/* This file is part of cpp-ethereum. cpp-ethereum is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. cpp-ethereum is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with cpp-ethereum. If not, see . */ /** @file crypto.cpp * @author Alex Leverington * @date 2015 * RLPx test functions. */ #include #include #include #include #include #include #include #include #include #include #include using namespace std; using namespace dev; using namespace dev::crypto; using namespace CryptoPP; BOOST_AUTO_TEST_SUITE(rlpx) static Secp256k1 s_secp256k1; static CryptoPP::AutoSeededRandomPool s_rng; static CryptoPP::OID s_curveOID(CryptoPP::ASN1::secp256k1()); static CryptoPP::DL_GroupParameters_EC s_params(s_curveOID); static CryptoPP::DL_GroupParameters_EC::EllipticCurve s_curve(s_params.GetCurve()); BOOST_AUTO_TEST_CASE(test_secrets_cpp_vectors) { KeyPair init(Secret(sha3("initiator"))); KeyPair initR(Secret(sha3("initiator-random"))); h256 initNonce(sha3("initiator-nonce")); KeyPair recv(Secret(sha3("remote-recv"))); KeyPair recvR(Secret(sha3("remote-recv-random"))); h256 recvNonce(sha3("remote-recv-nonce")); bytes authCipher(fromHex("")); bytes ackCipher(fromHex("")); CryptoPP::CTR_Mode::Encryption m_frameEnc; CryptoPP::CTR_Mode::Encryption m_frameDec; CryptoPP::ECB_Mode::Encryption m_macEnc; CryptoPP::SHA3_256 m_egressMac; CryptoPP::SHA3_256 m_ingressMac; // when originated is true, agreement is with init secrets // when originated is true, remoteNonce = recvNonce // when originated is true, nonce = initNonce bool originated = true; auto remoteNonce = recvNonce; auto nonce = initNonce; bytes keyMaterialBytes(64); bytesRef keyMaterial(&keyMaterialBytes); // shared-secret = sha3(ecdhe-shared-secret || sha3(nonce || initiator-nonce)) Secret ephemeralShared; s_secp256k1.agree(initR.sec(), recvR.pub(), ephemeralShared); Secret expected(fromHex("20d82c1092f351dc217bd66fa183e801234af14ead40423b6ee25112201c6e5a")); BOOST_REQUIRE(expected == ephemeralShared); ephemeralShared.ref().copyTo(keyMaterial.cropped(0, h256::size)); h512 nonceMaterial; h256 const& leftNonce = originated ? remoteNonce : nonce; h256 const& rightNonce = originated ? nonce : remoteNonce; leftNonce.ref().copyTo(nonceMaterial.ref().cropped(0, h256::size)); rightNonce.ref().copyTo(nonceMaterial.ref().cropped(h256::size, h256::size)); auto outRef(keyMaterial.cropped(h256::size, h256::size)); sha3(nonceMaterial.ref(), outRef); // output h(nonces) // test that keyMaterial = ecdhe-shared-secret || sha3(nonce || initiator-nonce) { BOOST_REQUIRE(ephemeralShared == *(Secret*)keyMaterialBytes.data()); SHA3_256 ctx; ctx.Update(leftNonce.data(), h256::size); ctx.Update(rightNonce.data(), h256::size); bytes expected(32); ctx.Final(expected.data()); bytes given(32); outRef.copyTo(&given); BOOST_REQUIRE(expected == given); } bytes preImage(keyMaterialBytes); // shared-secret <- sha3(ecdhe-shared-secret || sha3(nonce || initiator-nonce)) // keyMaterial = ecdhe-shared-secret || shared-secret sha3(keyMaterial, outRef); bytes sharedSecret(32); outRef.copyTo(&sharedSecret); BOOST_REQUIRE(sharedSecret == fromHex("b65319ce56e00f3be75c4d0da92b5957d5583ca25eeeedac8e29b6dfc8b1ddf7")); // test that keyMaterial = ecdhe-shared-secret || shared-secret { BOOST_REQUIRE(ephemeralShared == *(Secret*)keyMaterialBytes.data()); SHA3_256 ctx; ctx.Update(preImage.data(), preImage.size()); bytes expected(32); ctx.Final(expected.data()); bytes test(32); outRef.copyTo(&test); BOOST_REQUIRE(expected == test); } // token: sha3(outRef) bytes token(32); sha3(outRef, bytesRef(&token)); BOOST_REQUIRE(token == fromHex("db41fe0180f372983cf19fca7ee890f7fb5481079d44683d2c027be9e71bbca2")); // aes-secret = sha3(ecdhe-shared-secret || shared-secret) sha3(keyMaterial, outRef); // output aes-secret bytes aesSecret(32); outRef.copyTo(&aesSecret); BOOST_REQUIRE(aesSecret == fromHex("12347b4784bcb4e74b84637940482852fe25d78e328cf5c6f7a396bf96cc20bb")); m_frameEnc.SetKeyWithIV(outRef.data(), h128::size, h128().data()); m_frameDec.SetKeyWithIV(outRef.data(), h128::size, h128().data()); // mac-secret = sha3(ecdhe-shared-secret || aes-secret) sha3(keyMaterial, outRef); // output mac-secret bytes macSecret(32); outRef.copyTo(&macSecret); BOOST_REQUIRE(macSecret == fromHex("2ec149072353d54437422837c886b0538a9206e6c559f6b4a55f65a866867723")); m_macEnc.SetKey(outRef.data(), h128::size); // Initiator egress-mac: sha3(mac-secret^recipient-nonce || auth-sent-init) // ingress-mac: sha3(mac-secret^initiator-nonce || auth-recvd-ack) // Recipient egress-mac: sha3(mac-secret^initiator-nonce || auth-sent-ack) // ingress-mac: sha3(mac-secret^recipient-nonce || auth-recvd-init) (*(h256*)outRef.data() ^ remoteNonce).ref().copyTo(keyMaterial); bytes const& egressCipher = originated ? authCipher : ackCipher; keyMaterialBytes.resize(h256::size + egressCipher.size()); keyMaterial.retarget(keyMaterialBytes.data(), keyMaterialBytes.size()); bytesConstRef(&egressCipher).copyTo(keyMaterial.cropped(h256::size, egressCipher.size())); m_egressMac.Update(keyMaterial.data(), keyMaterial.size()); { bytes egressMac; SHA3_256 h(m_egressMac); bytes digest(16); h.TruncatedFinal(digest.data(), 16); BOOST_REQUIRE(digest == fromHex("23e5e8efb6e3765ecae1fca9160b18df")); } // recover mac-secret by re-xoring remoteNonce (*(h256*)keyMaterial.data() ^ remoteNonce ^ nonce).ref().copyTo(keyMaterial); bytes const& ingressCipher = originated ? ackCipher : authCipher; keyMaterialBytes.resize(h256::size + ingressCipher.size()); keyMaterial.retarget(keyMaterialBytes.data(), keyMaterialBytes.size()); bytesConstRef(&ingressCipher).copyTo(keyMaterial.cropped(h256::size, ingressCipher.size())); m_ingressMac.Update(keyMaterial.data(), keyMaterial.size()); { bytes ingressMac; SHA3_256 h(m_ingressMac); bytes digest(16); h.TruncatedFinal(digest.data(), 16); BOOST_REQUIRE(digest == fromHex("ceed64135852064cbdde86e7ea05e8f5")); } } BOOST_AUTO_TEST_CASE(test_secrets_from_go) { KeyPair init(Secret(fromHex("0x5e173f6ac3c669587538e7727cf19b782a4f2fda07c1eaa662c593e5e85e3051"))); KeyPair initR(Secret(fromHex("0x19c2185f4f40634926ebed3af09070ca9e029f2edd5fae6253074896205f5f6c"))); h256 initNonce(fromHex("0xcd26fecb93657d1cd9e9eaf4f8be720b56dd1d39f190c4e1c6b7ec66f077bb11")); KeyPair recv(Secret(fromHex("0xc45f950382d542169ea207959ee0220ec1491755abe405cd7498d6b16adb6df8"))); KeyPair recvR(Secret(fromHex("0xd25688cf0ab10afa1a0e2dba7853ed5f1e5bf1c631757ed4e103b593ff3f5620"))); h256 recvNonce(fromHex("0xf37ec61d84cea03dcc5e8385db93248584e8af4b4d1c832d8c7453c0089687a7")); bytes authCipher(fromHex("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")); bytes ackCipher(fromHex("0x049934a7b2d7f9af8fd9db941d9da281ac9381b5740e1f64f7092f3588d4f87f5ce55191a6653e5e80c1c5dd538169aa123e70dc6ffc5af1827e546c0e958e42dad355bcc1fcb9cdf2cf47ff524d2ad98cbf275e661bf4cf00960e74b5956b799771334f426df007350b46049adb21a6e78ab1408d5e6ccde6fb5e69f0f4c92bb9c725c02f99fa72b9cdc8dd53cff089e0e73317f61cc5abf6152513cb7d833f09d2851603919bf0fbe44d79a09245c6e8338eb502083dc84b846f2fee1cc310d2cc8b1b9334728f97220bb799376233e113")); bytes authPlainExpected(fromHex("0x884c36f7ae6b406637c1f61b2f57e1d2cab813d24c6559aaf843c3f48962f32f46662c066d39669b7b2e3ba14781477417600e7728399278b1b5d801a519aa570034fdb5419558137e0d44cd13d319afe5629eeccb47fd9dfe55cc6089426e46cc762dd8a0636e07a54b31169eba0c7a20a1ac1ef68596f1f283b5c676bae4064abfcce24799d09f67e392632d3ffdc12e3d6430dcb0ea19c318343ffa7aae74d4cd26fecb93657d1cd9e9eaf4f8be720b56dd1d39f190c4e1c6b7ec66f077bb1100")); bytes ackPlainExpected(fromHex("0x802b052f8b066640bba94a4fc39d63815c377fced6fcb84d27f791c9921ddf3e9bf0108e298f490812847109cbd778fae393e80323fd643209841a3b7f110397f37ec61d84cea03dcc5e8385db93248584e8af4b4d1c832d8c7453c0089687a700")); bytes authPlain = authCipher; BOOST_REQUIRE(s_secp256k1.decryptECIES(recv.sec(), authPlain)); bytes ackPlain = ackCipher; BOOST_REQUIRE(s_secp256k1.decryptECIES(init.sec(), ackPlain)); CryptoPP::CTR_Mode::Encryption m_frameEnc; CryptoPP::CTR_Mode::Encryption m_frameDec; CryptoPP::ECB_Mode::Encryption m_macEnc; CryptoPP::SHA3_256 m_egressMac; CryptoPP::SHA3_256 m_ingressMac; // when originated is true, agreement is with init secrets // when originated is true, remoteNonce = recvNonce // when originated is true, nonce = initNonce bool originated = true; auto remoteNonce = recvNonce; auto nonce = initNonce; bytes keyMaterialBytes(64); bytesRef keyMaterial(&keyMaterialBytes); // shared-secret = sha3(ecdhe-shared-secret || sha3(nonce || initiator-nonce)) Secret ephemeralShared; s_secp256k1.agree(initR.sec(), recvR.pub(), ephemeralShared); Secret expected(fromHex("0xe3f407f83fc012470c26a93fdff534100f2c6f736439ce0ca90e9914f7d1c381")); BOOST_REQUIRE(expected == ephemeralShared); ephemeralShared.ref().copyTo(keyMaterial.cropped(0, h256::size)); h512 nonceMaterial; h256 const& leftNonce = originated ? remoteNonce : nonce; h256 const& rightNonce = originated ? nonce : remoteNonce; leftNonce.ref().copyTo(nonceMaterial.ref().cropped(0, h256::size)); rightNonce.ref().copyTo(nonceMaterial.ref().cropped(h256::size, h256::size)); auto outRef(keyMaterial.cropped(h256::size, h256::size)); sha3(nonceMaterial.ref(), outRef); // output h(nonces) // test that keyMaterial = ecdhe-shared-secret || sha3(nonce || initiator-nonce) { BOOST_REQUIRE(ephemeralShared == *(Secret*)keyMaterialBytes.data()); SHA3_256 ctx; ctx.Update(leftNonce.data(), h256::size); ctx.Update(rightNonce.data(), h256::size); bytes expected(32); ctx.Final(expected.data()); bytes given(32); outRef.copyTo(&given); BOOST_REQUIRE(expected == given); } bytes preImage(keyMaterialBytes); // shared-secret <- sha3(ecdhe-shared-secret || sha3(nonce || initiator-nonce)) // keyMaterial = ecdhe-shared-secret || shared-secret sha3(keyMaterial, outRef); // test that keyMaterial = ecdhe-shared-secret || shared-secret { BOOST_REQUIRE(ephemeralShared == *(Secret*)keyMaterialBytes.data()); SHA3_256 ctx; ctx.Update(preImage.data(), preImage.size()); bytes expected(32); ctx.Final(expected.data()); bytes test(32); outRef.copyTo(&test); BOOST_REQUIRE(expected == test); } // token: sha3(outRef) bytes token(32); sha3(outRef, bytesRef(&token)); BOOST_REQUIRE(token == fromHex("0x3f9ec2592d1554852b1f54d228f042ed0a9310ea86d038dc2b401ba8cd7fdac4")); // aes-secret = sha3(ecdhe-shared-secret || shared-secret) sha3(keyMaterial, outRef); // output aes-secret bytes aesSecret(32); outRef.copyTo(&aesSecret); BOOST_REQUIRE(aesSecret == fromHex("0xc0458fa97a5230830e05f4f20b7c755c1d4e54b1ce5cf43260bb191eef4e418d")); m_frameEnc.SetKeyWithIV(outRef.data(), h128::size, h128().data()); m_frameDec.SetKeyWithIV(outRef.data(), h128::size, h128().data()); // mac-secret = sha3(ecdhe-shared-secret || aes-secret) sha3(keyMaterial, outRef); // output mac-secret bytes macSecret(32); outRef.copyTo(&macSecret); BOOST_REQUIRE(macSecret == fromHex("0x48c938884d5067a1598272fcddaa4b833cd5e7d92e8228c0ecdfabbe68aef7f1")); m_macEnc.SetKey(outRef.data(), h256::size); // Initiator egress-mac: sha3(mac-secret^recipient-nonce || auth-sent-init) // ingress-mac: sha3(mac-secret^initiator-nonce || auth-recvd-ack) // Recipient egress-mac: sha3(mac-secret^initiator-nonce || auth-sent-ack) // ingress-mac: sha3(mac-secret^recipient-nonce || auth-recvd-init) (*(h256*)outRef.data() ^ remoteNonce).ref().copyTo(keyMaterial); bytes const& egressCipher = originated ? authCipher : ackCipher; keyMaterialBytes.resize(h256::size + egressCipher.size()); keyMaterial.retarget(keyMaterialBytes.data(), keyMaterialBytes.size()); bytesConstRef(&egressCipher).copyTo(keyMaterial.cropped(h256::size, egressCipher.size())); m_egressMac.Update(keyMaterialBytes.data(), keyMaterialBytes.size()); { bytes egressMac; SHA3_256 h(m_egressMac); bytes digest(32); h.Final(digest.data()); BOOST_REQUIRE(digest == fromHex("0x09771e93b1a6109e97074cbe2d2b0cf3d3878efafe68f53c41bb60c0ec49097e")); } // recover mac-secret by re-xoring remoteNonce bytes recoverMacSecretTest(32); (*(h256*)keyMaterial.data() ^ remoteNonce).ref().copyTo(&recoverMacSecretTest); BOOST_REQUIRE(recoverMacSecretTest == macSecret); (*(h256*)keyMaterial.data() ^ remoteNonce ^ nonce).ref().copyTo(keyMaterial); bytes const& ingressCipher = originated ? ackCipher : authCipher; keyMaterialBytes.resize(h256::size + ingressCipher.size()); keyMaterial.retarget(keyMaterialBytes.data(), keyMaterialBytes.size()); bytesConstRef(&ingressCipher).copyTo(keyMaterial.cropped(h256::size, ingressCipher.size())); m_ingressMac.Update(keyMaterial.data(), keyMaterial.size()); { bytes ingressMac; SHA3_256 h(m_ingressMac); bytes digest(32); h.Final(digest.data()); BOOST_CHECK(digest == fromHex("0x75823d96e23136c89666ee025fb21a432be906512b3dd4a3049e898adb433847")); } // bytes initHello(fromHex("6ef23fcf1cec7312df623f9ae701e63b550cdb8517fefd8dd398fc2acd1d935e6e0434a2b96769078477637347b7b01924fff9ff1c06df2f804df3b0402bbb9f87365b3c6856b45e1e2b6470986813c3816a71bff9d69dd297a5dbd935ab578f6e5d7e93e4506a44f307c332d95e8a4b102585fd8ef9fc9e3e055537a5cec2e9")); // // bytes recvHello(fromHex("6ef23fcf1cec7312df623f9ae701e63be36a1cdd1b19179146019984f3625d4a6e0434a2b96769050577657247b7b02bc6c314470eca7e3ef650b98c83e9d7dd4830b3f718ff562349aead2530a8d28a8484604f92e5fced2c6183f304344ab0e7c301a0c05559f4c25db65e36820b4b909a226171a60ac6cb7beea09376d6d8")); } BOOST_AUTO_TEST_CASE(ecies_interop_test_primitives) { CryptoPP::SHA256 sha256ctx; bytes emptyExpected(fromHex("0xe3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855")); bytes empty; sha256ctx.Update(empty.data(), 0); bytes emptyTestOut(32); sha256ctx.Final(emptyTestOut.data()); BOOST_REQUIRE(emptyExpected == emptyTestOut); bytes hash1Expected(fromHex("0x8949b278bbafb8da1aaa18cb724175c5952280f74be5d29ab4b37d1b45c84b08")); bytes hash1input(fromHex("0x55a53b55afb12affff3c")); sha256ctx.Update(hash1input.data(), hash1input.size()); bytes hash1Out(32); sha256ctx.Final(hash1Out.data()); BOOST_REQUIRE(hash1Out == hash1Expected); h128 hmack(fromHex("0x07a4b6dfa06369a570f2dcba2f11a18f")); CryptoPP::HMAC hmacctx(hmack.data(), h128::size); bytes input(fromHex("0x4dcb92ed4fc67fe86832")); hmacctx.Update(input.data(), input.size()); bytes hmacExpected(fromHex("0xc90b62b1a673b47df8e395e671a68bfa68070d6e2ef039598bb829398b89b9a9")); bytes hmacOut(hmacExpected.size()); hmacctx.Final(hmacOut.data()); BOOST_REQUIRE(hmacExpected == hmacOut); // go messageTag bytes tagSecret(fromHex("0xaf6623e52208c596e17c72cea6f1cb09")); bytes tagInput(fromHex("0x3461282bcedace970df2")); bytes tagExpected(fromHex("0xb3ce623bce08d5793677ba9441b22bb34d3e8a7de964206d26589df3e8eb5183")); CryptoPP::HMAC hmactagctx(tagSecret.data(), tagSecret.size()); hmactagctx.Update(tagInput.data(), tagInput.size()); h256 mac; hmactagctx.Final(mac.data()); BOOST_REQUIRE(mac.asBytes() == tagExpected); Secret input1(fromHex("0x0de72f1223915fa8b8bf45dffef67aef8d89792d116eb61c9a1eb02c422a4663")); bytes expect1(fromHex("0x1d0c446f9899a3426f2b89a8cb75c14b")); bytes test1; test1 = s_secp256k1.eciesKDF(input1, bytes(), 16); BOOST_REQUIRE(test1 == expect1); Secret kdfInput2(fromHex("0x961c065873443014e0371f1ed656c586c6730bf927415757f389d92acf8268df")); bytes kdfExpect2(fromHex("0x4050c52e6d9c08755e5a818ac66fabe478b825b1836fd5efc4d44e40d04dabcc")); bytes kdfTest2; kdfTest2 = s_secp256k1.eciesKDF(kdfInput2, bytes(), 32); BOOST_REQUIRE(kdfTest2 == kdfExpect2); KeyPair k(Secret(fromHex("0x332143e9629eedff7d142d741f896258f5a1bfab54dab2121d3ec5000093d74b"))); Public p(fromHex("0xf0d2b97981bd0d415a843b5dfe8ab77a30300daab3658c578f2340308a2da1a07f0821367332598b6aa4e180a41e92f4ebbae3518da847f0b1c0bbfe20bcf4e1")); Secret agreeExpected(fromHex("0xee1418607c2fcfb57fda40380e885a707f49000a5dda056d828b7d9bd1f29a08")); Secret agreeTest; s_secp256k1.agree(k.sec(), p, agreeTest); BOOST_REQUIRE(agreeExpected == agreeTest); KeyPair kmK(Secret(fromHex("0x57baf2c62005ddec64c357d96183ebc90bf9100583280e848aa31d683cad73cb"))); bytes kmCipher(fromHex("0x04ff2c874d0a47917c84eea0b2a4141ca95233720b5c70f81a8415bae1dc7b746b61df7558811c1d6054333907333ef9bb0cc2fbf8b34abb9730d14e0140f4553f4b15d705120af46cf653a1dc5b95b312cf8444714f95a4f7a0425b67fc064d18f4d0a528761565ca02d97faffdac23de10")); bytes kmPlain = kmCipher; bytes kmExpected(asBytes("a")); BOOST_REQUIRE(s_secp256k1.decryptECIES(kmK.sec(), kmPlain)); BOOST_REQUIRE(kmExpected == kmPlain); KeyPair kenc(Secret(fromHex("0x472413e97f1fd58d84e28a559479e6b6902d2e8a0cee672ef38a3a35d263886b"))); Public penc(Public(fromHex("0x7a2aa2951282279dc1171549a7112b07c38c0d97c0fe2c0ae6c4588ba15be74a04efc4f7da443f6d61f68a9279bc82b73e0cc8d090048e9f87e838ae65dd8d4c"))); BOOST_REQUIRE(penc == kenc.pub()); bytes cipher1(fromHex("0x046f647e1bd8a5cd1446d31513bac233e18bdc28ec0e59d46de453137a72599533f1e97c98154343420d5f16e171e5107999a7c7f1a6e26f57bcb0d2280655d08fb148d36f1d4b28642d3bb4a136f0e33e3dd2e3cffe4b45a03fb7c5b5ea5e65617250fdc89e1a315563c20504b9d3a72555")); bytes plainTest1 = cipher1; bytes expectedPlain1 = asBytes("a"); BOOST_REQUIRE(s_secp256k1.decryptECIES(kenc.sec(), plainTest1)); BOOST_REQUIRE(plainTest1 == expectedPlain1); bytes cipher2(fromHex("0x0443c24d6ccef3ad095140760bb143078b3880557a06392f17c5e368502d79532bc18903d59ced4bbe858e870610ab0d5f8b7963dd5c9c4cf81128d10efd7c7aa80091563c273e996578403694673581829e25a865191bdc9954db14285b56eb0043b6288172e0d003c10f42fe413222e273d1d4340c38a2d8344d7aadcbc846ee")); bytes plainTest2 = cipher2; bytes expectedPlain2 = asBytes("aaaaaaaaaaaaaaaa"); BOOST_REQUIRE(s_secp256k1.decryptECIES(kenc.sec(), plainTest2)); BOOST_REQUIRE(plainTest2 == expectedPlain2); bytes cipher3(fromHex("0x04c4e40c86bb5324e017e598c6d48c19362ae527af8ab21b077284a4656c8735e62d73fb3d740acefbec30ca4c024739a1fcdff69ecaf03301eebf156eb5f17cca6f9d7a7e214a1f3f6e34d1ee0ec00ce0ef7d2b242fbfec0f276e17941f9f1bfbe26de10a15a6fac3cda039904ddd1d7e06e7b96b4878f61860e47f0b84c8ceb64f6a900ff23844f4359ae49b44154980a626d3c73226c19e")); bytes plainTest3 = cipher3; bytes expectedPlain3 = asBytes("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"); BOOST_REQUIRE(s_secp256k1.decryptECIES(kenc.sec(), plainTest3)); BOOST_REQUIRE(plainTest3 == expectedPlain3); } BOOST_AUTO_TEST_SUITE_END()