#include "../Error.h"
#include "../Target.h"
#include "MCTargetDesc/MipsBaseInfo.h"
#include "Mips.h"
#include "MipsRegisterInfo.h"
namespace llvm {
namespace exegesis {
#ifndef NDEBUG
static Error isInvalidMemoryInstr(const Instruction &Instr) {
switch (Instr.Description.TSFlags & MipsII::FormMask) {
default:
llvm_unreachable("Unknown FormMask value");
case MipsII::Pseudo:
case MipsII::FrmR:
case MipsII::FrmJ:
case MipsII::FrmFR:
return Error::success();
case MipsII::FrmI:
return Error::success();
case MipsII::FrmFI:
case MipsII::FrmOther:
return make_error<Failure>("unsupported opcode: non uniform memory access");
}
}
#endif
static void setMemOp(InstructionTemplate &IT, int OpIdx,
const MCOperand &OpVal) {
const auto Op = IT.getInstr().Operands[OpIdx];
assert(Op.isExplicit() && "invalid memory pattern");
IT.getValueFor(Op) = OpVal;
}
#include "MipsGenExegesis.inc"
namespace {
class ExegesisMipsTarget : public ExegesisTarget {
public:
ExegesisMipsTarget() : ExegesisTarget(MipsCpuPfmCounters) {}
private:
unsigned getScratchMemoryRegister(const llvm::Triple &TT) const override;
unsigned getMaxMemoryAccessSize() const override { return 64; }
void fillMemoryOperands(InstructionTemplate &IT, unsigned Reg,
unsigned Offset) const override;
std::vector<MCInst> setRegTo(const MCSubtargetInfo &STI, unsigned Reg,
const APInt &Value) const override;
bool matchesArch(Triple::ArchType Arch) const override {
return Arch == Triple::mips || Arch == Triple::mipsel ||
Arch == Triple::mips64 || Arch == Triple::mips64el;
}
};
}
static std::vector<MCInst> loadImmediate(unsigned Reg, bool IsGPR32,
const APInt &Value) {
unsigned ZeroReg;
unsigned ORi, LUi, SLL;
if (IsGPR32) {
ZeroReg = Mips::ZERO;
ORi = Mips::ORi;
SLL = Mips::SLL;
LUi = Mips::LUi;
} else {
ZeroReg = Mips::ZERO_64;
ORi = Mips::ORi64;
SLL = Mips::SLL64_64;
LUi = Mips::LUi64;
}
if (Value.isIntN(16)) {
return {MCInstBuilder(ORi)
.addReg(Reg)
.addReg(ZeroReg)
.addImm(Value.getZExtValue())};
}
std::vector<MCInst> Instructions;
if (Value.isIntN(32)) {
const uint16_t HiBits = Value.getHiBits(16).getZExtValue();
if (!IsGPR32 && Value.getActiveBits() == 32) {
Instructions.push_back(
MCInstBuilder(ORi)
.addReg(Reg)
.addReg(ZeroReg)
.addImm(HiBits));
Instructions.push_back(
MCInstBuilder(SLL)
.addReg(Reg)
.addReg(Reg)
.addImm(16));
} else {
Instructions.push_back(
MCInstBuilder(LUi)
.addReg(Reg)
.addImm(HiBits));
}
const uint16_t LoBits = Value.getLoBits(16).getZExtValue();
if (LoBits) {
Instructions.push_back(
MCInstBuilder(ORi)
.addReg(Reg)
.addReg(ZeroReg)
.addImm(LoBits));
}
return Instructions;
}
llvm_unreachable("Not implemented for values wider than 32 bits");
}
unsigned ExegesisMipsTarget::getScratchMemoryRegister(const Triple &TT) const {
return TT.isArch64Bit() ? Mips::A0_64 : Mips::A0;
}
void ExegesisMipsTarget::fillMemoryOperands(InstructionTemplate &IT,
unsigned Reg,
unsigned Offset) const {
assert(!isInvalidMemoryInstr(IT.getInstr()) &&
"fillMemoryOperands requires a valid memory instruction");
setMemOp(IT, 0, MCOperand::createReg(0)); setMemOp(IT, 1, MCOperand::createReg(Reg)); setMemOp(IT, 2, MCOperand::createImm(Offset)); }
std::vector<MCInst> ExegesisMipsTarget::setRegTo(const MCSubtargetInfo &STI,
unsigned Reg,
const APInt &Value) const {
if (Mips::GPR32RegClass.contains(Reg))
return loadImmediate(Reg, true, Value);
if (Mips::GPR64RegClass.contains(Reg))
return loadImmediate(Reg, false, Value);
errs() << "setRegTo is not implemented, results will be unreliable\n";
return {};
}
static ExegesisTarget *getTheExegesisMipsTarget() {
static ExegesisMipsTarget Target;
return &Target;
}
void InitializeMipsExegesisTarget() {
ExegesisTarget::registerTarget(getTheExegesisMipsTarget());
}
} }