git-annex/Backend/Hash.hs

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{- git-tnnex hashing backends
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-
- Copyright 2011-2013 Joey Hess <id@joeyh.name>
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-
- Licensed under the GNU GPL version 3 or higher.
-}
{-# LANGUAGE CPP #-}
module Backend.Hash (
backends,
testKeyBackend,
) where
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import Common.Annex
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import qualified Annex
import Types.Backend
import Types.Key
import Types.KeySource
Use cryptohash rather than SHA for hashing. This is a massive win on OSX, which doesn't have a sha256sum normally. Only use external hash commands when the file is > 1 mb, since cryptohash is quite close to them in speed. SHA is still used to calculate HMACs. I don't quite understand cryptohash's API for those. Used the following benchmark to arrive at the 1 mb number. 1 mb file: benchmarking sha256/internal mean: 13.86696 ms, lb 13.83010 ms, ub 13.93453 ms, ci 0.950 std dev: 249.3235 us, lb 162.0448 us, ub 458.1744 us, ci 0.950 found 5 outliers among 100 samples (5.0%) 4 (4.0%) high mild 1 (1.0%) high severe variance introduced by outliers: 10.415% variance is moderately inflated by outliers benchmarking sha256/external mean: 14.20670 ms, lb 14.17237 ms, ub 14.27004 ms, ci 0.950 std dev: 230.5448 us, lb 150.7310 us, ub 427.6068 us, ci 0.950 found 3 outliers among 100 samples (3.0%) 2 (2.0%) high mild 1 (1.0%) high severe 2 mb file: benchmarking sha256/internal mean: 26.44270 ms, lb 26.23701 ms, ub 26.63414 ms, ci 0.950 std dev: 1.012303 ms, lb 925.8921 us, ub 1.122267 ms, ci 0.950 variance introduced by outliers: 35.540% variance is moderately inflated by outliers benchmarking sha256/external mean: 26.84521 ms, lb 26.77644 ms, ub 26.91433 ms, ci 0.950 std dev: 347.7867 us, lb 210.6283 us, ub 571.3351 us, ci 0.950 found 6 outliers among 100 samples (6.0%) import Crypto.Hash import Data.ByteString.Lazy as L import Criterion.Main import Common testfile :: FilePath testfile = "/run/shm/data" -- on ram disk main = defaultMain [ bgroup "sha256" [ bench "internal" $ whnfIO internal , bench "external" $ whnfIO external ] ] sha256 :: L.ByteString -> Digest SHA256 sha256 = hashlazy internal :: IO String internal = show . sha256 <$> L.readFile testfile external :: IO String external = do s <- readProcess "sha256sum" [testfile] return $ fst $ separate (== ' ') s
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import Utility.Hash
import Utility.ExternalSHA
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import qualified Build.SysConfig as SysConfig
import qualified Data.ByteString.Lazy as L
import Data.Char
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data Hash = SHAHash HashSize | SkeinHash HashSize
type HashSize = Int
{- Order is slightly significant; want SHA256 first, and more general
- sizes earlier. -}
hashes :: [Hash]
hashes = concat
[ map SHAHash [256, 1, 512, 224, 384]
, map SkeinHash [256, 512]
]
{- The SHA256E backend is the default, so genBackendE comes first. -}
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backends :: [Backend]
backends = map genBackendE hashes ++ map genBackend hashes
genBackend :: Hash -> Backend
genBackend hash = Backend
{ name = hashName hash
, getKey = keyValue hash
, fsckKey = Just $ checkKeyChecksum hash
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, canUpgradeKey = Just needsUpgrade
, fastMigrate = Just trivialMigrate
, isStableKey = const True
}
genBackendE :: Hash -> Backend
genBackendE hash = (genBackend hash)
{ name = hashNameE hash
, getKey = keyValueE hash
}
hashName :: Hash -> String
hashName (SHAHash size) = "SHA" ++ show size
hashName (SkeinHash size) = "SKEIN" ++ show size
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hashNameE :: Hash -> String
hashNameE hash = hashName hash ++ "E"
{- A key is a hash of its contents. -}
keyValue :: Hash -> KeySource -> Annex (Maybe Key)
keyValue hash source = do
let file = contentLocation source
filesize <- liftIO $ getFileSize file
s <- hashFile hash file filesize
return $ Just $ stubKey
{ keyName = s
, keyBackendName = hashName hash
, keySize = Just filesize
}
{- Extension preserving keys. -}
keyValueE :: Hash -> KeySource -> Annex (Maybe Key)
keyValueE hash source = keyValue hash source >>= maybe (return Nothing) addE
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where
addE k = return $ Just $ k
{ keyName = keyName k ++ selectExtension (keyFilename source)
, keyBackendName = hashNameE hash
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}
selectExtension :: FilePath -> String
selectExtension f
| null es = ""
| otherwise = intercalate "." ("":es)
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where
es = filter (not . null) $ reverse $
take 2 $ takeWhile shortenough $
reverse $ split "." $ filter validExtension $ takeExtensions f
shortenough e = length e <= 4 -- long enough for "jpeg"
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{- A key's checksum is checked during fsck. -}
checkKeyChecksum :: Hash -> Key -> FilePath -> Annex Bool
checkKeyChecksum hash key file = do
fast <- Annex.getState Annex.fast
mstat <- liftIO $ catchMaybeIO $ getFileStatus file
case (mstat, fast) of
(Just stat, False) -> do
filesize <- liftIO $ getFileSize' file stat
showSideAction "checksum"
check <$> hashFile hash file filesize
_ -> return True
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where
expected = keyHash key
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check s
| s == expected = True
{- A bug caused checksums to be prefixed with \ in some
- cases; still accept these as legal now that the bug has been
- fixed. -}
| '\\' : s == expected = True
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| otherwise = False
keyHash :: Key -> String
keyHash key = dropExtensions (keyName key)
validExtension :: Char -> Bool
validExtension c
| isAlphaNum c = True
| c == '.' = True
| otherwise = False
{- Upgrade keys that have the \ prefix on their sha due to a bug, or
- that contain non-alphanumeric characters in their extension. -}
needsUpgrade :: Key -> Bool
needsUpgrade key = "\\" `isPrefixOf` keyHash key ||
any (not . validExtension) (takeExtensions $ keyName key)
trivialMigrate :: Key -> Backend -> AssociatedFile -> Maybe Key
trivialMigrate oldkey newbackend afile
{- Fast migration from hashE to hash backend. -}
| keyBackendName oldkey == name newbackend ++ "E" = Just $ oldkey
{ keyName = keyHash oldkey
, keyBackendName = name newbackend
}
{- Fast migration from hash to hashE backend. -}
| keyBackendName oldkey ++"E" == name newbackend = case afile of
Nothing -> Nothing
Just file -> Just $ oldkey
{ keyName = keyHash oldkey ++ selectExtension file
, keyBackendName = name newbackend
}
| otherwise = Nothing
hashFile :: Hash -> FilePath -> Integer -> Annex String
hashFile hash file filesize = liftIO $ go hash
where
go (SHAHash hashsize) = case shaHasher hashsize filesize of
Left sha -> sha <$> L.readFile file
Right command ->
either error return
=<< externalSHA command hashsize file
go (SkeinHash hashsize) = skeinHasher hashsize <$> L.readFile file
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shaHasher :: HashSize -> Integer -> Either (L.ByteString -> String) String
shaHasher hashsize filesize
| hashsize == 1 = use SysConfig.sha1 sha1
| hashsize == 256 = use SysConfig.sha256 sha256
| hashsize == 224 = use SysConfig.sha224 sha224
| hashsize == 384 = use SysConfig.sha384 sha384
| hashsize == 512 = use SysConfig.sha512 sha512
| otherwise = error $ "unsupported sha size " ++ show hashsize
where
use Nothing hasher = Left $ show . hasher
use (Just c) hasher
{- Use builtin, but slightly slower hashing for
- smallish files. Cryptohash benchmarks 90 to 101%
- faster than external hashers, depending on the hash
- and system. So there is no point forking an external
- process unless the file is large. -}
| filesize < 1048576 = use Nothing hasher
| otherwise = Right c
skeinHasher :: HashSize -> (L.ByteString -> String)
skeinHasher hashsize
| hashsize == 256 = show . skein256
| hashsize == 512 = show . skein512
| otherwise = error $ "unsupported skein size " ++ show hashsize
{- A varient of the SHA256E backend, for testing that needs special keys
- that cannot collide with legitimate keys in the repository.
-
- This is accomplished by appending a special extension to the key,
- that is not one that selectExtension would select (due to being too
- long).
-}
testKeyBackend :: Backend
testKeyBackend =
let b = genBackendE (SHAHash 256)
in b { getKey = (fmap addE) <$$> getKey b }
where
addE k = k { keyName = keyName k ++ longext }
longext = ".this-is-a-test-key"