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ExecutionFramework.h
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ExecutionFramework.h
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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/>.
*/
/**
* @author Christian <[email protected]>
* @date 2014
* Framework for executing contracts and testing them using RPC.
*/
#pragma once
#include <functional>
#include "TestHelper.h"
#include "RPCSession.h"
#include <libdevcore/ABI.h>
#include <libdevcore/FixedHash.h>
namespace dev
{
namespace test
{
using rational = boost::rational<dev::bigint>;
/// An Ethereum address: 20 bytes.
/// @NOTE This is not endian-specific; it's just a bunch of bytes.
using Address = h160;
// The various denominations; here for ease of use where needed within code.
static const u256 ether = exp10<18>();
static const u256 finney = exp10<15>();
static const u256 szabo = exp10<12>();
static const u256 shannon = exp10<9>();
static const u256 wei = exp10<0>();
class ExecutionFramework
{
public:
ExecutionFramework();
virtual bytes const& compileAndRunWithoutCheck(
std::string const& _sourceCode,
u256 const& _value = 0,
std::string const& _contractName = "",
bytes const& _arguments = bytes(),
std::map<std::string, Address> const& _libraryAddresses = std::map<std::string, Address>()
) = 0;
bytes const& compileAndRun(
std::string const& _sourceCode,
u256 const& _value = 0,
std::string const& _contractName = "",
bytes const& _arguments = bytes(),
std::map<std::string, Address> const& _libraryAddresses = std::map<std::string, Address>()
)
{
compileAndRunWithoutCheck(_sourceCode, _value, _contractName, _arguments, _libraryAddresses);
BOOST_REQUIRE(!m_output.empty());
return m_output;
}
bytes const& callFallbackWithValue(u256 const& _value)
{
sendMessage(bytes(), false, _value);
return m_output;
}
bytes const & callFallback()
{
return callFallbackWithValue(0);
}
template <class... Args>
bytes const& callContractFunctionWithValue(std::string _sig, u256 const& _value, Args const&... _arguments)
{
FixedHash<4> hash(dev::keccak256(_sig));
sendMessage(hash.asBytes() + encodeArgs(_arguments...), false, _value);
return m_output;
}
template <class... Args>
bytes const& callContractFunction(std::string _sig, Args const&... _arguments)
{
return callContractFunctionWithValue(_sig, 0, _arguments...);
}
template <class CppFunction, class... Args>
void testContractAgainstCpp(std::string _sig, CppFunction const& _cppFunction, Args const&... _arguments)
{
bytes contractResult = callContractFunction(_sig, _arguments...);
bytes cppResult = callCppAndEncodeResult(_cppFunction, _arguments...);
BOOST_CHECK_MESSAGE(
contractResult == cppResult,
"Computed values do not match.\nContract: " +
toHex(contractResult) +
"\nC++: " +
toHex(cppResult)
);
}
template <class CppFunction, class... Args>
void testContractAgainstCppOnRange(std::string _sig, CppFunction const& _cppFunction, u256 const& _rangeStart, u256 const& _rangeEnd)
{
for (u256 argument = _rangeStart; argument < _rangeEnd; ++argument)
{
bytes contractResult = callContractFunction(_sig, argument);
bytes cppResult = callCppAndEncodeResult(_cppFunction, argument);
BOOST_CHECK_MESSAGE(
contractResult == cppResult,
"Computed values do not match.\nContract: " +
toHex(contractResult) +
"\nC++: " +
toHex(cppResult) +
"\nArgument: " +
toHex(encode(argument))
);
}
}
static bytes encode(bool _value) { return encode(byte(_value)); }
static bytes encode(int _value) { return encode(u256(_value)); }
static bytes encode(size_t _value) { return encode(u256(_value)); }
static bytes encode(char const* _value) { return encode(std::string(_value)); }
static bytes encode(byte _value) { return bytes(31, 0) + bytes{_value}; }
static bytes encode(u256 const& _value) { return toBigEndian(_value); }
/// @returns the fixed-point encoding of a rational number with a given
/// number of fractional bits.
static bytes encode(std::pair<rational, int> const& _valueAndPrecision)
{
rational const& value = _valueAndPrecision.first;
int fractionalBits = _valueAndPrecision.second;
return encode(u256((value.numerator() << fractionalBits) / value.denominator()));
}
static bytes encode(h256 const& _value) { return _value.asBytes(); }
static bytes encode(bytes const& _value, bool _padLeft = true)
{
bytes padding = bytes((32 - _value.size() % 32) % 32, 0);
return _padLeft ? padding + _value : _value + padding;
}
static bytes encode(std::string const& _value) { return encode(asBytes(_value), false); }
template <class _T>
static bytes encode(std::vector<_T> const& _value)
{
bytes ret;
for (auto const& v: _value)
ret += encode(v);
return ret;
}
template <class FirstArg, class... Args>
static bytes encodeArgs(FirstArg const& _firstArg, Args const&... _followingArgs)
{
return encode(_firstArg) + encodeArgs(_followingArgs...);
}
static bytes encodeArgs()
{
return bytes();
}
//@todo might be extended in the future
template <class Arg>
static bytes encodeDyn(Arg const& _arg)
{
return encodeArgs(u256(0x20), u256(_arg.size()), _arg);
}
class ContractInterface
{
public:
ContractInterface(ExecutionFramework& _framework): m_framework(_framework) {}
void setNextValue(u256 const& _value) { m_nextValue = _value; }
protected:
template <class... Args>
bytes const& call(std::string const& _sig, Args const&... _arguments)
{
auto const& ret = m_framework.callContractFunctionWithValue(_sig, m_nextValue, _arguments...);
m_nextValue = 0;
return ret;
}
void callString(std::string const& _name, std::string const& _arg)
{
BOOST_CHECK(call(_name + "(string)", u256(0x20), _arg.length(), _arg).empty());
}
void callStringAddress(std::string const& _name, std::string const& _arg1, u160 const& _arg2)
{
BOOST_CHECK(call(_name + "(string,address)", u256(0x40), _arg2, _arg1.length(), _arg1).empty());
}
void callStringAddressBool(std::string const& _name, std::string const& _arg1, u160 const& _arg2, bool _arg3)
{
BOOST_CHECK(call(_name + "(string,address,bool)", u256(0x60), _arg2, _arg3, _arg1.length(), _arg1).empty());
}
void callStringBytes32(std::string const& _name, std::string const& _arg1, h256 const& _arg2)
{
BOOST_CHECK(call(_name + "(string,bytes32)", u256(0x40), _arg2, _arg1.length(), _arg1).empty());
}
u160 callStringReturnsAddress(std::string const& _name, std::string const& _arg)
{
bytes const& ret = call(_name + "(string)", u256(0x20), _arg.length(), _arg);
BOOST_REQUIRE(ret.size() == 0x20);
BOOST_CHECK(std::count(ret.begin(), ret.begin() + 12, 0) == 12);
return eth::abiOut<u160>(ret);
}
std::string callAddressReturnsString(std::string const& _name, u160 const& _arg)
{
bytesConstRef ret = ref(call(_name + "(address)", _arg));
BOOST_REQUIRE(ret.size() >= 0x20);
u256 offset = eth::abiOut<u256>(ret);
BOOST_REQUIRE_EQUAL(offset, 0x20);
u256 len = eth::abiOut<u256>(ret);
BOOST_REQUIRE_EQUAL(ret.size(), ((len + 0x1f) / 0x20) * 0x20);
return ret.cropped(0, size_t(len)).toString();
}
h256 callStringReturnsBytes32(std::string const& _name, std::string const& _arg)
{
bytes const& ret = call(_name + "(string)", u256(0x20), _arg.length(), _arg);
BOOST_REQUIRE(ret.size() == 0x20);
return eth::abiOut<h256>(ret);
}
private:
u256 m_nextValue;
ExecutionFramework& m_framework;
};
private:
template <class CppFunction, class... Args>
auto callCppAndEncodeResult(CppFunction const& _cppFunction, Args const&... _arguments)
-> typename std::enable_if<std::is_void<decltype(_cppFunction(_arguments...))>::value, bytes>::type
{
_cppFunction(_arguments...);
return bytes();
}
template <class CppFunction, class... Args>
auto callCppAndEncodeResult(CppFunction const& _cppFunction, Args const&... _arguments)
-> typename std::enable_if<!std::is_void<decltype(_cppFunction(_arguments...))>::value, bytes>::type
{
return encode(_cppFunction(_arguments...));
}
protected:
void sendMessage(bytes const& _data, bool _isCreation, u256 const& _value = 0);
void sendEther(Address const& _to, u256 const& _value);
size_t currentTimestamp();
size_t blockTimestamp(u256 number);
/// @returns the (potentially newly created) _ith address.
Address account(size_t _i);
u256 balanceAt(Address const& _addr);
bool storageEmpty(Address const& _addr);
bool addressHasCode(Address const& _addr);
RPCSession& m_rpc;
struct LogEntry
{
Address address;
std::vector<h256> topics;
bytes data;
};
unsigned m_optimizeRuns = 200;
bool m_optimize = false;
bool m_showMessages = false;
Address m_sender;
Address m_contractAddress;
u256 m_blockNumber;
u256 const m_gasPrice = 100 * szabo;
u256 const m_gas = 100000000;
bytes m_output;
std::vector<LogEntry> m_logs;
u256 m_gasUsed;
};
}
} // end namespaces