{- git-annex crypto - - Currently using gpg; could later be modified to support different - crypto backends if neccessary. - - Copyright 2011-2016 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE Rank2Types #-} module Crypto ( Cipher, KeyIds(..), EncKey, StorableCipher(..), genEncryptedCipher, genSharedCipher, genSharedPubKeyCipher, updateCipherKeyIds, decryptCipher, encryptKey, isEncKey, feedFile, feedBytes, readBytes, encrypt, decrypt, LensGpgEncParams(..), prop_HmacSha1WithCipher_sane ) where import qualified Data.ByteString as S import qualified Data.ByteString.Lazy as L import Data.ByteString.UTF8 (fromString) import qualified Data.Map as M import Control.Monad.IO.Class import Annex.Common import qualified Utility.Gpg as Gpg import Types.Crypto import Types.Remote import Types.Key import Annex.SpecialRemote.Config {- The beginning of a Cipher is used for MAC'ing; the remainder is used - as the GPG symmetric encryption passphrase when using the hybrid - scheme. Note that the cipher itself is base-64 encoded, hence the - string is longer than 'cipherSize': 683 characters, padded to 684. - - The 256 first characters that feed the MAC represent at best 192 - bytes of entropy. However that's more than enough for both the - default MAC algorithm, namely HMAC-SHA1, and the "strongest" - currently supported, namely HMAC-SHA512, which respectively need - (ideally) 64 and 128 bytes of entropy. - - The remaining characters (320 bytes of entropy) is enough for GnuPG's - symetric cipher; unlike weaker public key crypto, the key does not - need to be too large. -} cipherBeginning :: Int cipherBeginning = 256 cipherSize :: Int cipherSize = 512 cipherPassphrase :: Cipher -> String cipherPassphrase (Cipher c) = drop cipherBeginning c cipherPassphrase (MacOnlyCipher _) = error "MAC-only cipher" cipherMac :: Cipher -> String cipherMac (Cipher c) = take cipherBeginning c cipherMac (MacOnlyCipher c) = c {- Creates a new Cipher, encrypted to the specified key id. -} genEncryptedCipher :: LensGpgEncParams c => Gpg.GpgCmd -> c -> Gpg.KeyId -> EncryptedCipherVariant -> Bool -> IO StorableCipher genEncryptedCipher cmd c keyid variant highQuality = do ks <- Gpg.findPubKeys cmd keyid random <- Gpg.genRandom cmd highQuality size encryptCipher cmd c (mkCipher random) variant ks where (mkCipher, size) = case variant of Hybrid -> (Cipher, cipherSize) -- used for MAC + symmetric PubKey -> (MacOnlyCipher, cipherBeginning) -- only used for MAC {- Creates a new, shared Cipher. -} genSharedCipher :: Gpg.GpgCmd -> Bool -> IO StorableCipher genSharedCipher cmd highQuality = SharedCipher <$> Gpg.genRandom cmd highQuality cipherSize {- Creates a new, shared Cipher, and looks up the gpg public key that will - be used for encrypting content. -} genSharedPubKeyCipher :: Gpg.GpgCmd -> Gpg.KeyId -> Bool -> IO StorableCipher genSharedPubKeyCipher cmd keyid highQuality = do ks <- Gpg.findPubKeys cmd keyid random <- Gpg.genRandom cmd highQuality cipherSize return $ SharedPubKeyCipher random ks {- Updates an existing Cipher, making changes to its keyids. - - When the Cipher is encrypted, re-encrypts it. -} updateCipherKeyIds :: LensGpgEncParams encparams => Gpg.GpgCmd -> encparams -> [(Bool, Gpg.KeyId)] -> StorableCipher -> IO StorableCipher updateCipherKeyIds _ _ _ SharedCipher{} = giveup "Cannot update shared cipher" updateCipherKeyIds _ _ [] c = return c updateCipherKeyIds cmd encparams changes encipher@(EncryptedCipher _ variant ks) = do ks' <- updateCipherKeyIds' cmd changes ks cipher <- decryptCipher cmd encparams encipher encryptCipher cmd encparams cipher variant ks' updateCipherKeyIds cmd _ changes (SharedPubKeyCipher cipher ks) = SharedPubKeyCipher cipher <$> updateCipherKeyIds' cmd changes ks updateCipherKeyIds' :: Gpg.GpgCmd -> [(Bool, Gpg.KeyId)] -> KeyIds -> IO KeyIds updateCipherKeyIds' cmd changes (KeyIds ks) = do dropkeys <- listKeyIds [ k | (False, k) <- changes ] forM_ dropkeys $ \k -> unless (k `elem` ks) $ giveup $ "Key " ++ k ++ " was not present; cannot remove." addkeys <- listKeyIds [ k | (True, k) <- changes ] let ks' = (addkeys ++ ks) \\ dropkeys when (null ks') $ giveup "Cannot remove the last key." return $ KeyIds ks' where listKeyIds = concat <$$> mapM (keyIds <$$> Gpg.findPubKeys cmd) {- Encrypts a Cipher to the specified KeyIds. -} encryptCipher :: LensGpgEncParams c => Gpg.GpgCmd -> c -> Cipher -> EncryptedCipherVariant -> KeyIds -> IO StorableCipher encryptCipher cmd c cip variant (KeyIds ks) = do -- gpg complains about duplicate recipient keyids let ks' = nub $ sort ks let params = concat [ getGpgEncParamsBase c , Gpg.pkEncTo ks' , Gpg.stdEncryptionParams False ] encipher <- Gpg.pipeStrict cmd params cipher return $ EncryptedCipher encipher variant (KeyIds ks') where cipher = case cip of Cipher x -> x MacOnlyCipher x -> x {- Decrypting an EncryptedCipher is expensive; the Cipher should be cached. -} decryptCipher :: LensGpgEncParams c => Gpg.GpgCmd -> c -> StorableCipher -> IO Cipher decryptCipher _ _ (SharedCipher t) = return $ Cipher t decryptCipher _ _ (SharedPubKeyCipher t _) = return $ MacOnlyCipher t decryptCipher cmd c (EncryptedCipher t variant _) = mkCipher <$> Gpg.pipeStrict cmd params t where mkCipher = case variant of Hybrid -> Cipher PubKey -> MacOnlyCipher params = Param "--decrypt" : getGpgDecParams c type EncKey = Key -> Key {- Generates an encrypted form of a Key. The encryption does not need to be - reversable, nor does it need to be the same type of encryption used - on content. It does need to be repeatable. -} encryptKey :: Mac -> Cipher -> EncKey encryptKey mac c k = mkKey $ \d -> d { keyName = encodeBS (macWithCipher mac c (serializeKey k)) , keyVariety = OtherKey $ encryptedBackendNamePrefix <> encodeBS (showMac mac) } encryptedBackendNamePrefix :: S.ByteString encryptedBackendNamePrefix = "GPG" isEncKey :: Key -> Bool isEncKey k = case fromKey keyVariety k of OtherKey s -> encryptedBackendNamePrefix `S.isPrefixOf` s _ -> False type Feeder = Handle -> IO () type Reader m a = Handle -> m a feedFile :: FilePath -> Feeder feedFile f h = L.hPut h =<< L.readFile f feedBytes :: L.ByteString -> Feeder feedBytes = flip L.hPut readBytes :: (MonadIO m) => (L.ByteString -> m a) -> Reader m a readBytes a h = liftIO (L.hGetContents h) >>= a {- Runs a Feeder action, that generates content that is symmetrically - encrypted with the Cipher (unless it is empty, in which case - public-key encryption is used) using the given gpg options, and then - read by the Reader action. -} encrypt :: (MonadIO m, MonadMask m, LensGpgEncParams c) => Gpg.GpgCmd -> c -> Cipher -> Feeder -> Reader m a -> m a encrypt cmd c cipher = case cipher of Cipher{} -> Gpg.feedRead cmd (params ++ Gpg.stdEncryptionParams True) $ cipherPassphrase cipher MacOnlyCipher{} -> Gpg.pipeLazy cmd $ params ++ Gpg.stdEncryptionParams False where params = getGpgEncParams c {- Runs a Feeder action, that generates content that is decrypted with the - Cipher (or using a private key if the Cipher is empty), and read by the - Reader action. -} decrypt :: (MonadIO m, MonadMask m, LensGpgEncParams c) => Gpg.GpgCmd -> c -> Cipher -> Feeder -> Reader m a -> m a decrypt cmd c cipher = case cipher of Cipher{} -> Gpg.feedRead cmd params $ cipherPassphrase cipher MacOnlyCipher{} -> Gpg.pipeLazy cmd params where params = Param "--decrypt" : getGpgDecParams c macWithCipher :: Mac -> Cipher -> String -> String macWithCipher mac c = macWithCipher' mac (cipherMac c) macWithCipher' :: Mac -> String -> String -> String macWithCipher' mac c s = calcMac mac (fromString c) (fromString s) {- Ensure that macWithCipher' returns the same thing forevermore. -} prop_HmacSha1WithCipher_sane :: Bool prop_HmacSha1WithCipher_sane = known_good == macWithCipher' HmacSha1 "foo" "bar" where known_good = "46b4ec586117154dacd49d664e5d63fdc88efb51" class LensGpgEncParams a where {- Base parameters for encrypting. Does not include specification - of recipient keys. -} getGpgEncParamsBase :: a -> [CommandParam] {- Parameters for encrypting. When the remote is configured to use - public-key encryption, includes specification of recipient keys. -} getGpgEncParams :: a -> [CommandParam] {- Parameters for decrypting. -} getGpgDecParams :: a -> [CommandParam] {- Extract the GnuPG options from a pair of a Remote Config and a Remote - Git Config. -} instance LensGpgEncParams (RemoteConfig, RemoteGitConfig) where getGpgEncParamsBase (_c,gc) = map Param (remoteAnnexGnupgOptions gc) getGpgEncParams (c,gc) = getGpgEncParamsBase (c,gc) ++ {- When the remote is configured to use public-key encryption, - look up the recipient keys and add them to the option list. -} case M.lookup encryptionField c of Just "pubkey" -> Gpg.pkEncTo $ maybe [] (splitc ',') $ M.lookup cipherkeysField c Just "sharedpubkey" -> Gpg.pkEncTo $ maybe [] (splitc ',') $ M.lookup pubkeysField c _ -> [] getGpgDecParams (_c,gc) = map Param (remoteAnnexGnupgDecryptOptions gc) {- Extract the GnuPG options from a Remote. -} instance LensGpgEncParams (RemoteA a) where getGpgEncParamsBase r = getGpgEncParamsBase (config r, gitconfig r) getGpgEncParams r = getGpgEncParams (config r, gitconfig r) getGpgDecParams r = getGpgDecParams (config r, gitconfig r)