#include "RuntimeManager.h" #include #include #include #include "RuntimeData.h" #include "Instruction.h" namespace dev { namespace eth { namespace jit { llvm::StructType* RuntimeManager::getRuntimeDataType() { static llvm::StructType* type = nullptr; if (!type) { llvm::Type* elems[] = { llvm::ArrayType::get(Type::Word, RuntimeData::_size), // i256[] Type::BytePtr, // callData Type::BytePtr // code }; type = llvm::StructType::create(elems, "RuntimeData"); } return type; } llvm::StructType* RuntimeManager::getRuntimeType() { static llvm::StructType* type = nullptr; if (!type) { llvm::Type* elems[] = { Type::RuntimeDataPtr, // data Type::EnvPtr, // Env* Type::BytePtr, // jmpbuf Type::BytePtr, // memory data Type::Word, // memory size }; type = llvm::StructType::create(elems, "Runtime"); } return type; } namespace { llvm::Twine getName(RuntimeData::Index _index) { switch (_index) { default: return "data"; case RuntimeData::Gas: return "gas"; case RuntimeData::Address: return "address"; case RuntimeData::Caller: return "caller"; case RuntimeData::Origin: return "origin"; case RuntimeData::CallValue: return "callvalue"; case RuntimeData::CallDataSize: return "calldatasize"; case RuntimeData::GasPrice: return "gasprice"; case RuntimeData::CoinBase: return "coinbase"; case RuntimeData::TimeStamp: return "timestamp"; case RuntimeData::Number: return "number"; case RuntimeData::Difficulty: return "difficulty"; case RuntimeData::GasLimit: return "gaslimit"; case RuntimeData::CodeSize: return "codesize"; } } } RuntimeManager::RuntimeManager(llvm::IRBuilder<>& _builder): CompilerHelper(_builder) { m_longjmp = llvm::Intrinsic::getDeclaration(getModule(), llvm::Intrinsic::longjmp); // Unpack data auto rtPtr = getRuntimePtr(); m_dataPtr = m_builder.CreateLoad(m_builder.CreateStructGEP(rtPtr, 0), "data"); assert(m_dataPtr->getType() == Type::RuntimeDataPtr); m_envPtr = m_builder.CreateLoad(m_builder.CreateStructGEP(rtPtr, 1), "env"); assert(m_envPtr->getType() == Type::EnvPtr); } llvm::Value* RuntimeManager::getRuntimePtr() { // Expect first argument of a function to be a pointer to Runtime auto func = m_builder.GetInsertBlock()->getParent(); auto rtPtr = &func->getArgumentList().front(); assert(rtPtr->getType() == Type::RuntimePtr); return rtPtr; } llvm::Value* RuntimeManager::getDataPtr() { if (getMainFunction()) return m_dataPtr; auto rtPtr = getRuntimePtr(); return m_builder.CreateLoad(m_builder.CreateStructGEP(rtPtr, 0), "data"); } llvm::Value* RuntimeManager::getEnvPtr() { assert(getMainFunction()); // Available only in main function return m_envPtr; } llvm::Value* RuntimeManager::getPtr(RuntimeData::Index _index) { llvm::Value* idxList[] = {m_builder.getInt32(0), m_builder.getInt32(0), m_builder.getInt32(_index)}; return m_builder.CreateInBoundsGEP(getDataPtr(), idxList, getName(_index) + "Ptr"); } llvm::Value* RuntimeManager::get(RuntimeData::Index _index) { return m_builder.CreateLoad(getPtr(_index), getName(_index)); } void RuntimeManager::set(RuntimeData::Index _index, llvm::Value* _value) { m_builder.CreateStore(_value, getPtr(_index)); } void RuntimeManager::registerReturnData(llvm::Value* _offset, llvm::Value* _size) { set(RuntimeData::ReturnDataOffset, _offset); set(RuntimeData::ReturnDataSize, _size); } void RuntimeManager::registerSuicide(llvm::Value* _balanceAddress) { set(RuntimeData::SuicideDestAddress, _balanceAddress); } void RuntimeManager::raiseException(ReturnCode _returnCode) { m_builder.CreateCall2(m_longjmp, getJmpBuf(), Constant::get(_returnCode)); } llvm::Value* RuntimeManager::get(Instruction _inst) { switch (_inst) { default: assert(false); return nullptr; case Instruction::GAS: return get(RuntimeData::Gas); case Instruction::ADDRESS: return get(RuntimeData::Address); case Instruction::CALLER: return get(RuntimeData::Caller); case Instruction::ORIGIN: return get(RuntimeData::Origin); case Instruction::CALLVALUE: return get(RuntimeData::CallValue); case Instruction::CALLDATASIZE: return get(RuntimeData::CallDataSize); case Instruction::GASPRICE: return get(RuntimeData::GasPrice); case Instruction::COINBASE: return get(RuntimeData::CoinBase); case Instruction::TIMESTAMP: return get(RuntimeData::TimeStamp); case Instruction::NUMBER: return get(RuntimeData::Number); case Instruction::DIFFICULTY: return get(RuntimeData::Difficulty); case Instruction::GASLIMIT: return get(RuntimeData::GasLimit); case Instruction::CODESIZE: return get(RuntimeData::CodeSize); } } llvm::Value* RuntimeManager::getCallData() { auto ptr = getBuilder().CreateStructGEP(getDataPtr(), 1, "calldataPtr"); return getBuilder().CreateLoad(ptr, "calldata"); } llvm::Value* RuntimeManager::getCode() { auto ptr = getBuilder().CreateStructGEP(getDataPtr(), 2, "codePtr"); return getBuilder().CreateLoad(ptr, "code"); } llvm::Value* RuntimeManager::getJmpBuf() { auto ptr = getBuilder().CreateStructGEP(getRuntimePtr(), 2, "jmpbufPtr"); return getBuilder().CreateLoad(ptr, "jmpbuf"); } llvm::Value* RuntimeManager::getGas() { return get(RuntimeData::Gas); } void RuntimeManager::setGas(llvm::Value* _gas) { llvm::Value* idxList[] = {m_builder.getInt32(0), m_builder.getInt32(0), m_builder.getInt32(RuntimeData::Gas)}; auto ptr = m_builder.CreateInBoundsGEP(getDataPtr(), idxList, "gasPtr"); m_builder.CreateStore(_gas, ptr); } } } }