{- Credentials storage - - Copyright 2012-2021 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} module Creds ( module Types.Creds, CredPairStorage(..), setRemoteCredPair, setRemoteCredPair', getRemoteCredPair, getRemoteCredPairFor, missingCredPairFor, getEnvCredPair, writeCreds, readCreds, credsFile, removeCreds, includeCredsInfo, ) where import Annex.Common import qualified Annex import Types.Creds import Types.RemoteConfig import Types.Remote (SetupStage(..)) import Annex.SpecialRemote.Config import Annex.Perms import Utility.FileMode import Crypto import Types.ProposedAccepted import Remote.Helper.Encryptable (remoteCipher, remoteCipher', embedCreds, EncryptionIsSetup, extractCipher) import Utility.Env (getEnv) import Utility.Base64 import qualified Utility.RawFilePath as R import qualified Data.ByteString.Lazy.Char8 as L import qualified Data.ByteString.Char8 as S import qualified Data.Map as M import qualified System.FilePath.ByteString as P {- A CredPair can be stored in a file, or in the environment, or - in a remote's configuration. -} data CredPairStorage = CredPairStorage { credPairFile :: FilePath , credPairEnvironment :: (String, String) , credPairRemoteField :: RemoteConfigField } {- Stores creds in a remote's configuration, if the remote allows - that. Also caches them locally. - - The creds are found from the CredPairStorage storage if not provided, - so may be provided by an environment variable etc. When autoenabling, - the user would not expect to provide creds, so none are found. - - The remote's configuration should have already had a cipher stored in it - if that's going to be done, so that the creds can be encrypted using the - cipher. The EncryptionIsSetup is witness to that being the case. -} setRemoteCredPair :: SetupStage -> EncryptionIsSetup -> ParsedRemoteConfig -> RemoteGitConfig -> CredPairStorage -> Maybe CredPair -> Annex RemoteConfig setRemoteCredPair ss encsetup pc gc storage mcreds = case ss of AutoEnable _ -> pure (unparsedRemoteConfig pc) _ -> unparsedRemoteConfig <$> setRemoteCredPair' pc encsetup gc storage mcreds setRemoteCredPair' :: ParsedRemoteConfig -> EncryptionIsSetup -> RemoteGitConfig -> CredPairStorage -> Maybe CredPair -> Annex ParsedRemoteConfig setRemoteCredPair' pc encsetup gc storage mcreds = case mcreds of Nothing -> maybe (return pc) (setRemoteCredPair' pc encsetup gc storage . Just) =<< getRemoteCredPair pc gc storage Just creds | embedCreds pc -> do let key = credPairRemoteField storage localcache creds storeconfig creds key =<< remoteCipher pc gc | otherwise -> do localcache creds return pc where localcache creds = writeCacheCredPair creds storage storeconfig creds key (Just cipher) = do cmd <- gpgCmd <$> Annex.getGitConfig s <- liftIO $ encrypt cmd (pc, gc) cipher (feedBytes $ L.pack $ encodeCredPair creds) (readBytesStrictly $ return . S.unpack) storeconfig' key (Accepted (toB64 s)) storeconfig creds key Nothing = storeconfig' key (Accepted (toB64 $ encodeCredPair creds)) storeconfig' key val = return $ pc { parsedRemoteConfigMap = M.insert key (RemoteConfigValue val) (parsedRemoteConfigMap pc) , unparsedRemoteConfig = M.insert key val (unparsedRemoteConfig pc) } {- Gets a remote's credpair, from the environment if set, otherwise - from the cache in gitAnnexCredsDir, or failing that, from the - value in RemoteConfig. -} getRemoteCredPair :: ParsedRemoteConfig -> RemoteGitConfig -> CredPairStorage -> Annex (Maybe CredPair) getRemoteCredPair c gc storage = maybe fromcache (return . Just) =<< fromenv where fromenv = liftIO $ getEnvCredPair storage fromcache = maybe fromconfig (return . Just) =<< readCacheCredPair storage fromconfig = do let key = credPairRemoteField storage mcipher <- remoteCipher' c gc -- The RemoteConfig value may be passed through. -- Check for those first, because getRemoteConfigValue -- will throw an error if it does not find it. let getval = M.lookup key (getRemoteConfigPassedThrough c) <|> getRemoteConfigValue key c case (getval, mcipher) of (Nothing, _) -> return Nothing (Just enccreds, Just (cipher, storablecipher)) -> fromenccreds enccreds cipher storablecipher (Just bcreds, Nothing) -> fromcreds $ fromB64 bcreds fromenccreds enccreds cipher storablecipher = do cmd <- gpgCmd <$> Annex.getGitConfig mcreds <- liftIO $ catchMaybeIO $ decrypt cmd (c, gc) cipher (feedBytes $ L.pack $ fromB64 enccreds) (readBytesStrictly $ return . S.unpack) case mcreds of Just creds -> fromcreds creds Nothing -> do -- Work around un-encrypted creds storage -- bug in old S3 and glacier remotes. -- Not a problem for shared cipher. case storablecipher of SharedCipher {} -> showLongNote "gpg error above was caused by an old git-annex bug in credentials storage. Working around it.." _ -> giveup "*** Insecure credentials storage detected for this remote! See https://git-annex.branchable.com/upgrades/insecure_embedded_creds/" fromcreds $ fromB64 enccreds fromcreds creds = case decodeCredPair creds of Just credpair -> do writeCacheCredPair credpair storage return $ Just credpair _ -> error "bad creds" getRemoteCredPairFor :: String -> ParsedRemoteConfig -> RemoteGitConfig -> CredPairStorage -> Annex (Maybe CredPair) getRemoteCredPairFor this c gc storage = go =<< getRemoteCredPair c gc storage where go Nothing = do warning $ missingCredPairFor this storage return Nothing go (Just credpair) = return $ Just credpair missingCredPairFor :: String -> CredPairStorage -> String missingCredPairFor this storage = unwords [ "Set both", loginvar , "and", passwordvar , "to use", this ] where (loginvar, passwordvar) = credPairEnvironment storage {- Gets a CredPair from the environment. -} getEnvCredPair :: CredPairStorage -> IO (Maybe CredPair) getEnvCredPair storage = liftM2 (,) <$> getEnv uenv <*> getEnv penv where (uenv, penv) = credPairEnvironment storage {- Writes a cred pair to local cache, unless prevented by configuration. -} writeCacheCredPair :: CredPair -> CredPairStorage -> Annex () writeCacheCredPair credpair storage = whenM (annexCacheCreds <$> Annex.getGitConfig) $ writeCreds (encodeCredPair credpair) (credPairFile storage) readCacheCredPair :: CredPairStorage -> Annex (Maybe CredPair) readCacheCredPair storage = maybe Nothing decodeCredPair <$> readCreds (credPairFile storage) existsCacheCredPair :: CredPairStorage -> Annex Bool existsCacheCredPair storage = liftIO . doesFileExist =<< credsFile (credPairFile storage) {- Stores the creds in a file inside gitAnnexCredsDir that only the user - can read. -} writeCreds :: Creds -> FilePath -> Annex () writeCreds creds file = do d <- fromRepo gitAnnexCredsDir createAnnexDirectory d liftIO $ writeFileProtected (d P. toRawFilePath file) creds readCreds :: FilePath -> Annex (Maybe Creds) readCreds f = liftIO . catchMaybeIO . readFileStrict =<< credsFile f credsFile :: FilePath -> Annex FilePath credsFile basefile = do d <- fromRawFilePath <$> fromRepo gitAnnexCredsDir return $ d basefile encodeCredPair :: CredPair -> Creds encodeCredPair (l, p) = unlines [l, p] decodeCredPair :: Creds -> Maybe CredPair decodeCredPair creds = case lines creds of l:p:[] -> Just (l, p) _ -> Nothing removeCreds :: FilePath -> Annex () removeCreds file = do d <- fromRepo gitAnnexCredsDir liftIO $ removeWhenExistsWith R.removeLink (d P. toRawFilePath file) includeCredsInfo :: ParsedRemoteConfig -> CredPairStorage -> [(String, String)] -> Annex [(String, String)] includeCredsInfo pc@(ParsedRemoteConfig cm _) storage info = do v <- liftIO $ getEnvCredPair storage case v of Just _ -> do let (uenv, penv) = credPairEnvironment storage ret $ "from environment variables (" ++ unwords [uenv, penv] ++ ")" Nothing -> case (`M.lookup` cm) (credPairRemoteField storage) of Nothing -> ifM (existsCacheCredPair storage) ( ret "stored locally" , ret "not available" ) Just _ -> case extractCipher pc of Just (EncryptedCipher {}) -> ret "embedded in git repository (gpg encrypted)" _ -> ret "embedded in git repository (not encrypted)" where ret s = return $ ("creds", s) : info