/* This file is part of solidity. solidity 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. solidity 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 solidity. If not, see . */ // SPDX-License-Identifier: GPL-3.0 /** * @author Christian * @date 2015 * Unit tests for the type system of Solidity. */ #include #include #include #include #include using namespace std; using namespace solidity::langutil; namespace solidity::frontend::test { BOOST_AUTO_TEST_SUITE(SolidityTypes) BOOST_AUTO_TEST_CASE(int_types) { BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::Int, 0, 0)) == *TypeProvider::integer(256, IntegerType::Modifier::Signed)); for (unsigned i = 8; i <= 256; i += 8) BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::IntM, i, 0)) == *TypeProvider::integer(i, IntegerType::Modifier::Signed)); } BOOST_AUTO_TEST_CASE(uint_types) { BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::UInt, 0, 0)) == *TypeProvider::integer(256, IntegerType::Modifier::Unsigned)); for (unsigned i = 8; i <= 256; i += 8) BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::UIntM, i, 0)) == *TypeProvider::integer(i, IntegerType::Modifier::Unsigned)); } BOOST_AUTO_TEST_CASE(byte_types) { for (unsigned i = 1; i <= 32; i++) BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::BytesM, i, 0)) == *TypeProvider::fixedBytes(i)); } BOOST_AUTO_TEST_CASE(fixed_types) { BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::Fixed, 0, 0)) == *TypeProvider::fixedPoint(128, 18, FixedPointType::Modifier::Signed)); for (unsigned i = 8; i <= 256; i += 8) { BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::FixedMxN, i, 0)) == *TypeProvider::fixedPoint(i, 0, FixedPointType::Modifier::Signed)); BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::FixedMxN, i, 2)) == *TypeProvider::fixedPoint(i, 2, FixedPointType::Modifier::Signed)); } } BOOST_AUTO_TEST_CASE(ufixed_types) { BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::UFixed, 0, 0)) == *TypeProvider::fixedPoint(128, 18, FixedPointType::Modifier::Unsigned)); for (unsigned i = 8; i <= 256; i += 8) { BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::UFixedMxN, i, 0)) == *TypeProvider::fixedPoint(i, 0, FixedPointType::Modifier::Unsigned)); BOOST_CHECK(*TypeProvider::fromElementaryTypeName(ElementaryTypeNameToken(Token::UFixedMxN, i, 2)) == *TypeProvider::fixedPoint(i, 2, FixedPointType::Modifier::Unsigned)); } } BOOST_AUTO_TEST_CASE(storage_layout_simple) { MemberList members(MemberList::MemberMap({ {"first", TypeProvider::fromElementaryTypeName("uint128")}, {"second", TypeProvider::fromElementaryTypeName("uint120")}, {"wraps", TypeProvider::fromElementaryTypeName("uint16")} })); BOOST_REQUIRE_EQUAL(u256(2), members.storageSize()); BOOST_REQUIRE(members.memberStorageOffset("first") != nullptr); BOOST_REQUIRE(members.memberStorageOffset("second") != nullptr); BOOST_REQUIRE(members.memberStorageOffset("wraps") != nullptr); BOOST_CHECK(*members.memberStorageOffset("first") == make_pair(u256(0), unsigned(0))); BOOST_CHECK(*members.memberStorageOffset("second") == make_pair(u256(0), unsigned(16))); BOOST_CHECK(*members.memberStorageOffset("wraps") == make_pair(u256(1), unsigned(0))); } BOOST_AUTO_TEST_CASE(storage_layout_mapping) { MemberList members(MemberList::MemberMap({ {"first", TypeProvider::fromElementaryTypeName("uint128")}, {"second", TypeProvider::mapping( TypeProvider::fromElementaryTypeName("uint8"), TypeProvider::fromElementaryTypeName("uint8") )}, {"third", TypeProvider::fromElementaryTypeName("uint16")}, {"final", TypeProvider::mapping( TypeProvider::fromElementaryTypeName("uint8"), TypeProvider::fromElementaryTypeName("uint8") )}, })); BOOST_REQUIRE_EQUAL(u256(4), members.storageSize()); BOOST_REQUIRE(members.memberStorageOffset("first") != nullptr); BOOST_REQUIRE(members.memberStorageOffset("second") != nullptr); BOOST_REQUIRE(members.memberStorageOffset("third") != nullptr); BOOST_REQUIRE(members.memberStorageOffset("final") != nullptr); BOOST_CHECK(*members.memberStorageOffset("first") == make_pair(u256(0), unsigned(0))); BOOST_CHECK(*members.memberStorageOffset("second") == make_pair(u256(1), unsigned(0))); BOOST_CHECK(*members.memberStorageOffset("third") == make_pair(u256(2), unsigned(0))); BOOST_CHECK(*members.memberStorageOffset("final") == make_pair(u256(3), unsigned(0))); } BOOST_AUTO_TEST_CASE(storage_layout_arrays) { BOOST_CHECK(ArrayType(DataLocation::Storage, TypeProvider::fixedBytes(1), 32).storageSize() == 1); BOOST_CHECK(ArrayType(DataLocation::Storage, TypeProvider::fixedBytes(1), 33).storageSize() == 2); BOOST_CHECK(ArrayType(DataLocation::Storage, TypeProvider::fixedBytes(2), 31).storageSize() == 2); BOOST_CHECK(ArrayType(DataLocation::Storage, TypeProvider::fixedBytes(7), 8).storageSize() == 2); BOOST_CHECK(ArrayType(DataLocation::Storage, TypeProvider::fixedBytes(7), 9).storageSize() == 3); BOOST_CHECK(ArrayType(DataLocation::Storage, TypeProvider::fixedBytes(31), 9).storageSize() == 9); BOOST_CHECK(ArrayType(DataLocation::Storage, TypeProvider::fixedBytes(32), 9).storageSize() == 9); } BOOST_AUTO_TEST_CASE(type_identifier_escaping) { BOOST_CHECK_EQUAL(Type::escapeIdentifier("("), "$_"); BOOST_CHECK_EQUAL(Type::escapeIdentifier(")"), "_$"); BOOST_CHECK_EQUAL(Type::escapeIdentifier(","), "_$_"); BOOST_CHECK_EQUAL(Type::escapeIdentifier("$"), "$$$"); BOOST_CHECK_EQUAL(Type::escapeIdentifier(")$("), "_$$$$$_"); BOOST_CHECK_EQUAL(Type::escapeIdentifier("()"), "$__$"); BOOST_CHECK_EQUAL(Type::escapeIdentifier("(,)"), "$__$__$"); BOOST_CHECK_EQUAL(Type::escapeIdentifier("(,$,)"), "$__$_$$$_$__$"); BOOST_CHECK_EQUAL( Type::escapeIdentifier("((__(_$_$$,__($$,,,$$),$,,,)))$$,$$"), "$_$___$__$$$_$$$$$$_$___$_$$$$$$_$__$__$_$$$$$$_$_$_$$$_$__$__$__$_$_$$$$$$$_$_$$$$$$" ); } BOOST_AUTO_TEST_CASE(type_identifiers) { int64_t id = 0; BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("uint128")->identifier(), "t_uint128"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("int128")->identifier(), "t_int128"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("address")->identifier(), "t_address"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("uint8")->identifier(), "t_uint8"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("ufixed64x2")->identifier(), "t_ufixed64x2"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("fixed128x8")->identifier(), "t_fixed128x8"); BOOST_CHECK_EQUAL(RationalNumberType(rational(7, 1)).identifier(), "t_rational_7_by_1"); BOOST_CHECK_EQUAL(RationalNumberType(rational(200, 77)).identifier(), "t_rational_200_by_77"); BOOST_CHECK_EQUAL(RationalNumberType(rational(2 * 200, 2 * 77)).identifier(), "t_rational_200_by_77"); BOOST_CHECK_EQUAL(RationalNumberType(rational(-2 * 200, 2 * 77)).identifier(), "t_rational_minus_200_by_77"); BOOST_CHECK_EQUAL( StringLiteralType(Literal(++id, SourceLocation{}, Token::StringLiteral, make_shared("abc - def"))).identifier(), "t_stringliteral_196a9142ee0d40e274a6482393c762b16dd8315713207365e1e13d8d85b74fc4" ); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("bytes1")->identifier(), "t_bytes1"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("bytes8")->identifier(), "t_bytes8"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("bytes32")->identifier(), "t_bytes32"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("bool")->identifier(), "t_bool"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("bytes")->identifier(), "t_bytes_storage_ptr"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("bytes memory")->identifier(), "t_bytes_memory_ptr"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("bytes storage")->identifier(), "t_bytes_storage_ptr"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("bytes calldata")->identifier(), "t_bytes_calldata_ptr"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("string")->identifier(), "t_string_storage_ptr"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("string memory")->identifier(), "t_string_memory_ptr"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("string storage")->identifier(), "t_string_storage_ptr"); BOOST_CHECK_EQUAL(TypeProvider::fromElementaryTypeName("string calldata")->identifier(), "t_string_calldata_ptr"); ArrayType largeintArray(DataLocation::Memory, TypeProvider::fromElementaryTypeName("int128"), u256("2535301200456458802993406410752")); BOOST_CHECK_EQUAL(largeintArray.identifier(), "t_array$_t_int128_$2535301200456458802993406410752_memory_ptr"); TypePointer stringArray = TypeProvider::array(DataLocation::Storage, TypeProvider::fromElementaryTypeName("string"), u256("20")); TypePointer multiArray = TypeProvider::array(DataLocation::Storage, stringArray); BOOST_CHECK_EQUAL(multiArray->identifier(), "t_array$_t_array$_t_string_storage_$20_storage_$dyn_storage_ptr"); ContractDefinition c(++id, SourceLocation{}, make_shared("MyContract$"), SourceLocation{}, {}, {}, {}, ContractKind::Contract); BOOST_CHECK_EQUAL(c.type()->identifier(), "t_type$_t_contract$_MyContract$$$_$2_$"); BOOST_CHECK_EQUAL(ContractType(c, true).identifier(), "t_super$_MyContract$$$_$2"); StructDefinition s(++id, {}, make_shared("Struct"), {}, {}); s.annotation().recursive = false; BOOST_CHECK_EQUAL(s.type()->identifier(), "t_type$_t_struct$_Struct_$3_storage_ptr_$"); EnumDefinition e(++id, {}, make_shared("Enum"), {}, {}); BOOST_CHECK_EQUAL(e.type()->identifier(), "t_type$_t_enum$_Enum_$4_$"); TupleType t({e.type(), s.type(), stringArray, nullptr}); BOOST_CHECK_EQUAL(t.identifier(), "t_tuple$_t_type$_t_enum$_Enum_$4_$_$_t_type$_t_struct$_Struct_$3_storage_ptr_$_$_t_array$_t_string_storage_$20_storage_ptr_$__$"); TypePointer keccak256fun = TypeProvider::function(strings{}, strings{}, FunctionType::Kind::KECCAK256); BOOST_CHECK_EQUAL(keccak256fun->identifier(), "t_function_keccak256_nonpayable$__$returns$__$"); FunctionType metaFun(TypePointers{keccak256fun}, TypePointers{s.type()}, strings{""}, strings{""}); BOOST_CHECK_EQUAL(metaFun.identifier(), "t_function_internal_nonpayable$_t_function_keccak256_nonpayable$__$returns$__$_$returns$_t_type$_t_struct$_Struct_$3_storage_ptr_$_$"); TypePointer m = TypeProvider::mapping(TypeProvider::fromElementaryTypeName("bytes32"), s.type()); MappingType m2(TypeProvider::fromElementaryTypeName("uint64"), m); BOOST_CHECK_EQUAL(m2.identifier(), "t_mapping$_t_uint64_$_t_mapping$_t_bytes32_$_t_type$_t_struct$_Struct_$3_storage_ptr_$_$_$"); // TypeType is tested with contract auto emptyParams = make_shared(++id, SourceLocation(), std::vector>()); ModifierDefinition mod(++id, SourceLocation{}, make_shared("modif"), SourceLocation{}, {}, emptyParams, {}, {}, {}); BOOST_CHECK_EQUAL(ModifierType(mod).identifier(), "t_modifier$__$"); SourceUnit su(++id, {}, {}, {}); BOOST_CHECK_EQUAL(ModuleType(su).identifier(), "t_module_7"); BOOST_CHECK_EQUAL(MagicType(MagicType::Kind::Block).identifier(), "t_magic_block"); BOOST_CHECK_EQUAL(MagicType(MagicType::Kind::Message).identifier(), "t_magic_message"); BOOST_CHECK_EQUAL(MagicType(MagicType::Kind::Transaction).identifier(), "t_magic_transaction"); BOOST_CHECK_EQUAL(InaccessibleDynamicType().identifier(), "t_inaccessible"); } BOOST_AUTO_TEST_CASE(encoded_sizes) { BOOST_CHECK_EQUAL(IntegerType(16).calldataEncodedSize(true), 32); BOOST_CHECK_EQUAL(IntegerType(16).calldataEncodedSize(false), 2); BOOST_CHECK_EQUAL(FixedBytesType(16).calldataEncodedSize(true), 32); BOOST_CHECK_EQUAL(FixedBytesType(16).calldataEncodedSize(false), 16); BOOST_CHECK_EQUAL(BoolType().calldataEncodedSize(true), 32); BOOST_CHECK_EQUAL(BoolType().calldataEncodedSize(false), 1); ArrayType const* uint24Array = TypeProvider::array( DataLocation::Memory, TypeProvider::uint(24), 9 ); BOOST_CHECK_EQUAL(uint24Array->calldataEncodedSize(true), 9 * 32); BOOST_CHECK_EQUAL(uint24Array->calldataEncodedSize(false), 9 * 32); ArrayType twoDimArray(DataLocation::Memory, uint24Array, 3); BOOST_CHECK_EQUAL(twoDimArray.calldataEncodedSize(true), 9 * 3 * 32); BOOST_CHECK_EQUAL(twoDimArray.calldataEncodedSize(false), 9 * 3 * 32); } BOOST_AUTO_TEST_CASE(helper_bool_result) { BoolResult r1{true}; BoolResult r2 = BoolResult::err("Failure."); r1.merge(r2, logical_and()); BOOST_REQUIRE_EQUAL(r1.get(), false); BOOST_REQUIRE_EQUAL(r1.message(), "Failure."); BoolResult r3{false}; BoolResult r4{true}; r3.merge(r4, logical_and()); BOOST_REQUIRE_EQUAL(r3.get(), false); BOOST_REQUIRE_EQUAL(r3.message(), ""); BoolResult r5{true}; BoolResult r6{true}; r5.merge(r6, logical_and()); BOOST_REQUIRE_EQUAL(r5.get(), true); BOOST_REQUIRE_EQUAL(r5.message(), ""); } BOOST_AUTO_TEST_CASE(helper_string_result) { using StringResult = util::Result; StringResult r1{string{"Success"}}; StringResult r2 = StringResult::err("Failure"); BOOST_REQUIRE_EQUAL(r1.get(), "Success"); BOOST_REQUIRE_EQUAL(r2.get(), ""); r1.merge(r2, [](string const&, string const& _rhs) { return _rhs; }); BOOST_REQUIRE_EQUAL(r1.get(), ""); BOOST_REQUIRE_EQUAL(r1.message(), "Failure"); } BOOST_AUTO_TEST_SUITE_END() }