solidity/test/tools/ossfuzz/solProtoFuzzer.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 <test/tools/ossfuzz/solProto.pb.h>
#include <test/tools/ossfuzz/abiV2FuzzerCommon.h>
#include <test/EVMHost.h>
#include <evmone/evmone.h>
#include <src/libfuzzer/libfuzzer_macro.h>
#include <fstream>
static evmc::VM evmone = evmc::VM{evmc_create_evmone()};
using namespace solidity::test::abiv2fuzzer;
using namespace solidity::test::solprotofuzzer;
using namespace solidity;
using namespace solidity::test;
using namespace solidity::util;
using namespace std;
namespace
{
/// Test function returns a uint256 value
static size_t const expectedOutputLength = 32;
/// Expected output value is decimal 0
static uint8_t const expectedOutput[expectedOutputLength] = {
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0
};
/// Compares the contents of the memory address pointed to
/// by `_result` of `_length` bytes to the expected output.
/// Returns true if `_result` matches expected output, false
/// otherwise.
bool isOutputExpected(evmc::result const& _run)
{
if (_run.output_size != expectedOutputLength)
return false;
return memcmp(_run.output_data, expectedOutput, expectedOutputLength) == 0;
}
/// Accepts a reference to a user-specified input and returns an
/// evmc_message with all of its fields zero initialized except
/// gas and input fields.
/// The gas field is set to the maximum permissible value so that we
/// don't run into out of gas errors. The input field is copied from
/// user input.
evmc_message initializeMessage(bytes const& _input)
{
// Zero initialize all message fields
evmc_message msg = {};
// Gas available (value of type int64_t) is set to its maximum
// value.
msg.gas = std::numeric_limits<int64_t>::max();
msg.input_data = _input.data();
msg.input_size = _input.size();
return msg;
}
/// Accepts host context implementation, and keccak256 hash of the function
/// to be called at a specified address in the simulated blockchain as
/// input and returns the result of the execution of the called function.
evmc::result executeContract(
EVMHost& _hostContext,
bytes const& _functionHash,
evmc_address _deployedAddress
)
{
evmc_message message = initializeMessage(_functionHash);
message.destination = _deployedAddress;
message.kind = EVMC_CALL;
return _hostContext.call(message);
}
/// Accepts a reference to host context implementation and byte code
/// as input and deploys it on the simulated blockchain. Returns the
/// result of deployment.
evmc::result deployContract(EVMHost& _hostContext, bytes const& _code)
{
evmc_message message = initializeMessage(_code);
message.kind = EVMC_CREATE;
return _hostContext.call(message);
}
std::pair<bytes, Json::Value> compileContract(
std::string _sourceCode,
std::string _contractName,
std::map<std::string, solidity::util::h160> const& _libraryAddresses = {},
frontend::OptimiserSettings _optimization = frontend::OptimiserSettings::minimal()
)
{
try
{
// Compile contract generated by the proto fuzzer
SolidityCompilationFramework solCompilationFramework;
return std::make_pair(
solCompilationFramework.compileContract(_sourceCode, _contractName, _libraryAddresses, _optimization),
solCompilationFramework.getMethodIdentifiers()
);
}
// Ignore stack too deep errors during compilation
catch (evmasm::StackTooDeepException const&)
{
return std::make_pair(bytes{}, Json::Value(0));
}
}
evmc::result deployAndExecute(EVMHost& _hostContext, bytes _byteCode, std::string _hexEncodedInput)
{
// Deploy contract and signal failure if deploy failed
evmc::result createResult = deployContract(_hostContext, _byteCode);
solAssert(
createResult.status_code == EVMC_SUCCESS,
"Proto solc fuzzer: Contract creation failed"
);
// Execute test function and signal failure if EVM reverted or
// did not return expected output on successful execution.
evmc::result callResult = executeContract(
_hostContext,
fromHex(_hexEncodedInput),
createResult.create_address
);
// We don't care about EVM One failures other than EVMC_REVERT
solAssert(callResult.status_code != EVMC_REVERT, "Proto solc fuzzer: EVM One reverted");
return callResult;
}
evmc::result compileDeployAndExecute(
std::string _sourceCode,
std::string _contractName,
std::string _methodName,
frontend::OptimiserSettings _optimization,
std::string _libraryName = {}
)
{
bytes libraryBytecode;
Json::Value libIds;
// We target the default EVM which is the latest
langutil::EVMVersion version = {};
EVMHost hostContext(version, evmone);
std::map<std::string, solidity::util::h160> _libraryAddressMap;
// First deploy library
if (!_libraryName.empty())
{
tie(libraryBytecode, libIds) = compileContract(
_sourceCode,
_libraryName,
{},
_optimization
);
// Deploy contract and signal failure if deploy failed
evmc::result createResult = deployContract(hostContext, libraryBytecode);
solAssert(
createResult.status_code == EVMC_SUCCESS,
"Proto solc fuzzer: Library deployment failed"
);
_libraryAddressMap[_libraryName] = EVMHost::convertFromEVMC(createResult.create_address);
}
auto [bytecode, ids] = compileContract(
_sourceCode,
_contractName,
_libraryAddressMap,
_optimization
);
return deployAndExecute(
hostContext,
bytecode,
ids[_methodName].asString()
);
}
}
DEFINE_PROTO_FUZZER(Program const& _input)
{
ProtoConverter converter;
string sol_source = converter.protoToSolidity(_input);
if (char const* dump_path = getenv("PROTO_FUZZER_DUMP_PATH"))
{
// With libFuzzer binary run this to generate a YUL source file x.yul:
// PROTO_FUZZER_DUMP_PATH=x.yul ./a.out proto-input
ofstream of(dump_path);
of.write(sol_source.data(), sol_source.size());
}
if (char const* dump_path = getenv("SOL_DEBUG_FILE"))
{
sol_source.clear();
// With libFuzzer binary run this to generate a YUL source file x.yul:
// PROTO_FUZZER_LOAD_PATH=x.yul ./a.out proto-input
ifstream ifstr(dump_path);
sol_source = {
std::istreambuf_iterator<char>(ifstr),
std::istreambuf_iterator<char>()
};
std::cout << sol_source << std::endl;
}
auto minimalResult = compileDeployAndExecute(
sol_source,
":C",
"test()",
frontend::OptimiserSettings::minimal(),
converter.libraryTest() ? converter.libraryName() : ""
);
bool successState = minimalResult.status_code == EVMC_SUCCESS;
if (successState)
solAssert(
isOutputExpected(minimalResult),
"Proto solc fuzzer: Output incorrect"
);
}