206 lines
7.8 KiB
Haskell
206 lines
7.8 KiB
Haskell
{- common functions for encryptable remotes
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-
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- Copyright 2011 Joey Hess <id@joeyh.name>
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-
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- Licensed under the GNU GPL version 3 or higher.
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-}
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module Remote.Helper.Encryptable (
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EncryptionIsSetup,
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encryptionSetup,
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noEncryptionUsed,
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encryptionAlreadySetup,
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remoteCipher,
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remoteCipher',
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embedCreds,
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cipherKey,
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extractCipher,
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isEncrypted,
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describeEncryption,
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) where
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import qualified Data.Map as M
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import qualified "sandi" Codec.Binary.Base64 as B64
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import qualified Data.ByteString as B
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import Annex.Common
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import Types.Remote
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import Config
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import Crypto
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import Types.Crypto
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import qualified Annex
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-- Used to ensure that encryption has been set up before trying to
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-- eg, store creds in the remote config that would need to use the
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-- encryption setup.
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data EncryptionIsSetup = EncryptionIsSetup | NoEncryption
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-- Remotes that don't use encryption can use this instead of
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-- encryptionSetup.
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noEncryptionUsed :: EncryptionIsSetup
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noEncryptionUsed = NoEncryption
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-- Using this avoids the type-safe check, so you'd better be sure
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-- of what you're doing.
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encryptionAlreadySetup :: EncryptionIsSetup
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encryptionAlreadySetup = EncryptionIsSetup
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{- Encryption setup for a remote. The user must specify whether to use
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- an encryption key, or not encrypt. An encrypted cipher is created, or is
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- updated to be accessible to an additional encryption key. Or the user
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- could opt to use a shared cipher, which is stored unencrypted. -}
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encryptionSetup :: RemoteConfig -> RemoteGitConfig -> Annex (RemoteConfig, EncryptionIsSetup)
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encryptionSetup c gc = do
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cmd <- gpgCmd <$> Annex.getGitConfig
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maybe (genCipher cmd) (updateCipher cmd) (extractCipher c)
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where
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-- The type of encryption
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encryption = M.lookup "encryption" c
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-- Generate a new cipher, depending on the chosen encryption scheme
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genCipher cmd = case encryption of
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_ | hasEncryptionConfig c -> cannotchange
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Just "none" -> return (c, NoEncryption)
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Just "shared" -> encsetup $ genSharedCipher cmd
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-- hybrid encryption is the default when a keyid is
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-- specified but no encryption
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_ | maybe (M.member "keyid" c) (== "hybrid") encryption ->
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encsetup $ genEncryptedCipher cmd (c, gc) key Hybrid
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Just "pubkey" -> encsetup $ genEncryptedCipher cmd (c, gc) key PubKey
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Just "sharedpubkey" -> encsetup $ genSharedPubKeyCipher cmd key
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_ -> giveup $ "Specify " ++ intercalate " or "
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(map ("encryption=" ++)
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["none","shared","hybrid","pubkey", "sharedpubkey"])
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++ "."
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key = fromMaybe (giveup "Specify keyid=...") $ M.lookup "keyid" c
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newkeys = maybe [] (\k -> [(True,k)]) (M.lookup "keyid+" c) ++
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maybe [] (\k -> [(False,k)]) (M.lookup "keyid-" c)
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cannotchange = giveup "Cannot set encryption type of existing remotes."
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-- Update an existing cipher if possible.
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updateCipher cmd v = case v of
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SharedCipher _ | maybe True (== "shared") encryption -> return (c', EncryptionIsSetup)
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EncryptedCipher _ variant _
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| maybe True (== if variant == Hybrid then "hybrid" else "pubkey") encryption -> do
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use "encryption update" $ updateCipherKeyIds cmd (c, gc) newkeys v
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SharedPubKeyCipher _ _ ->
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use "encryption update" $ updateCipherKeyIds cmd (c, gc) newkeys v
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_ -> cannotchange
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encsetup a = use "encryption setup" . a =<< highRandomQuality
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use m a = do
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showNote m
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cipher <- liftIO a
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showNote (describeCipher cipher)
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return (storeCipher cipher c', EncryptionIsSetup)
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highRandomQuality =
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(&&) (maybe True ( /= "false") $ M.lookup "highRandomQuality" c)
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<$> fmap not (Annex.getState Annex.fast)
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c' = foldr M.delete c
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-- git-annex used to remove 'encryption' as well, since
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-- it was redundant; we now need to keep it for
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-- public-key encryption, hence we leave it on newer
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-- remotes (while being backward-compatible).
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[ "keyid", "keyid+", "keyid-", "highRandomQuality" ]
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remoteCipher :: RemoteConfig -> RemoteGitConfig -> Annex (Maybe Cipher)
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remoteCipher c gc = fmap fst <$> remoteCipher' c gc
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{- Gets encryption Cipher. The decrypted Ciphers are cached in the Annex
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- state. -}
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remoteCipher' :: RemoteConfig -> RemoteGitConfig -> Annex (Maybe (Cipher, StorableCipher))
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remoteCipher' c gc = go $ extractCipher c
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where
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go Nothing = return Nothing
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go (Just encipher) = do
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cache <- Annex.getState Annex.ciphers
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case M.lookup encipher cache of
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Just cipher -> return $ Just (cipher, encipher)
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Nothing -> do
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cmd <- gpgCmd <$> Annex.getGitConfig
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cipher <- liftIO $ decryptCipher cmd (c, gc) encipher
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Annex.changeState (\s -> s { Annex.ciphers = M.insert encipher cipher cache })
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return $ Just (cipher, encipher)
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{- Checks if the remote's config allows storing creds in the remote's config.
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-
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- embedcreds=yes allows this, and embedcreds=no prevents it.
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-
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- If not set, the default is to only store creds when it's surely safe:
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- When gpg encryption is used and the creds are encrypted using it.
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- Not when a shared cipher is used.
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-}
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embedCreds :: RemoteConfig -> Bool
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embedCreds c = case yesNo =<< M.lookup "embedcreds" c of
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Just v -> v
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Nothing -> isJust (M.lookup "cipherkeys" c) && isJust (M.lookup "cipher" c)
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{- Gets encryption Cipher, and key encryptor. -}
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cipherKey :: RemoteConfig -> RemoteGitConfig -> Annex (Maybe (Cipher, EncKey))
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cipherKey c gc = fmap make <$> remoteCipher c gc
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where
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make ciphertext = (ciphertext, encryptKey mac ciphertext)
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mac = fromMaybe defaultMac $ M.lookup "mac" c >>= readMac
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{- Stores an StorableCipher in a remote's configuration. -}
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storeCipher :: StorableCipher -> RemoteConfig -> RemoteConfig
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storeCipher cip = case cip of
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(SharedCipher t) -> addcipher t
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(EncryptedCipher t _ ks) -> addcipher t . storekeys ks "cipherkeys"
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(SharedPubKeyCipher t ks) -> addcipher t . storekeys ks "pubkeys"
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where
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addcipher t = M.insert "cipher" (toB64bs t)
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storekeys (KeyIds l) n = M.insert n (intercalate "," l)
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{- Extracts an StorableCipher from a remote's configuration. -}
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extractCipher :: RemoteConfig -> Maybe StorableCipher
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extractCipher c = case (M.lookup "cipher" c,
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M.lookup "cipherkeys" c <|> M.lookup "pubkeys" c,
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M.lookup "encryption" c) of
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(Just t, Just ks, encryption) | maybe True (== "hybrid") encryption ->
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Just $ EncryptedCipher (fromB64bs t) Hybrid (readkeys ks)
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(Just t, Just ks, Just "pubkey") ->
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Just $ EncryptedCipher (fromB64bs t) PubKey (readkeys ks)
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(Just t, Just ks, Just "sharedpubkey") ->
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Just $ SharedPubKeyCipher (fromB64bs t) (readkeys ks)
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(Just t, Nothing, encryption) | maybe True (== "shared") encryption ->
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Just $ SharedCipher (fromB64bs t)
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_ -> Nothing
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where
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readkeys = KeyIds . splitc ','
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isEncrypted :: RemoteConfig -> Bool
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isEncrypted c = case M.lookup "encryption" c of
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Just "none" -> False
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Just _ -> True
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Nothing -> hasEncryptionConfig c
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hasEncryptionConfig :: RemoteConfig -> Bool
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hasEncryptionConfig c = M.member "cipher" c || M.member "cipherkeys" c || M.member "pubkeys" c
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describeEncryption :: RemoteConfig -> String
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describeEncryption c = case extractCipher c of
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Nothing -> "none"
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Just cip -> nameCipher cip ++ " (" ++ describeCipher cip ++ ")"
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nameCipher :: StorableCipher -> String
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nameCipher (SharedCipher _) = "shared"
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nameCipher (EncryptedCipher _ PubKey _) = "pubkey"
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nameCipher (EncryptedCipher _ Hybrid _) = "hybrid"
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nameCipher (SharedPubKeyCipher _ _) = "sharedpubkey"
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describeCipher :: StorableCipher -> String
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describeCipher c = case c of
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(SharedCipher _) -> "encryption key stored in git repository"
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(EncryptedCipher _ _ ks) -> showkeys ks
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(SharedPubKeyCipher _ ks) -> showkeys ks
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where
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showkeys (KeyIds { keyIds = ks }) = "to gpg keys: " ++ unwords ks
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{- Not using Utility.Base64 because these "Strings" are really
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- bags of bytes and that would convert to unicode and not round-trip
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- cleanly. -}
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toB64bs :: String -> String
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toB64bs = w82s . B.unpack . B64.encode . B.pack . s2w8
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fromB64bs :: String -> String
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fromB64bs s = either (const bad) (w82s . B.unpack) (B64.decode $ B.pack $ s2w8 s)
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where
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bad = error "bad base64 encoded data"
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