crypto-pubkey-openssh-0.2.7/0000755000000000000000000000000012457651416014213 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/crypto-pubkey-openssh.cabal0000644000000000000000000000472612457651416021502 0ustar0000000000000000Name: crypto-pubkey-openssh Version: 0.2.7 Synopsis: OpenSSH keys decoder/encoder Description: OpenSSH keys decoder/encoder License: MIT License-file: LICENSE Copyright: Fedor Gogolev Author: Fedor Gogolev Maxim Mitroshin Thomas DuBuisson Maintainer: Fedor Gogolev Homepage: https://github.com/knsd/crypto-pubkey-openssh Bug-reports: https://github.com/knsd/crypto-pubkey-openssh/issues Category: Cryptography, Parsing Stability: Alpha Build-type: Simple Cabal-version: >= 1.12 Tested-with: GHC == 7.6.* Extra-source-files: README.md Flag OpenSsh Description: Test with ssh-keygen Default: False Library Hs-source-dirs: src Ghc-options: -Wall -fno-warn-orphans Default-language: Haskell2010 Build-depends: base >= 4.5 && < 5 , bytestring , base64-bytestring , cereal , attoparsec , crypto-pubkey-types , pem , asn1-types , asn1-encoding Exposed-modules: Crypto.PubKey.OpenSsh Other-modules: Crypto.PubKey.OpenSsh.Types Crypto.PubKey.OpenSsh.Encode Crypto.PubKey.OpenSsh.Decode Test-suite crypto-pubkey-openssh-tests Main-is: Tests.hs Hs-source-dirs: src, tests Default-language: Haskell2010 Type: exitcode-stdio-1.0 if flag(OpenSsh) cpp-options: -DOPENSSH Build-depends: base >= 4.5 && < 5 , bytestring , base64-bytestring , cereal , attoparsec , crypto-pubkey-types , pem , asn1-types , asn1-encoding , tasty , tasty-quickcheck , QuickCheck , temporary , process , filepath , deepseq Other-modules: Crypto.PubKey.OpenSsh.Encode.Tests Crypto.PubKey.OpenSsh.Decode.Tests SshKeygen Source-repository head Type: git Location: https://github.com/knsd/crypto-pubkey-openssh crypto-pubkey-openssh-0.2.7/LICENSE0000644000000000000000000000204012457651416015214 0ustar0000000000000000Copyright (c) 2013 Fedor Gogolev Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.crypto-pubkey-openssh-0.2.7/README.md0000644000000000000000000000101712457651416015471 0ustar0000000000000000crypto-pubkey-openssh [![Build Status](https://secure.travis-ci.org/knsd/crypto-pubkey-openssh.png)](http://travis-ci.org/knsd/crypto-pubkey-openssh) ===================== OpenSSH keys decoder/encoder, example. ```haskell import System.Environment (getArgs) import qualified Data.ByteString as B import Crypto.PubKey.OpenSsh (decodePrivate) main :: IO () main = do fname <- fmap head getArgs content <- B.readFile fname case decodePrivate content of Left e -> error e Right key -> print key ``` crypto-pubkey-openssh-0.2.7/Setup.hs0000644000000000000000000000005612457651416015650 0ustar0000000000000000import Distribution.Simple main = defaultMaincrypto-pubkey-openssh-0.2.7/src/0000755000000000000000000000000012457651416015002 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/src/Crypto/0000755000000000000000000000000012457651416016262 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/src/Crypto/PubKey/0000755000000000000000000000000012457651416017461 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/src/Crypto/PubKey/OpenSsh.hs0000644000000000000000000000067512457651416021404 0ustar0000000000000000module Crypto.PubKey.OpenSsh ( -- * Types OpenSshPublicKey(..) , OpenSshPrivateKey(..) -- * Encoding , encodePublic , decodePublic -- * Decoding , encodePrivate , decodePrivate ) where import Crypto.PubKey.OpenSsh.Types (OpenSshPublicKey(..), OpenSshPrivateKey(..)) import Crypto.PubKey.OpenSsh.Encode (encodePublic, encodePrivate) import Crypto.PubKey.OpenSsh.Decode (decodePublic, decodePrivate) crypto-pubkey-openssh-0.2.7/src/Crypto/PubKey/OpenSsh/0000755000000000000000000000000012457651416021040 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/src/Crypto/PubKey/OpenSsh/Decode.hs0000644000000000000000000001072712457651416022566 0ustar0000000000000000{-# LANGUAGE OverloadedStrings, RecordWildCards #-} module Crypto.PubKey.OpenSsh.Decode where import Prelude hiding (take) import Control.Applicative ((*>), (<|>)) import Control.Monad (void, replicateM) import Data.ByteString.Char8 (ByteString) import Data.Char (isControl) import Data.Attoparsec.ByteString.Char8 (Parser, parseOnly, space, isSpace, takeTill) import Data.PEM (PEM(..), pemParseBS) import Data.ASN1.Encoding (decodeASN1') import Data.ASN1.Types (ASN1(IntVal, Start, End), ASN1ConstructionType(Sequence)) import Data.ASN1.BinaryEncoding (DER(..)) import Data.Serialize (Get, getBytes, runGet, getWord32be, getWord8) import qualified Data.ByteString.Base64 as Base64 import qualified Crypto.Types.PubKey.DSA as DSA import qualified Crypto.Types.PubKey.RSA as RSA import Crypto.PubKey.OpenSsh.Types (OpenSshKeyType(..), OpenSshPublicKey(..), OpenSshPrivateKey(..)) readType :: Monad m => ByteString -> m OpenSshKeyType readType "ssh-rsa" = return OpenSshKeyTypeRsa readType "ssh-dss" = return OpenSshKeyTypeDsa readType _ = fail "Invalid key type" calculateSize :: Integer -> Int calculateSize = go 1 where go i n | 2 ^ (i * 8) > n = i | otherwise = go (i + 1) n getInteger :: Get Integer getInteger = do size <- fmap fromIntegral getWord32be ints <- fmap reverse $ replicateM size $ fmap toInteger getWord8 return $ fst $ flip foldl1 (zip ints ([0..] :: [Integer])) $ \(a, _) (c, p) -> (c * (256 ^ p) + a, p) getOpenSshPublicKey :: Get (ByteString -> OpenSshPublicKey) getOpenSshPublicKey = do size <- fmap fromIntegral $ getWord32be getBytes size >>= readType >>= \typ -> case typ of OpenSshKeyTypeRsa -> parseRsa OpenSshKeyTypeDsa -> parseDsa where parseRsa = do e <- getInteger n <- getInteger return $ OpenSshPublicKeyRsa $ RSA.PublicKey (calculateSize n) n e parseDsa = do p <- getInteger q <- getInteger g <- getInteger y <- getInteger return $ OpenSshPublicKeyDsa $ DSA.PublicKey (DSA.Params p g q) y openSshPublicKeyParser :: Parser OpenSshPublicKey openSshPublicKeyParser = do void $ readType =<< takeTill isSpace void space b64 <- takeTill isSpace binary <- either fail return $ Base64.decode b64 partialKey <- either fail return $ runGet getOpenSshPublicKey binary fmap partialKey commentParser where commentParser = void space *> (takeTill $ \c -> isSpace c || isControl c) <|> return "" decodePublic :: ByteString -> Either String OpenSshPublicKey decodePublic = parseOnly openSshPublicKeyParser decodePrivate :: ByteString -> Either String OpenSshPrivateKey decodePrivate bs = pemParseBS bs >>= \pems -> case pems of [] -> Left "Private key not found" (_:_:_) -> Left "Too many private keys" [p@(PEM { .. })] -> do case pemName of "RSA PRIVATE KEY" -> parseRSA p "DSA PRIVATE KEY" -> parseDSA p _ -> Left "Unknown private key type" where parseDSA :: PEM -> Either String OpenSshPrivateKey parseDSA (PEM {..}) = case decodeASN1' DER pemContent of Left er -> Left (show er) Right [ Start Sequence , IntVal _version , IntVal params_p , IntVal params_q , IntVal params_g , IntVal public_y , IntVal private_x , End Sequence ] -> let private_params = DSA.Params {..} in Right (OpenSshPrivateKeyDsa ( DSA.PrivateKey {..} )public_y) Right _ -> Left "Invalid ASN1 stream found in PEM." parseRSA :: PEM -> Either String OpenSshPrivateKey parseRSA (PEM {..}) = case decodeASN1' DER pemContent of Left er -> Left (show er) Right [ Start Sequence , IntVal _version , IntVal public_n , IntVal public_e , IntVal private_d , IntVal private_p , IntVal private_q , IntVal private_dP , IntVal private_dQ , IntVal private_qinv , End Sequence ] -> let public_size = calculateSize public_n private_pub = RSA.PublicKey { .. } in Right (OpenSshPrivateKeyRsa (RSA.PrivateKey {..})) Right _ -> Left "Invalid ASN1 stream found in PEM." crypto-pubkey-openssh-0.2.7/src/Crypto/PubKey/OpenSsh/Encode.hs0000644000000000000000000001035712457651416022577 0ustar0000000000000000{-# LANGUAGE OverloadedStrings, RecordWildCards #-} module Crypto.PubKey.OpenSsh.Encode where import Control.Monad (when) import Data.ByteString.Char8 (ByteString) import Data.Bits (testBit) import Data.List (unfoldr) import Data.Word (Word8) import qualified Data.ByteString as BS import Data.Serialize (Put, Putter, runPut, putByteString, putWord32be, put) import Data.ASN1.Encoding (encodeASN1') import Data.ASN1.Types (ASN1(IntVal, Start, End), ASN1ConstructionType(Sequence)) import Data.ASN1.BinaryEncoding (DER(..)) import Data.PEM (PEM(..), pemWriteBS) import qualified Crypto.Types.PubKey.DSA as DSA import qualified Crypto.Types.PubKey.RSA as RSA import qualified Data.ByteString.Base64 as Base64 import Crypto.PubKey.OpenSsh.Types (OpenSshKeyType(..), OpenSshPublicKey(..), OpenSshPrivateKey(..)) fixZeroByte :: [Word8] -> [Word8] fixZeroByte [] = [] fixZeroByte bs = if testBit (head bs) msb then 0:bs else bs where msb = 7 expandInteger :: Integer -> [Word8] expandInteger n = reverse $ unfoldr expand n where expand :: Integer -> Maybe (Word8, Integer) expand e | e == 0 = Nothing | otherwise = Just $ getResults $ quotRem e 256 getResults :: (Integer, Integer) -> (Word8, Integer) getResults (i, w) = (fromIntegral w, i) keyTypePutter :: Putter OpenSshKeyType keyTypePutter OpenSshKeyTypeRsa = putByteString "ssh-rsa" keyTypePutter OpenSshKeyTypeDsa = putByteString "ssh-dss" mpint :: Integer -> ByteString mpint i = runPut $ do putWord32be $ fromIntegral $ length binary mapM_ put binary where binary = fixZeroByte $ expandInteger i commonPublicKeyPutter :: OpenSshKeyType -> ByteString -> ByteString -> Put commonPublicKeyPutter keyType comment body = do keyTypePutter keyType putByteString " " putByteString $ Base64.encode $ BS.append wrapType body when (not $ BS.null comment) $ do putByteString " " putByteString comment where binaryType = runPut $ keyTypePutter keyType wrapType = runPut $ do putWord32be $ fromIntegral $ BS.length $ binaryType putByteString binaryType commonPrivateKeyPutter :: OpenSshKeyType -> ByteString -> Put commonPrivateKeyPutter OpenSshKeyTypeRsa body = do putByteString $ pemWriteBS $ PEM "RSA PRIVATE KEY" [] body commonPrivateKeyPutter OpenSshKeyTypeDsa body = do putByteString $ pemWriteBS $ PEM "DSA PRIVATE KEY" [] body openSshPublicKeyPutter :: Putter OpenSshPublicKey openSshPublicKeyPutter (OpenSshPublicKeyRsa (RSA.PublicKey _ public_n public_e) comment) = commonPublicKeyPutter OpenSshKeyTypeRsa comment $ BS.concat [ mpint public_e , mpint public_n ] openSshPublicKeyPutter (OpenSshPublicKeyDsa (DSA.PublicKey (DSA.Params public_p public_g public_q) public_y) comment) = commonPublicKeyPutter OpenSshKeyTypeDsa comment $ BS.concat [ mpint public_p , mpint public_q , mpint public_g , mpint public_y ] openSshPrivateKeyPutter :: Putter OpenSshPrivateKey openSshPrivateKeyPutter (OpenSshPrivateKeyRsa (RSA.PrivateKey {..})) = let RSA.PublicKey{..} = private_pub in commonPrivateKeyPutter OpenSshKeyTypeRsa $ encodeASN1' DER [ Start Sequence , IntVal 0 -- version , IntVal public_n , IntVal public_e , IntVal private_d , IntVal private_p , IntVal private_q , IntVal private_dP , IntVal private_dQ , IntVal private_qinv , End Sequence ] openSshPrivateKeyPutter (OpenSshPrivateKeyDsa (DSA.PrivateKey {..}) public_y) = let DSA.Params{..} = private_params in commonPrivateKeyPutter OpenSshKeyTypeDsa $ encodeASN1' DER [ Start Sequence , IntVal 0 -- version , IntVal params_p , IntVal params_q , IntVal params_g , IntVal public_y , IntVal private_x , End Sequence ] encodePublic :: OpenSshPublicKey -> ByteString encodePublic = runPut . openSshPublicKeyPutter encodePrivate :: OpenSshPrivateKey -> ByteString encodePrivate k = runPut $ openSshPrivateKeyPutter k crypto-pubkey-openssh-0.2.7/src/Crypto/PubKey/OpenSsh/Types.hs0000644000000000000000000000132712457651416022503 0ustar0000000000000000{- OPTIONS_GHC -funbox-strict-fields -} module Crypto.PubKey.OpenSsh.Types where import Data.ByteString (ByteString) import qualified Crypto.Types.PubKey.DSA as DSA import qualified Crypto.Types.PubKey.RSA as RSA data OpenSshPrivateKey = OpenSshPrivateKeyRsa !RSA.PrivateKey | OpenSshPrivateKeyDsa !DSA.PrivateKey !DSA.PublicNumber deriving (Eq, Show) -- | Public key contains `RSA` or `DSA` key and OpenSSH key description data OpenSshPublicKey = OpenSshPublicKeyRsa !RSA.PublicKey !ByteString | OpenSshPublicKeyDsa !DSA.PublicKey !ByteString deriving (Eq, Show) data OpenSshKeyType = OpenSshKeyTypeRsa | OpenSshKeyTypeDsa deriving (Eq, Show) crypto-pubkey-openssh-0.2.7/tests/0000755000000000000000000000000012457651416015355 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/tests/SshKeygen.hs0000644000000000000000000000510112457651416017606 0ustar0000000000000000{-# LANGUAGE TypeSynonymInstances #-} module SshKeygen where import Data.Monoid ((<>)) import System.FilePath.Posix ((), (<.>)) import System.Process (runCommand, waitForProcess) import System.IO.Temp (withSystemTempDirectory) import qualified Data.ByteString.Char8 as SB import Test.Tasty (TestTree, testGroup) import Test.Tasty.QuickCheck (Property, Arbitrary(..), elements, suchThat, testProperty) import Test.QuickCheck.Monadic (monadicIO, run, assert) import Crypto.PubKey.OpenSsh.Types (OpenSshKeyType(..), OpenSshPublicKey(..), OpenSshPrivateKey(..)) import Crypto.PubKey.OpenSsh (encodePublic, decodePublic, encodePrivate, decodePrivate) import qualified Crypto.PubKey.OpenSsh.Encode.Tests type StrictByteString = SB.ByteString type PrivateKey = StrictByteString type PublicKey = StrictByteString instance Arbitrary OpenSshKeyType where arbitrary = elements [OpenSshKeyTypeRsa, OpenSshKeyTypeDsa] openSshKeys :: OpenSshKeyType -> IO (PrivateKey, PublicKey) openSshKeys t = withSystemTempDirectory base $ \dir -> do let path = dir typ let run = "ssh-keygen -t " <> typ <> " -N \"\" -f " <> path waitForProcess =<< runCommand run priv <- SB.readFile $ path pub <- fmap SB.init $ SB.readFile $ path <.> "pub" return (priv, pub) where base = "crypto-pubkey-openssh-tests" typ = case t of OpenSshKeyTypeRsa -> "rsa" OpenSshKeyTypeDsa -> "dsa" testWithOpenSsh :: OpenSshKeyType -> Property testWithOpenSsh t = monadicIO $ do (priv, pub) <- run $ openSshKeys t assert $ checkPublic (decodePublic pub) pub assert $ checkPrivate (decodePrivate priv) priv where checkPublic = case t of OpenSshKeyTypeRsa -> \r b -> case r of Right k@(OpenSshPublicKeyRsa _ _) -> encodePublic k == b _ -> False OpenSshKeyTypeDsa -> \r b -> case r of Right k@(OpenSshPublicKeyDsa _ _) -> encodePublic k == b _ -> False checkPrivate = case t of OpenSshKeyTypeRsa -> \r b -> case r of Right k@(OpenSshPrivateKeyRsa _) -> encodePrivate k == b _ -> False OpenSshKeyTypeDsa -> \r b -> case r of Right k@(OpenSshPrivateKeyDsa _ _) -> encodePrivate k == b _ -> False tests :: TestTree tests = testGroup "SshKeygen" [ testProperty "decode/encode" $ testWithOpenSsh ] crypto-pubkey-openssh-0.2.7/tests/Tests.hs0000644000000000000000000000063612457651416017020 0ustar0000000000000000{-# LANGUAGE CPP #-} module Main where import Test.Tasty (defaultMain, testGroup) import qualified Crypto.PubKey.OpenSsh.Encode.Tests import qualified Crypto.PubKey.OpenSsh.Decode.Tests import qualified SshKeygen main :: IO () main = defaultMain $ testGroup "Tests" [ Crypto.PubKey.OpenSsh.Encode.Tests.tests , Crypto.PubKey.OpenSsh.Decode.Tests.tests #ifdef OPENSSH , SshKeygen.tests #endif ] crypto-pubkey-openssh-0.2.7/tests/Crypto/0000755000000000000000000000000012457651416016635 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/tests/Crypto/PubKey/0000755000000000000000000000000012457651416020034 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/tests/Crypto/PubKey/OpenSsh/0000755000000000000000000000000012457651416021413 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/tests/Crypto/PubKey/OpenSsh/Decode/0000755000000000000000000000000012457651416022576 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/tests/Crypto/PubKey/OpenSsh/Decode/Tests.hs0000644000000000000000000001121112457651416024230 0ustar0000000000000000{-# LANGUAGE OverloadedStrings #-} module Crypto.PubKey.OpenSsh.Decode.Tests ( tests ) where import Test.Tasty (TestTree, testGroup) import Test.Tasty.QuickCheck (testProperty, once) import Crypto.PubKey.OpenSsh.Decode (decodePublic, decodePrivate) import Data.ByteString.Char8 () testDecodeRSAPublic :: Bool testDecodeRSAPublic = case decodePublic rsaPub of Left _ -> False Right _ -> True where rsaPub = "ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQCtuy+p1/IHUtofNeUg6Ex2Sc3f0B+97VsfAq65pyKvAAqAtZpR96Vr35hbaNEb+j3fpAXjrxouM87q5KksWD+0qFWNhDv7rBg6ENQJNLf5lfssiFacrVv1/SG2UP8VDkCMxpJyzcHE5ajmSzcjEFoerRudV2g05PPlw4fNyuhVaMQjNUejg+17CUPS8e7TxUoRvnVuBVSMezMn11n81djakzuit7nXj1L7WVqNHtAlbstK2aDdCB3yBOtOwBQVwvFwQfHpQ8hwrYoKAXPw3YTd9sPTtJ0qz0cZH89t7redHABRhOWdf7+cm0LpubqwWvv0SLlFRMwefoMsGcnJ6E7P tommd@Vodka" testDecodeRSAPrivate :: Bool testDecodeRSAPrivate = case decodePrivate rsaPriv of Left _ -> False Right _ -> True where rsaPriv = "-----BEGIN RSA PRIVATE KEY-----\n\ \MIIEpAIBAAKCAQEAw6s7oDCoXjEkrLDRVZDyWLVaiqxZyOTA33TyGSELv9ZiQzkr\n\ \ti+AOyuTWkmZjHYdLDWBYYQvwEjufzneHvNLw87/1zsQrd6ZPUwEOkh0RqG9mxoV\n\ \JFgpruzKoG6BNgnUti/S9idErit+XEx9ff8bmmjawdC10czAdL3zCpZaEXw4JAwC\n\ \sgQB1J1/Mw4cnzMqKyxPtSPZjhiZZ6y2bVCfNfnOZ9dvIDa/unEWlFSDPjX0+zSM\n\ \mjRzDoE04jtoAI0v3iynZ26kea+YU4oni2MQ7EL4Y1CmLAWm4/9APhf3Xt0EJOIt\n\ \Ngv1j2468+8WF5aTEitb8D2ZRFYPiLWMaJlhGwIDAQABAoIBAQCWAPXLDsJkw4P8\n\ \J+mzkVVZEF8DJLIIQuZh6MOY5C6fuPjH1FJgbvX9ZqCmfPoMJpiixboUSkRZQxAj\n\ \1Pcl/xq8WDrmg897m8UaquYq0FTjuScketBudnAuPDXy3ASOqua5bNxr/Rq383wB\n\ \wloKd8Jvk6bxItHgrvl0BhMGsNEHyT36SXmc7HsgCzifuXMo5E3uqTGP/+wLWCRy\n\ \NO+AqStSjQbQZtLVOvNdQYknv+uqm/m5LyO1Vi2pPl0vEgpwiq4C/8W+YT2ya3dz\n\ \QfG+Fsewu5WDdHTBgTN4F/p2tgG6Zg+fdfRkF2NNwJXiGb1TTmR1IMZtzqDQ5mys\n\ \dk40xuAxAoGBAOTMhUpINw2rSaduEWAxnSAZFMAIozKBOJD1Q2+kYbYMHPOPN+CN\n\ \NCUrWpEiFa+vM+BIrQsG6M7Nb9VmefOKuS7vetIUYWsJ2hO8oX2+8ZiPcBwU3izX\n\ \wAoGq0yeUaG4yGZUrkP2Gfm+jUdj/AoGOnG9pd/CYDevVNnOSyWko8RVAoGBANru\n\ \Zupv8fIXDcnqYGBAbHpBQkojAzccBHxyE/4BUJlFIZWDAMem50op49SsF6gKrxtO\n\ \IvXb1+58axGza84F7cXmQgR0nV8AXMzBlI31HyvftMv8Yb1h+oXbjCFI99lMz6/F\n\ \jkCSzoiLGo0NAEmqRb4TThSjj8vfiw+zxsllQH+vAoGAFmKcN+RQ3pl/n035jTvN\n\ \b7KEgTVXIj3aVvRoIKgolzMgMgQ1J1cpXuma9tAq5wFxReRWadnHNVSMOIjKLbXI\n\ \4Hq1vZAY5+wS1hOCiVcBNDf0dArmoeSJ+XElmV10ByqZEMoAMs4FRJYMJIv3wNNT\n\ \LIWtkPLnjwssdhLk703oZ/ECgYB/4JCsjwa7aUvcjNIOZpL2NfgKZbkTD4JvThLv\n\ \YsU5QXAEbKif9ZVTdHRnXL3Uoaj2QgWZpffSjUnc5PgrNrtTxNL610K0ovmRf+DN\n\ \qkey0NBB9gEBJaG3Xi3To1Nh0cPd337fqOCKUPYJPXbVkGd8Rrpsw7zSUJhha5jJ\n\ \OiMacQKBgQCxDCTOUqDksmXkDutXi/f/dMIwfMXaNuTc3ectyaBC05+0B10uLfnv\n\ \7jurNd89OFTHsu7CLfbwDzu+Q+GWTWemUk2ieq9z0Ct5aIzjxoALNnKiu5pH1YDH\n\ \Mf6ApFppkCpTkQ0sEERn0zH/hNQct1cwflfQi7JN+3GGax7oySmQRQ==\n\ \-----END RSA PRIVATE KEY-----" testDecodeDSAPublic :: Bool testDecodeDSAPublic = case decodePublic dsaPub of Left _ -> False Right _ -> True where dsaPub = "ssh-dss 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 tommd@Vodka" testDecodeDSAPrivate :: Bool testDecodeDSAPrivate = case decodePrivate dsaPriv of Left _ -> False Right _ -> True where dsaPriv = "-----BEGIN DSA PRIVATE KEY-----\n\ \MIIBuwIBAAKBgQC3KNWHqtLjxExUX+9lW5h/rDLbUDG7NRkRfvb25COxiWbWkQhN\n\ \vo7VUohVwwZuGLsX/qar3UOiZdV/87hA/2MzdhiFYRzM8tdikNuxPAet7yD/4YS2\n\ \mL+08NNMhOx88Qa28eK33ZD4LmptDI86oXJOHMFSrCobkop2hk8KjBfikQIVALOI\n\ \GzEEY4XZgPOxecGz4m/SnYZ7AoGBAIgmhVGXCxDuVkwIv5UDaONmclz9q5dY3roD\n\ \1QrQ0loUhB1NRCCXJpgsf/6H2js/19riQL9eWYy2PMWVuNTdsBwOuJoY2l8wQVHl\n\ \agDoKGFvHUDqNlzRZlO4nVrGMYbFFJJ1g3/QOr+G5VIEDR59bvHOGN8XHwhB32Qe\n\ \qJulwO2gAoGAI3H1hNNXWzd5Fuqpj1ZeUKFAOfFbYeD3XBIKwwMPdrVZW/PMJ3s+\n\ \Ic90V0paKBA0+Sgvg+EHWK213+zEp29+lL50Nne7jh//smQ0zBKMiRre7iZ+rEDM\n\ \4nWZOM3vzClfgilTDkkQ4TCjz7yMm21ZqApt+Lq5uNOK6DJB4PszCwICFAG6JRA/\n\ \iyaf5dPPUem5PxQeKx1b\n\ \-----END DSA PRIVATE KEY-----" tests :: TestTree tests = testGroup "Crypto.PubKey.OpenSsh.Decode.Tests" [ testProperty "Decode Public RSA" $ once testDecodeRSAPublic , testProperty "Decode Private RSA" $ once testDecodeRSAPrivate , testProperty "Decode Public DSA" $ once testDecodeDSAPublic , testProperty "Decode Private DSA" $ once testDecodeDSAPrivate ] crypto-pubkey-openssh-0.2.7/tests/Crypto/PubKey/OpenSsh/Encode/0000755000000000000000000000000012457651416022610 5ustar0000000000000000crypto-pubkey-openssh-0.2.7/tests/Crypto/PubKey/OpenSsh/Encode/Tests.hs0000644000000000000000000000106312457651416024246 0ustar0000000000000000module Crypto.PubKey.OpenSsh.Encode.Tests ( tests ) where import Control.DeepSeq (deepseq) import Data.Word (Word8) import Test.Tasty (TestTree, testGroup) import Test.Tasty.QuickCheck (testProperty) import Crypto.PubKey.OpenSsh.Encode (fixZeroByte) -- | In version 0.2.0 `fixZeroByte` function fails with empty input testFixZeroByte :: [Word8] -> Bool testFixZeroByte i = fixZeroByte i `deepseq` True tests :: TestTree tests = testGroup "Crypto.PubKey.OpenSsh.Encode.Tests" [ testProperty "regression test testFixZeroByte" testFixZeroByte ]