatted' = map (Text.pack . snd) $ filter fst $ formatted in if null formatted' then Nothing else Just $ Text.intercalate "\n" formatted' -- | Same as @dumpVCD@, but supplied with a custom tracemap dumpVCD# :: NFDataX a => IORef TraceMap -- ^ Map with collected traces -> (Int, Int) -- ^ (offset, number of samples) -> Signal dom a -- ^ (One of) the output(s) the circuit containing the traces -> [String] -- ^ The names of the traces you definitely want to be dumped to the VCD file -> IO (Either String Text.Text) dumpVCD# traceMap slice signal traceNames = do waitForTraces# traceMap signal traceNames m <- readIORef traceMap fmap (dumpVCD## slice m) getCurrentTime -- | Produce a four-state VCD (Value Change Dump) according to IEEE -- 1364-{1995,2001}. This function fails if a trace name contains either -- non-printable or non-VCD characters. -- -- Due to lazy evaluation, the created VCD files might not contain all the -- traces you were expecting. You therefore have to provide a list of names -- you definately want to be dumped in the VCD file. -- -- For example: -- -- @ -- vcd <- dumpVCD (0, 100) cntrOut ["main", "sub"] -- @ -- -- Evaluates /cntrOut/ long enough in order for to guarantee that the @main@, -- and @sub@ traces end up in the generated VCD file. dumpVCD :: NFDataX a => (Int, Int) -- ^ (offset, number of samples) -> Signal dom a -- ^ (One of) the outputs of the circuit containing the traces -> [String] -- ^ The names of the traces you definitely want to be dumped in the VCD file -> IO (Either String Text.Text) dumpVCD = dumpVCD# traceMap# -- | Dump a number of samples to a replayable bytestring. dumpReplayable :: forall a dom . NFDataX a => Int -- ^ Number of samples -> Signal dom a -- ^ (One of) the outputs of the circuit containing the traces -> String -- ^ Name of trace to dump -> IO ByteString dumpReplayable n oSignal traceName = do waitForTraces# traceMap# oSignal [traceName] replaySignal <- (Map.! traceName) <$> readIORef traceMap# let (tRep, _period, _width, samples) = replaySignal pure (ByteStringLazy.concat (tRep : map encode (take n samples))) -- | Take a serialized signal (dumped with @dumpReplayable@) and convert it -- back into a signal. Will error if dumped type does not match requested -- type. The first value in the signal that fails to decode will stop the -- decoding process and yield an error. Not that this always happens if you -- evaluate more values than were originally dumped. replay :: forall a dom n . ( Typeable a , NFDataX a , BitPack a , KnownNat n , n ~ BitSize a ) => ByteString -> Either String (Signal dom a) replay bytes0 = samples1 where samples1 = case decodeOrFail bytes0 of Left (_, _, err) -> Left ("Failed to decode typeRep. Parser reported:\n\n" ++ err) Right (bytes1, _, _ :: TypeRep a) -> let samples0 = decodeSamples bytes1 in let err = "Failed to decode value in signal. Parser reported:\n\n " in Right (fromList (map (either (error . (err ++)) id) samples0)) -- | Helper function of 'replay'. Decodes ByteString to some type with -- BitVector as an intermediate type. decodeSamples :: forall a n . ( BitPack a , KnownNat n , n ~ BitSize a ) => ByteString -> [Either String a] decodeSamples bytes0 = case decodeOrFail bytes0 of Left (_, _, err) -> [Left err] Right (bytes1, _, (m, v)) -> (Right (unpack (BV m v))) : decodeSamples bytes1 -- | Keep evaluating given signal until all trace names are present. waitForTraces# :: NFDataX a => IORef TraceMap -- ^ Map with collected traces -> Signal dom a -- ^ (One of) the output(s) the circuit containing the traces -> [String] -- ^ The names of the traces you definitely want to be dumped to the VCD file -> IO () waitForTraces# traceMap signal traceNames = do atomicWriteIORef traceMap Map.empty rest <- foldM go signal traceNames seq rest (return ()) where go (s0 :- ss) nm = do m <- readIORef traceMap if Map.member nm m then deepseqX s0 (return ss) else deepseqX s0 (go ss nm)