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author | Alex Beregszaszi <alex@rtfs.hu> | 2017-10-09 17:09:20 +0800 |
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committer | chriseth <chris@ethereum.org> | 2017-10-09 17:09:20 +0800 |
commit | 9ee619c9bba5cdbabfa9d587a0c726d1eaae9be9 (patch) | |
tree | 51e9dbdc5312c13397b9e4e07165eec4ad3f0ce6 /test | |
parent | 6f832cacde44ba02c663ce2d90a381b567ec3e2c (diff) | |
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Snarks test using Byzantium precompiles
* Snark tests.
* Verifying routine.
* Example proof.
* Update precompiled positions to Byzantium ruleset.
Diffstat (limited to 'test')
-rw-r--r-- | test/RPCSession.cpp | 5 | ||||
-rw-r--r-- | test/libsolidity/SolidityEndToEndTest.cpp | 301 |
2 files changed, 305 insertions, 1 deletions
diff --git a/test/RPCSession.cpp b/test/RPCSession.cpp index 768c8c4b..72b26453 100644 --- a/test/RPCSession.cpp +++ b/test/RPCSession.cpp @@ -236,7 +236,10 @@ void RPCSession::test_setChainParams(vector<string> const& _accounts) "0000000000000000000000000000000000000001": { "wei": "1", "precompiled": { "name": "ecrecover", "linear": { "base": 3000, "word": 0 } } }, "0000000000000000000000000000000000000002": { "wei": "1", "precompiled": { "name": "sha256", "linear": { "base": 60, "word": 12 } } }, "0000000000000000000000000000000000000003": { "wei": "1", "precompiled": { "name": "ripemd160", "linear": { "base": 600, "word": 120 } } }, - "0000000000000000000000000000000000000004": { "wei": "1", "precompiled": { "name": "identity", "linear": { "base": 15, "word": 3 } } } + "0000000000000000000000000000000000000004": { "wei": "1", "precompiled": { "name": "identity", "linear": { "base": 15, "word": 3 } } }, + "0000000000000000000000000000000000000006": { "wei": "1", "precompiled": { "name": "alt_bn128_G1_add", "linear": { "base": 15, "word": 3 } } }, + "0000000000000000000000000000000000000007": { "wei": "1", "precompiled": { "name": "alt_bn128_G1_mul", "linear": { "base": 15, "word": 3 } } }, + "0000000000000000000000000000000000000008": { "wei": "1", "precompiled": { "name": "alt_bn128_pairing_product", "linear": { "base": 15, "word": 3 } } } } } )"; diff --git a/test/libsolidity/SolidityEndToEndTest.cpp b/test/libsolidity/SolidityEndToEndTest.cpp index 35916ec7..ac77a7e1 100644 --- a/test/libsolidity/SolidityEndToEndTest.cpp +++ b/test/libsolidity/SolidityEndToEndTest.cpp @@ -10176,6 +10176,307 @@ BOOST_AUTO_TEST_CASE(address_overload_resolution) BOOST_CHECK(callContractFunction("g()") == encodeArgs(u256(5))); } +BOOST_AUTO_TEST_CASE(snark) +{ + char const* sourceCode = R"( + library Pairing { + struct G1Point { + uint X; + uint Y; + } + // Encoding of field elements is: X[0] * z + X[1] + struct G2Point { + uint[2] X; + uint[2] Y; + } + + /// @return the generator of G1 + function P1() internal returns (G1Point) { + return G1Point(1, 2); + } + + /// @return the generator of G2 + function P2() internal returns (G2Point) { + return G2Point( + [11559732032986387107991004021392285783925812861821192530917403151452391805634, + 10857046999023057135944570762232829481370756359578518086990519993285655852781], + [4082367875863433681332203403145435568316851327593401208105741076214120093531, + 8495653923123431417604973247489272438418190587263600148770280649306958101930] + ); + } + + /// @return the negation of p, i.e. p.add(p.negate()) should be zero. + function negate(G1Point p) internal returns (G1Point) { + // The prime q in the base field F_q for G1 + uint q = 21888242871839275222246405745257275088696311157297823662689037894645226208583; + if (p.X == 0 && p.Y == 0) + return G1Point(0, 0); + return G1Point(p.X, q - (p.Y % q)); + } + + /// @return the sum of two points of G1 + function add(G1Point p1, G1Point p2) internal returns (G1Point r) { + uint[4] memory input; + input[0] = p1.X; + input[1] = p1.Y; + input[2] = p2.X; + input[3] = p2.Y; + bool success; + assembly { + success := call(sub(gas, 2000), 6, 0, input, 0xc0, r, 0x60) + // Use "invalid" to make gas estimation work + switch success case 0 { invalid() } + } + require(success); + } + + /// @return the product of a point on G1 and a scalar, i.e. + /// p == p.mul(1) and p.add(p) == p.mul(2) for all points p. + function mul(G1Point p, uint s) internal returns (G1Point r) { + uint[3] memory input; + input[0] = p.X; + input[1] = p.Y; + input[2] = s; + bool success; + assembly { + success := call(sub(gas, 2000), 7, 0, input, 0x80, r, 0x60) + // Use "invalid" to make gas estimation work + switch success case 0 { invalid() } + } + require(success); + } + + /// @return the result of computing the pairing check + /// e(p1[0], p2[0]) * .... * e(p1[n], p2[n]) == 1 + /// For example pairing([P1(), P1().negate()], [P2(), P2()]) should + /// return true. + function pairing(G1Point[] p1, G2Point[] p2) internal returns (bool) { + require(p1.length == p2.length); + uint elements = p1.length; + uint inputSize = p1.length * 6; + uint[] memory input = new uint[](inputSize); + for (uint i = 0; i < elements; i++) + { + input[i * 6 + 0] = p1[i].X; + input[i * 6 + 1] = p1[i].Y; + input[i * 6 + 2] = p2[i].X[0]; + input[i * 6 + 3] = p2[i].X[1]; + input[i * 6 + 4] = p2[i].Y[0]; + input[i * 6 + 5] = p2[i].Y[1]; + } + uint[1] memory out; + bool success; + assembly { + success := call(sub(gas, 2000), 8, 0, add(input, 0x20), mul(inputSize, 0x20), out, 0x20) + // Use "invalid" to make gas estimation work + switch success case 0 { invalid() } + } + require(success); + return out[0] != 0; + } + function pairingProd2(G1Point a1, G2Point a2, G1Point b1, G2Point b2) internal returns (bool) { + G1Point[] memory p1 = new G1Point[](2); + G2Point[] memory p2 = new G2Point[](2); + p1[0] = a1; + p1[1] = b1; + p2[0] = a2; + p2[1] = b2; + return pairing(p1, p2); + } + function pairingProd3( + G1Point a1, G2Point a2, + G1Point b1, G2Point b2, + G1Point c1, G2Point c2 + ) internal returns (bool) { + G1Point[] memory p1 = new G1Point[](3); + G2Point[] memory p2 = new G2Point[](3); + p1[0] = a1; + p1[1] = b1; + p1[2] = c1; + p2[0] = a2; + p2[1] = b2; + p2[2] = c2; + return pairing(p1, p2); + } + function pairingProd4( + G1Point a1, G2Point a2, + G1Point b1, G2Point b2, + G1Point c1, G2Point c2, + G1Point d1, G2Point d2 + ) internal returns (bool) { + G1Point[] memory p1 = new G1Point[](4); + G2Point[] memory p2 = new G2Point[](4); + p1[0] = a1; + p1[1] = b1; + p1[2] = c1; + p1[3] = d1; + p2[0] = a2; + p2[1] = b2; + p2[2] = c2; + p2[3] = d2; + return pairing(p1, p2); + } + } + + contract Test { + using Pairing for *; + struct VerifyingKey { + Pairing.G2Point A; + Pairing.G1Point B; + Pairing.G2Point C; + Pairing.G2Point gamma; + Pairing.G1Point gammaBeta1; + Pairing.G2Point gammaBeta2; + Pairing.G2Point Z; + Pairing.G1Point[] IC; + } + struct Proof { + Pairing.G1Point A; + Pairing.G1Point A_p; + Pairing.G2Point B; + Pairing.G1Point B_p; + Pairing.G1Point C; + Pairing.G1Point C_p; + Pairing.G1Point K; + Pairing.G1Point H; + } + function f() returns (bool) { + Pairing.G1Point memory p1; + Pairing.G1Point memory p2; + p1.X = 1; p1.Y = 2; + p2.X = 1; p2.Y = 2; + var explict_sum = Pairing.add(p1, p2); + var scalar_prod = Pairing.mul(p1, 2); + return (explict_sum.X == scalar_prod.X && + explict_sum.Y == scalar_prod.Y); + } + function g() returns (bool) { + Pairing.G1Point memory x = Pairing.add(Pairing.P1(), Pairing.negate(Pairing.P1())); + // should be zero + return (x.X == 0 && x.Y == 0); + } + function testMul() returns (bool) { + Pairing.G1Point memory p; + // @TODO The points here are reported to be not well-formed + p.X = 14125296762497065001182820090155008161146766663259912659363835465243039841726; + p.Y = 16229134936871442251132173501211935676986397196799085184804749187146857848057; + p = Pairing.mul(p, 13986731495506593864492662381614386532349950841221768152838255933892789078521); + return + p.X == 18256332256630856740336504687838346961237861778318632856900758565550522381207 && + p.Y == 6976682127058094634733239494758371323697222088503263230319702770853579280803; + } + function pair() returns (bool) { + Pairing.G2Point memory fiveTimesP2 = Pairing.G2Point( + [4540444681147253467785307942530223364530218361853237193970751657229138047649, 20954117799226682825035885491234530437475518021362091509513177301640194298072], + [11631839690097995216017572651900167465857396346217730511548857041925508482915, 21508930868448350162258892668132814424284302804699005394342512102884055673846] + ); + // The prime p in the base field F_p for G1 + uint p = 21888242871839275222246405745257275088696311157297823662689037894645226208583; + Pairing.G1Point[] memory g1points = new Pairing.G1Point[](2); + Pairing.G2Point[] memory g2points = new Pairing.G2Point[](2); + // check e(5 P1, P2)e(-P1, 5 P2) == 1 + g1points[0] = Pairing.P1().mul(5); + g1points[1] = Pairing.P1().negate(); + g2points[0] = Pairing.P2(); + g2points[1] = fiveTimesP2; + if (!Pairing.pairing(g1points, g2points)) + return false; + // check e(P1, P2)e(-P1, P2) == 1 + g1points[0] = Pairing.P1(); + g1points[1] = Pairing.P1(); + g1points[1].Y = p - g1points[1].Y; + g2points[0] = Pairing.P2(); + g2points[1] = Pairing.P2(); + if (!Pairing.pairing(g1points, g2points)) + return false; + return true; + } + function verifyingKey() internal returns (VerifyingKey vk) { + vk.A = Pairing.G2Point([0x209dd15ebff5d46c4bd888e51a93cf99a7329636c63514396b4a452003a35bf7, 0x04bf11ca01483bfa8b34b43561848d28905960114c8ac04049af4b6315a41678], [0x2bb8324af6cfc93537a2ad1a445cfd0ca2a71acd7ac41fadbf933c2a51be344d, 0x120a2a4cf30c1bf9845f20c6fe39e07ea2cce61f0c9bb048165fe5e4de877550]); + vk.B = Pairing.G1Point(0x2eca0c7238bf16e83e7a1e6c5d49540685ff51380f309842a98561558019fc02, 0x03d3260361bb8451de5ff5ecd17f010ff22f5c31cdf184e9020b06fa5997db84); + vk.C = Pairing.G2Point([0x2e89718ad33c8bed92e210e81d1853435399a271913a6520736a4729cf0d51eb, 0x01a9e2ffa2e92599b68e44de5bcf354fa2642bd4f26b259daa6f7ce3ed57aeb3], [0x14a9a87b789a58af499b314e13c3d65bede56c07ea2d418d6874857b70763713, 0x178fb49a2d6cd347dc58973ff49613a20757d0fcc22079f9abd10c3baee24590]); + vk.gamma = Pairing.G2Point([0x25f83c8b6ab9de74e7da488ef02645c5a16a6652c3c71a15dc37fe3a5dcb7cb1, 0x22acdedd6308e3bb230d226d16a105295f523a8a02bfc5e8bd2da135ac4c245d], [0x065bbad92e7c4e31bf3757f1fe7362a63fbfee50e7dc68da116e67d600d9bf68, 0x06d302580dc0661002994e7cd3a7f224e7ddc27802777486bf80f40e4ca3cfdb]); + vk.gammaBeta1 = Pairing.G1Point(0x15794ab061441e51d01e94640b7e3084a07e02c78cf3103c542bc5b298669f21, 0x14db745c6780e9df549864cec19c2daf4531f6ec0c89cc1c7436cc4d8d300c6d); + vk.gammaBeta2 = Pairing.G2Point([0x1f39e4e4afc4bc74790a4a028aff2c3d2538731fb755edefd8cb48d6ea589b5e, 0x283f150794b6736f670d6a1033f9b46c6f5204f50813eb85c8dc4b59db1c5d39], [0x140d97ee4d2b36d99bc49974d18ecca3e7ad51011956051b464d9e27d46cc25e, 0x0764bb98575bd466d32db7b15f582b2d5c452b36aa394b789366e5e3ca5aabd4]); + vk.Z = Pairing.G2Point([0x217cee0a9ad79a4493b5253e2e4e3a39fc2df38419f230d341f60cb064a0ac29, 0x0a3d76f140db8418ba512272381446eb73958670f00cf46f1d9e64cba057b53c], [0x26f64a8ec70387a13e41430ed3ee4a7db2059cc5fc13c067194bcc0cb49a9855, 0x2fd72bd9edb657346127da132e5b82ab908f5816c826acb499e22f2412d1a2d7]); + vk.IC = new Pairing.G1Point[](10); + vk.IC[0] = Pairing.G1Point(0x0aee46a7ea6e80a3675026dfa84019deee2a2dedb1bbe11d7fe124cb3efb4b5a, 0x044747b6e9176e13ede3a4dfd0d33ccca6321b9acd23bf3683a60adc0366ebaf); + vk.IC[1] = Pairing.G1Point(0x1e39e9f0f91fa7ff8047ffd90de08785777fe61c0e3434e728fce4cf35047ddc, 0x2e0b64d75ebfa86d7f8f8e08abbe2e7ae6e0a1c0b34d028f19fa56e9450527cb); + vk.IC[2] = Pairing.G1Point(0x1c36e713d4d54e3a9644dffca1fc524be4868f66572516025a61ca542539d43f, 0x042dcc4525b82dfb242b09cb21909d5c22643dcdbe98c4d082cc2877e96b24db); + vk.IC[3] = Pairing.G1Point(0x17d5d09b4146424bff7e6fb01487c477bbfcd0cdbbc92d5d6457aae0b6717cc5, 0x02b5636903efbf46db9235bbe74045d21c138897fda32e079040db1a16c1a7a1); + vk.IC[4] = Pairing.G1Point(0x0f103f14a584d4203c27c26155b2c955f8dfa816980b24ba824e1972d6486a5d, 0x0c4165133b9f5be17c804203af781bcf168da7386620479f9b885ecbcd27b17b); + vk.IC[5] = Pairing.G1Point(0x232063b584fb76c8d07995bee3a38fa7565405f3549c6a918ddaa90ab971e7f8, 0x2ac9b135a81d96425c92d02296322ad56ffb16299633233e4880f95aafa7fda7); + vk.IC[6] = Pairing.G1Point(0x09b54f111d3b2d1b2fe1ae9669b3db3d7bf93b70f00647e65c849275de6dc7fe, 0x18b2e77c63a3e400d6d1f1fbc6e1a1167bbca603d34d03edea231eb0ab7b14b4); + vk.IC[7] = Pairing.G1Point(0x0c54b42137b67cc268cbb53ac62b00ecead23984092b494a88befe58445a244a, 0x18e3723d37fae9262d58b548a0575f59d9c3266db7afb4d5739555837f6b8b3e); + vk.IC[8] = Pairing.G1Point(0x0a6de0e2240aa253f46ce0da883b61976e3588146e01c9d8976548c145fe6e4a, 0x04fbaa3a4aed4bb77f30ebb07a3ec1c7d77a7f2edd75636babfeff97b1ea686e); + vk.IC[9] = Pairing.G1Point(0x111e2e2a5f8828f80ddad08f9f74db56dac1cc16c1cb278036f79a84cf7a116f, 0x1d7d62e192b219b9808faa906c5ced871788f6339e8d91b83ac1343e20a16b30); + } + function verify(uint[] input, Proof proof) internal returns (uint) { + VerifyingKey memory vk = verifyingKey(); + require(input.length + 1 == vk.IC.length); + // Compute the linear combination vk_x + Pairing.G1Point memory vk_x = Pairing.G1Point(0, 0); + for (uint i = 0; i < input.length; i++) + vk_x = Pairing.add(vk_x, Pairing.mul(vk.IC[i + 1], input[i])); + vk_x = Pairing.add(vk_x, vk.IC[0]); + if (!Pairing.pairingProd2(proof.A, vk.A, Pairing.negate(proof.A_p), Pairing.P2())) return 1; + if (!Pairing.pairingProd2(vk.B, proof.B, Pairing.negate(proof.B_p), Pairing.P2())) return 2; + if (!Pairing.pairingProd2(proof.C, vk.C, Pairing.negate(proof.C_p), Pairing.P2())) return 3; + if (!Pairing.pairingProd3( + proof.K, vk.gamma, + Pairing.negate(Pairing.add(vk_x, Pairing.add(proof.A, proof.C))), vk.gammaBeta2, + Pairing.negate(vk.gammaBeta1), proof.B + )) return 4; + if (!Pairing.pairingProd3( + Pairing.add(vk_x, proof.A), proof.B, + Pairing.negate(proof.H), vk.Z, + Pairing.negate(proof.C), Pairing.P2() + )) return 5; + return 0; + } + event Verified(string); + function verifyTx() returns (bool) { + uint[] memory input = new uint[](9); + Proof memory proof; + proof.A = Pairing.G1Point(12873740738727497448187997291915224677121726020054032516825496230827252793177, 21804419174137094775122804775419507726154084057848719988004616848382402162497); + proof.A_p = Pairing.G1Point(7742452358972543465462254569134860944739929848367563713587808717088650354556, 7324522103398787664095385319014038380128814213034709026832529060148225837366); + proof.B = Pairing.G2Point( + [8176651290984905087450403379100573157708110416512446269839297438960217797614, 15588556568726919713003060429893850972163943674590384915350025440408631945055], + [15347511022514187557142999444367533883366476794364262773195059233657571533367, 4265071979090628150845437155927259896060451682253086069461962693761322642015]); + proof.B_p = Pairing.G1Point(2979746655438963305714517285593753729335852012083057917022078236006592638393, 6470627481646078059765266161088786576504622012540639992486470834383274712950); + proof.C = Pairing.G1Point(6851077925310461602867742977619883934042581405263014789956638244065803308498, 10336382210592135525880811046708757754106524561907815205241508542912494488506); + proof.C_p = Pairing.G1Point(12491625890066296859584468664467427202390981822868257437245835716136010795448, 13818492518017455361318553880921248537817650587494176379915981090396574171686); + proof.H = Pairing.G1Point(12091046215835229523641173286701717671667447745509192321596954139357866668225, 14446807589950902476683545679847436767890904443411534435294953056557941441758); + proof.K = Pairing.G1Point(21341087976609916409401737322664290631992568431163400450267978471171152600502, 2942165230690572858696920423896381470344658299915828986338281196715687693170); + input[0] = 13986731495506593864492662381614386532349950841221768152838255933892789078521; + input[1] = 622860516154313070522697309645122400675542217310916019527100517240519630053; + input[2] = 11094488463398718754251685950409355128550342438297986977413505294941943071569; + input[3] = 6627643779954497813586310325594578844876646808666478625705401786271515864467; + input[4] = 2957286918163151606545409668133310005545945782087581890025685458369200827463; + input[5] = 1384290496819542862903939282897996566903332587607290986044945365745128311081; + input[6] = 5613571677741714971687805233468747950848449704454346829971683826953541367271; + input[7] = 9643208548031422463313148630985736896287522941726746581856185889848792022807; + input[8] = 18066496933330839731877828156604; + if (verify(input, proof) == 0) { + Verified("Transaction successfully verified."); + return true; + } else { + return false; + } + } + + } + )"; + compileAndRun(sourceCode, 0, "Pairing"); + compileAndRun(sourceCode, 0, "Test", bytes(), map<string, Address>{{"Pairing", m_contractAddress}}); + // Disabled because the point seems to be not well-formed, we need to find another example. + //BOOST_CHECK(callContractFunction("testMul()") == encodeArgs(true)); + BOOST_CHECK(callContractFunction("f()") == encodeArgs(true)); + BOOST_CHECK(callContractFunction("g()") == encodeArgs(true)); + BOOST_CHECK(callContractFunction("pair()") == encodeArgs(true)); + BOOST_CHECK(callContractFunction("verifyTx()") == encodeArgs(true)); +} + BOOST_AUTO_TEST_SUITE_END() } |