solidity/test/tools/ossfuzz/protoToSol.cpp

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/*
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 <http://www.gnu.org/licenses/>.
*/
#include <test/tools/ossfuzz/protoToSol.h>
#include <liblangutil/Exceptions.h>
#include <libsolutil/Whiskers.h>
#include <sstream>
using namespace solidity::test::solprotofuzzer;
using namespace solidity::util;
using namespace std;
string ProtoConverter::protoToSolidity(Program const& _p)
{
// Create random number generator with fuzzer supplied
// seed.
m_randomGen = make_shared<SolRandomNumGenerator>(_p.seed());
return visit(_p);
}
pair<string, string> ProtoConverter::generateTestCase(TestContract const& _testContract)
{
ostringstream testCode;
string usingLibDecl;
switch (_testContract.type())
{
case TestContract::LIBRARY:
{
m_libraryTest = true;
auto testTuple = pseudoRandomLibraryTest();
m_libraryName = get<0>(testTuple);
Whiskers u(R"(<ind>using <libraryName> for uint;)");
u("ind", "\t");
u("libraryName", get<0>(testTuple));
usingLibDecl = u.render();
Whiskers test(R"(<endl><ind><varDecl><endl><ind><ifStmt>)");
test("endl", "\n");
test("ind", "\t\t");
test("varDecl", "uint x;");
Whiskers ifStmt(R"(if (<cond>)<endl><ind>return 1;)");
Whiskers ifCond(R"(x.<testFunction>() != <expectedOutput>)");
ifCond("testFunction", get<1>(testTuple));
ifCond("expectedOutput", get<2>(testTuple));
ifStmt("cond", ifCond.render());
ifStmt("endl", "\n");
ifStmt("ind", "\t\t\t");
test("ifStmt", ifStmt.render());
break;
}
case TestContract::CONTRACT:
{
unsigned errorCode = 1;
unsigned contractVarIndex = 0;
for (auto const& testTuple: m_contractTests)
{
// Do this to avoid stack too deep errors
// We require uint as a return var, so we
// cannot have more than 16 variables without
// running into stack too deep errors
if (contractVarIndex >= s_maxVars)
break;
string contractName = testTuple.first;
string contractVarName = "tc" + to_string(contractVarIndex);
Whiskers init(R"(<endl><ind><contractName> <contractVarName> = new <contractName>();)");
init("endl", "\n");
init("ind", "\t\t");
init("contractName", contractName);
init("contractVarName", contractVarName);
testCode << init.render();
for (auto const& t: testTuple.second)
{
Whiskers tc(R"(<endl><ind><ifStmt>)");
tc("endl", "\n");
tc("ind", "\t\t");
Whiskers ifStmt(R"(if (<cond>)<endl><ind>return <errorCode>;)");
Whiskers ifCond(R"(<contractVarName>.<testFunction>() != <expectedOutput>)");
ifCond("contractVarName", contractVarName);
ifCond("testFunction", t.first);
ifCond("expectedOutput", t.second);
ifStmt("endl", "\n");
ifStmt("cond", ifCond.render());
ifStmt("ind", "\t\t\t");
ifStmt("errorCode", to_string(errorCode));
tc("ifStmt", ifStmt.render());
testCode << tc.render();
errorCode++;
}
contractVarIndex++;
}
break;
}
}
// Expected return value when all tests pass
testCode << Whiskers(R"(<endl><ind>return 0;)")("endl", "\n")("ind", "\t\t").render();
return {usingLibDecl, testCode.str()};
}
string ProtoConverter::visit(TestContract const& _testContract)
{
string testCode;
string usingLibDecl;
m_libraryTest = false;
// Simply return valid uint (zero) if there are
// no tests.
if (emptyLibraryTests() || emptyContractTests())
testCode = Whiskers(R"(<endl><ind>return 0;)")("endl", "\n")("ind", "\t\t").render();
else
tie(usingLibDecl, testCode) = generateTestCase(_testContract);
Whiskers c(R"(<endl>contract C {<?isLibrary><usingDecl></isLibrary><endl><function><endl>})");
c("endl", "\n");
c("isLibrary", m_libraryTest);
c("usingDecl", usingLibDecl);
Whiskers f("<ind>function test() public returns (uint)<endl><ind>{<testCode><endl><ind>}");
f("ind", "\t");
f("endl", "\n");
f("testCode", testCode);
c("function", f.render());
return c.render();
}
bool ProtoConverter::libraryTest() const
{
return m_libraryTest;
}
string ProtoConverter::libraryName() const
{
return m_libraryName;
}
string ProtoConverter::visit(Program const& _p)
{
ostringstream program;
ostringstream contracts;
for (auto &contract: _p.contracts())
contracts << visit(contract);
Whiskers p(R"(<endl>pragma solidity >=0.0;<endl><contracts><endl><test>)");
p("endl", "\n");
p("contracts", contracts.str());
p("test", visit(_p.test()));
return p.render();
}
string ProtoConverter::visit(ContractType const& _contractType)
{
switch (_contractType.contract_type_oneof_case())
{
case ContractType::kC:
return visit(_contractType.c());
case ContractType::kL:
return visit(_contractType.l());
case ContractType::kI:
return visit(_contractType.i());
case ContractType::CONTRACT_TYPE_ONEOF_NOT_SET:
return "";
}
}
string ProtoConverter::visit(Contract const& _contract)
{
openProgramScope(&_contract);
return "";
}
string ProtoConverter::visit(Interface const& _interface)
{
openProgramScope(&_interface);
return "";
}
string ProtoConverter::visit(Library const& _library)
{
openProgramScope(&_library);
return "";
}
tuple<string, string, string> ProtoConverter::pseudoRandomLibraryTest()
{
solAssert(m_libraryTests.size() > 0, "Sol proto fuzzer: No library tests found");
unsigned index = randomNumber() % m_libraryTests.size();
return m_libraryTests[index];
}
void ProtoConverter::openProgramScope(CIL _program)
{
string programNamePrefix;
if (holds_alternative<Contract const*>(_program))
programNamePrefix = "C";
else if (holds_alternative<Interface const*>(_program))
programNamePrefix = "I";
else
programNamePrefix = "L";
string programName = programNamePrefix + to_string(m_programNumericSuffix++);
m_programNameMap.emplace(_program, programName);
}
string ProtoConverter::programName(CIL _program)
{
solAssert(m_programNameMap.count(_program), "Sol proto fuzzer: Unregistered program");
return m_programNameMap[_program];
}
unsigned ProtoConverter::randomNumber()
{
solAssert(m_randomGen, "Sol proto fuzzer: Uninitialized random number generator");
return m_randomGen->operator()();
}