summaryrefslogtreecommitdiff
path: root/Remote/Helper/Encryptable.hs
blob: 9a8e9ba5be4a9f1f8ee44c5873eeeff836e60276 (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
{- common functions for encryptable remotes
 -
 - Copyright 2011 Joey Hess <joey@kitenet.net>
 -
 - Licensed under the GNU GPL version 3 or higher.
 -}

module Remote.Helper.Encryptable (
	EncryptionIsSetup,
	encryptionSetup,
	noEncryptionUsed,
	encryptionAlreadySetup,
	remoteCipher,
	remoteCipher',
	embedCreds,
	cipherKey,
	storeCipher,
	extractCipher,
) where

import qualified Data.Map as M

import Common.Annex
import Types.Remote
import Crypto
import Types.Crypto
import qualified Annex
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

{- 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 -> Annex (RemoteConfig, EncryptionIsSetup)
encryptionSetup c = maybe genCipher updateCipher $ extractCipher c
  where
	-- The type of encryption
	encryption = M.lookup "encryption" c
	-- Generate a new cipher, depending on the chosen encryption scheme
	genCipher = case encryption of
		_ | M.member "cipher" c || M.member "cipherkeys" c -> cannotchange
		Just "none" -> return (c, NoEncryption)
		Just "shared" -> use "encryption setup" . genSharedCipher
			=<< highRandomQuality
		-- hybrid encryption is the default when a keyid is
		-- specified but no encryption
		_ | maybe (M.member "keyid" c) (== "hybrid") encryption ->
			use "encryption setup" . genEncryptedCipher key Hybrid
				=<< highRandomQuality
		Just "pubkey" -> use "encryption setup" . genEncryptedCipher key PubKey
				=<< highRandomQuality
		_ -> error $ "Specify " ++ intercalate " or "
			(map ("encryption=" ++)
				["none","shared","hybrid","pubkey"])
			++ "."
	key = fromMaybe (error "Specifiy keyid=...") $ M.lookup "keyid" c
	newkeys = maybe [] (\k -> [(True,k)]) (M.lookup "keyid+" c) ++
		maybe [] (\k -> [(False,k)]) (M.lookup "keyid-" c)
	cannotchange = error "Cannot set encryption type of existing remotes."
	-- Update an existing cipher if possible.
	updateCipher v = case v of
		SharedCipher _ | maybe True (== "shared") encryption -> return (c', EncryptionIsSetup)
		EncryptedCipher _ variant _
			| maybe True (== if variant == Hybrid then "hybrid" else "pubkey") encryption ->
				use "encryption update" $ updateEncryptedCipher newkeys v
		_ -> cannotchange
	use m a = do
		showNote m
		cipher <- liftIO a
		showNote $ describeCipher cipher
		return (storeCipher c' cipher, EncryptionIsSetup)
	highRandomQuality = 
		(&&) (maybe True ( /= "false") $ M.lookup "highRandomQuality" c)
			<$> fmap not (Annex.getState Annex.fast)
	c' = foldr M.delete c
		-- git-annex 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).
		[ "keyid", "keyid+", "keyid-", "highRandomQuality" ]

remoteCipher :: RemoteConfig -> Annex (Maybe Cipher)
remoteCipher = fmap fst <$$> remoteCipher'

{- Gets encryption Cipher. The decrypted Ciphers are cached in the Annex
 - state. -}
remoteCipher' :: RemoteConfig -> Annex (Maybe (Cipher, StorableCipher))
remoteCipher' c = go $ extractCipher c
  where
	go Nothing = return Nothing
	go (Just encipher) = do
		cache <- Annex.getState Annex.ciphers
		case M.lookup encipher cache of
			Just cipher -> return $ Just (cipher, encipher)
			Nothing -> do
				showNote "gpg"
				cipher <- liftIO $ decryptCipher encipher
				Annex.changeState (\s -> s { Annex.ciphers = 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, in which case the creds will be encrypted
 - using it. Not when a shared cipher is used.
 -}
embedCreds :: RemoteConfig -> Bool
embedCreds c
	| M.lookup "embedcreds" c == Just "yes" = True
	| M.lookup "embedcreds" c == Just "no" = False
	| isJust (M.lookup "cipherkeys" c) && isJust (M.lookup "cipher" c) = True
	| otherwise = False

{- Gets encryption Cipher, and key encryptor. -}
cipherKey :: RemoteConfig -> Annex (Maybe (Cipher, EncKey))
cipherKey c = fmap make <$> remoteCipher c
  where
	make ciphertext = (ciphertext, encryptKey mac ciphertext)
	mac = fromMaybe defaultMac $ M.lookup "mac" c >>= readMac

{- Stores an StorableCipher in a remote's configuration. -}
storeCipher :: RemoteConfig -> StorableCipher -> RemoteConfig
storeCipher c (SharedCipher t) = M.insert "cipher" (toB64 t) c
storeCipher c (EncryptedCipher t _ ks) =
	M.insert "cipher" (toB64 t) $ M.insert "cipherkeys" (showkeys ks) c
  where
	showkeys (KeyIds l) = intercalate "," l

{- Extracts an StorableCipher from a remote's configuration. -}
extractCipher :: RemoteConfig -> Maybe StorableCipher
extractCipher c = case (M.lookup "cipher" c,
			M.lookup "cipherkeys" c,
			M.lookup "encryption" c) of
	(Just t, Just ks, encryption) | maybe True (== "hybrid") encryption ->
		Just $ EncryptedCipher (fromB64 t) Hybrid (readkeys ks)
	(Just t, Just ks, Just "pubkey") ->
		Just $ EncryptedCipher (fromB64 t) PubKey (readkeys ks)
	(Just t, Nothing, encryption) | maybe True (== "shared") encryption ->
		Just $ SharedCipher (fromB64 t)
	_ -> Nothing
  where
	readkeys = KeyIds . split ","