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- /*
- * Copyright 2018 Scytl Secure Electronic Voting SA
- *
- * All rights reserved
- *
- * See our extended copyright notice in *file 'Copyright.txt' which is part of this source code package
- */
- /* jshint node:true */
- 'use strict';
- var PlaintextProofTestData = require('./data/plaintext-proof-data');
- var cryptoPolicy = require('scytl-cryptopolicy');
- var zkProof = require('../lib/index');
- var elGamal = require('scytl-elgamal');
- var messageDigest = require('scytl-messagedigest');
- var mathematical = require('scytl-mathematical');
- var secureRandom = require('scytl-securerandom');
- var codec = require('scytl-codec');
- describe('The zero-knowledge proof module should be able to ...', function() {
- var proofService_;
- var group_;
- var secret_;
- var ciphertext_;
- var anotherSecret_;
- var anotherCiphertext_;
- var publicKey_;
- var anotherPublicKey_;
- var plaintext_;
- var anotherPlaintext_;
- var data_;
- var otherData_;
- var proofHandler_;
- var proof_;
- var preComputation_;
- beforeAll(function() {
- proofService_ = zkProof.newService();
- var testData = new PlaintextProofTestData();
- var elGamalService = elGamal.newService();
- group_ = testData.getGroup();
- var encryptedElements = testData.getEncryptedElements();
- secret_ = encryptedElements.secret;
- ciphertext_ = elGamalService.newEncryptedElements(
- encryptedElements.gamma, encryptedElements.phis);
- var otherEncryptedElements = testData.getOtherEncryptedElements();
- anotherSecret_ = otherEncryptedElements.secret;
- anotherCiphertext_ = elGamalService.newEncryptedElements(
- otherEncryptedElements.gamma, otherEncryptedElements.phis);
- publicKey_ = testData.getPublicKey();
- anotherPublicKey_ = testData.getAnotherPublicKey();
- plaintext_ = testData.getPlaintext();
- anotherPlaintext_ = testData.getAnotherPlaintext();
- data_ = testData.getStringData();
- otherData_ = testData.getOtherStringData();
- proofHandler_ =
- proofService_.newPlaintextProofHandler(group_).init(publicKey_);
- proof_ = proofHandler_.generate(secret_, plaintext_, ciphertext_);
- preComputation_ = proofHandler_.preCompute();
- });
- beforeEach(function() {
- proofHandler_ =
- proofService_.newPlaintextProofHandler(group_).init(publicKey_);
- });
- describe('create a zero-knowledge proof service that should be able to ..', function() {
- describe('create a plaintext proof handler that should be able to', function() {
- it('generate and verify a plaintext proof', function() {
- var verified = proofHandler_.verify(proof_, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('generate and verify a plaintext proof, using a specified cryptographic policy',
- function() {
- var policy = cryptoPolicy.newInstance();
- policy.proofs.messageDigest.algorithm =
- cryptoPolicy.options.proofs.messageDigest.algorithm.SHA512_224;
- var proofService = zkProof.newService({policy: policy});
- var proofHandler =
- proofService.newPlaintextProofHandler(group_).init(publicKey_);
- proof_ = proofHandler.generate(secret_, plaintext_, ciphertext_);
- var verified = proofHandler.verify(proof_, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('generate and verify a plaintext proof, using a specified message digest service',
- function() {
- var policy = cryptoPolicy.newInstance();
- policy.proofs.messageDigest.algorithm =
- cryptoPolicy.options.proofs.messageDigest.algorithm.SHA512_224;
- var messageDigestService =
- messageDigest.newService({policy: policy});
- var proofService =
- zkProof.newService({messageDigestService: messageDigestService});
- var proofHandler =
- proofService.newPlaintextProofHandler(group_).init(publicKey_);
- proof_ = proofHandler.generate(secret_, plaintext_, ciphertext_);
- var verified = proofHandler.verify(proof_, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('generate and verify a plaintext proof, using a specified secure random service object',
- function() {
- var proofService = zkProof.newService(
- {secureRandomService: secureRandom.newService()});
- var proofHandler =
- proofService.newPlaintextProofHandler(group_).init(publicKey_);
- proof_ = proofHandler.generate(secret_, plaintext_, ciphertext_);
- var verified = proofHandler.verify(proof_, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('generate and verify a plaintext proof, using a specified mathematical service object',
- function() {
- var proofService = zkProof.newService(
- {mathematicalService: mathematical.newService()});
- var proofHandler =
- proofService.newPlaintextProofHandler(group_).init(publicKey_);
- proof_ = proofHandler.generate(secret_, plaintext_, ciphertext_);
- var verified = proofHandler.verify(proof_, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('generate and verify a plaintext proof, using provided auxiliary data',
- function() {
- // Data as string.
- var proof = proofHandler_.generate(
- secret_, plaintext_, ciphertext_, {data: data_});
- var verified = proofHandler_.verify(
- proof, plaintext_, ciphertext_, {data: data_});
- expect(verified).toBeTruthy();
- // Data as bytes.
- proof = proofHandler_.generate(
- secret_, plaintext_, ciphertext_,
- {data: codec.utf8Encode(data_)});
- verified = proofHandler_.verify(
- proof, plaintext_, ciphertext_, {data: codec.utf8Encode(data_)});
- expect(verified).toBeTruthy();
- });
- it('generate and verify a plaintext proof, using a pre-computation',
- function() {
- var proof = proofHandler_.generate(
- secret_, plaintext_, ciphertext_,
- {preComputation: preComputation_});
- var verified = proofHandler_.verify(proof, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('generate and verify a plaintext proof, using empty string auxiliary data',
- function() {
- var proof = proofHandler_.generate(
- secret_, plaintext_, ciphertext_, {data: ''});
- var verified =
- proofHandler_.verify(proof, plaintext_, ciphertext_, {data: ''});
- expect(verified).toBeTruthy();
- });
- it('pre-compute, generate and verify a plaintext proof, using method chaining',
- function() {
- var preComputation = proofService_.newPlaintextProofHandler(group_)
- .init(publicKey_)
- .preCompute();
- var proof = proofService_.newPlaintextProofHandler(group_)
- .init(publicKey_)
- .generate(
- secret_, plaintext_, ciphertext_,
- {data: data_, preComputation: preComputation});
- var verified =
- proofService_.newPlaintextProofHandler(group_)
- .init(publicKey_)
- .verify(proof, plaintext_, ciphertext_, {data: data_});
- expect(verified).toBeTruthy();
- });
- it('create a new plaintext ZeroKnowledgeProof object', function() {
- var hash = proof_.hash;
- var values = proof_.values;
- var proof = proofService_.newProof(hash, values);
- var verified = proofHandler_.verify(proof, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('create a new plaintext ZeroKnowledgeProofPreComputation object',
- function() {
- var exponents = preComputation_.exponents;
- var phiOutputs = preComputation_.phiOutputs;
- var preComputation =
- proofService_.newPreComputation(exponents, phiOutputs);
- var proof = proofHandler_.generate(
- secret_, plaintext_, ciphertext_,
- {preComputation: preComputation});
- var verified = proofHandler_.verify(proof, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('serialize and deserialize a plaintext proof', function() {
- var proofJson = proof_.toJson();
- var proof = proofService_.newProof(proofJson);
- var verified = proofHandler_.verify(proof, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('serialize and deserialize a plaintext proof pre-computation',
- function() {
- var preComputationJson = preComputation_.toJson();
- var preComputation =
- proofService_.newPreComputation(preComputationJson);
- var proof = proofHandler_.generate(
- secret_, plaintext_, ciphertext_,
- {preComputation: preComputation});
- var verified = proofHandler_.verify(proof, plaintext_, ciphertext_);
- expect(verified).toBeTruthy();
- });
- it('fail to verify a plaintext proof that was generated with a secret not used to generate the ciphertext',
- function() {
- var proof =
- proofHandler_.generate(anotherSecret_, plaintext_, ciphertext_);
- var verified = proofHandler_.verify(proof, plaintext_, ciphertext_);
- expect(verified).toBeFalsy();
- });
- it('fail to verify a plaintext proof that was generated with a publicKey not used to generate the ciphertext',
- function() {
- proofHandler_.init(anotherPublicKey_);
- var proof = proofHandler_.generate(secret_, plaintext_, ciphertext_);
- var verified = proofHandler_.verify(proof, plaintext_, ciphertext_);
- expect(verified).toBeFalsy();
- });
- it('fail to verify a plaintext proof that was generated with a plaintext not used to generate the ciphertext',
- function() {
- var proof =
- proofHandler_.generate(secret_, anotherPlaintext_, ciphertext_);
- var verified =
- proofHandler_.verify(proof, anotherPlaintext_, ciphertext_);
- expect(verified).toBeFalsy();
- });
- it('fail to verify a plaintext proof that was generated with a ciphertext not generated with the public key',
- function() {
- var proof =
- proofHandler_.generate(secret_, plaintext_, anotherCiphertext_);
- var verified =
- proofHandler_.verify(proof, plaintext_, anotherCiphertext_);
- expect(verified).toBeFalsy();
- });
- it('fail to verify a plaintext proof when using a public key not used to generate the proof',
- function() {
- var verified = proofHandler_.init(anotherPublicKey_)
- .verify(proof_, plaintext_, ciphertext_);
- expect(verified).toBeFalsy();
- });
- it('fail to verify a plaintext proof when using a plaintext not used to generate the proof',
- function() {
- var verified =
- proofHandler_.verify(proof_, anotherPlaintext_, ciphertext_);
- expect(verified).toBeFalsy();
- });
- it('fail to verify a plaintext proof when using a ciphertext not used to generate the proof',
- function() {
- var verified =
- proofHandler_.verify(proof_, plaintext_, anotherCiphertext_);
- expect(verified).toBeFalsy();
- });
- it('fail to verify a plaintext proof when using auxiliary data not used to generate the proof',
- function() {
- var proof = proofHandler_.generate(
- secret_, plaintext_, ciphertext_, {data: data_});
- var verified = proofHandler_.verify(
- proof, plaintext_, ciphertext_, {data: otherData_});
- expect(verified).toBeFalsy();
- });
- it('throw an error when generating a proof before the handler has been initialized with a pubilc key',
- function() {
- var proofHandler = proofService_.newPlaintextProofHandler(group_);
- expect(function() {
- proofHandler.generate(secret_, plaintext_, ciphertext_);
- }).toThrow();
- });
- it('throw an error when pre-computing a proof before the handler has been initialized with a pubilc key',
- function() {
- var proofHandler = proofService_.newPlaintextProofHandler(group_);
- expect(function() {
- proofHandler.preCompute();
- }).toThrow();
- });
- it('throw an error when verifying a proof before the handler has been initialized with a pubilc key',
- function() {
- var proofHandler = proofService_.newPlaintextProofHandler(group_);
- expect(function() {
- proofHandler.verify(proof_, plaintext_, ciphertext_);
- }).toThrow();
- });
- });
- });
- });
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