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1 {-# LANGUAGE AllowAmbiguousTypes #-}
2 {-# LANGUAGE DataKinds #-}
3 {-# LANGUAGE OverloadedStrings #-}
4 {-# LANGUAGE PatternSynonyms #-}
5 module HUnit.Election where
6
7 -- import Control.Applicative (Applicative(..))
8 import qualified Control.Monad.Trans.Except as Exn
9 import qualified Control.Monad.Trans.State.Strict as S
10 import qualified Data.List as List
11 import qualified System.Random as Random
12
13 import Protocol.Arithmetic
14 import Protocol.Credential
15 import Protocol.Election
16 import HUnit.Utils
17
18 -- * Type 'Params'
19 class SubGroup q => Params q where
20 paramsName :: String
21 instance Params WeakParams where
22 paramsName = "WeakParams"
23 instance Params BeleniosParams where
24 paramsName = "BeleniosParams"
25
26 hunit :: TestTree
27 hunit = testGroup "Election"
28 [ testGroup "groupGenInverses"
29 [ testCase "WeakParams" $
30 List.take 10 (groupGenInverses @WeakParams) @?=
31 [groupGen^neg (fromNatural n) | n <- [0..9]]
32 , testCase "BeleniosParams" $
33 List.take 10 (groupGenInverses @BeleniosParams) @?=
34 [groupGen^neg (fromNatural n) | n <- [0..9]]
35 ]
36 , testGroup "encryptBallot" $
37 [ testsEncryptBallot @WeakParams
38 , testsEncryptBallot @BeleniosParams
39 ]
40 ]
41
42 testsEncryptBallot :: forall q. Params q => TestTree
43 testsEncryptBallot =
44 testGroup (paramsName @q)
45 [ testEncryptBallot @q 0
46 [Question "q1" ["a1","a2","a3"] zero one]
47 [[True, False, False]]
48 (Right True)
49 , testEncryptBallot @q 0
50 [Question "q1" ["a1","a2","a3"] zero one]
51 [[False, False, False]]
52 (Right True)
53 , testEncryptBallot @q 0
54 [Question "q1" ["a1","a2","a3"] zero one]
55 [[False, False, False]]
56 (Right True)
57 , testEncryptBallot @q 0
58 [Question "q1" [] zero one]
59 []
60 (Left (ErrorBallot_WrongNumberOfAnswers 0 1))
61 , testEncryptBallot @q 0
62 [Question "q1" ["a1","a2"] one one]
63 [[True]]
64 (Left (ErrorBallot_Answer (ErrorAnswer_WrongNumberOfOpinions 1 2)))
65 , testEncryptBallot @q 0
66 [Question "q1" ["a1","a2","a3"] zero one]
67 [[True, True, False]]
68 (Left (ErrorBallot_Answer (ErrorAnswer_WrongSumOfOpinions 2 0 1)))
69 , testEncryptBallot @q 0
70 [Question "q1" ["a1","a2","a3"] one one]
71 [[False, False, False]]
72 (Left (ErrorBallot_Answer (ErrorAnswer_WrongSumOfOpinions 0 1 1)))
73 , testEncryptBallot @q 0
74 [Question "q1" ["a1","a2"] one one]
75 [[False, False, True]]
76 (Left (ErrorBallot_Answer (ErrorAnswer_WrongNumberOfOpinions 3 2)))
77 , testEncryptBallot @q 0
78 [ Question "q1" ["a11","a12","a13"] zero (one+one)
79 , Question "q2" ["a21","a22","a23"] one one
80 ]
81 [ [True, False, True]
82 , [False, True, False] ]
83 (Right True)
84 ]
85
86 testEncryptBallot ::
87 forall q. SubGroup q =>
88 Int -> [Question q] -> [[Bool]] ->
89 Either ErrorBallot Bool ->
90 TestTree
91 testEncryptBallot seed quests opins exp =
92 let verify =
93 Exn.runExcept $
94 (`S.evalStateT` Random.mkStdGen seed) $ do
95 uuid <- randomUUID
96 cred <- randomCredential
97 let secKey = secretKey @q uuid cred
98 let pubKey = publicKey secKey
99 let elec = Election
100 { election_name = "election"
101 , election_description = "description"
102 , election_publicKey = pubKey
103 , election_questions = quests
104 , election_uuid = uuid
105 , election_hash = Hash ""
106 }
107 verifyBallot elec
108 <$> encryptBallot elec (Just secKey) opins
109 in
110 testCase (show opins) $
111 verify @?= exp