// Copyright (c) 2014-2016 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include "test/test_bitcoin.h" #include "utilstrencodings.h" #include "wallet/crypter.h" #include #include BOOST_FIXTURE_TEST_SUITE(wallet_crypto, BasicTestingSetup) class TestCrypter { public: static void TestPassphraseSingle(const std::vector& vchSalt, const SecureString& passphrase, uint32_t rounds, const std::vector& correctKey = std::vector(), const std::vector& correctIV=std::vector()) { CCrypter crypt; crypt.SetKeyFromPassphrase(passphrase, vchSalt, rounds, 0); if(!correctKey.empty()) BOOST_CHECK_MESSAGE(memcmp(crypt.vchKey.data(), correctKey.data(), crypt.vchKey.size()) == 0, \ HexStr(crypt.vchKey.begin(), crypt.vchKey.end()) + std::string(" != ") + HexStr(correctKey.begin(), correctKey.end())); if(!correctIV.empty()) BOOST_CHECK_MESSAGE(memcmp(crypt.vchIV.data(), correctIV.data(), crypt.vchIV.size()) == 0, HexStr(crypt.vchIV.begin(), crypt.vchIV.end()) + std::string(" != ") + HexStr(correctIV.begin(), correctIV.end())); } static void TestPassphrase(const std::vector& vchSalt, const SecureString& passphrase, uint32_t rounds, const std::vector& correctKey = std::vector(), const std::vector& correctIV=std::vector()) { TestPassphraseSingle(vchSalt, passphrase, rounds, correctKey, correctIV); for(SecureString::const_iterator i(passphrase.begin()); i != passphrase.end(); ++i) TestPassphraseSingle(vchSalt, SecureString(i, passphrase.end()), rounds); } static void TestDecrypt(const CCrypter& crypt, const std::vector& vchCiphertext, \ const std::vector& vchPlaintext = std::vector()) { CKeyingMaterial vchDecrypted; crypt.Decrypt(vchCiphertext, vchDecrypted); if (vchPlaintext.size()) BOOST_CHECK(CKeyingMaterial(vchPlaintext.begin(), vchPlaintext.end()) == vchDecrypted); } static void TestEncryptSingle(const CCrypter& crypt, const CKeyingMaterial& vchPlaintext, const std::vector& vchCiphertextCorrect = std::vector()) { std::vector vchCiphertext; crypt.Encrypt(vchPlaintext, vchCiphertext); if (!vchCiphertextCorrect.empty()) BOOST_CHECK(vchCiphertext == vchCiphertextCorrect); const std::vector vchPlaintext2(vchPlaintext.begin(), vchPlaintext.end()); TestDecrypt(crypt, vchCiphertext, vchPlaintext2); } static void TestEncrypt(const CCrypter& crypt, const std::vector& vchPlaintextIn, \ const std::vector& vchCiphertextCorrect = std::vector()) { TestEncryptSingle(crypt, CKeyingMaterial(vchPlaintextIn.begin(), vchPlaintextIn.end()), vchCiphertextCorrect); for(std::vector::const_iterator i(vchPlaintextIn.begin()); i != vchPlaintextIn.end(); ++i) TestEncryptSingle(crypt, CKeyingMaterial(i, vchPlaintextIn.end())); } }; BOOST_AUTO_TEST_CASE(passphrase) { // These are expensive. TestCrypter::TestPassphrase(ParseHex("0000deadbeef0000"), "test", 25000, \ ParseHex("fc7aba077ad5f4c3a0988d8daa4810d0d4a0e3bcb53af662998898f33df0556a"), \ ParseHex("cf2f2691526dd1aa220896fb8bf7c369")); std::string hash(GetRandHash().ToString()); std::vector vchSalt(8); GetRandBytes(&vchSalt[0], vchSalt.size()); uint32_t rounds = InsecureRand32(); if (rounds > 30000) rounds = 30000; TestCrypter::TestPassphrase(vchSalt, SecureString(hash.begin(), hash.end()), rounds); } BOOST_AUTO_TEST_CASE(encrypt) { std::vector vchSalt = ParseHex("0000deadbeef0000"); BOOST_CHECK(vchSalt.size() == WALLET_CRYPTO_SALT_SIZE); CCrypter crypt; crypt.SetKeyFromPassphrase("passphrase", vchSalt, 25000, 0); TestCrypter::TestEncrypt(crypt, ParseHex("22bcade09ac03ff6386914359cfe885cfeb5f77ff0d670f102f619687453b29d")); for (int i = 0; i != 100; i++) { uint256 hash(GetRandHash()); TestCrypter::TestEncrypt(crypt, std::vector(hash.begin(), hash.end())); } } BOOST_AUTO_TEST_CASE(decrypt) { std::vector vchSalt = ParseHex("0000deadbeef0000"); BOOST_CHECK(vchSalt.size() == WALLET_CRYPTO_SALT_SIZE); CCrypter crypt; crypt.SetKeyFromPassphrase("passphrase", vchSalt, 25000, 0); // Some corner cases the came up while testing TestCrypter::TestDecrypt(crypt,ParseHex("795643ce39d736088367822cdc50535ec6f103715e3e48f4f3b1a60a08ef59ca")); TestCrypter::TestDecrypt(crypt,ParseHex("de096f4a8f9bd97db012aa9d90d74de8cdea779c3ee8bc7633d8b5d6da703486")); TestCrypter::TestDecrypt(crypt,ParseHex("32d0a8974e3afd9c6c3ebf4d66aa4e6419f8c173de25947f98cf8b7ace49449c")); TestCrypter::TestDecrypt(crypt,ParseHex("e7c055cca2faa78cb9ac22c9357a90b4778ded9b2cc220a14cea49f931e596ea")); TestCrypter::TestDecrypt(crypt,ParseHex("b88efddd668a6801d19516d6830da4ae9811988ccbaf40df8fbb72f3f4d335fd")); TestCrypter::TestDecrypt(crypt,ParseHex("8cae76aa6a43694e961ebcb28c8ca8f8540b84153d72865e8561ddd93fa7bfa9")); for (int i = 0; i != 100; i++) { uint256 hash(GetRandHash()); TestCrypter::TestDecrypt(crypt, std::vector(hash.begin(), hash.end())); } } BOOST_AUTO_TEST_SUITE_END()