{- common functions for encryptable remotes - - Copyright 2011-2021 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} {-# LANGUAGE FlexibleContexts, ScopedTypeVariables, PackageImports #-} module Remote.Helper.Encryptable ( EncryptionIsSetup, encryptionSetup, noEncryptionUsed, encryptionAlreadySetup, encryptionConfigParsers, parseEncryptionConfig, parseEncryptionMethod, remoteCipher, remoteCipher', embedCreds, cipherKey, extractCipher, isEncrypted, encryptionIsEnabled, describeEncryption, encryptionField, highRandomQualityField ) where import qualified Data.Map as M import qualified Data.Set as S import Control.Concurrent.STM import Annex.Common import Types.Remote import Crypto import Types.Crypto import Types.ProposedAccepted import qualified Annex import Annex.SpecialRemote.Config import Utility.Base64 -- Used to ensure that encryption has been set up before trying to -- eg, store creds in the remote config that would need to use the -- encryption setup. data EncryptionIsSetup = EncryptionIsSetup | NoEncryption -- Remotes that don't use encryption can use this instead of -- encryptionSetup. noEncryptionUsed :: EncryptionIsSetup noEncryptionUsed = NoEncryption -- Using this avoids the type-safe check, so you'd better be sure -- of what you're doing. encryptionAlreadySetup :: EncryptionIsSetup encryptionAlreadySetup = EncryptionIsSetup encryptionConfigParsers :: [RemoteConfigFieldParser] encryptionConfigParsers = [ encryptionFieldParser , optionalStringParser cipherField HiddenField , optionalStringParser cipherkeysField HiddenField , optionalStringParser pubkeysField HiddenField , yesNoParser embedCredsField Nothing (FieldDesc "embed credentials into git repository") , macFieldParser , optionalStringParser (Accepted "keyid") (FieldDesc "gpg key id") , optionalStringParser (Accepted "keyid+") (FieldDesc "add additional gpg key") , optionalStringParser (Accepted "keyid-") (FieldDesc "remove gpg key") , highRandomQualityFieldParser ] encryptionConfigs :: S.Set RemoteConfigField encryptionConfigs = S.fromList (map parserForField encryptionConfigParsers) -- Parse only encryption fields, ignoring all others. parseEncryptionConfig :: RemoteConfig -> Either String ParsedRemoteConfig parseEncryptionConfig c = parseRemoteConfig (M.restrictKeys c encryptionConfigs) (RemoteConfigParser encryptionConfigParsers Nothing) encryptionFieldParser :: RemoteConfigFieldParser encryptionFieldParser = RemoteConfigFieldParser { parserForField = encryptionField , valueParser = \v c -> Just . RemoteConfigValue <$> parseEncryptionMethod' v c , fieldDesc = FieldDesc "how to encrypt data stored in the special remote" , valueDesc = Just $ ValueDesc $ intercalate " or " (M.keys encryptionMethods) } encryptionMethods :: M.Map String EncryptionMethod encryptionMethods = M.fromList [ ("none", NoneEncryption) , ("shared", SharedEncryption) , ("hybrid", HybridEncryption) , ("pubkey", PubKeyEncryption) , ("sharedpubkey", SharedPubKeyEncryption) ] parseEncryptionMethod :: RemoteConfig -> Either String EncryptionMethod parseEncryptionMethod c = parseEncryptionMethod' (M.lookup encryptionField c) c parseEncryptionMethod' :: Maybe (ProposedAccepted String) -> RemoteConfig -> Either String EncryptionMethod parseEncryptionMethod' (Just s) _ = case M.lookup (fromProposedAccepted s) encryptionMethods of Just em -> Right em Nothing -> Left badEncryptionMethod -- Hybrid encryption is the default when a keyid is specified without -- an encryption field, or when there's a cipher already but no encryption -- field. parseEncryptionMethod' Nothing c | M.member (Accepted "keyid") c || M.member cipherField c = Right HybridEncryption | otherwise = Left badEncryptionMethod badEncryptionMethod :: String badEncryptionMethod = "Specify " ++ intercalate " or " (map ((fromProposedAccepted encryptionField ++ "=") ++) (M.keys encryptionMethods)) ++ "." highRandomQualityField :: RemoteConfigField highRandomQualityField = Accepted "highRandomQuality" highRandomQualityFieldParser :: RemoteConfigFieldParser highRandomQualityFieldParser = RemoteConfigFieldParser { parserForField = highRandomQualityField , valueParser = \v _c -> Just . RemoteConfigValue <$> parseHighRandomQuality (fmap fromProposedAccepted v) , fieldDesc = HiddenField , valueDesc = Nothing } parseHighRandomQuality :: Maybe String -> Either String Bool parseHighRandomQuality Nothing = Right True parseHighRandomQuality (Just "false") = Right False parseHighRandomQuality (Just "true") = Right True parseHighRandomQuality _ = Left "expected highRandomQuality=true/false" macFieldParser :: RemoteConfigFieldParser macFieldParser = RemoteConfigFieldParser { parserForField = macField , valueParser = \v _c -> Just . RemoteConfigValue <$> parseMac v , fieldDesc = FieldDesc "how to encrypt filenames used on the remote" , valueDesc = Just $ ValueDesc $ intercalate " or " (M.keys macMap) } parseMac :: Maybe (ProposedAccepted String) -> Either String Mac parseMac Nothing = Right defaultMac parseMac (Just (Accepted s)) = Right $ fromMaybe defaultMac (readMac s) parseMac (Just (Proposed s)) = case readMac s of Just mac -> Right mac Nothing -> Left "bad mac value" {- Encryption setup for a remote. The user must specify whether to use - an encryption key, or not encrypt. An encrypted cipher is created, or is - updated to be accessible to an additional encryption key. Or the user - could opt to use a shared cipher, which is stored unencrypted. -} encryptionSetup :: RemoteConfig -> RemoteGitConfig -> Annex (RemoteConfig, EncryptionIsSetup) encryptionSetup c gc = do pc <- either giveup return $ parseEncryptionConfig c gpgcmd <- gpgCmd <$> Annex.getGitConfig maybe (genCipher pc gpgcmd) (updateCipher pc gpgcmd) (extractCipher pc) where -- The type of encryption encryption = parseEncryptionMethod c -- Generate a new cipher, depending on the chosen encryption scheme genCipher pc gpgcmd = case encryption of Right NoneEncryption -> return (c, NoEncryption) Right SharedEncryption -> encsetup $ genSharedCipher gpgcmd Right HybridEncryption -> encsetup $ genEncryptedCipher gpgcmd (pc, gc) key Hybrid Right PubKeyEncryption -> encsetup $ genEncryptedCipher gpgcmd (pc, gc) key PubKey Right SharedPubKeyEncryption -> encsetup $ genSharedPubKeyCipher gpgcmd key Left err -> giveup err key = maybe (giveup "Specify keyid=...") fromProposedAccepted $ M.lookup (Accepted "keyid") c newkeys = maybe [] (\k -> [(True,fromProposedAccepted k)]) (M.lookup (Accepted "keyid+") c) ++ maybe [] (\k -> [(False,fromProposedAccepted k)]) (M.lookup (Accepted "keyid-") c) cannotchange = giveup "Cannot set encryption type of existing remotes." -- Update an existing cipher if possible. updateCipher pc gpgcmd v = case v of SharedCipher _ | encryption == Right SharedEncryption -> return (c', EncryptionIsSetup) EncryptedCipher _ variant _ | sameasencryption variant -> use "encryption update" $ updateCipherKeyIds gpgcmd (pc, gc) newkeys v SharedPubKeyCipher _ _ -> use "encryption update" $ updateCipherKeyIds gpgcmd (pc, gc) newkeys v _ -> cannotchange sameasencryption variant = case encryption of Right HybridEncryption -> variant == Hybrid Right PubKeyEncryption -> variant == PubKey Right _ -> False Left _ -> True encsetup a = use "encryption setup" . a =<< highRandomQuality use m a = do showNote (UnquotedString m) cipher <- liftIO a showNote (UnquotedString (describeCipher cipher)) return (storeCipher cipher c', EncryptionIsSetup) highRandomQuality = ifM (Annex.getRead Annex.fast) ( return False , case parseHighRandomQuality (fromProposedAccepted <$> M.lookup highRandomQualityField c) of Left err -> giveup err Right v -> return v ) c' = foldr M.delete c -- Remove configs that are only used in here to generate -- the encryption keys, and should not be stored in -- remote.log. -- Older versions used to remove 'encryption' as well, since -- it was redundant; we now need to keep it for -- public-key encryption, hence we leave it on newer -- remotes (while being backward-compatible). (map Accepted ["keyid", "keyid+", "keyid-", "highRandomQuality"]) remoteCipher :: ParsedRemoteConfig -> RemoteGitConfig -> Annex (Maybe Cipher) remoteCipher c gc = fmap fst <$> remoteCipher' c gc {- Gets encryption Cipher. The decrypted Ciphers are cached in the Annex - state. -} remoteCipher' :: ParsedRemoteConfig -> RemoteGitConfig -> Annex (Maybe (Cipher, StorableCipher)) remoteCipher' c gc = case extractCipher c of Nothing -> return Nothing Just encipher -> do cachev <- Annex.getRead Annex.ciphers cachedciper <- liftIO $ atomically $ M.lookup encipher <$> readTMVar cachev case cachedciper of Just cipher -> return $ Just (cipher, encipher) -- Not cached; decrypt it, making sure -- to only decrypt one at a time. Avoids -- prompting for decrypting the same thing twice -- when this is run concurrently. Nothing -> bracketOnError (liftIO $ atomically $ takeTMVar cachev) (liftIO . atomically . putTMVar cachev) (go cachev encipher) where go cachev encipher cache = do gpgcmd <- gpgCmd <$> Annex.getGitConfig cipher <- liftIO $ decryptCipher gpgcmd (c, gc) encipher liftIO $ atomically $ putTMVar cachev $ M.insert encipher cipher cache return $ Just (cipher, encipher) {- Checks if the remote's config allows storing creds in the remote's config. - - embedcreds=yes allows this, and embedcreds=no prevents it. - - If not set, the default is to only store creds when it's surely safe: - When gpg encryption is used and the creds are encrypted using it. - Not when a shared cipher is used. -} embedCreds :: ParsedRemoteConfig -> Bool embedCreds c = case getRemoteConfigValue embedCredsField c of Just v -> v Nothing -> case (getRemoteConfigValue cipherkeysField c, getRemoteConfigValue cipherField c) of (Just (_ :: String), Just (_ :: String)) -> True _ -> False {- Gets encryption Cipher, and key encryptor. -} cipherKey :: ParsedRemoteConfig -> RemoteGitConfig -> Annex (Maybe (Cipher, EncKey)) cipherKey c gc = fmap make <$> remoteCipher c gc where make ciphertext = (ciphertext, encryptKey mac ciphertext) mac = fromMaybe defaultMac $ getRemoteConfigValue macField c {- Stores an StorableCipher in a remote's configuration. -} storeCipher :: StorableCipher -> RemoteConfig -> RemoteConfig storeCipher cip = case cip of (SharedCipher t) -> addcipher t (EncryptedCipher t _ ks) -> addcipher t . storekeys ks cipherkeysField (SharedPubKeyCipher t ks) -> addcipher t . storekeys ks pubkeysField where addcipher t = M.insert cipherField (Accepted (decodeBS (toB64 t))) storekeys (KeyIds l) n = M.insert n (Accepted (intercalate "," l)) {- Extracts an StorableCipher from a remote's configuration. -} extractCipher :: ParsedRemoteConfig -> Maybe StorableCipher extractCipher c = case (getRemoteConfigValue cipherField c, (getRemoteConfigValue cipherkeysField c <|> getRemoteConfigValue pubkeysField c), getRemoteConfigValue encryptionField c) of (Just t, Just ks, Just HybridEncryption) -> Just $ EncryptedCipher (fromB64 (encodeBS t)) Hybrid (readkeys ks) (Just t, Just ks, Just PubKeyEncryption) -> Just $ EncryptedCipher (fromB64 (encodeBS t)) PubKey (readkeys ks) (Just t, Just ks, Just SharedPubKeyEncryption) -> Just $ SharedPubKeyCipher (fromB64 (encodeBS t)) (readkeys ks) (Just t, Nothing, Just SharedEncryption) -> Just $ SharedCipher (fromB64 (encodeBS t)) _ -> Nothing where readkeys = KeyIds . splitc ',' isEncrypted :: ParsedRemoteConfig -> Bool isEncrypted = isJust . extractCipher -- Check if encryption is enabled. This can be done before encryption -- is fully set up yet, so the cipher might not be present yet. encryptionIsEnabled :: ParsedRemoteConfig -> Bool encryptionIsEnabled c = case getRemoteConfigValue encryptionField c of Nothing -> False Just NoneEncryption -> False Just _ -> True describeEncryption :: ParsedRemoteConfig -> String describeEncryption c = case extractCipher c of Nothing -> "none" Just cip -> nameCipher cip ++ " (" ++ describeCipher cip ++ ")" nameCipher :: StorableCipher -> String nameCipher (SharedCipher _) = "shared" nameCipher (EncryptedCipher _ PubKey _) = "pubkey" nameCipher (EncryptedCipher _ Hybrid _) = "hybrid" nameCipher (SharedPubKeyCipher _ _) = "sharedpubkey" describeCipher :: StorableCipher -> String describeCipher c = case c of (SharedCipher _) -> "encryption key stored in git repository" (EncryptedCipher _ _ ks) -> showkeys ks (SharedPubKeyCipher _ ks) -> showkeys ks where showkeys (KeyIds { keyIds = ks }) = "to gpg keys: " ++ unwords ks