Merge branch 'scram-sha-256' of https://github.com/fumieval/mongodb into external

This commit is contained in:
Rene Vergara 2023-07-27 10:44:45 -05:00
commit 4a9a1cb63f
Signed by: pitmutt
GPG key ID: 65122AD495A7F5B2

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@ -11,7 +11,7 @@ module Database.MongoDB.Query (
-- * Database -- * Database
Database, allDatabases, useDb, thisDatabase, Database, allDatabases, useDb, thisDatabase,
-- ** Authentication -- ** Authentication
Username, Password, auth, authMongoCR, authSCRAMSHA1, Username, Password, auth, authMongoCR, authSCRAMSHA1, authSCRAMSHA256,
-- * Collection -- * Collection
Collection, allCollections, Collection, allCollections,
-- ** Selection -- ** Selection
@ -61,8 +61,10 @@ import Control.Monad
) )
import Control.Monad.Reader (MonadReader, ReaderT, ask, asks, local, runReaderT) import Control.Monad.Reader (MonadReader, ReaderT, ask, asks, local, runReaderT)
import Control.Monad.Trans (MonadIO, liftIO, lift) import Control.Monad.Trans (MonadIO, liftIO, lift)
import Control.Monad.Trans.Except
import qualified Crypto.Hash.MD5 as MD5 import qualified Crypto.Hash.MD5 as MD5
import qualified Crypto.Hash.SHA1 as SHA1 import qualified Crypto.Hash.SHA1 as SHA1
import qualified Crypto.Hash.SHA256 as SHA256
import qualified Crypto.MAC.HMAC as HMAC import qualified Crypto.MAC.HMAC as HMAC
import qualified Crypto.Nonce as Nonce import qualified Crypto.Nonce as Nonce
import Data.Binary.Put (runPut) import Data.Binary.Put (runPut)
@ -285,62 +287,93 @@ authMongoCR usr pss = do
n <- at "nonce" <$> runCommand ["getnonce" =: (1 :: Int)] n <- at "nonce" <$> runCommand ["getnonce" =: (1 :: Int)]
true1 "ok" <$> runCommand ["authenticate" =: (1 :: Int), "user" =: usr, "nonce" =: n, "key" =: pwKey n usr pss] true1 "ok" <$> runCommand ["authenticate" =: (1 :: Int), "user" =: usr, "nonce" =: n, "key" =: pwKey n usr pss]
data HashAlgorithm = SHA1 | SHA256 deriving Show
hash :: HashAlgorithm -> B.ByteString -> B.ByteString
hash SHA1 = SHA1.hash
hash SHA256 = SHA256.hash
authSCRAMSHA1 :: MonadIO m => Username -> Password -> Action m Bool authSCRAMSHA1 :: MonadIO m => Username -> Password -> Action m Bool
authSCRAMSHA1 = authSCRAMWith SHA1
authSCRAMSHA256 :: MonadIO m => Username -> Password -> Action m Bool
authSCRAMSHA256 = authSCRAMWith SHA256
toAuthResult :: Functor m => ExceptT String (Action m) () -> Action m Bool
toAuthResult = fmap (either (const False) (const True)) . runExceptT
-- | It should technically perform SASLprep, but the implementation is currently id
saslprep :: Text -> Text
saslprep = id
authSCRAMWith :: MonadIO m => HashAlgorithm -> Username -> Password -> Action m Bool
-- ^ Authenticate with the current database, using the SCRAM-SHA-1 authentication mechanism (default in MongoDB server >= 3.0) -- ^ Authenticate with the current database, using the SCRAM-SHA-1 authentication mechanism (default in MongoDB server >= 3.0)
authSCRAMSHA1 un pw = do authSCRAMWith algo un pw = toAuthResult $ do
let hmac = HMAC.hmac SHA1.hash 64 let hmac = HMAC.hmac (hash algo) 64
nonce <- liftIO (Nonce.withGenerator Nonce.nonce128 <&> B64.encode) nonce <- liftIO (Nonce.withGenerator Nonce.nonce128 <&> B64.encode)
let firstBare = B.concat [B.pack $ "n=" ++ T.unpack un ++ ",r=", nonce] let firstBare = B.concat [B.pack $ "n=" ++ T.unpack un ++ ",r=", nonce]
let client1 = ["saslStart" =: (1 :: Int), "mechanism" =: ("SCRAM-SHA-1" :: String), "payload" =: (B.unpack . B64.encode $ B.concat [B.pack "n,,", firstBare]), "autoAuthorize" =: (1 :: Int)] let client1 =
server1 <- runCommand client1 [ "saslStart" =: (1 :: Int)
, "mechanism" =: case algo of
SHA1 -> "SCRAM-SHA-1" :: String
SHA256 -> "SCRAM-SHA-256"
, "payload" =: (B.unpack . B64.encode $ B.concat [B.pack "n,,", firstBare])
, "autoAuthorize" =: (1 :: Int)
]
server1 <- lift $ runCommand client1
shortcircuit (true1 "ok" server1) $ do shortcircuit (true1 "ok" server1) (show server1)
let serverPayload1 = B64.decodeLenient . B.pack . at "payload" $ server1 let serverPayload1 = B64.decodeLenient . B.pack . at "payload" $ server1
let serverData1 = parseSCRAM serverPayload1 let serverData1 = parseSCRAM serverPayload1
let iterations = read . B.unpack $ Map.findWithDefault "1" "i" serverData1 let iterations = read . B.unpack $ Map.findWithDefault "1" "i" serverData1
let salt = B64.decodeLenient $ Map.findWithDefault "" "s" serverData1 let salt = B64.decodeLenient $ Map.findWithDefault "" "s" serverData1
let snonce = Map.findWithDefault "" "r" serverData1 let snonce = Map.findWithDefault "" "r" serverData1
shortcircuit (B.isInfixOf nonce snonce) $ do shortcircuit (B.isInfixOf nonce snonce) "nonce"
let withoutProof = B.concat [B.pack "c=biws,r=", snonce] let withoutProof = B.concat [B.pack "c=biws,r=", snonce]
let digestS = B.pack $ T.unpack un ++ ":mongo:" ++ T.unpack pw let digest = case algo of
let digest = B16.encode $ MD5.hash digestS SHA1 -> B16.encode $ MD5.hash $ B.pack $ T.unpack un ++ ":mongo:" ++ T.unpack pw
let saltedPass = scramHI digest salt iterations SHA256 -> B.pack $ T.unpack $ saslprep pw
let clientKey = hmac saltedPass (B.pack "Client Key") let saltedPass = scramHI algo digest salt iterations
let storedKey = SHA1.hash clientKey let clientKey = hmac saltedPass (B.pack "Client Key")
let authMsg = B.concat [firstBare, B.pack ",", serverPayload1, B.pack ",", withoutProof] let storedKey = hash algo clientKey
let clientSig = hmac storedKey authMsg let authMsg = B.concat [firstBare, B.pack ",", serverPayload1, B.pack ",", withoutProof]
let pval = B64.encode . BS.pack $ BS.zipWith xor clientKey clientSig let clientSig = hmac storedKey authMsg
let clientFinal = B.concat [withoutProof, B.pack ",p=", pval] let pval = B64.encode . BS.pack $ BS.zipWith xor clientKey clientSig
let serverKey = hmac saltedPass (B.pack "Server Key") let clientFinal = B.concat [withoutProof, B.pack ",p=", pval]
let serverSig = B64.encode $ hmac serverKey authMsg
let client2 = ["saslContinue" =: (1 :: Int), "conversationId" =: (at "conversationId" server1 :: Int), "payload" =: B.unpack (B64.encode clientFinal)]
server2 <- runCommand client2
shortcircuit (true1 "ok" server2) $ do let client2 =
let serverPayload2 = B64.decodeLenient . B.pack $ at "payload" server2 [ "saslContinue" =: (1 :: Int)
let serverData2 = parseSCRAM serverPayload2 , "conversationId" =: (at "conversationId" server1 :: Int)
let serverSigComp = Map.findWithDefault "" "v" serverData2 , "payload" =: B.unpack (B64.encode clientFinal)
]
server2 <- lift $ runCommand client2
shortcircuit (true1 "ok" server2) (show server2)
shortcircuit (serverSig == serverSigComp) $ do let serverKey = hmac saltedPass (B.pack "Server Key")
let done = true1 "done" server2 let serverSig = B64.encode $ hmac serverKey authMsg
if done let serverPayload2 = B64.decodeLenient . B.pack $ at "payload" server2
then return True let serverData2 = parseSCRAM serverPayload2
else do let serverSigComp = Map.findWithDefault "" "v" serverData2
let client2Step2 = [ "saslContinue" =: (1 :: Int)
, "conversationId" =: (at "conversationId" server1 :: Int) shortcircuit (serverSig == serverSigComp) "server signature does not match"
, "payload" =: String ""] if true1 "done" server2
server3 <- runCommand client2Step2 then return ()
shortcircuit (true1 "ok" server3) $ do else do
return True let client2Step2 = [ "saslContinue" =: (1 :: Int)
, "conversationId" =: (at "conversationId" server1 :: Int)
, "payload" =: String ""]
server3 <- lift $ runCommand client2Step2
shortcircuit (true1 "ok" server3) "server3"
shortcircuit :: Monad m => Bool -> String -> ExceptT String m ()
shortcircuit True _ = pure ()
shortcircuit False reason = throwE (show reason)
scramHI :: HashAlgorithm -> B.ByteString -> B.ByteString -> Int -> B.ByteString
scramHI algo digest salt iters = snd $ foldl com (u1, u1) [1..(iters-1)]
where where
shortcircuit True f = f hmacd = HMAC.hmac (hash algo) 64 digest
shortcircuit False _ = return False
scramHI :: B.ByteString -> B.ByteString -> Int -> B.ByteString
scramHI digest salt iters = snd $ foldl com (u1, u1) [1..(iters-1)]
where
hmacd = HMAC.hmac SHA1.hash 64 digest
u1 = hmacd (B.concat [salt, BS.pack [0, 0, 0, 1]]) u1 = hmacd (B.concat [salt, BS.pack [0, 0, 0, 1]])
com (u,uc) _ = let u' = hmacd u in (u', BS.pack $ BS.zipWith xor uc u') com (u,uc) _ = let u' = hmacd u in (u', BS.pack $ BS.zipWith xor uc u')