ghcup-hs/3rdparty/zlib/test/Test.hs

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{-# LANGUAGE CPP #-}
{-# LANGUAGE RankNTypes #-}
module Main where
import Codec.Compression.Zlib.Internal
import qualified Codec.Compression.Zlib as Zlib
import qualified Codec.Compression.GZip as GZip
import qualified Codec.Compression.Zlib.Raw as Raw
import Test.Codec.Compression.Zlib.Internal ()
import Test.Codec.Compression.Zlib.Stream ()
import Test.QuickCheck
import Test.Tasty
import Test.Tasty.QuickCheck
import Test.Tasty.HUnit
import Utils ()
import Control.Monad
import Control.Monad.ST.Lazy (ST)
import Control.Exception
import qualified Data.ByteString.Char8 as BS.Char8
import qualified Data.ByteString.Lazy as BL
import qualified Data.ByteString as BS
import System.IO
#if !(MIN_VERSION_base(4,6,0))
import Prelude hiding (catch)
#endif
main :: IO ()
main = defaultMain $
testGroup "zlib tests" [
testGroup "property tests" [
testProperty "decompress . compress = id (standard)" prop_decompress_after_compress,
testProperty "decompress . compress = id (Zlib -> GZipOrZLib)" prop_gziporzlib1,
testProperty "decompress . compress = id (GZip -> GZipOrZlib)" prop_gziporzlib2,
testProperty "concatenated gzip members" prop_gzip_concat,
testProperty "multiple gzip members, boundaries (all 2-chunks)" prop_multiple_members_boundary2,
testProperty "multiple gzip members, boundaries (all 3-chunks)" prop_multiple_members_boundary3,
testProperty "prefixes of valid stream detected as truncated" prop_truncated
],
testGroup "unit tests" [
testCase "simple gzip case" test_simple_gzip,
testCase "detect bad crc" test_bad_crc,
testCase "detect non-gzip" test_non_gzip,
testCase "detect custom dictionary" test_custom_dict,
testCase "dectect inflate with wrong dict" test_wrong_dictionary,
testCase "dectect inflate with right dict" test_right_dictionary,
testCase "handle trailing data" test_trailing_data,
testCase "multiple gzip members" test_multiple_members,
testCase "check small input chunks" test_small_chunks,
testCase "check empty input" test_empty,
testCase "check exception raised" test_exception
]
]
prop_decompress_after_compress :: Format
-> CompressParams
-> DecompressParams
-> Property
prop_decompress_after_compress w cp dp =
(w /= zlibFormat || decompressWindowBits dp >= compressWindowBits cp) &&
(decompressWindowBits dp > compressWindowBits cp) &&
decompressBufferSize dp > 0 && compressBufferSize cp > 0 ==>
liftM2 (==) (decompress w dp . compress w cp) id
prop_gziporzlib1 :: CompressParams
-> DecompressParams
-> Property
prop_gziporzlib1 cp dp =
decompressWindowBits dp > compressWindowBits cp &&
decompressBufferSize dp > 0 && compressBufferSize cp > 0 ==>
liftM2 (==) (decompress gzipOrZlibFormat dp . compress zlibFormat cp) id
prop_gziporzlib2 :: CompressParams
-> DecompressParams
-> Property
prop_gziporzlib2 cp dp =
decompressWindowBits dp >= compressWindowBits cp &&
decompressBufferSize dp > 0 && compressBufferSize cp > 0 ==>
liftM2 (==) (decompress gzipOrZlibFormat dp . compress gzipFormat cp) id
prop_gzip_concat :: CompressParams
-> DecompressParams
-> BL.ByteString
-> Property
prop_gzip_concat cp dp input =
decompressWindowBits dp >= compressWindowBits cp &&
decompressBufferSize dp > 0 && compressBufferSize cp > 0 ==>
let catComp = BL.concat (replicate 5 (compress gzipFormat cp input))
compCat = compress gzipFormat cp (BL.concat (replicate 5 input))
in decompress gzipFormat dp { decompressAllMembers = True } catComp
== decompress gzipFormat dp { decompressAllMembers = True } compCat
prop_multiple_members_boundary2 :: Property
prop_multiple_members_boundary2 =
forAll shortStrings $ \bs ->
all (\c -> decomp c == BL.append bs bs)
(twoChunkSplits (comp bs `BL.append` comp bs))
where
comp = compress gzipFormat defaultCompressParams
decomp = decompress gzipFormat defaultDecompressParams
shortStrings = fmap BL.pack $ listOf arbitrary
prop_multiple_members_boundary3 :: Property
prop_multiple_members_boundary3 =
forAll shortStrings $ \bs ->
all (\c -> decomp c == BL.append bs bs)
(threeChunkSplits (comp bs `BL.append` comp bs))
where
comp = compress gzipFormat defaultCompressParams
decomp = decompress gzipFormat defaultDecompressParams
shortStrings = sized $ \sz -> resize (sz `div` 10) $
fmap BL.pack $ listOf arbitrary
prop_truncated :: Format -> Property
prop_truncated format =
forAll shortStrings $ \bs ->
all (truncated decomp)
(init (BL.inits (comp bs)))
-- All the initial prefixes of a valid compressed stream should be detected
-- as truncated.
where
comp = compress format defaultCompressParams
decomp = decompressST format defaultDecompressParams
truncated :: (forall s. DecompressStream (ST s)) -> BL.ByteString -> Bool
truncated = foldDecompressStreamWithInput (\_ r -> r) (\_ -> False)
(\err -> case err of TruncatedInput -> True; _ -> False)
shortStrings = sized $ \sz -> resize (sz `div` 6) arbitrary
test_simple_gzip :: Assertion
test_simple_gzip =
withSampleData "hello.gz" $ \hnd ->
let decomp = decompressIO gzipFormat defaultDecompressParams
in assertDecompressOk hnd decomp
test_bad_crc :: Assertion
test_bad_crc =
withSampleData "bad-crc.gz" $ \hnd -> do
let decomp = decompressIO gzipFormat defaultDecompressParams
err <- assertDecompressError hnd decomp
msg <- assertDataFormatError err
msg @?= "incorrect data check"
test_non_gzip :: Assertion
test_non_gzip = do
withSampleData "not-gzip" $ \hnd -> do
let decomp = decompressIO gzipFormat defaultDecompressParams
err <- assertDecompressError hnd decomp
msg <- assertDataFormatError err
msg @?= "incorrect header check"
withSampleData "not-gzip" $ \hnd -> do
let decomp = decompressIO zlibFormat defaultDecompressParams
err <- assertDecompressError hnd decomp
msg <- assertDataFormatError err
msg @?= "incorrect header check"
withSampleData "not-gzip" $ \hnd -> do
let decomp = decompressIO rawFormat defaultDecompressParams
err <- assertDecompressError hnd decomp
msg <- assertDataFormatError err
msg @?= "invalid code lengths set"
withSampleData "not-gzip" $ \hnd -> do
let decomp = decompressIO gzipOrZlibFormat defaultDecompressParams
err <- assertDecompressError hnd decomp
msg <- assertDataFormatError err
msg @?= "incorrect header check"
test_custom_dict :: Assertion
test_custom_dict =
withSampleData "custom-dict.zlib" $ \hnd -> do
let decomp = decompressIO zlibFormat defaultDecompressParams
err <- assertDecompressError hnd decomp
err @?= DictionaryRequired
test_wrong_dictionary :: Assertion
test_wrong_dictionary = do
withSampleData "custom-dict.zlib" $ \hnd -> do
let decomp = decompressIO zlibFormat defaultDecompressParams {
decompressDictionary = -- wrong dict!
Just (BS.pack [65,66,67])
}
err <- assertDecompressError hnd decomp
err @?= DictionaryMismatch
test_right_dictionary :: Assertion
test_right_dictionary = do
withSampleData "custom-dict.zlib" $ \hnd -> do
dict <- readSampleData "custom-dict.zlib-dict"
let decomp = decompressIO zlibFormat defaultDecompressParams {
decompressDictionary =
Just (toStrict dict)
}
assertDecompressOk hnd decomp
test_trailing_data :: Assertion
test_trailing_data =
withSampleData "two-files.gz" $ \hnd -> do
let decomp = decompressIO gzipFormat defaultDecompressParams {
decompressAllMembers = False
}
chunks <- assertDecompressOkChunks hnd decomp
case chunks of
[chunk] -> chunk @?= BS.Char8.pack "Test 1"
_ -> assertFailure "expected single chunk"
test_multiple_members :: Assertion
test_multiple_members =
withSampleData "two-files.gz" $ \hnd -> do
let decomp = decompressIO gzipFormat defaultDecompressParams {
decompressAllMembers = True
}
chunks <- assertDecompressOkChunks hnd decomp
case chunks of
[chunk1,
chunk2] -> do chunk1 @?= BS.Char8.pack "Test 1"
chunk2 @?= BS.Char8.pack "Test 2"
_ -> assertFailure "expected two chunks"
test_small_chunks :: Assertion
test_small_chunks = do
uncompressedFile <- readSampleData "not-gzip"
GZip.compress (smallChunks uncompressedFile) @?= GZip.compress uncompressedFile
Zlib.compress (smallChunks uncompressedFile) @?= Zlib.compress uncompressedFile
Raw.compress (smallChunks uncompressedFile) @?= Raw.compress uncompressedFile
GZip.decompress (smallChunks (GZip.compress uncompressedFile)) @?= uncompressedFile
Zlib.decompress (smallChunks (Zlib.compress uncompressedFile)) @?= uncompressedFile
Raw.decompress (smallChunks (Raw.compress uncompressedFile)) @?= uncompressedFile
compressedFile <- readSampleData "hello.gz"
(GZip.decompress . smallChunks) compressedFile @?= GZip.decompress compressedFile
test_empty :: Assertion
test_empty = do
-- Regression test to make sure we only ask for input once in the case of
-- initially empty input. We previously asked for input twice before
-- returning the error.
let decomp = decompressIO zlibFormat defaultDecompressParams
case decomp of
DecompressInputRequired next -> do
decomp' <- next BS.empty
case decomp' of
DecompressStreamError TruncatedInput -> return ()
_ -> assertFailure "expected truncated error"
_ -> assertFailure "expected input"
test_exception :: Assertion
test_exception =
(do
compressedFile <- readSampleData "bad-crc.gz"
_ <- evaluate (BL.length (GZip.decompress compressedFile))
assertFailure "expected exception")
`catch` \err -> do
msg <- assertDataFormatError err
msg @?= "incorrect data check"
toStrict :: BL.ByteString -> BS.ByteString
#if MIN_VERSION_bytestring(0,10,0)
toStrict = BL.toStrict
#else
toStrict = BS.concat . BL.toChunks
#endif
-----------------------
-- Chunk boundary utils
smallChunks :: BL.ByteString -> BL.ByteString
smallChunks = BL.fromChunks . map (\c -> BS.pack [c]) . BL.unpack
twoChunkSplits :: BL.ByteString -> [BL.ByteString]
twoChunkSplits bs = zipWith (\a b -> BL.fromChunks [a,b]) (BS.inits sbs) (BS.tails sbs)
where
sbs = toStrict bs
threeChunkSplits :: BL.ByteString -> [BL.ByteString]
threeChunkSplits bs =
[ BL.fromChunks [a,b,c]
| (a,x) <- zip (BS.inits sbs) (BS.tails sbs)
, (b,c) <- zip (BS.inits x) (BS.tails x) ]
where
sbs = toStrict bs
--------------
-- HUnit Utils
readSampleData :: FilePath -> IO BL.ByteString
readSampleData file = BL.readFile ("test/data/" ++ file)
withSampleData :: FilePath -> (Handle -> IO a) -> IO a
withSampleData file = withFile ("test/data/" ++ file) ReadMode
expected :: String -> String -> IO a
expected e g = assertFailure ("expected: " ++ e ++ "\nbut got: " ++ g)
>> fail ""
assertDecompressOk :: Handle -> DecompressStream IO -> Assertion
assertDecompressOk hnd =
foldDecompressStream
(BS.hGet hnd 4000 >>=)
(\_ r -> r)
(\_ -> return ())
(\err -> expected "decompress ok" (show err))
assertDecompressOkChunks :: Handle -> DecompressStream IO -> IO [BS.ByteString]
assertDecompressOkChunks hnd =
foldDecompressStream
(BS.hGet hnd 4000 >>=)
(\chunk -> liftM (chunk:))
(\_ -> return [])
(\err -> expected "decompress ok" (show err))
assertDecompressError :: Handle -> DecompressStream IO -> IO DecompressError
assertDecompressError hnd =
foldDecompressStream
(BS.hGet hnd 4000 >>=)
(\_ r -> r)
(\_ -> expected "StreamError" "StreamEnd")
return
assertDataFormatError :: DecompressError -> IO String
assertDataFormatError (DataFormatError detail) = return detail
assertDataFormatError _ = assertFailure "expected DataError"
>> return ""