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| //===- MipsDisassembler.cpp - Disassembler for Mips -----------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file is part of the Mips Disassembler.
//
//===----------------------------------------------------------------------===//
#include "MCTargetDesc/MipsMCTargetDesc.h"
#include "Mips.h"
#include "TargetInfo/MipsTargetInfo.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/MC/MCContext.h"
#include "llvm/MC/MCDisassembler/MCDisassembler.h"
#include "llvm/MC/MCFixedLenDisassembler.h"
#include "llvm/MC/MCInst.h"
#include "llvm/MC/MCRegisterInfo.h"
#include "llvm/MC/MCSubtargetInfo.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/MathExtras.h"
#include "llvm/Support/TargetRegistry.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <cstdint>
using namespace llvm;
#define DEBUG_TYPE "mips-disassembler"
using DecodeStatus = MCDisassembler::DecodeStatus;
namespace {
class MipsDisassembler : public MCDisassembler {
bool IsMicroMips;
bool IsBigEndian;
public:
MipsDisassembler(const MCSubtargetInfo &STI, MCContext &Ctx, bool IsBigEndian)
: MCDisassembler(STI, Ctx),
IsMicroMips(STI.getFeatureBits()[Mips::FeatureMicroMips]),
IsBigEndian(IsBigEndian) {}
bool hasMips2() const { return STI.getFeatureBits()[Mips::FeatureMips2]; }
bool hasMips3() const { return STI.getFeatureBits()[Mips::FeatureMips3]; }
bool hasMips32() const { return STI.getFeatureBits()[Mips::FeatureMips32]; }
bool hasMips32r6() const {
return STI.getFeatureBits()[Mips::FeatureMips32r6];
}
bool isFP64() const { return STI.getFeatureBits()[Mips::FeatureFP64Bit]; }
bool isGP64() const { return STI.getFeatureBits()[Mips::FeatureGP64Bit]; }
bool isPTR64() const { return STI.getFeatureBits()[Mips::FeaturePTR64Bit]; }
bool hasCnMips() const { return STI.getFeatureBits()[Mips::FeatureCnMips]; }
bool hasCOP3() const {
// Only present in MIPS-I and MIPS-II
return !hasMips32() && !hasMips3();
}
DecodeStatus getInstruction(MCInst &Instr, uint64_t &Size,
ArrayRef<uint8_t> Bytes, uint64_t Address,
raw_ostream &VStream,
raw_ostream &CStream) const override;
};
} // end anonymous namespace
// Forward declare these because the autogenerated code will reference them.
// Definitions are further down.
static DecodeStatus DecodeGPR64RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeCPU16RegsRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeGPRMM16RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeGPRMM16ZeroRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeGPRMM16MovePRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeGPR32RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodePtrRegisterClass(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeDSPRRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeFGR64RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeFGR32RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeCCRRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeFCCRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeFGRCCRegisterClass(MCInst &Inst, unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeHWRegsRegisterClass(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeAFGR64RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeACC64DSPRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeHI32DSPRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeLO32DSPRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMSA128BRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMSA128HRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMSA128WRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMSA128DRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMSACtrlRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeCOP0RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeCOP2RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeBranchTarget(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeBranchTarget1SImm16(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeJumpTarget(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeBranchTarget21(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeBranchTarget21MM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeBranchTarget26(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder);
// DecodeBranchTarget7MM - Decode microMIPS branch offset, which is
// shifted left by 1 bit.
static DecodeStatus DecodeBranchTarget7MM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder);
// DecodeBranchTarget10MM - Decode microMIPS branch offset, which is
// shifted left by 1 bit.
static DecodeStatus DecodeBranchTarget10MM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder);
// DecodeBranchTargetMM - Decode microMIPS branch offset, which is
// shifted left by 1 bit.
static DecodeStatus DecodeBranchTargetMM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder);
// DecodeBranchTarget26MM - Decode microMIPS branch offset, which is
// shifted left by 1 bit.
static DecodeStatus DecodeBranchTarget26MM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder);
// DecodeJumpTargetMM - Decode microMIPS jump target, which is
// shifted left by 1 bit.
static DecodeStatus DecodeJumpTargetMM(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
// DecodeJumpTargetXMM - Decode microMIPS jump and link exchange target,
// which is shifted left by 2 bit.
static DecodeStatus DecodeJumpTargetXMM(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMem(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMemEVA(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeLoadByte15(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeCacheOp(MCInst &Inst, unsigned Insn, uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeCacheeOp_CacheOpR6(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeCacheOpMM(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodePrefeOpMM(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeSyncI(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeSyncI_MM(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeSynciR6(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMSA128Mem(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder);
static DecodeStatus DecodeMemMMImm4(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMemMMSPImm5Lsl2(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMemMMGPImm7Lsl2(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMemMMReglistImm4Lsl2(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMemMMImm9(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMemMMImm12(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMemMMImm16(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeFMem(MCInst &Inst, unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeFMemMMR2(MCInst &Inst, unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeFMem2(MCInst &Inst, unsigned Insn, uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeFMem3(MCInst &Inst, unsigned Insn, uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeFMemCop2R6(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder);
static DecodeStatus DecodeFMemCop2MMR6(MCInst &Inst, unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeSpecial3LlSc(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeAddiur2Simm7(MCInst &Inst,
unsigned Value,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeLi16Imm(MCInst &Inst,
unsigned Value,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodePOOL16BEncodedField(MCInst &Inst,
unsigned Value,
uint64_t Address,
const void *Decoder);
template <unsigned Bits, int Offset, int Scale>
static DecodeStatus DecodeUImmWithOffsetAndScale(MCInst &Inst, unsigned Value,
uint64_t Address,
const void *Decoder);
template <unsigned Bits, int Offset>
static DecodeStatus DecodeUImmWithOffset(MCInst &Inst, unsigned Value,
uint64_t Address,
const void *Decoder) {
return DecodeUImmWithOffsetAndScale<Bits, Offset, 1>(Inst, Value, Address,
Decoder);
}
template <unsigned Bits, int Offset = 0, int ScaleBy = 1>
static DecodeStatus DecodeSImmWithOffsetAndScale(MCInst &Inst, unsigned Value,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeInsSize(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeSimm19Lsl2(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder);
static DecodeStatus DecodeSimm18Lsl3(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder);
static DecodeStatus DecodeSimm9SP(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder);
static DecodeStatus DecodeANDI16Imm(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder);
static DecodeStatus DecodeSimm23Lsl2(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder);
/// INSVE_[BHWD] have an implicit operand that the generated decoder doesn't
/// handle.
template <typename InsnType>
static DecodeStatus DecodeINSVE_DF(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus DecodeDAHIDATIMMR6(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus DecodeDAHIDATI(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus DecodeDAHIDATIMMR6(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus DecodeDAHIDATI(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodeAddiGroupBranch(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodePOP35GroupBranchMMR6(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodeDaddiGroupBranch(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodePOP37GroupBranchMMR6(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodePOP65GroupBranchMMR6(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodePOP75GroupBranchMMR6(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodeBlezlGroupBranch(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodeBgtzlGroupBranch(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodeBgtzGroupBranch(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodeBlezGroupBranch(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodeBgtzGroupBranchMMR6(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus
DecodeBlezGroupBranchMMR6(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus DecodeDINS(MCInst &MI, InsnType Insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus DecodeDEXT(MCInst &MI, InsnType Insn, uint64_t Address,
const void *Decoder);
template <typename InsnType>
static DecodeStatus DecodeCRC(MCInst &MI, InsnType Insn, uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeRegListOperand(MCInst &Inst, unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeRegListOperand16(MCInst &Inst, unsigned Insn,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMovePRegPair(MCInst &Inst, unsigned RegPair,
uint64_t Address,
const void *Decoder);
static DecodeStatus DecodeMovePOperands(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder);
static MCDisassembler *createMipsDisassembler(
const Target &T,
const MCSubtargetInfo &STI,
MCContext &Ctx) {
return new MipsDisassembler(STI, Ctx, true);
}
static MCDisassembler *createMipselDisassembler(
const Target &T,
const MCSubtargetInfo &STI,
MCContext &Ctx) {
return new MipsDisassembler(STI, Ctx, false);
}
extern "C" void LLVMInitializeMipsDisassembler() {
// Register the disassembler.
TargetRegistry::RegisterMCDisassembler(getTheMipsTarget(),
createMipsDisassembler);
TargetRegistry::RegisterMCDisassembler(getTheMipselTarget(),
createMipselDisassembler);
TargetRegistry::RegisterMCDisassembler(getTheMips64Target(),
createMipsDisassembler);
TargetRegistry::RegisterMCDisassembler(getTheMips64elTarget(),
createMipselDisassembler);
}
#include "MipsGenDisassemblerTables.inc"
static unsigned getReg(const void *D, unsigned RC, unsigned RegNo) {
const MipsDisassembler *Dis = static_cast<const MipsDisassembler*>(D);
const MCRegisterInfo *RegInfo = Dis->getContext().getRegisterInfo();
return *(RegInfo->getRegClass(RC).begin() + RegNo);
}
template <typename InsnType>
static DecodeStatus DecodeINSVE_DF(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder) {
using DecodeFN = DecodeStatus (*)(MCInst &, unsigned, uint64_t, const void *);
// The size of the n field depends on the element size
// The register class also depends on this.
InsnType tmp = fieldFromInstruction(insn, 17, 5);
unsigned NSize = 0;
DecodeFN RegDecoder = nullptr;
if ((tmp & 0x18) == 0x00) { // INSVE_B
NSize = 4;
RegDecoder = DecodeMSA128BRegisterClass;
} else if ((tmp & 0x1c) == 0x10) { // INSVE_H
NSize = 3;
RegDecoder = DecodeMSA128HRegisterClass;
} else if ((tmp & 0x1e) == 0x18) { // INSVE_W
NSize = 2;
RegDecoder = DecodeMSA128WRegisterClass;
} else if ((tmp & 0x1f) == 0x1c) { // INSVE_D
NSize = 1;
RegDecoder = DecodeMSA128DRegisterClass;
} else
llvm_unreachable("Invalid encoding");
assert(NSize != 0 && RegDecoder != nullptr);
// $wd
tmp = fieldFromInstruction(insn, 6, 5);
if (RegDecoder(MI, tmp, Address, Decoder) == MCDisassembler::Fail)
return MCDisassembler::Fail;
// $wd_in
if (RegDecoder(MI, tmp, Address, Decoder) == MCDisassembler::Fail)
return MCDisassembler::Fail;
// $n
tmp = fieldFromInstruction(insn, 16, NSize);
MI.addOperand(MCOperand::createImm(tmp));
// $ws
tmp = fieldFromInstruction(insn, 11, 5);
if (RegDecoder(MI, tmp, Address, Decoder) == MCDisassembler::Fail)
return MCDisassembler::Fail;
// $n2
MI.addOperand(MCOperand::createImm(0));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeDAHIDATIMMR6(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder) {
InsnType Rs = fieldFromInstruction(insn, 16, 5);
InsnType Imm = fieldFromInstruction(insn, 0, 16);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR64RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR64RegClassID,
Rs)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeDAHIDATI(MCInst &MI, InsnType insn, uint64_t Address,
const void *Decoder) {
InsnType Rs = fieldFromInstruction(insn, 21, 5);
InsnType Imm = fieldFromInstruction(insn, 0, 16);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR64RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR64RegClassID,
Rs)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeAddiGroupBranch(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// If we are called then we can assume that MIPS32r6/MIPS64r6 is enabled
// (otherwise we would have matched the ADDI instruction from the earlier
// ISA's instead).
//
// We have:
// 0b001000 sssss ttttt iiiiiiiiiiiiiiii
// BOVC if rs >= rt
// BEQZALC if rs == 0 && rt != 0
// BEQC if rs < rt && rs != 0
InsnType Rs = fieldFromInstruction(insn, 21, 5);
InsnType Rt = fieldFromInstruction(insn, 16, 5);
int64_t Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
bool HasRs = false;
if (Rs >= Rt) {
MI.setOpcode(Mips::BOVC);
HasRs = true;
} else if (Rs != 0 && Rs < Rt) {
MI.setOpcode(Mips::BEQC);
HasRs = true;
} else
MI.setOpcode(Mips::BEQZALC);
if (HasRs)
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodePOP35GroupBranchMMR6(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
InsnType Rt = fieldFromInstruction(insn, 21, 5);
InsnType Rs = fieldFromInstruction(insn, 16, 5);
int64_t Imm = 0;
if (Rs >= Rt) {
MI.setOpcode(Mips::BOVC_MMR6);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 2 + 4;
} else if (Rs != 0 && Rs < Rt) {
MI.setOpcode(Mips::BEQC_MMR6);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
} else {
MI.setOpcode(Mips::BEQZALC_MMR6);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 2 + 4;
}
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeDaddiGroupBranch(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// If we are called then we can assume that MIPS32r6/MIPS64r6 is enabled
// (otherwise we would have matched the ADDI instruction from the earlier
// ISA's instead).
//
// We have:
// 0b011000 sssss ttttt iiiiiiiiiiiiiiii
// BNVC if rs >= rt
// BNEZALC if rs == 0 && rt != 0
// BNEC if rs < rt && rs != 0
InsnType Rs = fieldFromInstruction(insn, 21, 5);
InsnType Rt = fieldFromInstruction(insn, 16, 5);
int64_t Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
bool HasRs = false;
if (Rs >= Rt) {
MI.setOpcode(Mips::BNVC);
HasRs = true;
} else if (Rs != 0 && Rs < Rt) {
MI.setOpcode(Mips::BNEC);
HasRs = true;
} else
MI.setOpcode(Mips::BNEZALC);
if (HasRs)
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodePOP37GroupBranchMMR6(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
InsnType Rt = fieldFromInstruction(insn, 21, 5);
InsnType Rs = fieldFromInstruction(insn, 16, 5);
int64_t Imm = 0;
if (Rs >= Rt) {
MI.setOpcode(Mips::BNVC_MMR6);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 2 + 4;
} else if (Rs != 0 && Rs < Rt) {
MI.setOpcode(Mips::BNEC_MMR6);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
} else {
MI.setOpcode(Mips::BNEZALC_MMR6);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 2 + 4;
}
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodePOP65GroupBranchMMR6(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// We have:
// 0b110101 ttttt sssss iiiiiiiiiiiiiiii
// Invalid if rt == 0
// BGTZC_MMR6 if rs == 0 && rt != 0
// BLTZC_MMR6 if rs == rt && rt != 0
// BLTC_MMR6 if rs != rt && rs != 0 && rt != 0
InsnType Rt = fieldFromInstruction(insn, 21, 5);
InsnType Rs = fieldFromInstruction(insn, 16, 5);
int64_t Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
bool HasRs = false;
if (Rt == 0)
return MCDisassembler::Fail;
else if (Rs == 0)
MI.setOpcode(Mips::BGTZC_MMR6);
else if (Rs == Rt)
MI.setOpcode(Mips::BLTZC_MMR6);
else {
MI.setOpcode(Mips::BLTC_MMR6);
HasRs = true;
}
if (HasRs)
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodePOP75GroupBranchMMR6(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// We have:
// 0b111101 ttttt sssss iiiiiiiiiiiiiiii
// Invalid if rt == 0
// BLEZC_MMR6 if rs == 0 && rt != 0
// BGEZC_MMR6 if rs == rt && rt != 0
// BGEC_MMR6 if rs != rt && rs != 0 && rt != 0
InsnType Rt = fieldFromInstruction(insn, 21, 5);
InsnType Rs = fieldFromInstruction(insn, 16, 5);
int64_t Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
bool HasRs = false;
if (Rt == 0)
return MCDisassembler::Fail;
else if (Rs == 0)
MI.setOpcode(Mips::BLEZC_MMR6);
else if (Rs == Rt)
MI.setOpcode(Mips::BGEZC_MMR6);
else {
HasRs = true;
MI.setOpcode(Mips::BGEC_MMR6);
}
if (HasRs)
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeBlezlGroupBranch(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// If we are called then we can assume that MIPS32r6/MIPS64r6 is enabled
// (otherwise we would have matched the BLEZL instruction from the earlier
// ISA's instead).
//
// We have:
// 0b010110 sssss ttttt iiiiiiiiiiiiiiii
// Invalid if rs == 0
// BLEZC if rs == 0 && rt != 0
// BGEZC if rs == rt && rt != 0
// BGEC if rs != rt && rs != 0 && rt != 0
InsnType Rs = fieldFromInstruction(insn, 21, 5);
InsnType Rt = fieldFromInstruction(insn, 16, 5);
int64_t Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
bool HasRs = false;
if (Rt == 0)
return MCDisassembler::Fail;
else if (Rs == 0)
MI.setOpcode(Mips::BLEZC);
else if (Rs == Rt)
MI.setOpcode(Mips::BGEZC);
else {
HasRs = true;
MI.setOpcode(Mips::BGEC);
}
if (HasRs)
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeBgtzlGroupBranch(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// If we are called then we can assume that MIPS32r6/MIPS64r6 is enabled
// (otherwise we would have matched the BGTZL instruction from the earlier
// ISA's instead).
//
// We have:
// 0b010111 sssss ttttt iiiiiiiiiiiiiiii
// Invalid if rs == 0
// BGTZC if rs == 0 && rt != 0
// BLTZC if rs == rt && rt != 0
// BLTC if rs != rt && rs != 0 && rt != 0
bool HasRs = false;
InsnType Rs = fieldFromInstruction(insn, 21, 5);
InsnType Rt = fieldFromInstruction(insn, 16, 5);
int64_t Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
if (Rt == 0)
return MCDisassembler::Fail;
else if (Rs == 0)
MI.setOpcode(Mips::BGTZC);
else if (Rs == Rt)
MI.setOpcode(Mips::BLTZC);
else {
MI.setOpcode(Mips::BLTC);
HasRs = true;
}
if (HasRs)
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeBgtzGroupBranch(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// If we are called then we can assume that MIPS32r6/MIPS64r6 is enabled
// (otherwise we would have matched the BGTZ instruction from the earlier
// ISA's instead).
//
// We have:
// 0b000111 sssss ttttt iiiiiiiiiiiiiiii
// BGTZ if rt == 0
// BGTZALC if rs == 0 && rt != 0
// BLTZALC if rs != 0 && rs == rt
// BLTUC if rs != 0 && rs != rt
InsnType Rs = fieldFromInstruction(insn, 21, 5);
InsnType Rt = fieldFromInstruction(insn, 16, 5);
int64_t Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
bool HasRs = false;
bool HasRt = false;
if (Rt == 0) {
MI.setOpcode(Mips::BGTZ);
HasRs = true;
} else if (Rs == 0) {
MI.setOpcode(Mips::BGTZALC);
HasRt = true;
} else if (Rs == Rt) {
MI.setOpcode(Mips::BLTZALC);
HasRs = true;
} else {
MI.setOpcode(Mips::BLTUC);
HasRs = true;
HasRt = true;
}
if (HasRs)
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
if (HasRt)
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeBlezGroupBranch(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// If we are called then we can assume that MIPS32r6/MIPS64r6 is enabled
// (otherwise we would have matched the BLEZL instruction from the earlier
// ISA's instead).
//
// We have:
// 0b000110 sssss ttttt iiiiiiiiiiiiiiii
// Invalid if rs == 0
// BLEZALC if rs == 0 && rt != 0
// BGEZALC if rs == rt && rt != 0
// BGEUC if rs != rt && rs != 0 && rt != 0
InsnType Rs = fieldFromInstruction(insn, 21, 5);
InsnType Rt = fieldFromInstruction(insn, 16, 5);
int64_t Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
bool HasRs = false;
if (Rt == 0)
return MCDisassembler::Fail;
else if (Rs == 0)
MI.setOpcode(Mips::BLEZALC);
else if (Rs == Rt)
MI.setOpcode(Mips::BGEZALC);
else {
HasRs = true;
MI.setOpcode(Mips::BGEUC);
}
if (HasRs)
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
// Override the generated disassembler to produce DEXT all the time. This is
// for feature / behaviour parity with binutils.
template <typename InsnType>
static DecodeStatus DecodeDEXT(MCInst &MI, InsnType Insn, uint64_t Address,
const void *Decoder) {
unsigned Msbd = fieldFromInstruction(Insn, 11, 5);
unsigned Lsb = fieldFromInstruction(Insn, 6, 5);
unsigned Size = 0;
unsigned Pos = 0;
switch (MI.getOpcode()) {
case Mips::DEXT:
Pos = Lsb;
Size = Msbd + 1;
break;
case Mips::DEXTM:
Pos = Lsb;
Size = Msbd + 1 + 32;
break;
case Mips::DEXTU:
Pos = Lsb + 32;
Size = Msbd + 1;
break;
default:
llvm_unreachable("Unknown DEXT instruction!");
}
MI.setOpcode(Mips::DEXT);
InsnType Rs = fieldFromInstruction(Insn, 21, 5);
InsnType Rt = fieldFromInstruction(Insn, 16, 5);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR64RegClassID, Rt)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR64RegClassID, Rs)));
MI.addOperand(MCOperand::createImm(Pos));
MI.addOperand(MCOperand::createImm(Size));
return MCDisassembler::Success;
}
// Override the generated disassembler to produce DINS all the time. This is
// for feature / behaviour parity with binutils.
template <typename InsnType>
static DecodeStatus DecodeDINS(MCInst &MI, InsnType Insn, uint64_t Address,
const void *Decoder) {
unsigned Msbd = fieldFromInstruction(Insn, 11, 5);
unsigned Lsb = fieldFromInstruction(Insn, 6, 5);
unsigned Size = 0;
unsigned Pos = 0;
switch (MI.getOpcode()) {
case Mips::DINS:
Pos = Lsb;
Size = Msbd + 1 - Pos;
break;
case Mips::DINSM:
Pos = Lsb;
Size = Msbd + 33 - Pos;
break;
case Mips::DINSU:
Pos = Lsb + 32;
// mbsd = pos + size - 33
// mbsd - pos + 33 = size
Size = Msbd + 33 - Pos;
break;
default:
llvm_unreachable("Unknown DINS instruction!");
}
InsnType Rs = fieldFromInstruction(Insn, 21, 5);
InsnType Rt = fieldFromInstruction(Insn, 16, 5);
MI.setOpcode(Mips::DINS);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR64RegClassID, Rt)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR64RegClassID, Rs)));
MI.addOperand(MCOperand::createImm(Pos));
MI.addOperand(MCOperand::createImm(Size));
return MCDisassembler::Success;
}
// Auto-generated decoder wouldn't add the third operand for CRC32*.
template <typename InsnType>
static DecodeStatus DecodeCRC(MCInst &MI, InsnType Insn, uint64_t Address,
const void *Decoder) {
InsnType Rs = fieldFromInstruction(Insn, 21, 5);
InsnType Rt = fieldFromInstruction(Insn, 16, 5);
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rs)));
MI.addOperand(MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID,
Rt)));
return MCDisassembler::Success;
}
/// Read two bytes from the ArrayRef and return 16 bit halfword sorted
/// according to the given endianness.
static DecodeStatus readInstruction16(ArrayRef<uint8_t> Bytes, uint64_t Address,
uint64_t &Size, uint32_t &Insn,
bool IsBigEndian) {
// We want to read exactly 2 Bytes of data.
if (Bytes.size() < 2) {
Size = 0;
return MCDisassembler::Fail;
}
if (IsBigEndian) {
Insn = (Bytes[0] << 8) | Bytes[1];
} else {
Insn = (Bytes[1] << 8) | Bytes[0];
}
return MCDisassembler::Success;
}
/// Read four bytes from the ArrayRef and return 32 bit word sorted
/// according to the given endianness.
static DecodeStatus readInstruction32(ArrayRef<uint8_t> Bytes, uint64_t Address,
uint64_t &Size, uint32_t &Insn,
bool IsBigEndian, bool IsMicroMips) {
// We want to read exactly 4 Bytes of data.
if (Bytes.size() < 4) {
Size = 0;
return MCDisassembler::Fail;
}
// High 16 bits of a 32-bit microMIPS instruction (where the opcode is)
// always precede the low 16 bits in the instruction stream (that is, they
// are placed at lower addresses in the instruction stream).
//
// microMIPS byte ordering:
// Big-endian: 0 | 1 | 2 | 3
// Little-endian: 1 | 0 | 3 | 2
if (IsBigEndian) {
// Encoded as a big-endian 32-bit word in the stream.
Insn =
(Bytes[3] << 0) | (Bytes[2] << 8) | (Bytes[1] << 16) | (Bytes[0] << 24);
} else {
if (IsMicroMips) {
Insn = (Bytes[2] << 0) | (Bytes[3] << 8) | (Bytes[0] << 16) |
(Bytes[1] << 24);
} else {
Insn = (Bytes[0] << 0) | (Bytes[1] << 8) | (Bytes[2] << 16) |
(Bytes[3] << 24);
}
}
return MCDisassembler::Success;
}
DecodeStatus MipsDisassembler::getInstruction(MCInst &Instr, uint64_t &Size,
ArrayRef<uint8_t> Bytes,
uint64_t Address,
raw_ostream &VStream,
raw_ostream &CStream) const {
uint32_t Insn;
DecodeStatus Result;
Size = 0;
if (IsMicroMips) {
Result = readInstruction16(Bytes, Address, Size, Insn, IsBigEndian);
if (Result == MCDisassembler::Fail)
return MCDisassembler::Fail;
if (hasMips32r6()) {
LLVM_DEBUG(
dbgs() << "Trying MicroMipsR616 table (16-bit instructions):\n");
// Calling the auto-generated decoder function for microMIPS32R6
// 16-bit instructions.
Result = decodeInstruction(DecoderTableMicroMipsR616, Instr, Insn,
Address, this, STI);
if (Result != MCDisassembler::Fail) {
Size = 2;
return Result;
}
}
LLVM_DEBUG(dbgs() << "Trying MicroMips16 table (16-bit instructions):\n");
// Calling the auto-generated decoder function for microMIPS 16-bit
// instructions.
Result = decodeInstruction(DecoderTableMicroMips16, Instr, Insn, Address,
this, STI);
if (Result != MCDisassembler::Fail) {
Size = 2;
return Result;
}
Result = readInstruction32(Bytes, Address, Size, Insn, IsBigEndian, true);
if (Result == MCDisassembler::Fail)
return MCDisassembler::Fail;
if (hasMips32r6()) {
LLVM_DEBUG(
dbgs() << "Trying MicroMips32r632 table (32-bit instructions):\n");
// Calling the auto-generated decoder function.
Result = decodeInstruction(DecoderTableMicroMipsR632, Instr, Insn, Address,
this, STI);
if (Result != MCDisassembler::Fail) {
Size = 4;
return Result;
}
}
LLVM_DEBUG(dbgs() << "Trying MicroMips32 table (32-bit instructions):\n");
// Calling the auto-generated decoder function.
Result = decodeInstruction(DecoderTableMicroMips32, Instr, Insn, Address,
this, STI);
if (Result != MCDisassembler::Fail) {
Size = 4;
return Result;
}
if (isFP64()) {
LLVM_DEBUG(dbgs() << "Trying MicroMipsFP64 table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMicroMipsFP6432, Instr, Insn,
Address, this, STI);
if (Result != MCDisassembler::Fail) {
Size = 4;
return Result;
}
}
// This is an invalid instruction. Claim that the Size is 2 bytes. Since
// microMIPS instructions have a minimum alignment of 2, the next 2 bytes
// could form a valid instruction. The two bytes we rejected as an
// instruction could have actually beeen an inline constant pool that is
// unconditionally branched over.
Size = 2;
return MCDisassembler::Fail;
}
// Attempt to read the instruction so that we can attempt to decode it. If
// the buffer is not 4 bytes long, let the higher level logic figure out
// what to do with a size of zero and MCDisassembler::Fail.
Result = readInstruction32(Bytes, Address, Size, Insn, IsBigEndian, false);
if (Result == MCDisassembler::Fail)
return MCDisassembler::Fail;
// The only instruction size for standard encoded MIPS.
Size = 4;
if (hasCOP3()) {
LLVM_DEBUG(dbgs() << "Trying COP3_ table (32-bit opcodes):\n");
Result =
decodeInstruction(DecoderTableCOP3_32, Instr, Insn, Address, this, STI);
if (Result != MCDisassembler::Fail)
return Result;
}
if (hasMips32r6() && isGP64()) {
LLVM_DEBUG(
dbgs() << "Trying Mips32r6_64r6 (GPR64) table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMips32r6_64r6_GP6432, Instr, Insn,
Address, this, STI);
if (Result != MCDisassembler::Fail)
return Result;
}
if (hasMips32r6() && isPTR64()) {
LLVM_DEBUG(
dbgs() << "Trying Mips32r6_64r6 (PTR64) table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMips32r6_64r6_PTR6432, Instr, Insn,
Address, this, STI);
if (Result != MCDisassembler::Fail)
return Result;
}
if (hasMips32r6()) {
LLVM_DEBUG(dbgs() << "Trying Mips32r6_64r6 table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMips32r6_64r632, Instr, Insn,
Address, this, STI);
if (Result != MCDisassembler::Fail)
return Result;
}
if (hasMips2() && isPTR64()) {
LLVM_DEBUG(
dbgs() << "Trying Mips32r6_64r6 (PTR64) table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMips32_64_PTR6432, Instr, Insn,
Address, this, STI);
if (Result != MCDisassembler::Fail)
return Result;
}
if (hasCnMips()) {
LLVM_DEBUG(dbgs() << "Trying CnMips table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableCnMips32, Instr, Insn,
Address, this, STI);
if (Result != MCDisassembler::Fail)
return Result;
}
if (isGP64()) {
LLVM_DEBUG(dbgs() << "Trying Mips64 (GPR64) table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMips6432, Instr, Insn,
Address, this, STI);
if (Result != MCDisassembler::Fail)
return Result;
}
if (isFP64()) {
LLVM_DEBUG(
dbgs() << "Trying MipsFP64 (64 bit FPU) table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMipsFP6432, Instr, Insn,
Address, this, STI);
if (Result != MCDisassembler::Fail)
return Result;
}
LLVM_DEBUG(dbgs() << "Trying Mips table (32-bit opcodes):\n");
// Calling the auto-generated decoder function.
Result =
decodeInstruction(DecoderTableMips32, Instr, Insn, Address, this, STI);
if (Result != MCDisassembler::Fail)
return Result;
return MCDisassembler::Fail;
}
static DecodeStatus DecodeCPU16RegsRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
return MCDisassembler::Fail;
}
static DecodeStatus DecodeGPR64RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::GPR64RegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeGPRMM16RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 7)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::GPRMM16RegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeGPRMM16ZeroRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 7)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::GPRMM16ZeroRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeGPRMM16MovePRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 7)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::GPRMM16MovePRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeGPR32RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::GPR32RegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodePtrRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (static_cast<const MipsDisassembler *>(Decoder)->isGP64())
return DecodeGPR64RegisterClass(Inst, RegNo, Address, Decoder);
return DecodeGPR32RegisterClass(Inst, RegNo, Address, Decoder);
}
static DecodeStatus DecodeDSPRRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
return DecodeGPR32RegisterClass(Inst, RegNo, Address, Decoder);
}
static DecodeStatus DecodeFGR64RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::FGR64RegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeFGR32RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::FGR32RegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeCCRRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::CCRRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeFCCRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 7)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::FCCRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeFGRCCRegisterClass(MCInst &Inst, unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::FGRCCRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMem(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Reg = getReg(Decoder, Mips::GPR32RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
if (Inst.getOpcode() == Mips::SC ||
Inst.getOpcode() == Mips::SCD)
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMemEVA(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<9>(Insn >> 7);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Reg = getReg(Decoder, Mips::GPR32RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
if (Inst.getOpcode() == Mips::SCE)
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeLoadByte15(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
unsigned Reg = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Reg = getReg(Decoder, Mips::GPR32RegClassID, Reg);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeCacheOp(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Hint = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
Inst.addOperand(MCOperand::createImm(Hint));
return MCDisassembler::Success;
}
static DecodeStatus DecodeCacheOpMM(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<12>(Insn & 0xfff);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
unsigned Hint = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
Inst.addOperand(MCOperand::createImm(Hint));
return MCDisassembler::Success;
}
static DecodeStatus DecodePrefeOpMM(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<9>(Insn & 0x1ff);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
unsigned Hint = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
Inst.addOperand(MCOperand::createImm(Hint));
return MCDisassembler::Success;
}
static DecodeStatus DecodeCacheeOp_CacheOpR6(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<9>(Insn >> 7);
unsigned Hint = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
Inst.addOperand(MCOperand::createImm(Hint));
return MCDisassembler::Success;
}
static DecodeStatus DecodeSyncI(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeSyncI_MM(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder) {
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeSynciR6(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Immediate = SignExtend32<16>(Insn & 0xffff);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Immediate));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMSA128Mem(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder) {
int Offset = SignExtend32<10>(fieldFromInstruction(Insn, 16, 10));
unsigned Reg = fieldFromInstruction(Insn, 6, 5);
unsigned Base = fieldFromInstruction(Insn, 11, 5);
Reg = getReg(Decoder, Mips::MSA128BRegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
// The immediate field of an LD/ST instruction is scaled which means it must
// be multiplied (when decoding) by the size (in bytes) of the instructions'
// data format.
// .b - 1 byte
// .h - 2 bytes
// .w - 4 bytes
// .d - 8 bytes
switch(Inst.getOpcode())
{
default:
assert(false && "Unexpected instruction");
return MCDisassembler::Fail;
break;
case Mips::LD_B:
case Mips::ST_B:
Inst.addOperand(MCOperand::createImm(Offset));
break;
case Mips::LD_H:
case Mips::ST_H:
Inst.addOperand(MCOperand::createImm(Offset * 2));
break;
case Mips::LD_W:
case Mips::ST_W:
Inst.addOperand(MCOperand::createImm(Offset * 4));
break;
case Mips::LD_D:
case Mips::ST_D:
Inst.addOperand(MCOperand::createImm(Offset * 8));
break;
}
return MCDisassembler::Success;
}
static DecodeStatus DecodeMemMMImm4(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
unsigned Offset = Insn & 0xf;
unsigned Reg = fieldFromInstruction(Insn, 7, 3);
unsigned Base = fieldFromInstruction(Insn, 4, 3);
switch (Inst.getOpcode()) {
case Mips::LBU16_MM:
case Mips::LHU16_MM:
case Mips::LW16_MM:
if (DecodeGPRMM16RegisterClass(Inst, Reg, Address, Decoder)
== MCDisassembler::Fail)
return MCDisassembler::Fail;
break;
case Mips::SB16_MM:
case Mips::SB16_MMR6:
case Mips::SH16_MM:
case Mips::SH16_MMR6:
case Mips::SW16_MM:
case Mips::SW16_MMR6:
if (DecodeGPRMM16ZeroRegisterClass(Inst, Reg, Address, Decoder)
== MCDisassembler::Fail)
return MCDisassembler::Fail;
break;
}
if (DecodeGPRMM16RegisterClass(Inst, Base, Address, Decoder)
== MCDisassembler::Fail)
return MCDisassembler::Fail;
switch (Inst.getOpcode()) {
case Mips::LBU16_MM:
if (Offset == 0xf)
Inst.addOperand(MCOperand::createImm(-1));
else
Inst.addOperand(MCOperand::createImm(Offset));
break;
case Mips::SB16_MM:
case Mips::SB16_MMR6:
Inst.addOperand(MCOperand::createImm(Offset));
break;
case Mips::LHU16_MM:
case Mips::SH16_MM:
case Mips::SH16_MMR6:
Inst.addOperand(MCOperand::createImm(Offset << 1));
break;
case Mips::LW16_MM:
case Mips::SW16_MM:
case Mips::SW16_MMR6:
Inst.addOperand(MCOperand::createImm(Offset << 2));
break;
}
return MCDisassembler::Success;
}
static DecodeStatus DecodeMemMMSPImm5Lsl2(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
unsigned Offset = Insn & 0x1F;
unsigned Reg = fieldFromInstruction(Insn, 5, 5);
Reg = getReg(Decoder, Mips::GPR32RegClassID, Reg);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Mips::SP));
Inst.addOperand(MCOperand::createImm(Offset << 2));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMemMMGPImm7Lsl2(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
unsigned Offset = Insn & 0x7F;
unsigned Reg = fieldFromInstruction(Insn, 7, 3);
Reg = getReg(Decoder, Mips::GPR32RegClassID, Reg);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Mips::GP));
Inst.addOperand(MCOperand::createImm(Offset << 2));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMemMMReglistImm4Lsl2(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset;
switch (Inst.getOpcode()) {
case Mips::LWM16_MMR6:
case Mips::SWM16_MMR6:
Offset = fieldFromInstruction(Insn, 4, 4);
break;
default:
Offset = SignExtend32<4>(Insn & 0xf);
break;
}
if (DecodeRegListOperand16(Inst, Insn, Address, Decoder)
== MCDisassembler::Fail)
return MCDisassembler::Fail;
Inst.addOperand(MCOperand::createReg(Mips::SP));
Inst.addOperand(MCOperand::createImm(Offset << 2));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMemMMImm9(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<9>(Insn & 0x1ff);
unsigned Reg = fieldFromInstruction(Insn, 21, 5);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
Reg = getReg(Decoder, Mips::GPR32RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
if (Inst.getOpcode() == Mips::SCE_MM || Inst.getOpcode() == Mips::SC_MMR6)
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMemMMImm12(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<12>(Insn & 0x0fff);
unsigned Reg = fieldFromInstruction(Insn, 21, 5);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
Reg = getReg(Decoder, Mips::GPR32RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
switch (Inst.getOpcode()) {
case Mips::SWM32_MM:
case Mips::LWM32_MM:
if (DecodeRegListOperand(Inst, Insn, Address, Decoder)
== MCDisassembler::Fail)
return MCDisassembler::Fail;
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
break;
case Mips::SC_MM:
Inst.addOperand(MCOperand::createReg(Reg));
LLVM_FALLTHROUGH;
default:
Inst.addOperand(MCOperand::createReg(Reg));
if (Inst.getOpcode() == Mips::LWP_MM || Inst.getOpcode() == Mips::SWP_MM)
Inst.addOperand(MCOperand::createReg(Reg+1));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
}
return MCDisassembler::Success;
}
static DecodeStatus DecodeMemMMImm16(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Reg = fieldFromInstruction(Insn, 21, 5);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
Reg = getReg(Decoder, Mips::GPR32RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeFMem(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Reg = getReg(Decoder, Mips::FGR64RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeFMemMMR2(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder) {
// This function is the same as DecodeFMem but with the Reg and Base fields
// swapped according to microMIPS spec.
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
unsigned Reg = fieldFromInstruction(Insn, 21, 5);
Reg = getReg(Decoder, Mips::FGR64RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeFMem2(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Reg = getReg(Decoder, Mips::COP2RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeFMem3(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<16>(Insn & 0xffff);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Reg = getReg(Decoder, Mips::COP3RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeFMemCop2R6(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int Offset = SignExtend32<11>(Insn & 0x07ff);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 11, 5);
Reg = getReg(Decoder, Mips::COP2RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeFMemCop2MMR6(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder) {
int Offset = SignExtend32<11>(Insn & 0x07ff);
unsigned Reg = fieldFromInstruction(Insn, 21, 5);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
Reg = getReg(Decoder, Mips::COP2RegClassID, Reg);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
Inst.addOperand(MCOperand::createReg(Reg));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeSpecial3LlSc(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
int64_t Offset = SignExtend64<9>((Insn >> 7) & 0x1ff);
unsigned Rt = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Rt = getReg(Decoder, Mips::GPR32RegClassID, Rt);
Base = getReg(Decoder, Mips::GPR32RegClassID, Base);
if(Inst.getOpcode() == Mips::SC_R6 || Inst.getOpcode() == Mips::SCD_R6){
Inst.addOperand(MCOperand::createReg(Rt));
}
Inst.addOperand(MCOperand::createReg(Rt));
Inst.addOperand(MCOperand::createReg(Base));
Inst.addOperand(MCOperand::createImm(Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeHWRegsRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
// Currently only hardware register 29 is supported.
if (RegNo != 29)
return MCDisassembler::Fail;
Inst.addOperand(MCOperand::createReg(Mips::HWR29));
return MCDisassembler::Success;
}
static DecodeStatus DecodeAFGR64RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 30 || RegNo %2)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::AFGR64RegClassID, RegNo /2);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeACC64DSPRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo >= 4)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::ACC64DSPRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeHI32DSPRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo >= 4)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::HI32DSPRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeLO32DSPRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo >= 4)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::LO32DSPRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMSA128BRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::MSA128BRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMSA128HRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::MSA128HRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMSA128WRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::MSA128WRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMSA128DRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::MSA128DRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMSACtrlRegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 7)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::MSACtrlRegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeCOP0RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::COP0RegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeCOP2RegisterClass(MCInst &Inst,
unsigned RegNo,
uint64_t Address,
const void *Decoder) {
if (RegNo > 31)
return MCDisassembler::Fail;
unsigned Reg = getReg(Decoder, Mips::COP2RegClassID, RegNo);
Inst.addOperand(MCOperand::createReg(Reg));
return MCDisassembler::Success;
}
static DecodeStatus DecodeBranchTarget(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder) {
int32_t BranchOffset = (SignExtend32<16>(Offset) * 4) + 4;
Inst.addOperand(MCOperand::createImm(BranchOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeBranchTarget1SImm16(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder) {
int32_t BranchOffset = (SignExtend32<16>(Offset) * 2);
Inst.addOperand(MCOperand::createImm(BranchOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeJumpTarget(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
unsigned JumpOffset = fieldFromInstruction(Insn, 0, 26) << 2;
Inst.addOperand(MCOperand::createImm(JumpOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeBranchTarget21(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder) {
int32_t BranchOffset = SignExtend32<21>(Offset) * 4 + 4;
Inst.addOperand(MCOperand::createImm(BranchOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeBranchTarget21MM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder) {
int32_t BranchOffset = SignExtend32<21>(Offset) * 4 + 4;
Inst.addOperand(MCOperand::createImm(BranchOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeBranchTarget26(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder) {
int32_t BranchOffset = SignExtend32<26>(Offset) * 4 + 4;
Inst.addOperand(MCOperand::createImm(BranchOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeBranchTarget7MM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder) {
int32_t BranchOffset = SignExtend32<8>(Offset << 1);
Inst.addOperand(MCOperand::createImm(BranchOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeBranchTarget10MM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder) {
int32_t BranchOffset = SignExtend32<11>(Offset << 1);
Inst.addOperand(MCOperand::createImm(BranchOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeBranchTargetMM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder) {
int32_t BranchOffset = SignExtend32<16>(Offset) * 2 + 4;
Inst.addOperand(MCOperand::createImm(BranchOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeBranchTarget26MM(MCInst &Inst,
unsigned Offset,
uint64_t Address,
const void *Decoder) {
int32_t BranchOffset = SignExtend32<27>(Offset << 1);
Inst.addOperand(MCOperand::createImm(BranchOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeJumpTargetMM(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
unsigned JumpOffset = fieldFromInstruction(Insn, 0, 26) << 1;
Inst.addOperand(MCOperand::createImm(JumpOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeJumpTargetXMM(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
unsigned JumpOffset = fieldFromInstruction(Insn, 0, 26) << 2;
Inst.addOperand(MCOperand::createImm(JumpOffset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeAddiur2Simm7(MCInst &Inst,
unsigned Value,
uint64_t Address,
const void *Decoder) {
if (Value == 0)
Inst.addOperand(MCOperand::createImm(1));
else if (Value == 0x7)
Inst.addOperand(MCOperand::createImm(-1));
else
Inst.addOperand(MCOperand::createImm(Value << 2));
return MCDisassembler::Success;
}
static DecodeStatus DecodeLi16Imm(MCInst &Inst,
unsigned Value,
uint64_t Address,
const void *Decoder) {
if (Value == 0x7F)
Inst.addOperand(MCOperand::createImm(-1));
else
Inst.addOperand(MCOperand::createImm(Value));
return MCDisassembler::Success;
}
static DecodeStatus DecodePOOL16BEncodedField(MCInst &Inst,
unsigned Value,
uint64_t Address,
const void *Decoder) {
Inst.addOperand(MCOperand::createImm(Value == 0x0 ? 8 : Value));
return MCDisassembler::Success;
}
template <unsigned Bits, int Offset, int Scale>
static DecodeStatus DecodeUImmWithOffsetAndScale(MCInst &Inst, unsigned Value,
uint64_t Address,
const void *Decoder) {
Value &= ((1 << Bits) - 1);
Value *= Scale;
Inst.addOperand(MCOperand::createImm(Value + Offset));
return MCDisassembler::Success;
}
template <unsigned Bits, int Offset, int ScaleBy>
static DecodeStatus DecodeSImmWithOffsetAndScale(MCInst &Inst, unsigned Value,
uint64_t Address,
const void *Decoder) {
int32_t Imm = SignExtend32<Bits>(Value) * ScaleBy;
Inst.addOperand(MCOperand::createImm(Imm + Offset));
return MCDisassembler::Success;
}
static DecodeStatus DecodeInsSize(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
// First we need to grab the pos(lsb) from MCInst.
// This function only handles the 32 bit variants of ins, as dins
// variants are handled differently.
int Pos = Inst.getOperand(2).getImm();
int Size = (int) Insn - Pos + 1;
Inst.addOperand(MCOperand::createImm(SignExtend32<16>(Size)));
return MCDisassembler::Success;
}
static DecodeStatus DecodeSimm19Lsl2(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder) {
Inst.addOperand(MCOperand::createImm(SignExtend32<19>(Insn) * 4));
return MCDisassembler::Success;
}
static DecodeStatus DecodeSimm18Lsl3(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder) {
Inst.addOperand(MCOperand::createImm(SignExtend32<18>(Insn) * 8));
return MCDisassembler::Success;
}
static DecodeStatus DecodeSimm9SP(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder) {
int32_t DecodedValue;
switch (Insn) {
case 0: DecodedValue = 256; break;
case 1: DecodedValue = 257; break;
case 510: DecodedValue = -258; break;
case 511: DecodedValue = -257; break;
default: DecodedValue = SignExtend32<9>(Insn); break;
}
Inst.addOperand(MCOperand::createImm(DecodedValue * 4));
return MCDisassembler::Success;
}
static DecodeStatus DecodeANDI16Imm(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder) {
// Insn must be >= 0, since it is unsigned that condition is always true.
assert(Insn < 16);
int32_t DecodedValues[] = {128, 1, 2, 3, 4, 7, 8, 15, 16, 31, 32, 63, 64,
255, 32768, 65535};
Inst.addOperand(MCOperand::createImm(DecodedValues[Insn]));
return MCDisassembler::Success;
}
static DecodeStatus DecodeRegListOperand(MCInst &Inst,
unsigned Insn,
uint64_t Address,
const void *Decoder) {
unsigned Regs[] = {Mips::S0, Mips::S1, Mips::S2, Mips::S3, Mips::S4, Mips::S5,
Mips::S6, Mips::S7, Mips::FP};
unsigned RegNum;
unsigned RegLst = fieldFromInstruction(Insn, 21, 5);
// Empty register lists are not allowed.
if (RegLst == 0)
return MCDisassembler::Fail;
RegNum = RegLst & 0xf;
// RegLst values 10-15, and 26-31 are reserved.
if (RegNum > 9)
return MCDisassembler::Fail;
for (unsigned i = 0; i < RegNum; i++)
Inst.addOperand(MCOperand::createReg(Regs[i]));
if (RegLst & 0x10)
Inst.addOperand(MCOperand::createReg(Mips::RA));
return MCDisassembler::Success;
}
static DecodeStatus DecodeRegListOperand16(MCInst &Inst, unsigned Insn,
uint64_t Address,
const void *Decoder) {
unsigned Regs[] = {Mips::S0, Mips::S1, Mips::S2, Mips::S3};
unsigned RegLst;
switch(Inst.getOpcode()) {
default:
RegLst = fieldFromInstruction(Insn, 4, 2);
break;
case Mips::LWM16_MMR6:
case Mips::SWM16_MMR6:
RegLst = fieldFromInstruction(Insn, 8, 2);
break;
}
unsigned RegNum = RegLst & 0x3;
for (unsigned i = 0; i <= RegNum; i++)
Inst.addOperand(MCOperand::createReg(Regs[i]));
Inst.addOperand(MCOperand::createReg(Mips::RA));
return MCDisassembler::Success;
}
static DecodeStatus DecodeMovePOperands(MCInst &Inst, unsigned Insn,
uint64_t Address,
const void *Decoder) {
unsigned RegPair = fieldFromInstruction(Insn, 7, 3);
if (DecodeMovePRegPair(Inst, RegPair, Address, Decoder) ==
MCDisassembler::Fail)
return MCDisassembler::Fail;
unsigned RegRs;
if (static_cast<const MipsDisassembler*>(Decoder)->hasMips32r6())
RegRs = fieldFromInstruction(Insn, 0, 2) |
(fieldFromInstruction(Insn, 3, 1) << 2);
else
RegRs = fieldFromInstruction(Insn, 1, 3);
if (DecodeGPRMM16MovePRegisterClass(Inst, RegRs, Address, Decoder) ==
MCDisassembler::Fail)
return MCDisassembler::Fail;
unsigned RegRt = fieldFromInstruction(Insn, 4, 3);
if (DecodeGPRMM16MovePRegisterClass(Inst, RegRt, Address, Decoder) ==
MCDisassembler::Fail)
return MCDisassembler::Fail;
return MCDisassembler::Success;
}
static DecodeStatus DecodeMovePRegPair(MCInst &Inst, unsigned RegPair,
uint64_t Address, const void *Decoder) {
switch (RegPair) {
default:
return MCDisassembler::Fail;
case 0:
Inst.addOperand(MCOperand::createReg(Mips::A1));
Inst.addOperand(MCOperand::createReg(Mips::A2));
break;
case 1:
Inst.addOperand(MCOperand::createReg(Mips::A1));
Inst.addOperand(MCOperand::createReg(Mips::A3));
break;
case 2:
Inst.addOperand(MCOperand::createReg(Mips::A2));
Inst.addOperand(MCOperand::createReg(Mips::A3));
break;
case 3:
Inst.addOperand(MCOperand::createReg(Mips::A0));
Inst.addOperand(MCOperand::createReg(Mips::S5));
break;
case 4:
Inst.addOperand(MCOperand::createReg(Mips::A0));
Inst.addOperand(MCOperand::createReg(Mips::S6));
break;
case 5:
Inst.addOperand(MCOperand::createReg(Mips::A0));
Inst.addOperand(MCOperand::createReg(Mips::A1));
break;
case 6:
Inst.addOperand(MCOperand::createReg(Mips::A0));
Inst.addOperand(MCOperand::createReg(Mips::A2));
break;
case 7:
Inst.addOperand(MCOperand::createReg(Mips::A0));
Inst.addOperand(MCOperand::createReg(Mips::A3));
break;
}
return MCDisassembler::Success;
}
static DecodeStatus DecodeSimm23Lsl2(MCInst &Inst, unsigned Insn,
uint64_t Address, const void *Decoder) {
Inst.addOperand(MCOperand::createImm(SignExtend32<25>(Insn << 2)));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeBgtzGroupBranchMMR6(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// We have:
// 0b000111 ttttt sssss iiiiiiiiiiiiiiii
// Invalid if rt == 0
// BGTZALC_MMR6 if rs == 0 && rt != 0
// BLTZALC_MMR6 if rs != 0 && rs == rt
// BLTUC_MMR6 if rs != 0 && rs != rt
InsnType Rt = fieldFromInstruction(insn, 21, 5);
InsnType Rs = fieldFromInstruction(insn, 16, 5);
InsnType Imm = 0;
bool HasRs = false;
bool HasRt = false;
if (Rt == 0)
return MCDisassembler::Fail;
else if (Rs == 0) {
MI.setOpcode(Mips::BGTZALC_MMR6);
HasRt = true;
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 2 + 4;
}
else if (Rs == Rt) {
MI.setOpcode(Mips::BLTZALC_MMR6);
HasRs = true;
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 2 + 4;
}
else {
MI.setOpcode(Mips::BLTUC_MMR6);
HasRs = true;
HasRt = true;
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
}
if (HasRs)
MI.addOperand(
MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID, Rs)));
if (HasRt)
MI.addOperand(
MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID, Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
template <typename InsnType>
static DecodeStatus DecodeBlezGroupBranchMMR6(MCInst &MI, InsnType insn,
uint64_t Address,
const void *Decoder) {
// We have:
// 0b000110 ttttt sssss iiiiiiiiiiiiiiii
// Invalid if rt == 0
// BLEZALC_MMR6 if rs == 0 && rt != 0
// BGEZALC_MMR6 if rs == rt && rt != 0
// BGEUC_MMR6 if rs != rt && rs != 0 && rt != 0
InsnType Rt = fieldFromInstruction(insn, 21, 5);
InsnType Rs = fieldFromInstruction(insn, 16, 5);
InsnType Imm = 0;
bool HasRs = false;
if (Rt == 0)
return MCDisassembler::Fail;
else if (Rs == 0) {
MI.setOpcode(Mips::BLEZALC_MMR6);
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 2 + 4;
}
else if (Rs == Rt) {
MI.setOpcode(Mips::BGEZALC_MMR6);
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 2 + 4;
}
else {
HasRs = true;
MI.setOpcode(Mips::BGEUC_MMR6);
Imm = SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4 + 4;
}
if (HasRs)
MI.addOperand(
MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID, Rs)));
MI.addOperand(
MCOperand::createReg(getReg(Decoder, Mips::GPR32RegClassID, Rt)));
MI.addOperand(MCOperand::createImm(Imm));
return MCDisassembler::Success;
}
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