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IRUtils.cpp
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#include <IREmitter.hpp>
#include <OIPrinter.hpp>
#include "llvm/ADT/APFloat.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/IR/BasicBlock.h"
#include "llvm/IR/DerivedTypes.h"
#include "llvm/IR/Type.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/CFG.h"
#include "llvm/Support/raw_ostream.h"
#include <cstdlib>
using namespace llvm;
void dbt::IREmitter::emmitExit(Function* Func) {
auto IP = Builder->saveIP();
Builder->SetInsertPoint(RegionExit);
for (auto P : VolatileRegisters) {
if (VolatileRegisterModified.count(P.first) != 0)
Builder->CreateStore(Builder->CreateLoad(P.second), Builder->CreateGEP(&*Func->arg_begin(), genImm(P.first)));
}
Builder->CreateRet(Builder->CreateLoad(ReturnAddrs));
Builder->restoreIP(IP);
}
llvm::Value* dbt::IREmitter::insertDirectExit(llvm::Value* ExitAddrs) {
auto First = Builder->CreateStore(ExitAddrs, ReturnAddrs);
Builder->CreateBr(RegionExit);
return First;
}
void dbt::IREmitter::addFirstInstToMap(uint32_t GuestAddrs) {
IRMemoryMap[GuestAddrs] = FirstInstGen;
FirstInstGen = nullptr;
}
void dbt::IREmitter::setIfNotTheFirstInstGen(Value *Inst) {
if (FirstInstGen == nullptr && dyn_cast<Instruction>(Inst))
FirstInstGen = Inst;
}
Value *dbt::IREmitter::genDataVecPtr(Value *RawAddrs, Function *Func, Type *IType, unsigned ByteSize) {
Value *AddrsOff = Builder->CreateSub(RawAddrs, genImm(DataMemOffset));
Argument *ArgDataMemPtr = &*(Func->arg_begin()+1);
Value *MPtr8 = Builder->CreatePointerCast(ArgDataMemPtr, Type::getInt8PtrTy(TheContext));
Value *GEPMPtr8 = Builder->CreateGEP(MPtr8, AddrsOff);
Value *CastedPtr = Builder->CreatePointerCast(GEPMPtr8, Type::getIntNPtrTy(TheContext, ByteSize * 8));
setIfNotTheFirstInstGen(AddrsOff);
return CastedPtr;
}
Value *dbt::IREmitter::genDataByteVecPtr(Value *RawAddrs, Function *Func) {
return genDataVecPtr(RawAddrs, Func, Type::getInt8Ty(TheContext), 1);
}
Value *dbt::IREmitter::genDataHalfVecPtr(Value *RawAddrs, Function *Func) {
return genDataVecPtr(RawAddrs, Func, Type::getInt16Ty(TheContext), 2);
}
Value *dbt::IREmitter::genDataWordVecPtr(Value *RawAddrs, Function *Func) {
return genDataVecPtr(RawAddrs, Func, Type::getInt32Ty(TheContext), 4);
}
Value *dbt::IREmitter::genRegisterVecPtr(Value *RegNum, Function *Func, RegType Type) {
Argument *ArgIntRegPtr = &*Func->arg_begin();
Value* CastedPtr = ArgIntRegPtr;
if (Type == RegType::Float) {
CastedPtr = Builder->CreatePointerCast(ArgIntRegPtr, Type::getFloatPtrTy(TheContext));
setIfNotTheFirstInstGen(CastedPtr);
} else if (Type == RegType::Double) {
CastedPtr = Builder->CreatePointerCast(ArgIntRegPtr, Type::getDoublePtrTy(TheContext));
setIfNotTheFirstInstGen(CastedPtr);
} else if (Type == RegType::Int64) {
CastedPtr = Builder->CreatePointerCast(ArgIntRegPtr, Type::getInt64PtrTy(TheContext));
setIfNotTheFirstInstGen(CastedPtr);
}
Value *GEP = Builder->CreateGEP(CastedPtr, RegNum);
setIfNotTheFirstInstGen(GEP);
return GEP;
}
Value *dbt::IREmitter::genRegisterVecPtr(uint16_t RegNum, Function *Func, RegType Type) {
return genRegisterVecPtr(ConstantInt::get(Type::getInt32Ty(TheContext), RegNum), Func, Type);
}
/********************************** Register Bank Interface *****************************************/
Value *dbt::IREmitter::genLoadRegister(uint16_t RegNum, Function *Func, RegType Type) {
auto BB = Builder->GetInsertBlock();
uint16_t Right = RegNum;
if (Type == RegType::Float)
Right += 66;
else if (Type == RegType::Double || Type == RegType::Int64)
Right += 65;
if (Right == 0)
return genImm(0);
Value *Ptr = nullptr; // Volatile Registers
if (Type == RegType::Int) {
if ((RegNum >= 8 && RegNum <= 15) || (RegNum == 24) || (RegNum == 25) || (RegNum >= 32 && RegNum <= 63)) {
if (VolatileRegisters.count(RegNum) == 0) {
auto IP = Builder->saveIP();
Builder->SetInsertPoint(RegionEntry);
VolatileRegisters[RegNum] = Builder->CreateAlloca(Type::getInt32Ty(TheContext));
Builder->CreateStore(Builder->CreateLoad(Builder->CreateGEP(&*Func->arg_begin(), genImm(RegNum))), VolatileRegisters[RegNum]);
Builder->restoreIP(IP);
}
Ptr = VolatileRegisters[RegNum];
}
}
if (!Ptr) Ptr = genRegisterVecPtr(Right, Func, Type);
Value *LD = Builder->CreateLoad(Ptr);
setIfNotTheFirstInstGen(LD);
return LD;
}
Value *dbt::IREmitter::genStoreRegister(uint16_t RegNum, Value *V, Function *Func, RegType Type) {
auto BB = Builder->GetInsertBlock();
uint16_t Right = RegNum;
if (Type == RegType::Float)
Right += 66;
else if (Type == RegType::Double || Type == RegType::Int64)
Right += 65;
Value *Ptr = nullptr; // Volatile Registers
if (Type == RegType::Int) {
if ((RegNum >= 8 && RegNum <= 15) || (RegNum == 24) || (RegNum == 25) || (RegNum >= 32 && RegNum <= 63)) {
VolatileRegisterModified[RegNum] = true;
if (VolatileRegisters.count(RegNum) == 0) {
auto IP = Builder->saveIP();
Builder->SetInsertPoint(RegionEntry);
VolatileRegisters[RegNum] = Builder->CreateAlloca(Type::getInt32Ty(TheContext));
Builder->restoreIP(IP);
}
Ptr = VolatileRegisters[RegNum];
}
}
if (!Ptr) Ptr = genRegisterVecPtr(Right, Func, Type);
Value *ST = Builder->CreateStore(V, Ptr);
setIfNotTheFirstInstGen(ST);
return ST;
}
/********************************************************************************************/
Value *dbt::IREmitter::genImm(uint32_t Imm) {
return ConstantInt::get(Type::getInt32Ty(TheContext), Imm);
}
Value *dbt::IREmitter::genLogicalOr(Value *Lhs, Value *Rhs, Function *Func) {
BasicBlock *TBB = BasicBlock::Create(TheContext, "Lor.end", Func);
BasicBlock *FBB = BasicBlock::Create(TheContext, "Lor.RHS", Func);
BasicBlock *LastBB = Builder->GetInsertBlock();
Value *Res1 = Builder->CreateICmpNE(Lhs, Builder->getInt1(false));
Builder->CreateCondBr(Res1, TBB, FBB);
Builder->SetInsertPoint(FBB);
Value *Res2 = Builder->CreateICmpNE(Rhs, genImm(0));
Builder->CreateBr(TBB);
Builder->SetInsertPoint(TBB);
PHINode *Node = Builder->CreatePHI(Res1->getType(), 2);
Node->addIncoming(Res1, LastBB);
Node->addIncoming(Res2, FBB);
setIfNotTheFirstInstGen(Res1);
return Node;
}
Value *dbt::IREmitter::genLogicalAnd(Value *Lhs, Value *Rhs, Function *Func) {
BasicBlock *TBB = BasicBlock::Create(TheContext, "Land.RHS", Func);
BasicBlock *FBB = BasicBlock::Create(TheContext, "Land.end", Func);
BasicBlock *LastBB = Builder->GetInsertBlock();
Value *Res1 = Builder->CreateICmpNE(Lhs, genImm(0));
Builder->CreateCondBr(Res1, TBB, FBB);
Builder->SetInsertPoint(TBB);
Value *Res2 = Builder->CreateICmpNE(Rhs, Builder->getInt1(false));
Builder->CreateBr(FBB);
Builder->SetInsertPoint(FBB);
PHINode *Node = Builder->CreatePHI(Res1->getType(), 2);
Node->addIncoming(Res1, LastBB);
Node->addIncoming(Res2, TBB);
setIfNotTheFirstInstGen(Res1);
return Node;
}