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293 lines
8.6 KiB
293 lines
8.6 KiB
#include "RuntimeManager.h"
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#include "preprocessor/llvm_includes_start.h"
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#include <llvm/IR/IntrinsicInst.h>
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#include "preprocessor/llvm_includes_end.h"
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#include "Stack.h"
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#include "Utils.h"
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namespace dev
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{
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namespace eth
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{
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namespace jit
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{
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llvm::StructType* RuntimeManager::getRuntimeDataType()
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{
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static llvm::StructType* type = nullptr;
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if (!type)
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{
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llvm::Type* elems[] =
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{
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Type::Size, // gas
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Type::Size, // gasPrice
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Type::BytePtr, // callData
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Type::Size, // callDataSize
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Type::Word, // address
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Type::Word, // caller
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Type::Word, // origin
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Type::Word, // callValue
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Type::Word, // coinBase
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Type::Word, // difficulty
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Type::Word, // gasLimit
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Type::Size, // blockNumber
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Type::Size, // blockTimestamp
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Type::BytePtr, // code
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Type::Size, // codeSize
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};
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type = llvm::StructType::create(elems, "RuntimeData");
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}
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return type;
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}
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llvm::StructType* RuntimeManager::getRuntimeType()
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{
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static llvm::StructType* type = nullptr;
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if (!type)
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{
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llvm::Type* elems[] =
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{
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Type::RuntimeDataPtr, // data
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Type::EnvPtr, // Env*
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Array::getType() // memory
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};
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type = llvm::StructType::create(elems, "Runtime");
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}
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return type;
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}
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namespace
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{
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llvm::Twine getName(RuntimeData::Index _index)
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{
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switch (_index)
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{
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default: return "data";
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case RuntimeData::Address: return "address";
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case RuntimeData::Caller: return "caller";
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case RuntimeData::Origin: return "origin";
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case RuntimeData::CallValue: return "callvalue";
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case RuntimeData::GasPrice: return "gasprice";
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case RuntimeData::CoinBase: return "coinbase";
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case RuntimeData::Difficulty: return "difficulty";
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case RuntimeData::GasLimit: return "gaslimit";
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case RuntimeData::CallData: return "callData";
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case RuntimeData::Code: return "code";
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case RuntimeData::CodeSize: return "code";
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case RuntimeData::CallDataSize: return "callDataSize";
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case RuntimeData::Gas: return "gas";
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case RuntimeData::Number: return "number";
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case RuntimeData::Timestamp: return "timestamp";
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}
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}
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}
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RuntimeManager::RuntimeManager(llvm::IRBuilder<>& _builder, code_iterator _codeBegin, code_iterator _codeEnd):
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CompilerHelper(_builder),
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m_codeBegin(_codeBegin),
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m_codeEnd(_codeEnd)
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{
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m_longjmp = llvm::Intrinsic::getDeclaration(getModule(), llvm::Intrinsic::eh_sjlj_longjmp);
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// Unpack data
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auto rtPtr = getRuntimePtr();
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m_dataPtr = m_builder.CreateLoad(m_builder.CreateStructGEP(rtPtr, 0), "data");
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assert(m_dataPtr->getType() == Type::RuntimeDataPtr);
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m_gasPtr = m_builder.CreateStructGEP(m_dataPtr, 0, "gas");
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assert(m_gasPtr->getType() == Type::Gas->getPointerTo());
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m_memPtr = m_builder.CreateStructGEP(rtPtr, 2, "mem");
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assert(m_memPtr->getType() == Array::getType()->getPointerTo());
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m_envPtr = m_builder.CreateLoad(m_builder.CreateStructGEP(rtPtr, 1), "env");
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assert(m_envPtr->getType() == Type::EnvPtr);
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m_stackSize = m_builder.CreateAlloca(Type::Size, nullptr, "stackSize");
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m_builder.CreateStore(m_builder.getInt64(0), m_stackSize);
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llvm::Type* checkStackLimitArgs[] = {Type::Size->getPointerTo(), Type::Size, Type::Size, Type::BytePtr};
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m_checkStackLimit = llvm::Function::Create(llvm::FunctionType::get(Type::Void, checkStackLimitArgs, false), llvm::Function::PrivateLinkage, "stack.checkSize", getModule());
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m_checkStackLimit->setDoesNotThrow();
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m_checkStackLimit->setDoesNotCapture(1);
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auto checkBB = llvm::BasicBlock::Create(_builder.getContext(), "Check", m_checkStackLimit);
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auto updateBB = llvm::BasicBlock::Create(_builder.getContext(), "Update", m_checkStackLimit);
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auto outOfStackBB = llvm::BasicBlock::Create(_builder.getContext(), "OutOfStack", m_checkStackLimit);
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auto currSizePtr = &m_checkStackLimit->getArgumentList().front();
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currSizePtr->setName("currSize");
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auto max = currSizePtr->getNextNode();
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max->setName("max");
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auto diff = max->getNextNode();
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diff->setName("diff");
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auto jmpBuf = diff->getNextNode();
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jmpBuf->setName("jmpBuf");
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InsertPointGuard guard{m_builder};
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m_builder.SetInsertPoint(checkBB);
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auto currSize = m_builder.CreateLoad(currSizePtr, "cur");
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auto maxSize = m_builder.CreateNUWAdd(currSize, max, "maxSize");
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auto ok = m_builder.CreateICmpULE(maxSize, m_builder.getInt64(1024), "ok");
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m_builder.CreateCondBr(ok, updateBB, outOfStackBB, Type::expectTrue);
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m_builder.SetInsertPoint(updateBB);
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auto newSize = m_builder.CreateNSWAdd(currSize, diff);
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m_builder.CreateStore(newSize, currSizePtr);
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m_builder.CreateRetVoid();
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m_builder.SetInsertPoint(outOfStackBB);
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abort(jmpBuf);
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m_builder.CreateUnreachable();
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}
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void RuntimeManager::checkStackLimit(size_t _max, int _diff)
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{
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createCall(m_checkStackLimit, {m_stackSize, m_builder.getInt64(_max), m_builder.getInt64(_diff), getJmpBuf()});
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}
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llvm::Value* RuntimeManager::getRuntimePtr()
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{
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// Expect first argument of a function to be a pointer to Runtime
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auto func = m_builder.GetInsertBlock()->getParent();
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auto rtPtr = &func->getArgumentList().front();
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assert(rtPtr->getType() == Type::RuntimePtr);
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return rtPtr;
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}
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llvm::Value* RuntimeManager::getDataPtr()
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{
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if (getMainFunction())
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return m_dataPtr;
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auto rtPtr = getRuntimePtr();
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auto dataPtr = m_builder.CreateLoad(m_builder.CreateStructGEP(rtPtr, 0), "data");
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assert(dataPtr->getType() == getRuntimeDataType()->getPointerTo());
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return dataPtr;
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}
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llvm::Value* RuntimeManager::getEnvPtr()
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{
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assert(getMainFunction()); // Available only in main function
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return m_envPtr;
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}
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llvm::Value* RuntimeManager::getPtr(RuntimeData::Index _index)
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{
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auto ptr = getBuilder().CreateStructGEP(getDataPtr(), _index);
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assert(getRuntimeDataType()->getElementType(_index)->getPointerTo() == ptr->getType());
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return ptr;
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}
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llvm::Value* RuntimeManager::get(RuntimeData::Index _index)
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{
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return getBuilder().CreateLoad(getPtr(_index), getName(_index));
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}
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void RuntimeManager::set(RuntimeData::Index _index, llvm::Value* _value)
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{
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auto ptr = getPtr(_index);
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assert(ptr->getType() == _value->getType()->getPointerTo());
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getBuilder().CreateStore(_value, ptr);
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}
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void RuntimeManager::registerReturnData(llvm::Value* _offset, llvm::Value* _size)
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{
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auto memPtr = m_builder.CreateBitCast(getMem(), Type::BytePtr->getPointerTo());
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auto mem = getBuilder().CreateLoad(memPtr, "memory");
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auto idx = m_builder.CreateTrunc(_offset, Type::Size, "idx"); // Never allow memory index be a type bigger than i64 // TODO: Report bug & fix to LLVM
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auto returnDataPtr = getBuilder().CreateGEP(mem, idx);
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set(RuntimeData::ReturnData, returnDataPtr);
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auto size64 = getBuilder().CreateTrunc(_size, Type::Size);
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set(RuntimeData::ReturnDataSize, size64);
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}
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void RuntimeManager::registerSuicide(llvm::Value* _balanceAddress)
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{
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set(RuntimeData::SuicideDestAddress, _balanceAddress);
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}
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void RuntimeManager::exit(ReturnCode _returnCode)
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{
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if (m_stack)
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m_stack->free();
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m_builder.CreateRet(Constant::get(_returnCode));
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}
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void RuntimeManager::abort(llvm::Value* _jmpBuf)
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{
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auto longjmp = llvm::Intrinsic::getDeclaration(getModule(), llvm::Intrinsic::eh_sjlj_longjmp);
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createCall(longjmp, {_jmpBuf});
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}
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llvm::Value* RuntimeManager::get(Instruction _inst)
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{
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switch (_inst)
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{
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default: assert(false); return nullptr;
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case Instruction::ADDRESS: return get(RuntimeData::Address);
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case Instruction::CALLER: return get(RuntimeData::Caller);
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case Instruction::ORIGIN: return get(RuntimeData::Origin);
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case Instruction::CALLVALUE: return get(RuntimeData::CallValue);
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case Instruction::GASPRICE: return get(RuntimeData::GasPrice);
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case Instruction::COINBASE: return get(RuntimeData::CoinBase);
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case Instruction::DIFFICULTY: return get(RuntimeData::Difficulty);
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case Instruction::GASLIMIT: return get(RuntimeData::GasLimit);
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case Instruction::NUMBER: return get(RuntimeData::Number);
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case Instruction::TIMESTAMP: return get(RuntimeData::Timestamp);
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}
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}
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llvm::Value* RuntimeManager::getCallData()
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{
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return get(RuntimeData::CallData);
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}
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llvm::Value* RuntimeManager::getCode()
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{
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// OPT Check what is faster
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//return get(RuntimeData::Code);
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return m_builder.CreateGlobalStringPtr({reinterpret_cast<char const*>(m_codeBegin), static_cast<size_t>(m_codeEnd - m_codeBegin)}, "code");
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}
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llvm::Value* RuntimeManager::getCodeSize()
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{
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return Constant::get(m_codeEnd - m_codeBegin);
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}
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llvm::Value* RuntimeManager::getCallDataSize()
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{
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auto value = get(RuntimeData::CallDataSize);
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assert(value->getType() == Type::Size);
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return getBuilder().CreateZExt(value, Type::Word);
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}
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llvm::Value* RuntimeManager::getGas()
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{
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auto gas = get(RuntimeData::Gas);
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assert(gas->getType() == Type::Gas);
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return gas;
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}
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llvm::Value* RuntimeManager::getGasPtr()
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{
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assert(getMainFunction());
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return m_gasPtr;
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}
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llvm::Value* RuntimeManager::getMem()
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{
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assert(getMainFunction());
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return m_memPtr;
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}
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void RuntimeManager::setGas(llvm::Value* _gas)
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{
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assert(_gas->getType() == Type::Gas);
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set(RuntimeData::Gas, _gas);
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}
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}
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}
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}
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