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1 {-# LANGUAGE DeriveAnyClass #-}
2 {-# LANGUAGE DeriveGeneric #-}
3 {-# LANGUAGE DerivingStrategies #-}
4 {-# LANGUAGE OverloadedStrings #-}
5 {-# LANGUAGE UndecidableInstances #-} -- for Reifies instances
6 module Voting.Protocol.Tally where
7
8 import Control.DeepSeq (NFData)
9 import Control.Monad (Monad(..), mapM, unless)
10 import Control.Monad.Trans.Except (Except, ExceptT, throwE)
11 import Data.Aeson (ToJSON(..), FromJSON(..), (.:), (.=))
12 import Data.Eq (Eq(..))
13 import Data.Function (($), (.))
14 import Data.Functor ((<$>))
15 import Data.Maybe (maybe)
16 import Data.Semigroup (Semigroup(..))
17 import Data.Reflection (Reifies(..))
18 import Data.Tuple (fst, snd)
19 import GHC.Generics (Generic)
20 import Numeric.Natural (Natural)
21 import System.Random (RandomGen)
22 import Text.Show (Show(..))
23 import qualified Data.Aeson as JSON
24 import qualified Data.Aeson.Types as JSON
25 import qualified Data.Aeson.Encoding as JSON
26 import qualified Control.Monad.Trans.State.Strict as S
27 import qualified Data.ByteString as BS
28 import qualified Data.List as List
29 import qualified Data.Map.Strict as Map
30
31 import Voting.Protocol.Utils
32 import Voting.Protocol.Arithmetic
33 import Voting.Protocol.Version
34 import Voting.Protocol.Cryptography
35 import Voting.Protocol.Credential
36 import Voting.Protocol.Election
37
38 -- * Type 'Tally'
39 data Tally crypto v c = Tally
40 { tally_countMax :: !Natural
41 -- ^ The maximal number of supportive 'Opinion's that a choice can get,
42 -- which is here the same as the number of 'Ballot's.
43 --
44 -- Used in 'proveTally' to decrypt the actual
45 -- count of votes obtained by a choice,
46 -- by precomputing all powers of 'groupGen's up to it.
47 , tally_encByChoiceByQuest :: !(EncryptedTally crypto v c)
48 -- ^ 'Encryption' by 'Question' by 'Ballot'.
49 , tally_decShareByTrustee :: ![DecryptionShare crypto v c]
50 -- ^ 'DecryptionShare' by trustee.
51 , tally_countByChoiceByQuest :: ![[Natural]]
52 -- ^ The decrypted count of supportive 'Opinion's, by choice by 'Question'.
53 } deriving (Generic)
54 deriving instance Eq (G crypto c) => Eq (Tally crypto v c)
55 deriving instance (Show (G crypto c), Show (G crypto c)) => Show (Tally crypto v c)
56 deriving instance NFData (G crypto c) => NFData (Tally crypto v c)
57 instance
58 ( Reifies v Version
59 , CryptoParams crypto c
60 ) => ToJSON (Tally crypto v c) where
61 toJSON Tally{..} =
62 JSON.object
63 [ "num_tallied" .= tally_countMax
64 , "encrypted_tally" .= tally_encByChoiceByQuest
65 , "partial_decryptions" .= tally_decShareByTrustee
66 , "result" .= tally_countByChoiceByQuest
67 ]
68 toEncoding Tally{..} =
69 JSON.pairs
70 ( "num_tallied" .= tally_countMax
71 <> "encrypted_tally" .= tally_encByChoiceByQuest
72 <> "partial_decryptions" .= tally_decShareByTrustee
73 <> "result" .= tally_countByChoiceByQuest
74 )
75 instance
76 ( Reifies v Version
77 , CryptoParams crypto c
78 ) => FromJSON (Tally crypto v c) where
79 parseJSON = JSON.withObject "Tally" $ \o -> do
80 tally_countMax <- o .: "num_tallied"
81 tally_encByChoiceByQuest <- o .: "encrypted_tally"
82 tally_decShareByTrustee <- o .: "partial_decryptions"
83 tally_countByChoiceByQuest <- o .: "result"
84 return Tally{..}
85
86 -- ** Type 'EncryptedTally'
87 -- | 'Encryption' by choice by 'Question'.
88 type EncryptedTally crypto v c = [[Encryption crypto v c]]
89
90 -- | @('encryptedTally' ballots)@
91 -- returns the sum of the 'Encryption's of the given @ballots@,
92 -- along with the number of 'Ballot's.
93 encryptedTally ::
94 CryptoParams crypto c =>
95 [Ballot crypto v c] -> (EncryptedTally crypto v c, Natural)
96 encryptedTally = List.foldr insertEncryptedTally emptyEncryptedTally
97
98 -- | The initial 'EncryptedTally' which tallies no 'Ballot'.
99 emptyEncryptedTally ::
100 CryptoParams crypto c =>
101 (EncryptedTally crypto v c, Natural)
102 emptyEncryptedTally = (List.repeat (List.repeat zero), 0)
103
104 -- | @('insertEncryptedTally' ballot encTally)@
105 -- returns the 'EncryptedTally' adding the votes of the given @(ballot)@
106 -- to those of the given @(encTally)@.
107 insertEncryptedTally ::
108 CryptoParams crypto c =>
109 Ballot crypto v c ->
110 (EncryptedTally crypto v c, Natural) ->
111 (EncryptedTally crypto v c, Natural)
112 insertEncryptedTally Ballot{..} (encTally, numBallots) =
113 ( List.zipWith
114 (\Answer{..} -> List.zipWith (+) (fst <$> answer_opinions))
115 ballot_answers
116 encTally
117 , numBallots+1
118 )
119
120 -- ** Type 'DecryptionShareCombinator'
121 type DecryptionShareCombinator crypto v c =
122 EncryptedTally crypto v c ->
123 [DecryptionShare crypto v c] ->
124 Except ErrorTally [[DecryptionFactor crypto c]]
125
126 proveTally ::
127 CryptoParams crypto c =>
128 (EncryptedTally crypto v c, Natural) -> [DecryptionShare crypto v c] ->
129 DecryptionShareCombinator crypto v c -> Except ErrorTally (Tally crypto v c)
130 proveTally
131 (tally_encByChoiceByQuest, tally_countMax)
132 tally_decShareByTrustee
133 decShareCombinator = do
134 decFactorByChoiceByQuest <-
135 decShareCombinator
136 tally_encByChoiceByQuest
137 tally_decShareByTrustee
138 dec <- isoZipWithM (throwE ErrorTally_NumberOfQuestions)
139 (maybe (throwE ErrorTally_NumberOfChoices) return `o2`
140 isoZipWith (\Encryption{..} decFactor -> encryption_vault / decFactor))
141 tally_encByChoiceByQuest
142 decFactorByChoiceByQuest
143 let logMap = Map.fromList $ List.zip groupGenPowers [0..tally_countMax]
144 let log x =
145 maybe (throwE ErrorTally_CannotDecryptCount) return $
146 Map.lookup x logMap
147 tally_countByChoiceByQuest <- (log `mapM`)`mapM`dec
148 return Tally{..}
149
150 verifyTally ::
151 CryptoParams crypto c =>
152 Tally crypto v c ->
153 DecryptionShareCombinator crypto v c ->
154 Except ErrorTally ()
155 verifyTally Tally{..} decShareCombinator = do
156 decFactorByChoiceByQuest <- decShareCombinator tally_encByChoiceByQuest tally_decShareByTrustee
157 isoZipWith3M_ (throwE ErrorTally_NumberOfQuestions)
158 (isoZipWith3M_ (throwE ErrorTally_NumberOfChoices)
159 (\Encryption{..} decFactor count -> do
160 let groupGenPowCount = encryption_vault / decFactor
161 unless (groupGenPowCount == groupGen ^ fromNatural count) $
162 throwE ErrorTally_WrongProof))
163 tally_encByChoiceByQuest
164 decFactorByChoiceByQuest
165 tally_countByChoiceByQuest
166
167 -- ** Type 'DecryptionShare'
168 -- | A decryption share is a 'DecryptionFactor' and a decryption 'Proof', by choice by 'Question'.
169 -- Computed by a trustee in 'proveDecryptionShare'.
170 newtype DecryptionShare crypto v c = DecryptionShare
171 { unDecryptionShare :: [[(DecryptionFactor crypto c, Proof crypto v c)]] }
172 deriving (Generic)
173 deriving instance Eq (G crypto c) => Eq (DecryptionShare crypto v c)
174 deriving instance Show (G crypto c) => Show (DecryptionShare crypto v c)
175 deriving newtype instance NFData (G crypto c) => NFData (DecryptionShare crypto v c)
176 instance
177 ( Reifies v Version
178 , ToJSON (G crypto c)
179 ) => ToJSON (DecryptionShare crypto v c) where
180 toJSON (DecryptionShare decByChoiceByQuest) =
181 JSON.object
182 [ "decryption_factors" .=
183 toJSONList (((toJSON . fst) <$>) <$> decByChoiceByQuest)
184 , "decryption_proofs" .=
185 toJSONList (((toJSON . snd) <$>) <$> decByChoiceByQuest)
186 ]
187 toEncoding (DecryptionShare decByChoiceByQuest) =
188 JSON.pairs $
189 JSON.pair "decryption_factors"
190 (JSON.list (JSON.list (toEncoding . fst)) decByChoiceByQuest) <>
191 JSON.pair "decryption_proofs"
192 (JSON.list (JSON.list (toEncoding . snd)) decByChoiceByQuest)
193 instance
194 ( Reifies v Version
195 , CryptoParams crypto c
196 ) => FromJSON (DecryptionShare crypto v c) where
197 parseJSON = JSON.withObject "DecryptionShare" $ \o -> do
198 decFactors <- o .: "decryption_factors"
199 decProofs <- o .: "decryption_proofs"
200 let err msg = JSON.typeMismatch ("DecryptionShare: "<>msg) (JSON.Object o)
201 DecryptionShare
202 <$> isoZipWithM (err "inconsistent number of questions")
203 (isoZipWithM (err "inconsistent number of choices")
204 (\a b -> return (a, b)))
205 decFactors decProofs
206
207 -- *** Type 'DecryptionFactor'
208 -- | @'encryption_nonce' '^'trusteeSecKey@
209 type DecryptionFactor = G
210
211 -- @('proveDecryptionShare' encByChoiceByQuest trusteeSecKey)@
212 proveDecryptionShare ::
213 Reifies v Version =>
214 CryptoParams crypto c =>
215 Key crypto =>
216 Monad m => RandomGen r =>
217 EncryptedTally crypto v c -> SecretKey crypto c -> S.StateT r m (DecryptionShare crypto v c)
218 proveDecryptionShare encByChoiceByQuest trusteeSecKey =
219 (DecryptionShare <$>) $
220 (proveDecryptionFactor trusteeSecKey `mapM`) `mapM` encByChoiceByQuest
221
222 proveDecryptionFactor ::
223 Reifies v Version =>
224 CryptoParams crypto c =>
225 Key crypto =>
226 Monad m => RandomGen r =>
227 SecretKey crypto c -> Encryption crypto v c -> S.StateT r m (DecryptionFactor crypto c, Proof crypto v c)
228 proveDecryptionFactor trusteeSecKey Encryption{..} = do
229 proof <- prove trusteeSecKey [groupGen, encryption_nonce] (hash zkp)
230 return (encryption_nonce^trusteeSecKey, proof)
231 where zkp = decryptionShareStatement (publicKey trusteeSecKey)
232
233 decryptionShareStatement :: CryptoParams crypto c => PublicKey crypto c -> BS.ByteString
234 decryptionShareStatement pubKey =
235 "decrypt|"<>bytesNat pubKey<>"|"
236
237 -- *** Type 'ErrorTally'
238 data ErrorTally
239 = ErrorTally_NumberOfQuestions
240 -- ^ The number of 'Question's is not the one expected.
241 | ErrorTally_NumberOfChoices
242 -- ^ The number of choices is not the one expected.
243 | ErrorTally_NumberOfTrustees
244 -- ^ The number of trustees is not the one expected.
245 | ErrorTally_WrongProof
246 -- ^ The 'Proof' of a 'DecryptionFactor' is wrong.
247 | ErrorTally_CannotDecryptCount
248 -- ^ Raised by 'proveTally' when the discrete logarithm of @'groupGen' '^'count@
249 -- cannot be computed, likely because 'tally_countMax' is wrong,
250 -- or because the 'EncryptedTally' or 'DecryptionShare's have not been verified.
251 deriving (Eq,Show,Generic,NFData)
252
253 -- | @('verifyDecryptionShare' encTally trusteePubKey trusteeDecShare)@
254 -- checks that 'trusteeDecShare'
255 -- (supposedly submitted by a trustee whose 'PublicKey' is 'trusteePubKey')
256 -- is valid with respect to the 'EncryptedTally' 'encTally'.
257 verifyDecryptionShare ::
258 Reifies v Version =>
259 CryptoParams crypto c =>
260 Monad m =>
261 EncryptedTally crypto v c -> PublicKey crypto c -> DecryptionShare crypto v c ->
262 ExceptT ErrorTally m ()
263 verifyDecryptionShare encByChoiceByQuest trusteePubKey (DecryptionShare decShare) =
264 let zkp = decryptionShareStatement trusteePubKey in
265 isoZipWithM_ (throwE ErrorTally_NumberOfQuestions)
266 (isoZipWithM_ (throwE ErrorTally_NumberOfChoices) $
267 \Encryption{..} (decFactor, proof) ->
268 unless (proof_challenge proof == hash zkp
269 [ commit proof groupGen trusteePubKey
270 , commit proof encryption_nonce decFactor
271 ]) $ throwE ErrorTally_WrongProof)
272 encByChoiceByQuest
273 decShare
274
275 verifyDecryptionShareByTrustee ::
276 Reifies v Version =>
277 CryptoParams crypto c =>
278 Monad m =>
279 EncryptedTally crypto v c -> [PublicKey crypto c] -> [DecryptionShare crypto v c] ->
280 ExceptT ErrorTally m ()
281 verifyDecryptionShareByTrustee encTally =
282 isoZipWithM_ (throwE ErrorTally_NumberOfTrustees)
283 (verifyDecryptionShare encTally)