// Copyright (c) 2011-2015 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 #include #include #include #include #include #include #include #include BOOST_FIXTURE_TEST_SUITE(uint256_tests, BasicTestingSetup) const unsigned char R1Array[] = "\x9c\x52\x4a\xdb\xcf\x56\x11\x12\x2b\x29\x12\x5e\x5d\x35\xd2\xd2" "\x22\x81\xaa\xb5\x33\xf0\x08\x32\xd5\x56\xb1\xf9\xea\xe5\x1d\x7d"; const char R1ArrayHex[] = "7D1DE5EAF9B156D53208F033B5AA8122D2d2355d5e12292b121156cfdb4a529c"; const uint256 R1L = uint256(std::vector(R1Array,R1Array+32)); const uint160 R1S = uint160(std::vector(R1Array,R1Array+20)); const unsigned char R2Array[] = "\x70\x32\x1d\x7c\x47\xa5\x6b\x40\x26\x7e\x0a\xc3\xa6\x9c\xb6\xbf" "\x13\x30\x47\xa3\x19\x2d\xda\x71\x49\x13\x72\xf0\xb4\xca\x81\xd7"; const uint256 R2L = uint256(std::vector(R2Array,R2Array+32)); const uint160 R2S = uint160(std::vector(R2Array,R2Array+20)); const unsigned char ZeroArray[] = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00" "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"; const uint256 ZeroL = uint256(std::vector(ZeroArray,ZeroArray+32)); const uint160 ZeroS = uint160(std::vector(ZeroArray,ZeroArray+20)); const unsigned char OneArray[] = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00" "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"; const uint256 OneL = uint256(std::vector(OneArray,OneArray+32)); const uint160 OneS = uint160(std::vector(OneArray,OneArray+20)); const unsigned char MaxArray[] = "\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff" "\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff"; const uint256 MaxL = uint256(std::vector(MaxArray,MaxArray+32)); const uint160 MaxS = uint160(std::vector(MaxArray,MaxArray+20)); static std::string ArrayToString(const unsigned char A[], unsigned int width) { std::stringstream Stream; Stream << std::hex; for (unsigned int i = 0; i < width; ++i) { Stream<): BOOST_CHECK(R1L.ToString() == ArrayToString(R1Array,32)); BOOST_CHECK(R1S.ToString() == ArrayToString(R1Array,20)); BOOST_CHECK(R2L.ToString() == ArrayToString(R2Array,32)); BOOST_CHECK(R2S.ToString() == ArrayToString(R2Array,20)); BOOST_CHECK(ZeroL.ToString() == ArrayToString(ZeroArray,32)); BOOST_CHECK(ZeroS.ToString() == ArrayToString(ZeroArray,20)); BOOST_CHECK(OneL.ToString() == ArrayToString(OneArray,32)); BOOST_CHECK(OneS.ToString() == ArrayToString(OneArray,20)); BOOST_CHECK(MaxL.ToString() == ArrayToString(MaxArray,32)); BOOST_CHECK(MaxS.ToString() == ArrayToString(MaxArray,20)); BOOST_CHECK(OneL.ToString() != ArrayToString(ZeroArray,32)); BOOST_CHECK(OneS.ToString() != ArrayToString(ZeroArray,20)); // == and != BOOST_CHECK(R1L != R2L && R1S != R2S); BOOST_CHECK(ZeroL != OneL && ZeroS != OneS); BOOST_CHECK(OneL != ZeroL && OneS != ZeroS); BOOST_CHECK(MaxL != ZeroL && MaxS != ZeroS); // String Constructor and Copy Constructor BOOST_CHECK(uint256S("0x"+R1L.ToString()) == R1L); BOOST_CHECK(uint256S("0x"+R2L.ToString()) == R2L); BOOST_CHECK(uint256S("0x"+ZeroL.ToString()) == ZeroL); BOOST_CHECK(uint256S("0x"+OneL.ToString()) == OneL); BOOST_CHECK(uint256S("0x"+MaxL.ToString()) == MaxL); BOOST_CHECK(uint256S(R1L.ToString()) == R1L); BOOST_CHECK(uint256S(" 0x"+R1L.ToString()+" ") == R1L); BOOST_CHECK(uint256S("") == ZeroL); BOOST_CHECK(R1L == uint256S(R1ArrayHex)); BOOST_CHECK(uint256(R1L) == R1L); BOOST_CHECK(uint256(ZeroL) == ZeroL); BOOST_CHECK(uint256(OneL) == OneL); BOOST_CHECK(uint160S("0x"+R1S.ToString()) == R1S); BOOST_CHECK(uint160S("0x"+R2S.ToString()) == R2S); BOOST_CHECK(uint160S("0x"+ZeroS.ToString()) == ZeroS); BOOST_CHECK(uint160S("0x"+OneS.ToString()) == OneS); BOOST_CHECK(uint160S("0x"+MaxS.ToString()) == MaxS); BOOST_CHECK(uint160S(R1S.ToString()) == R1S); BOOST_CHECK(uint160S(" 0x"+R1S.ToString()+" ") == R1S); BOOST_CHECK(uint160S("") == ZeroS); BOOST_CHECK(R1S == uint160S(R1ArrayHex)); BOOST_CHECK(uint160(R1S) == R1S); BOOST_CHECK(uint160(ZeroS) == ZeroS); BOOST_CHECK(uint160(OneS) == OneS); } BOOST_AUTO_TEST_CASE( comparison ) // <= >= < > { uint256 LastL; for (int i = 255; i >= 0; --i) { uint256 TmpL; *(TmpL.begin() + (i>>3)) |= 1<<(7-(i&7)); BOOST_CHECK( LastL < TmpL ); LastL = TmpL; } BOOST_CHECK( ZeroL < R1L ); BOOST_CHECK( R2L < R1L ); BOOST_CHECK( ZeroL < OneL ); BOOST_CHECK( OneL < MaxL ); BOOST_CHECK( R1L < MaxL ); BOOST_CHECK( R2L < MaxL ); uint160 LastS; for (int i = 159; i >= 0; --i) { uint160 TmpS; *(TmpS.begin() + (i>>3)) |= 1<<(7-(i&7)); BOOST_CHECK( LastS < TmpS ); LastS = TmpS; } BOOST_CHECK( ZeroS < R1S ); BOOST_CHECK( R2S < R1S ); BOOST_CHECK( ZeroS < OneS ); BOOST_CHECK( OneS < MaxS ); BOOST_CHECK( R1S < MaxS ); BOOST_CHECK( R2S < MaxS ); } BOOST_AUTO_TEST_CASE( methods ) // GetHex SetHex begin() end() size() GetLow64 GetSerializeSize, Serialize, Unserialize { BOOST_CHECK(R1L.GetHex() == R1L.ToString()); BOOST_CHECK(R2L.GetHex() == R2L.ToString()); BOOST_CHECK(OneL.GetHex() == OneL.ToString()); BOOST_CHECK(MaxL.GetHex() == MaxL.ToString()); uint256 TmpL(R1L); BOOST_CHECK(TmpL == R1L); TmpL.SetHex(R2L.ToString()); BOOST_CHECK(TmpL == R2L); TmpL.SetHex(ZeroL.ToString()); BOOST_CHECK(TmpL == uint256()); TmpL.SetHex(R1L.ToString()); BOOST_CHECK(memcmp(R1L.begin(), R1Array, 32)==0); BOOST_CHECK(memcmp(TmpL.begin(), R1Array, 32)==0); BOOST_CHECK(memcmp(R2L.begin(), R2Array, 32)==0); BOOST_CHECK(memcmp(ZeroL.begin(), ZeroArray, 32)==0); BOOST_CHECK(memcmp(OneL.begin(), OneArray, 32)==0); BOOST_CHECK(R1L.size() == sizeof(R1L)); BOOST_CHECK(sizeof(R1L) == 32); BOOST_CHECK(R1L.size() == 32); BOOST_CHECK(R2L.size() == 32); BOOST_CHECK(ZeroL.size() == 32); BOOST_CHECK(MaxL.size() == 32); BOOST_CHECK(R1L.begin() + 32 == R1L.end()); BOOST_CHECK(R2L.begin() + 32 == R2L.end()); BOOST_CHECK(OneL.begin() + 32 == OneL.end()); BOOST_CHECK(MaxL.begin() + 32 == MaxL.end()); BOOST_CHECK(TmpL.begin() + 32 == TmpL.end()); BOOST_CHECK(GetSerializeSize(R1L, PROTOCOL_VERSION) == 32); BOOST_CHECK(GetSerializeSize(ZeroL, PROTOCOL_VERSION) == 32); CDataStream ss(0, PROTOCOL_VERSION); ss << R1L; BOOST_CHECK(ss.str() == std::string(R1Array,R1Array+32)); ss >> TmpL; BOOST_CHECK(R1L == TmpL); ss.clear(); ss << ZeroL; BOOST_CHECK(ss.str() == std::string(ZeroArray,ZeroArray+32)); ss >> TmpL; BOOST_CHECK(ZeroL == TmpL); ss.clear(); ss << MaxL; BOOST_CHECK(ss.str() == std::string(MaxArray,MaxArray+32)); ss >> TmpL; BOOST_CHECK(MaxL == TmpL); ss.clear(); BOOST_CHECK(R1S.GetHex() == R1S.ToString()); BOOST_CHECK(R2S.GetHex() == R2S.ToString()); BOOST_CHECK(OneS.GetHex() == OneS.ToString()); BOOST_CHECK(MaxS.GetHex() == MaxS.ToString()); uint160 TmpS(R1S); BOOST_CHECK(TmpS == R1S); TmpS.SetHex(R2S.ToString()); BOOST_CHECK(TmpS == R2S); TmpS.SetHex(ZeroS.ToString()); BOOST_CHECK(TmpS == uint160()); TmpS.SetHex(R1S.ToString()); BOOST_CHECK(memcmp(R1S.begin(), R1Array, 20)==0); BOOST_CHECK(memcmp(TmpS.begin(), R1Array, 20)==0); BOOST_CHECK(memcmp(R2S.begin(), R2Array, 20)==0); BOOST_CHECK(memcmp(ZeroS.begin(), ZeroArray, 20)==0); BOOST_CHECK(memcmp(OneS.begin(), OneArray, 20)==0); BOOST_CHECK(R1S.size() == sizeof(R1S)); BOOST_CHECK(sizeof(R1S) == 20); BOOST_CHECK(R1S.size() == 20); BOOST_CHECK(R2S.size() == 20); BOOST_CHECK(ZeroS.size() == 20); BOOST_CHECK(MaxS.size() == 20); BOOST_CHECK(R1S.begin() + 20 == R1S.end()); BOOST_CHECK(R2S.begin() + 20 == R2S.end()); BOOST_CHECK(OneS.begin() + 20 == OneS.end()); BOOST_CHECK(MaxS.begin() + 20 == MaxS.end()); BOOST_CHECK(TmpS.begin() + 20 == TmpS.end()); BOOST_CHECK(GetSerializeSize(R1S, PROTOCOL_VERSION) == 20); BOOST_CHECK(GetSerializeSize(ZeroS, PROTOCOL_VERSION) == 20); ss << R1S; BOOST_CHECK(ss.str() == std::string(R1Array,R1Array+20)); ss >> TmpS; BOOST_CHECK(R1S == TmpS); ss.clear(); ss << ZeroS; BOOST_CHECK(ss.str() == std::string(ZeroArray,ZeroArray+20)); ss >> TmpS; BOOST_CHECK(ZeroS == TmpS); ss.clear(); ss << MaxS; BOOST_CHECK(ss.str() == std::string(MaxArray,MaxArray+20)); ss >> TmpS; BOOST_CHECK(MaxS == TmpS); ss.clear(); } BOOST_AUTO_TEST_CASE( conversion ) { BOOST_CHECK(ArithToUint256(UintToArith256(ZeroL)) == ZeroL); BOOST_CHECK(ArithToUint256(UintToArith256(OneL)) == OneL); BOOST_CHECK(ArithToUint256(UintToArith256(R1L)) == R1L); BOOST_CHECK(ArithToUint256(UintToArith256(R2L)) == R2L); BOOST_CHECK(UintToArith256(ZeroL) == 0); BOOST_CHECK(UintToArith256(OneL) == 1); BOOST_CHECK(ArithToUint256(0) == ZeroL); BOOST_CHECK(ArithToUint256(1) == OneL); BOOST_CHECK(arith_uint256(R1L.GetHex()) == UintToArith256(R1L)); BOOST_CHECK(arith_uint256(R2L.GetHex()) == UintToArith256(R2L)); BOOST_CHECK(R1L.GetHex() == UintToArith256(R1L).GetHex()); BOOST_CHECK(R2L.GetHex() == UintToArith256(R2L).GetHex()); } BOOST_AUTO_TEST_CASE( operator_with_self ) { arith_uint256 v = UintToArith256(uint256S("02")); v *= v; BOOST_CHECK(v == UintToArith256(uint256S("04"))); v /= v; BOOST_CHECK(v == UintToArith256(uint256S("01"))); v += v; BOOST_CHECK(v == UintToArith256(uint256S("02"))); v -= v; BOOST_CHECK(v == UintToArith256(uint256S("0"))); } BOOST_AUTO_TEST_CASE( check_ONE ) { uint256 one = uint256S("0000000000000000000000000000000000000000000000000000000000000001"); BOOST_CHECK_EQUAL(one, uint256::ONE); } BOOST_AUTO_TEST_SUITE_END()