/*
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 .
*/
/**
* @author Alex Beregszaszi
* @date 2016
* Standard JSON compiler interface.
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
using namespace std;
using namespace dev;
using namespace langutil;
using namespace dev::solidity;
using namespace yul;
namespace
{
Json::Value formatError(
bool _warning,
string const& _type,
string const& _component,
string const& _message,
string const& _formattedMessage = "",
Json::Value const& _sourceLocation = Json::Value(),
Json::Value const& _secondarySourceLocation = Json::Value()
)
{
Json::Value error = Json::objectValue;
error["type"] = _type;
error["component"] = _component;
error["severity"] = _warning ? "warning" : "error";
error["message"] = _message;
error["formattedMessage"] = (_formattedMessage.length() > 0) ? _formattedMessage : _message;
if (_sourceLocation.isObject())
error["sourceLocation"] = _sourceLocation;
if (_secondarySourceLocation.isArray())
error["secondarySourceLocations"] = _secondarySourceLocation;
return error;
}
Json::Value formatFatalError(string const& _type, string const& _message)
{
Json::Value output = Json::objectValue;
output["errors"] = Json::arrayValue;
output["errors"].append(formatError(false, _type, "general", _message));
return output;
}
Json::Value formatSourceLocation(SourceLocation const* location)
{
Json::Value sourceLocation;
if (location && location->source && !location->source->name().empty())
{
sourceLocation["file"] = location->source->name();
sourceLocation["start"] = location->start;
sourceLocation["end"] = location->end;
}
return sourceLocation;
}
Json::Value formatSecondarySourceLocation(SecondarySourceLocation const* _secondaryLocation)
{
if (!_secondaryLocation)
return {};
Json::Value secondarySourceLocation = Json::arrayValue;
for (auto const& location: _secondaryLocation->infos)
{
Json::Value msg = formatSourceLocation(&location.second);
msg["message"] = location.first;
secondarySourceLocation.append(msg);
}
return secondarySourceLocation;
}
Json::Value formatErrorWithException(
Exception const& _exception,
bool const& _warning,
string const& _type,
string const& _component,
string const& _message
)
{
string message;
string formattedMessage = SourceReferenceFormatter::formatExceptionInformation(_exception, _type);
if (string const* description = boost::get_error_info(_exception))
message = ((_message.length() > 0) ? (_message + ":") : "") + *description;
else
message = _message;
return formatError(
_warning,
_type,
_component,
message,
formattedMessage,
formatSourceLocation(boost::get_error_info(_exception)),
formatSecondarySourceLocation(boost::get_error_info(_exception))
);
}
map> requestedContractNames(Json::Value const& _outputSelection)
{
map> contracts;
for (auto const& sourceName: _outputSelection.getMemberNames())
{
string key = (sourceName == "*") ? "" : sourceName;
for (auto const& contractName: _outputSelection[sourceName].getMemberNames())
{
string value = (contractName == "*") ? "" : contractName;
contracts[key].insert(value);
}
}
return contracts;
}
/// Returns true iff @a _hash (hex with 0x prefix) is the Keccak256 hash of the binary data in @a _content.
bool hashMatchesContent(string const& _hash, string const& _content)
{
try
{
return dev::h256(_hash) == dev::keccak256(_content);
}
catch (dev::BadHexCharacter const&)
{
return false;
}
}
bool isArtifactRequested(Json::Value const& _outputSelection, string const& _artifact, bool _wildcardMatchesExperimental)
{
static set experimental{"ir", "irOptimized", "wast", "ewasm", "ewasm.wast"};
for (auto const& artifact: _outputSelection)
/// @TODO support sub-matching, e.g "evm" matches "evm.assembly"
if (artifact == _artifact)
return true;
else if (artifact == "*")
{
// "ir", "irOptimized", "wast" and "ewasm.wast" can only be matched by "*" if activated.
if (experimental.count(_artifact) == 0 || _wildcardMatchesExperimental)
return true;
}
return false;
}
///
/// @a _outputSelection is a JSON object containining a two-level hashmap, where the first level is the filename,
/// the second level is the contract name and the value is an array of artifact names to be requested for that contract.
/// @a _file is the current file
/// @a _contract is the current contract
/// @a _artifact is the current artifact name
///
/// @returns true if the @a _outputSelection has a match for the requested target in the specific file / contract.
///
/// In @a _outputSelection the use of '*' as a wildcard is permitted.
///
/// @TODO optimise this. Perhaps flatten the structure upfront.
///
bool isArtifactRequested(Json::Value const& _outputSelection, string const& _file, string const& _contract, string const& _artifact, bool _wildcardMatchesExperimental)
{
if (!_outputSelection.isObject())
return false;
for (auto const& file: { _file, string("*") })
if (_outputSelection.isMember(file) && _outputSelection[file].isObject())
{
/// For SourceUnit-level targets (such as AST) only allow empty name, otherwise
/// for Contract-level targets try both contract name and wildcard
vector contracts{ _contract };
if (!_contract.empty())
contracts.push_back("*");
for (auto const& contract: contracts)
if (
_outputSelection[file].isMember(contract) &&
_outputSelection[file][contract].isArray() &&
isArtifactRequested(_outputSelection[file][contract], _artifact, _wildcardMatchesExperimental)
)
return true;
}
return false;
}
bool isArtifactRequested(Json::Value const& _outputSelection, string const& _file, string const& _contract, vector const& _artifacts, bool _wildcardMatchesExperimental)
{
for (auto const& artifact: _artifacts)
if (isArtifactRequested(_outputSelection, _file, _contract, artifact, _wildcardMatchesExperimental))
return true;
return false;
}
/// @returns true if any binary was requested, i.e. we actually have to perform compilation.
bool isBinaryRequested(Json::Value const& _outputSelection)
{
if (!_outputSelection.isObject())
return false;
// This does not inculde "evm.methodIdentifiers" on purpose!
static vector const outputsThatRequireBinaries{
"*",
"ir", "irOptimized",
"wast", "wasm", "ewasm.wast", "ewasm.wasm",
"evm.deployedBytecode", "evm.deployedBytecode.object", "evm.deployedBytecode.opcodes",
"evm.deployedBytecode.sourceMap", "evm.deployedBytecode.linkReferences",
"evm.bytecode", "evm.bytecode.object", "evm.bytecode.opcodes", "evm.bytecode.sourceMap",
"evm.bytecode.linkReferences",
"evm.gasEstimates", "evm.legacyAssembly", "evm.assembly"
};
for (auto const& fileRequests: _outputSelection)
for (auto const& requests: fileRequests)
for (auto const& output: outputsThatRequireBinaries)
if (isArtifactRequested(requests, output, false))
return true;
return false;
}
/// @returns true if any eWasm code was requested. Note that as an exception, '*' does not
/// yet match "ewasm.wast" or "ewasm"
bool isEWasmRequested(Json::Value const& _outputSelection)
{
if (!_outputSelection.isObject())
return false;
for (auto const& fileRequests: _outputSelection)
for (auto const& requests: fileRequests)
for (auto const& request: requests)
if (request == "ewasm" || request == "ewasm.wast")
return true;
return false;
}
/// @returns true if any Yul IR was requested. Note that as an exception, '*' does not
/// yet match "ir" or "irOptimized"
bool isIRRequested(Json::Value const& _outputSelection)
{
if (isEWasmRequested(_outputSelection))
return true;
if (!_outputSelection.isObject())
return false;
for (auto const& fileRequests: _outputSelection)
for (auto const& requests: fileRequests)
for (auto const& request: requests)
if (request == "ir" || request == "irOptimized")
return true;
return false;
}
Json::Value formatLinkReferences(std::map const& linkReferences)
{
Json::Value ret(Json::objectValue);
for (auto const& ref: linkReferences)
{
string const& fullname = ref.second;
size_t colon = fullname.rfind(':');
solAssert(colon != string::npos, "");
string file = fullname.substr(0, colon);
string name = fullname.substr(colon + 1);
Json::Value fileObject = ret.get(file, Json::objectValue);
Json::Value libraryArray = fileObject.get(name, Json::arrayValue);
Json::Value entry = Json::objectValue;
entry["start"] = Json::UInt(ref.first);
entry["length"] = 20;
libraryArray.append(entry);
fileObject[name] = libraryArray;
ret[file] = fileObject;
}
return ret;
}
Json::Value collectEVMObject(eth::LinkerObject const& _object, string const* _sourceMap)
{
Json::Value output = Json::objectValue;
output["object"] = _object.toHex();
output["opcodes"] = dev::eth::disassemble(_object.bytecode);
output["sourceMap"] = _sourceMap ? *_sourceMap : "";
output["linkReferences"] = formatLinkReferences(_object.linkReferences);
return output;
}
std::optional checkKeys(Json::Value const& _input, set const& _keys, string const& _name)
{
if (!!_input && !_input.isObject())
return formatFatalError("JSONError", "\"" + _name + "\" must be an object");
for (auto const& member: _input.getMemberNames())
if (!_keys.count(member))
return formatFatalError("JSONError", "Unknown key \"" + member + "\"");
return std::nullopt;
}
std::optional checkRootKeys(Json::Value const& _input)
{
static set keys{"auxiliaryInput", "language", "settings", "sources"};
return checkKeys(_input, keys, "root");
}
std::optional checkSourceKeys(Json::Value const& _input, string const& _name)
{
static set keys{"content", "keccak256", "urls"};
return checkKeys(_input, keys, "sources." + _name);
}
std::optional checkAuxiliaryInputKeys(Json::Value const& _input)
{
static set keys{"smtlib2responses"};
return checkKeys(_input, keys, "auxiliaryInput");
}
std::optional checkSettingsKeys(Json::Value const& _input)
{
static set keys{"parserErrorRecovery", "evmVersion", "libraries", "metadata", "optimizer", "outputSelection", "remappings"};
return checkKeys(_input, keys, "settings");
}
std::optional checkOptimizerKeys(Json::Value const& _input)
{
static set keys{"details", "enabled", "runs"};
return checkKeys(_input, keys, "settings.optimizer");
}
std::optional checkOptimizerDetailsKeys(Json::Value const& _input)
{
static set keys{"peephole", "jumpdestRemover", "orderLiterals", "deduplicate", "cse", "constantOptimizer", "yul", "yulDetails"};
return checkKeys(_input, keys, "settings.optimizer.details");
}
std::optional checkOptimizerDetail(Json::Value const& _details, std::string const& _name, bool& _setting)
{
if (_details.isMember(_name))
{
if (!_details[_name].isBool())
return formatFatalError("JSONError", "\"settings.optimizer.details." + _name + "\" must be Boolean");
_setting = _details[_name].asBool();
}
return {};
}
std::optional checkMetadataKeys(Json::Value const& _input)
{
if (_input.isObject() && _input.isMember("useLiteralContent") && !_input["useLiteralContent"].isBool())
return formatFatalError("JSONError", "\"settings.metadata.useLiteralContent\" must be Boolean");
static set keys{"useLiteralContent"};
return checkKeys(_input, keys, "settings.metadata");
}
std::optional checkOutputSelection(Json::Value const& _outputSelection)
{
if (!!_outputSelection && !_outputSelection.isObject())
return formatFatalError("JSONError", "\"settings.outputSelection\" must be an object");
for (auto const& sourceName: _outputSelection.getMemberNames())
{
auto const& sourceVal = _outputSelection[sourceName];
if (!sourceVal.isObject())
return formatFatalError(
"JSONError",
"\"settings.outputSelection." + sourceName + "\" must be an object"
);
for (auto const& contractName: sourceVal.getMemberNames())
{
auto const& contractVal = sourceVal[contractName];
if (!contractVal.isArray())
return formatFatalError(
"JSONError",
"\"settings.outputSelection." +
sourceName +
"." +
contractName +
"\" must be a string array"
);
for (auto const& output: contractVal)
if (!output.isString())
return formatFatalError(
"JSONError",
"\"settings.outputSelection." +
sourceName +
"." +
contractName +
"\" must be a string array"
);
}
}
return std::nullopt;
}
/// Validates the optimizer settings and returns them in a parsed object.
/// On error returns the json-formatted error message.
boost::variant parseOptimizerSettings(Json::Value const& _jsonInput)
{
if (auto result = checkOptimizerKeys(_jsonInput))
return *result;
OptimiserSettings settings = OptimiserSettings::none();
if (_jsonInput.isMember("enabled"))
{
if (!_jsonInput["enabled"].isBool())
return formatFatalError("JSONError", "The \"enabled\" setting must be a Boolean.");
settings = _jsonInput["enabled"].asBool() ? OptimiserSettings::standard() : OptimiserSettings::minimal();
}
if (_jsonInput.isMember("runs"))
{
if (!_jsonInput["runs"].isUInt())
return formatFatalError("JSONError", "The \"runs\" setting must be an unsigned number.");
settings.expectedExecutionsPerDeployment = _jsonInput["runs"].asUInt();
}
if (_jsonInput.isMember("details"))
{
Json::Value const& details = _jsonInput["details"];
if (auto result = checkOptimizerDetailsKeys(details))
return *result;
if (auto error = checkOptimizerDetail(details, "peephole", settings.runPeephole))
return *error;
if (auto error = checkOptimizerDetail(details, "jumpdestRemover", settings.runJumpdestRemover))
return *error;
if (auto error = checkOptimizerDetail(details, "orderLiterals", settings.runOrderLiterals))
return *error;
if (auto error = checkOptimizerDetail(details, "deduplicate", settings.runDeduplicate))
return *error;
if (auto error = checkOptimizerDetail(details, "cse", settings.runCSE))
return *error;
if (auto error = checkOptimizerDetail(details, "constantOptimizer", settings.runConstantOptimiser))
return *error;
if (auto error = checkOptimizerDetail(details, "yul", settings.runYulOptimiser))
return *error;
if (settings.runYulOptimiser)
settings.optimizeStackAllocation = true;
if (details.isMember("yulDetails"))
{
if (!settings.runYulOptimiser)
return formatFatalError("JSONError", "\"Providing yulDetails requires Yul optimizer to be enabled.");
if (auto result = checkKeys(details["yulDetails"], {"stackAllocation"}, "settings.optimizer.details.yulDetails"))
return *result;
if (auto error = checkOptimizerDetail(details["yulDetails"], "stackAllocation", settings.optimizeStackAllocation))
return *error;
}
}
return { std::move(settings) };
}
}
boost::variant StandardCompiler::parseInput(Json::Value const& _input)
{
InputsAndSettings ret;
if (!_input.isObject())
return formatFatalError("JSONError", "Input is not a JSON object.");
if (auto result = checkRootKeys(_input))
return *result;
ret.language = _input["language"].asString();
Json::Value const& sources = _input["sources"];
if (!sources.isObject() && !sources.isNull())
return formatFatalError("JSONError", "\"sources\" is not a JSON object.");
if (sources.empty())
return formatFatalError("JSONError", "No input sources specified.");
ret.errors = Json::arrayValue;
for (auto const& sourceName: sources.getMemberNames())
{
string hash;
if (auto result = checkSourceKeys(sources[sourceName], sourceName))
return *result;
if (sources[sourceName]["keccak256"].isString())
hash = sources[sourceName]["keccak256"].asString();
if (sources[sourceName]["content"].isString())
{
string content = sources[sourceName]["content"].asString();
if (!hash.empty() && !hashMatchesContent(hash, content))
ret.errors.append(formatError(
false,
"IOError",
"general",
"Mismatch between content and supplied hash for \"" + sourceName + "\""
));
else
ret.sources[sourceName] = content;
}
else if (sources[sourceName]["urls"].isArray())
{
if (!m_readFile)
return formatFatalError("JSONError", "No import callback supplied, but URL is requested.");
bool found = false;
vector failures;
for (auto const& url: sources[sourceName]["urls"])
{
if (!url.isString())
return formatFatalError("JSONError", "URL must be a string.");
ReadCallback::Result result = m_readFile(url.asString());
if (result.success)
{
if (!hash.empty() && !hashMatchesContent(hash, result.responseOrErrorMessage))
ret.errors.append(formatError(
false,
"IOError",
"general",
"Mismatch between content and supplied hash for \"" + sourceName + "\" at \"" + url.asString() + "\""
));
else
{
ret.sources[sourceName] = result.responseOrErrorMessage;
found = true;
break;
}
}
else
failures.push_back("Cannot import url (\"" + url.asString() + "\"): " + result.responseOrErrorMessage);
}
for (auto const& failure: failures)
{
/// If the import succeeded, let mark all the others as warnings, otherwise all of them are errors.
ret.errors.append(formatError(
found ? true : false,
"IOError",
"general",
failure
));
}
}
else
return formatFatalError("JSONError", "Invalid input source specified.");
}
Json::Value const& auxInputs = _input["auxiliaryInput"];
if (auto result = checkAuxiliaryInputKeys(auxInputs))
return *result;
if (!!auxInputs)
{
Json::Value const& smtlib2Responses = auxInputs["smtlib2responses"];
if (!!smtlib2Responses)
{
if (!smtlib2Responses.isObject())
return formatFatalError("JSONError", "\"auxiliaryInput.smtlib2responses\" must be an object.");
for (auto const& hashString: smtlib2Responses.getMemberNames())
{
h256 hash;
try
{
hash = h256(hashString);
}
catch (dev::BadHexCharacter const&)
{
return formatFatalError("JSONError", "Invalid hex encoding of SMTLib2 auxiliary input.");
}
if (!smtlib2Responses[hashString].isString())
return formatFatalError(
"JSONError",
"\"smtlib2Responses." + hashString + "\" must be a string."
);
ret.smtLib2Responses[hash] = smtlib2Responses[hashString].asString();
}
}
}
Json::Value const& settings = _input.get("settings", Json::Value());
if (auto result = checkSettingsKeys(settings))
return *result;
if (settings.isMember("parserErrorRecovery"))
{
if (!settings["parserErrorRecovery"].isBool())
return formatFatalError("JSONError", "\"settings.parserErrorRecovery\" must be a Boolean.");
ret.parserErrorRecovery = settings["parserErrorRecovery"].asBool();
}
if (settings.isMember("evmVersion"))
{
if (!settings["evmVersion"].isString())
return formatFatalError("JSONError", "evmVersion must be a string.");
std::optional version = langutil::EVMVersion::fromString(settings["evmVersion"].asString());
if (!version)
return formatFatalError("JSONError", "Invalid EVM version requested.");
ret.evmVersion = *version;
}
if (settings.isMember("remappings") && !settings["remappings"].isArray())
return formatFatalError("JSONError", "\"settings.remappings\" must be an array of strings.");
for (auto const& remapping: settings.get("remappings", Json::Value()))
{
if (!remapping.isString())
return formatFatalError("JSONError", "\"settings.remappings\" must be an array of strings");
if (auto r = CompilerStack::parseRemapping(remapping.asString()))
ret.remappings.emplace_back(std::move(*r));
else
return formatFatalError("JSONError", "Invalid remapping: \"" + remapping.asString() + "\"");
}
if (settings.isMember("optimizer"))
{
auto optimiserSettings = parseOptimizerSettings(settings["optimizer"]);
if (optimiserSettings.type() == typeid(Json::Value))
return boost::get(std::move(optimiserSettings)); // was an error
else
ret.optimiserSettings = boost::get(std::move(optimiserSettings));
}
Json::Value jsonLibraries = settings.get("libraries", Json::Value(Json::objectValue));
if (!jsonLibraries.isObject())
return formatFatalError("JSONError", "\"libraries\" is not a JSON object.");
for (auto const& sourceName: jsonLibraries.getMemberNames())
{
auto const& jsonSourceName = jsonLibraries[sourceName];
if (!jsonSourceName.isObject())
return formatFatalError("JSONError", "Library entry is not a JSON object.");
for (auto const& library: jsonSourceName.getMemberNames())
{
if (!jsonSourceName[library].isString())
return formatFatalError("JSONError", "Library address must be a string.");
string address = jsonSourceName[library].asString();
if (!boost::starts_with(address, "0x"))
return formatFatalError(
"JSONError",
"Library address is not prefixed with \"0x\"."
);
if (address.length() != 42)
return formatFatalError(
"JSONError",
"Library address is of invalid length."
);
try
{
// @TODO use libraries only for the given source
ret.libraries[library] = h160(address);
}
catch (dev::BadHexCharacter const&)
{
return formatFatalError(
"JSONError",
"Invalid library address (\"" + address + "\") supplied."
);
}
}
}
Json::Value metadataSettings = settings.get("metadata", Json::Value());
if (auto result = checkMetadataKeys(metadataSettings))
return *result;
ret.metadataLiteralSources = metadataSettings.get("useLiteralContent", Json::Value(false)).asBool();
Json::Value outputSelection = settings.get("outputSelection", Json::Value());
if (auto jsonError = checkOutputSelection(outputSelection))
return *jsonError;
ret.outputSelection = std::move(outputSelection);
return { std::move(ret) };
}
Json::Value StandardCompiler::compileSolidity(StandardCompiler::InputsAndSettings _inputsAndSettings)
{
CompilerStack compilerStack(m_readFile);
StringMap sourceList = std::move(_inputsAndSettings.sources);
compilerStack.setSources(sourceList);
for (auto const& smtLib2Response: _inputsAndSettings.smtLib2Responses)
compilerStack.addSMTLib2Response(smtLib2Response.first, smtLib2Response.second);
compilerStack.setEVMVersion(_inputsAndSettings.evmVersion);
compilerStack.setParserErrorRecovery(_inputsAndSettings.parserErrorRecovery);
compilerStack.setRemappings(_inputsAndSettings.remappings);
compilerStack.setOptimiserSettings(std::move(_inputsAndSettings.optimiserSettings));
compilerStack.setLibraries(_inputsAndSettings.libraries);
compilerStack.useMetadataLiteralSources(_inputsAndSettings.metadataLiteralSources);
compilerStack.setRequestedContractNames(requestedContractNames(_inputsAndSettings.outputSelection));
compilerStack.enableIRGeneration(isIRRequested(_inputsAndSettings.outputSelection));
compilerStack.enableEWasmGeneration(isEWasmRequested(_inputsAndSettings.outputSelection));
Json::Value errors = std::move(_inputsAndSettings.errors);
bool const binariesRequested = isBinaryRequested(_inputsAndSettings.outputSelection);
try
{
if (binariesRequested)
compilerStack.compile();
else
compilerStack.parseAndAnalyze();
for (auto const& error: compilerStack.errors())
{
Error const& err = dynamic_cast(*error);
errors.append(formatErrorWithException(
*error,
err.type() == Error::Type::Warning,
err.typeName(),
"general",
""
));
}
}
/// This is only thrown in a very few locations.
catch (Error const& _error)
{
errors.append(formatErrorWithException(
_error,
false,
_error.typeName(),
"general",
"Uncaught error: "
));
}
/// This should not be leaked from compile().
catch (FatalError const& _exception)
{
errors.append(formatError(
false,
"FatalError",
"general",
"Uncaught fatal error: " + boost::diagnostic_information(_exception)
));
}
catch (CompilerError const& _exception)
{
errors.append(formatErrorWithException(
_exception,
false,
"CompilerError",
"general",
"Compiler error (" + _exception.lineInfo() + ")"
));
}
catch (InternalCompilerError const& _exception)
{
errors.append(formatErrorWithException(
_exception,
false,
"InternalCompilerError",
"general",
"Internal compiler error (" + _exception.lineInfo() + ")"
));
}
catch (UnimplementedFeatureError const& _exception)
{
errors.append(formatErrorWithException(
_exception,
false,
"UnimplementedFeatureError",
"general",
"Unimplemented feature (" + _exception.lineInfo() + ")"
));
}
catch (Exception const& _exception)
{
errors.append(formatError(
false,
"Exception",
"general",
"Exception during compilation: " + boost::diagnostic_information(_exception)
));
}
catch (std::exception const& _e)
{
errors.append(formatError(
false,
"Exception",
"general",
"Unknown exception during compilation" + (_e.what() ? ": " + string(_e.what()) : ".")
));
}
catch (...)
{
errors.append(formatError(
false,
"Exception",
"general",
"Unknown exception during compilation."
));
}
bool analysisPerformed = compilerStack.state() >= CompilerStack::State::AnalysisPerformed;
bool const compilationSuccess = compilerStack.state() == CompilerStack::State::CompilationSuccessful;
if (compilerStack.hasError() && !_inputsAndSettings.parserErrorRecovery)
analysisPerformed = false;
/// Inconsistent state - stop here to receive error reports from users
if (((binariesRequested && !compilationSuccess) || !analysisPerformed) && errors.empty())
return formatFatalError("InternalCompilerError", "No error reported, but compilation failed.");
Json::Value output = Json::objectValue;
if (errors.size() > 0)
output["errors"] = std::move(errors);
if (!compilerStack.unhandledSMTLib2Queries().empty())
for (string const& query: compilerStack.unhandledSMTLib2Queries())
output["auxiliaryInputRequested"]["smtlib2queries"]["0x" + keccak256(query).hex()] = query;
bool const wildcardMatchesExperimental = false;
output["sources"] = Json::objectValue;
unsigned sourceIndex = 0;
for (string const& sourceName: analysisPerformed ? compilerStack.sourceNames() : vector())
{
Json::Value sourceResult = Json::objectValue;
sourceResult["id"] = sourceIndex++;
if (isArtifactRequested(_inputsAndSettings.outputSelection, sourceName, "", "ast", wildcardMatchesExperimental))
sourceResult["ast"] = ASTJsonConverter(false, compilerStack.sourceIndices()).toJson(compilerStack.ast(sourceName));
if (isArtifactRequested(_inputsAndSettings.outputSelection, sourceName, "", "legacyAST", wildcardMatchesExperimental))
sourceResult["legacyAST"] = ASTJsonConverter(true, compilerStack.sourceIndices()).toJson(compilerStack.ast(sourceName));
output["sources"][sourceName] = sourceResult;
}
Json::Value contractsOutput = Json::objectValue;
for (string const& contractName: analysisPerformed ? compilerStack.contractNames() : vector())
{
size_t colon = contractName.rfind(':');
solAssert(colon != string::npos, "");
string file = contractName.substr(0, colon);
string name = contractName.substr(colon + 1);
// ABI, storage layout, documentation and metadata
Json::Value contractData(Json::objectValue);
if (isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "abi", wildcardMatchesExperimental))
contractData["abi"] = compilerStack.contractABI(contractName);
if (isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "storageLayout", false))
contractData["storageLayout"] = compilerStack.storageLayout(contractName);
if (isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "metadata", wildcardMatchesExperimental))
contractData["metadata"] = compilerStack.metadata(contractName);
if (isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "userdoc", wildcardMatchesExperimental))
contractData["userdoc"] = compilerStack.natspecUser(contractName);
if (isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "devdoc", wildcardMatchesExperimental))
contractData["devdoc"] = compilerStack.natspecDev(contractName);
// IR
if (compilationSuccess && isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "ir", wildcardMatchesExperimental))
contractData["ir"] = compilerStack.yulIR(contractName);
if (compilationSuccess && isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "irOptimized", wildcardMatchesExperimental))
contractData["irOptimized"] = compilerStack.yulIROptimized(contractName);
// eWasm
if (compilationSuccess && isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "ewasm.wast", wildcardMatchesExperimental))
contractData["ewasm"]["wast"] = compilerStack.eWasm(contractName);
if (compilationSuccess && isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "ewasm.wasm", wildcardMatchesExperimental))
contractData["ewasm"]["wasm"] = compilerStack.eWasmObject(contractName).toHex();
// EVM
Json::Value evmData(Json::objectValue);
if (compilationSuccess && isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "evm.assembly", wildcardMatchesExperimental))
evmData["assembly"] = compilerStack.assemblyString(contractName, sourceList);
if (compilationSuccess && isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "evm.legacyAssembly", wildcardMatchesExperimental))
evmData["legacyAssembly"] = compilerStack.assemblyJSON(contractName, sourceList);
if (isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "evm.methodIdentifiers", wildcardMatchesExperimental))
evmData["methodIdentifiers"] = compilerStack.methodIdentifiers(contractName);
if (compilationSuccess && isArtifactRequested(_inputsAndSettings.outputSelection, file, name, "evm.gasEstimates", wildcardMatchesExperimental))
evmData["gasEstimates"] = compilerStack.gasEstimates(contractName);
if (compilationSuccess && isArtifactRequested(
_inputsAndSettings.outputSelection,
file,
name,
{ "evm.bytecode", "evm.bytecode.object", "evm.bytecode.opcodes", "evm.bytecode.sourceMap", "evm.bytecode.linkReferences" },
wildcardMatchesExperimental
))
evmData["bytecode"] = collectEVMObject(
compilerStack.object(contractName),
compilerStack.sourceMapping(contractName)
);
if (compilationSuccess && isArtifactRequested(
_inputsAndSettings.outputSelection,
file,
name,
{ "evm.deployedBytecode", "evm.deployedBytecode.object", "evm.deployedBytecode.opcodes", "evm.deployedBytecode.sourceMap", "evm.deployedBytecode.linkReferences" },
wildcardMatchesExperimental
))
evmData["deployedBytecode"] = collectEVMObject(
compilerStack.runtimeObject(contractName),
compilerStack.runtimeSourceMapping(contractName)
);
if (!evmData.empty())
contractData["evm"] = evmData;
if (!contractData.empty())
{
if (!contractsOutput.isMember(file))
contractsOutput[file] = Json::objectValue;
contractsOutput[file][name] = contractData;
}
}
if (!contractsOutput.empty())
output["contracts"] = contractsOutput;
return output;
}
Json::Value StandardCompiler::compileYul(InputsAndSettings _inputsAndSettings)
{
if (_inputsAndSettings.sources.size() != 1)
return formatFatalError("JSONError", "Yul mode only supports exactly one input file.");
if (!_inputsAndSettings.smtLib2Responses.empty())
return formatFatalError("JSONError", "Yul mode does not support smtlib2responses.");
if (!_inputsAndSettings.remappings.empty())
return formatFatalError("JSONError", "Field \"settings.remappings\" cannot be used for Yul.");
if (!_inputsAndSettings.libraries.empty())
return formatFatalError("JSONError", "Field \"settings.libraries\" cannot be used for Yul.");
Json::Value output = Json::objectValue;
AssemblyStack stack(
_inputsAndSettings.evmVersion,
AssemblyStack::Language::StrictAssembly,
_inputsAndSettings.optimiserSettings
);
string const& sourceName = _inputsAndSettings.sources.begin()->first;
string const& sourceContents = _inputsAndSettings.sources.begin()->second;
// Inconsistent state - stop here to receive error reports from users
if (!stack.parseAndAnalyze(sourceName, sourceContents) && stack.errors().empty())
return formatFatalError("InternalCompilerError", "No error reported, but compilation failed.");
if (!stack.errors().empty())
{
Json::Value errors = Json::arrayValue;
for (auto const& error: stack.errors())
{
auto err = dynamic_pointer_cast(error);
errors.append(formatErrorWithException(
*error,
err->type() == Error::Type::Warning,
err->typeName(),
"general",
""
));
}
output["errors"] = errors;
return output;
}
// TODO: move this warning to AssemblyStack
output["errors"] = Json::arrayValue;
output["errors"].append(formatError(true, "Warning", "general", "Yul is still experimental. Please use the output with care."));
string contractName = stack.parserResult()->name.str();
bool const wildcardMatchesExperimental = true;
if (isArtifactRequested(_inputsAndSettings.outputSelection, sourceName, contractName, "ir", wildcardMatchesExperimental))
output["contracts"][sourceName][contractName]["ir"] = stack.print();
stack.optimize();
MachineAssemblyObject object = stack.assemble(AssemblyStack::Machine::EVM);
if (isArtifactRequested(
_inputsAndSettings.outputSelection,
sourceName,
contractName,
{ "evm.bytecode", "evm.bytecode.object", "evm.bytecode.opcodes", "evm.bytecode.sourceMap", "evm.bytecode.linkReferences" },
wildcardMatchesExperimental
))
output["contracts"][sourceName][contractName]["evm"]["bytecode"] = collectEVMObject(*object.bytecode, nullptr);
if (isArtifactRequested(_inputsAndSettings.outputSelection, sourceName, contractName, "irOptimized", wildcardMatchesExperimental))
output["contracts"][sourceName][contractName]["irOptimized"] = stack.print();
if (isArtifactRequested(_inputsAndSettings.outputSelection, sourceName, contractName, "evm.assembly", wildcardMatchesExperimental))
output["contracts"][sourceName][contractName]["evm"]["assembly"] = object.assembly;
return output;
}
Json::Value StandardCompiler::compile(Json::Value const& _input) noexcept
{
YulStringRepository::reset();
try
{
auto parsed = parseInput(_input);
if (parsed.type() == typeid(Json::Value))
return boost::get(std::move(parsed));
InputsAndSettings settings = boost::get(std::move(parsed));
if (settings.language == "Solidity")
return compileSolidity(std::move(settings));
else if (settings.language == "Yul")
return compileYul(std::move(settings));
else
return formatFatalError("JSONError", "Only \"Solidity\" or \"Yul\" is supported as a language.");
}
catch (Json::LogicError const& _exception)
{
return formatFatalError("InternalCompilerError", string("JSON logic exception: ") + _exception.what());
}
catch (Json::RuntimeError const& _exception)
{
return formatFatalError("InternalCompilerError", string("JSON runtime exception: ") + _exception.what());
}
catch (Exception const& _exception)
{
return formatFatalError("InternalCompilerError", "Internal exception in StandardCompiler::compile: " + boost::diagnostic_information(_exception));
}
catch (...)
{
return formatFatalError("InternalCompilerError", "Internal exception in StandardCompiler::compile");
}
}
string StandardCompiler::compile(string const& _input) noexcept
{
Json::Value input;
string errors;
try
{
if (!jsonParseStrict(_input, input, &errors))
return jsonCompactPrint(formatFatalError("JSONError", errors));
}
catch (...)
{
return "{\"errors\":[{\"type\":\"JSONError\",\"component\":\"general\",\"severity\":\"error\",\"message\":\"Error parsing input JSON.\"}]}";
}
// cout << "Input: " << input.toStyledString() << endl;
Json::Value output = compile(input);
// cout << "Output: " << output.toStyledString() << endl;
try
{
return jsonCompactPrint(output);
}
catch (...)
{
return "{\"errors\":[{\"type\":\"JSONError\",\"component\":\"general\",\"severity\":\"error\",\"message\":\"Error writing output JSON.\"}]}";
}
}