/*
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 .
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
using namespace solidity;
using namespace solidity::util;
using namespace solidity::langutil;
using namespace solidity::frontend::test;
using namespace std;
using namespace soltest;
namespace
{
using ParameterList = solidity::frontend::test::ParameterList;
size_t arraySize(string const& _arrayType)
{
auto leftBrack = _arrayType.find("[");
auto rightBrack = _arrayType.rfind("]");
soltestAssert(
leftBrack != string::npos &&
rightBrack != string::npos &&
rightBrack == _arrayType.size() - 1 &&
leftBrack < rightBrack,
""
);
string size = _arrayType.substr(leftBrack + 1, rightBrack - leftBrack - 1);
return static_cast(stoi(size));
}
bool isBool(string const& _type)
{
return _type == "bool";
}
bool isUint(string const& _type)
{
return regex_match(_type, regex{"uint\\d*"});
}
bool isInt(string const& _type)
{
return regex_match(_type, regex{"int\\d*"});
}
bool isFixedBytes(string const& _type)
{
return regex_match(_type, regex{"bytes\\d+"});
}
bool isBytes(string const& _type)
{
return regex_match(_type, regex{"\\bbytes\\b"});
}
bool isString(string const& _type)
{
return _type == "string";
}
bool isFixedBoolArray(string const& _type)
{
return regex_match(_type, regex{"bool\\[\\d+\\]"});
}
bool isFixedUintArray(string const& _type)
{
return regex_match(_type, regex{"uint\\d*\\[\\d+\\]"});
}
bool isFixedIntArray(string const& _type)
{
return regex_match(_type, regex{"int\\d*\\[\\d+\\]"});
}
bool isFixedStringArray(string const& _type)
{
return regex_match(_type, regex{"string\\[\\d+\\]"});
}
bool isTuple(string const& _type)
{
return _type == "tuple";
}
bool isFixedTupleArray(string const& _type)
{
return regex_match(_type, regex{"tuple\\[\\d+\\]"});
}
string functionSignatureFromABI(Json::Value const& _functionABI)
{
auto inputs = _functionABI["inputs"];
string signature = {_functionABI["name"].asString() + "("};
size_t parameterCount = 0;
for (auto const& input: inputs)
{
parameterCount++;
signature += input["type"].asString();
if (parameterCount < inputs.size())
signature += ",";
}
return signature + ")";
}
}
std::optional ContractABIUtils::parametersFromJsonOutputs(
ErrorReporter& _errorReporter,
Json::Value const& _contractABI,
string const& _functionSignature
)
{
if (!_contractABI)
return std::nullopt;
for (auto const& function: _contractABI)
if (_functionSignature == functionSignatureFromABI(function))
{
ParameterList inplaceTypeParams;
ParameterList dynamicTypeParams;
ParameterList finalParams;
for (auto const& output: function["outputs"])
{
string type = output["type"].asString();
ABITypes inplaceTypes;
ABITypes dynamicTypes;
if (appendTypesFromName(output, inplaceTypes, dynamicTypes))
{
for (auto const& type: inplaceTypes)
inplaceTypeParams.push_back(Parameter{bytes(), "", type, FormatInfo{}});
for (auto const& type: dynamicTypes)
dynamicTypeParams.push_back(Parameter{bytes(), "", type, FormatInfo{}});
}
else
{
_errorReporter.warning(
"Could not convert \"" + type +
"\" to internal ABI type representation. Falling back to default encoding."
);
return std::nullopt;
}
finalParams += inplaceTypeParams;
inplaceTypeParams.clear();
}
return std::optional(finalParams + dynamicTypeParams);
}
return std::nullopt;
}
bool ContractABIUtils::appendTypesFromName(
Json::Value const& _functionOutput,
ABITypes& _inplaceTypes,
ABITypes& _dynamicTypes,
bool _isCompoundType
)
{
string type = _functionOutput["type"].asString();
if (isBool(type))
_inplaceTypes.push_back(ABIType{ABIType::Boolean});
else if (isUint(type))
_inplaceTypes.push_back(ABIType{ABIType::UnsignedDec});
else if (isInt(type))
_inplaceTypes.push_back(ABIType{ABIType::SignedDec});
else if (isFixedBytes(type))
_inplaceTypes.push_back(ABIType{ABIType::Hex});
else if (isString(type))
{
_inplaceTypes.push_back(ABIType{ABIType::Hex});
if (_isCompoundType)
_dynamicTypes.push_back(ABIType{ABIType::Hex});
_dynamicTypes.push_back(ABIType{ABIType::UnsignedDec});
_dynamicTypes.push_back(ABIType{ABIType::String, ABIType::AlignLeft});
}
else if (isTuple(type))
{
ABITypes inplaceTypes;
ABITypes dynamicTypes;
for (auto const& component: _functionOutput["components"])
appendTypesFromName(component, inplaceTypes, dynamicTypes, true);
_dynamicTypes += inplaceTypes + dynamicTypes;
}
else if (isFixedBoolArray(type))
_inplaceTypes += vector(arraySize(type), ABIType{ABIType::Boolean});
else if (isFixedUintArray(type))
_inplaceTypes += vector(arraySize(type), ABIType{ABIType::UnsignedDec});
else if (isFixedIntArray(type))
_inplaceTypes += vector(arraySize(type), ABIType{ABIType::SignedDec});
else if (isFixedStringArray(type))
{
_inplaceTypes.push_back(ABIType{ABIType::Hex});
_dynamicTypes += vector(arraySize(type), ABIType{ABIType::Hex});
for (size_t i = 0; i < arraySize(type); i++)
{
_dynamicTypes.push_back(ABIType{ABIType::UnsignedDec});
_dynamicTypes.push_back(ABIType{ABIType::String, ABIType::AlignLeft});
}
}
else if (isBytes(type))
return false;
else if (isFixedTupleArray(type))
return false;
else
return false;
return true;
}
void ContractABIUtils::overwriteParameters(
ErrorReporter& _errorReporter,
solidity::frontend::test::ParameterList& _targetParameters,
solidity::frontend::test::ParameterList const& _sourceParameters
)
{
boost::for_each(
_sourceParameters,
_targetParameters,
boost::bind(
[&](Parameter _a, Parameter& _b) -> void
{
if (
_a.abiType.size != _b.abiType.size ||
_a.abiType.type != _b.abiType.type
)
{
_errorReporter.warning("Type or size of parameter(s) does not match.");
_b = _a;
}
},
_1,
_2
)
);
}
solidity::frontend::test::ParameterList ContractABIUtils::preferredParameters(
ErrorReporter& _errorReporter,
solidity::frontend::test::ParameterList const& _targetParameters,
solidity::frontend::test::ParameterList const& _sourceParameters,
bytes const& _bytes
)
{
if (_targetParameters.size() != _sourceParameters.size())
{
_errorReporter.warning(
"Encoding does not match byte range. The call returned " +
to_string(_bytes.size()) + " bytes, but " +
to_string(encodingSize(_targetParameters)) + " bytes were expected."
);
return _sourceParameters;
}
else
return _targetParameters;
}
solidity::frontend::test::ParameterList ContractABIUtils::defaultParameters(size_t count)
{
ParameterList parameters;
fill_n(
back_inserter(parameters),
count,
Parameter{bytes(), "", ABIType{ABIType::UnsignedDec}, FormatInfo{}}
);
return parameters;
}
solidity::frontend::test::ParameterList ContractABIUtils::failureParameters(bytes const _bytes)
{
ParameterList parameters;
parameters.push_back(Parameter{bytes(), "", ABIType{ABIType::HexString, ABIType::AlignNone, 4}, FormatInfo{}});
parameters.push_back(Parameter{bytes(), "", ABIType{ABIType::Hex}, FormatInfo{}});
parameters.push_back(Parameter{bytes(), "", ABIType{ABIType::UnsignedDec}, FormatInfo{}});
/// If _bytes contains at least a 1 byte message (function selector + tail pointer + message length + message)
/// append an additional string parameter to represent that message.
if (_bytes.size() > 68)
parameters.push_back(Parameter{bytes(), "", ABIType{ABIType::String}, FormatInfo{}});
return parameters;
}
size_t ContractABIUtils::encodingSize(
solidity::frontend::test::ParameterList const& _parameters
)
{
auto sizeFold = [](size_t const _a, Parameter const& _b) { return _a + _b.abiType.size; };
return accumulate(_parameters.begin(), _parameters.end(), size_t{0}, sizeFold);
}