mirror of
https://github.com/GaloisInc/macaw.git
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4c7a69b11d
The main changes are: - `postCallAbsState` was removed from the architecture info - `mkInitialRegsForBlock` was renamed to `initialBlockRegs` and takes slightly different parameters - There is a new type family and some new functions in the architecture info relating to post-block/terminator abstract state construction PowerPC doesn't need any extra information to compute post-block abstract states, so we use () as the ArchBlockPrecond type.
156 lines
6.6 KiB
Haskell
156 lines
6.6 KiB
Haskell
{-# LANGUAGE ScopedTypeVariables #-}
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{-# LANGUAGE DataKinds #-}
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{-# LANGUAGE DeriveDataTypeable #-}
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{-# LANGUAGE FlexibleContexts #-}
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{-# LANGUAGE GeneralizedNewtypeDeriving #-}
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{-# LANGUAGE RankNTypes #-}
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{-# LANGUAGE TypeApplications #-}
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module PPC64Tests (
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ppcAsmTests
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) where
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import Control.Lens ( (^.) )
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import Control.Monad ( unless )
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import qualified Data.Foldable as F
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import qualified Data.Map as M
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import Data.Maybe ( fromJust )
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import qualified Data.Set as S
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import Data.Word ( Word64 )
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import System.FilePath ( dropExtension, replaceExtension )
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import qualified Test.Tasty as T
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import qualified Test.Tasty.HUnit as T
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import Text.Printf ( PrintfArg, printf )
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import Text.Read ( readMaybe )
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import qualified Data.ElfEdit as E
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import qualified Data.Parameterized.Some as PU
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import qualified Data.Macaw.BinaryLoader as MBL
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import qualified Data.Macaw.BinaryLoader.PPC ()
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import qualified Data.Macaw.Memory as MM
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import qualified Data.Macaw.Memory.ElfLoader as MM
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import qualified Data.Macaw.Discovery as MD
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import qualified Data.Macaw.PPC as RO
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import qualified SemMC.Architecture.PPC64 as PPC64
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import Shared
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ppcAsmTests :: [FilePath] -> T.TestTree
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ppcAsmTests = T.testGroup "PPC" . map mkTest
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newtype Hex a = Hex a
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deriving (Eq, Ord, Num, PrintfArg)
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instance (Num a, Show a, PrintfArg a) => Show (Hex a) where
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show (Hex a) = printf "0x%x" a
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instance (Read a) => Read (Hex a) where
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readsPrec i s = [ (Hex a, s') | (a, s') <- readsPrec i s ]
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-- | The type of expected results for test cases
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data ExpectedResult =
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R { funcs :: [(Hex Word64, [(Hex Word64, Word64)])]
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-- ^ The first element of the pair is the address of entry point
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-- of the function. The list is a list of the addresses of the
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-- basic blocks in the function (including the first block).
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, ignoreBlocks :: [Hex Word64]
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-- ^ This is a list of discovered blocks to ignore. This is
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-- basically just the address of the instruction after the exit
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-- syscall, as macaw doesn't know that exit never returns and
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-- discovers a false block after exit.
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}
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deriving (Read, Show, Eq)
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-- | Read in a test case from disk and output a test tree.
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mkTest :: FilePath -> T.TestTree
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mkTest fp = T.testCase fp $ withELF exeFilename (testDiscovery fp)
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where
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asmFilename = dropExtension fp
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exeFilename = replaceExtension asmFilename "exe"
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allDiscoveredBlocks :: MD.DiscoveryState arch -> [PU.Some (MD.ParsedBlock arch)]
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allDiscoveredBlocks di =
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[ PU.Some pbr
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| PU.Some dfi <- M.elems (di ^. MD.funInfo)
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, pbr <- M.elems (dfi ^. MD.parsedBlocks)
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]
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blockTerminator :: MD.ParsedBlock arch ids -> MD.ParsedTermStmt arch ids
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blockTerminator = MD.pblockTermStmt
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isClassifyFailure :: MD.ParsedTermStmt arch ids -> Bool
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isClassifyFailure ts =
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case ts of
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MD.ClassifyFailure {} -> True
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_ -> False
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isTranslateError :: MD.ParsedTermStmt arch ids -> Bool
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isTranslateError ts =
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case ts of
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MD.ParsedTranslateError {} -> True
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_ -> False
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-- | Run a test over a given expected result filename and the ELF file
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-- associated with it
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testDiscovery :: FilePath -> E.Elf 64 -> IO ()
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testDiscovery expectedFilename elf = do
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let loadCfg = MM.defaultLoadOptions
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{ MM.loadOffset = Just 0
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}
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loadedBinary :: MBL.LoadedBinary PPC64.PPC (E.Elf 64)
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<- MBL.loadBinary loadCfg elf
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entries <- MBL.entryPoints loadedBinary
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let cfg = RO.ppc64_linux_info loadedBinary
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let mem = MBL.memoryImage loadedBinary
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let di = MD.cfgFromAddrs cfg mem M.empty (F.toList entries) []
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expectedString <- readFile expectedFilename
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case readMaybe expectedString of
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-- Above: Read in the ExpectedResult from the contents of the file
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Nothing -> T.assertFailure ("Invalid expected result: " ++ show expectedString)
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Just er -> do
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let expectedEntries = M.fromList [ (entry, S.fromList starts) | (entry, starts) <- funcs er ]
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-- expectedEntries maps function entry points to the set of block starts
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-- within the function.
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ignoredBlocks = S.fromList (ignoreBlocks er)
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allFoundBlockAddrs :: S.Set Word64
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allFoundBlockAddrs =
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S.fromList [ fromIntegral (fromJust (MM.asAbsoluteAddr (MM.segoffAddr (MD.pblockAddr pbr))))
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| PU.Some pbr <- allDiscoveredBlocks di
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]
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-- Test that all discovered blocks were expected (and verify their sizes)
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F.forM_ (M.elems (di ^. MD.funInfo)) $ \(PU.Some dfi) -> do
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F.forM_ (allDiscoveredBlocks di) $ \(PU.Some pb) -> do
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let addr = absoluteFromSegOff (MD.pblockAddr pb)
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unless (S.member addr ignoredBlocks) $ do
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let term = blockTerminator pb
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T.assertBool ("Unclassified block at " ++ show (MD.pblockAddr pb)) (not (isClassifyFailure term))
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T.assertBool ("Translate error at " ++ show (MD.pblockAddr pb) ++ "\n" ++ show term) (not (isTranslateError term))
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let actualEntry = absoluteFromSegOff (MD.discoveredFunAddr dfi)
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actualBlockStarts = S.fromList [ (baddr, bsize)
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| pbr <- M.elems (dfi ^. MD.parsedBlocks)
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-- , trace ("Parsed Block: " ++ show pbr) True
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, let baddr = fromIntegral (fromJust (MM.asAbsoluteAddr (MM.segoffAddr (MD.pblockAddr pbr))))
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, let bsize = fromIntegral (MD.blockSize pbr)
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]
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case (S.member actualEntry ignoredBlocks, M.lookup actualEntry expectedEntries) of
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(True, _) -> return ()
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(_, Nothing) -> T.assertFailure (printf "Unexpected block start: 0x%x" actualEntry)
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(_, Just expectedBlockStarts) ->
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T.assertEqual (printf "Block starts for 0x%x" actualEntry) expectedBlockStarts (actualBlockStarts `removeIgnored` ignoredBlocks)
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-- Test that all expected blocks were discovered
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F.forM_ (funcs er) $ \(_funcAddr, blockAddrs) ->
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F.forM_ blockAddrs $ \(blockAddr@(Hex addr), _) -> do
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T.assertBool ("Missing block address: " ++ show blockAddr) (S.member addr allFoundBlockAddrs)
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absoluteFromSegOff :: MM.MemSegmentOff 64 -> Hex Word64
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absoluteFromSegOff = fromIntegral . fromJust . MM.asAbsoluteAddr . MM.segoffAddr
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removeIgnored :: (Ord b, Ord a) => S.Set (a, b) -> S.Set a -> S.Set (a, b)
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removeIgnored actualBlockStarts ignoredBlocks =
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F.foldr (\v@(addr, _) acc -> if S.member addr ignoredBlocks
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then S.delete v acc
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else acc) actualBlockStarts actualBlockStarts
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