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fuchsia / third_party / capstone / dabc9f2990c68d381db2c7e463a7760120833af3 / . / arch / Mips / MipsDisassembler.c
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//===- MipsDisassembler.cpp - Disassembler for Mips -------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file is part of the Mips Disassembler.
//
//===----------------------------------------------------------------------===//
/* Capstone Disassembly Engine */
/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2015 */
#ifdef CAPSTONE_HAS_MIPS
#include <stdio.h>
#include <string.h>
#include "capstone/platform.h"
#include "../../utils.h"
#include "../../MCInst.h"
#include "../../MCRegisterInfo.h"
#include "../../SStream.h"
#include "../../MathExtras.h"
//#include "Mips.h"
//#include "MipsRegisterInfo.h"
//#include "MipsSubtarget.h"
#include "../../MCFixedLenDisassembler.h"
#include "../../MCInst.h"
//#include "llvm/MC/MCSubtargetInfo.h"
#include "../../MCRegisterInfo.h"
#include "../../MCDisassembler.h"
// Forward declare these because the autogenerated code will reference them.
// Definitions are further down.
static DecodeStatus DecodeGPR64RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeCPU16RegsRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeGPRMM16RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeGPRMM16ZeroRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeGPRMM16MovePRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeGPR32RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodePtrRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeDSPRRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeFGR64RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeFGR32RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeCCRRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeFCCRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeCCRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeFGRCCRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeHWRegsRegisterClass(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeAFGR64RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeACC64DSPRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeHI32DSPRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeLO32DSPRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMSA128BRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMSA128HRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMSA128WRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMSA128DRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMSACtrlRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeCOP2RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeBranchTarget(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeJumpTarget(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeBranchTarget21(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeBranchTarget26(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder);
// DecodeBranchTarget7MM - Decode microMIPS branch offset, which is
// shifted left by 1 bit.
static DecodeStatus DecodeBranchTarget7MM(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder);
// DecodeBranchTarget10MM - Decode microMIPS branch offset, which is
// shifted left by 1 bit.
static DecodeStatus DecodeBranchTarget10MM(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder);
// DecodeBranchTargetMM - Decode microMIPS branch offset, which is
// shifted left by 1 bit.
static DecodeStatus DecodeBranchTargetMM(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder);
// DecodeJumpTargetMM - Decode microMIPS jump target, which is
// shifted left by 1 bit.
static DecodeStatus DecodeJumpTargetMM(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMem(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeCacheOp(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeCacheOpR6(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeCacheOpMM(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeSyncI(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMSA128Mem(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMemMMImm4(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMemMMSPImm5Lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMemMMGPImm7Lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMemMMReglistImm4Lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMemMMImm12(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMemMMImm16(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeFMem(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeFMem2(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeFMem3(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeFMemCop2R6(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeSpecial3LlSc(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeAddiur2Simm7(MCInst *Inst,
unsigned Value, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeUImm6Lsl2(MCInst *Inst,
unsigned Value, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeLiSimm7(MCInst *Inst,
unsigned Value, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeSimm4(MCInst *Inst,
unsigned Value, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeSimm16(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
// Decode the immediate field of an LSA instruction which
// is off by one.
static DecodeStatus DecodeLSAImm(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeInsSize(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeExtSize(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeSimm19Lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeSimm18Lsl3(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeSimm9SP(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeANDI16Imm(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeUImm5lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeSimm23Lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder);
/// INSVE_[BHWD] have an implicit operand that the generated decoder doesn't
/// handle.
static DecodeStatus DecodeINSVE_DF_4(MCInst *MI,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeAddiGroupBranch_4(MCInst *MI,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeDaddiGroupBranch_4(MCInst *MI,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeBlezlGroupBranch_4(MCInst *MI,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeBgtzlGroupBranch_4(MCInst *MI,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeBgtzGroupBranch_4(MCInst *MI,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeBlezGroupBranch_4(MCInst *MI,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeRegListOperand(MCInst *Inst,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeRegListOperand16(MCInst *Inst,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
static DecodeStatus DecodeMovePRegPair(MCInst *Inst,
uint32_t insn, uint64_t Address, MCRegisterInfo *Decoder);
#define GET_SUBTARGETINFO_ENUM
#include "MipsGenSubtargetInfo.inc"
// Hacky: enable all features for disassembler
static uint64_t getFeatureBits(int mode)
{
uint64_t Bits = (uint64_t)-1; // include every features at first
// By default we do not support Mips1
Bits &= ~Mips_FeatureMips1;
// No MicroMips
Bits &= ~Mips_FeatureMicroMips;
// ref: MipsGenDisassemblerTables.inc::checkDecoderPredicate()
// some features are mutually execlusive
if (mode & CS_MODE_16) {
//Bits &= ~Mips_FeatureMips32r2;
//Bits &= ~Mips_FeatureMips32;
//Bits &= ~Mips_FeatureFPIdx;
//Bits &= ~Mips_FeatureBitCount;
//Bits &= ~Mips_FeatureSwap;
//Bits &= ~Mips_FeatureSEInReg;
//Bits &= ~Mips_FeatureMips64r2;
//Bits &= ~Mips_FeatureFP64Bit;
} else if (mode & CS_MODE_32) {
Bits &= ~Mips_FeatureMips16;
Bits &= ~Mips_FeatureFP64Bit;
Bits &= ~Mips_FeatureMips64r2;
Bits &= ~Mips_FeatureMips32r6;
Bits &= ~Mips_FeatureMips64r6;
} else if (mode & CS_MODE_64) {
Bits &= ~Mips_FeatureMips16;
Bits &= ~Mips_FeatureMips64r6;
Bits &= ~Mips_FeatureMips32r6;
} else if (mode & CS_MODE_MIPS32R6) {
Bits |= Mips_FeatureMips32r6;
Bits &= ~Mips_FeatureMips16;
Bits &= ~Mips_FeatureFP64Bit;
Bits &= ~Mips_FeatureMips64r6;
Bits &= ~Mips_FeatureMips64r2;
}
if (mode & CS_MODE_MICRO) {
Bits |= Mips_FeatureMicroMips;
Bits &= ~Mips_FeatureMips4_32r2;
Bits &= ~Mips_FeatureMips2;
}
return Bits;
}
#include "MipsGenDisassemblerTables.inc"
#define GET_REGINFO_ENUM
#include "MipsGenRegisterInfo.inc"
#define GET_REGINFO_MC_DESC
#include "MipsGenRegisterInfo.inc"
#define GET_INSTRINFO_ENUM
#include "MipsGenInstrInfo.inc"
void Mips_init(MCRegisterInfo *MRI)
{
// InitMCRegisterInfo(MipsRegDesc, 394, RA, PC,
// MipsMCRegisterClasses, 62,
// MipsRegUnitRoots,
// 273,
// MipsRegDiffLists,
// MipsLaneMaskLists,
// MipsRegStrings,
// MipsRegClassStrings,
// MipsSubRegIdxLists,
// 12,
// MipsSubRegIdxRanges,
// MipsRegEncodingTable);
MCRegisterInfo_InitMCRegisterInfo(MRI, MipsRegDesc, 394,
0, 0,
MipsMCRegisterClasses, 62,
0, 0,
MipsRegDiffLists,
0,
MipsSubRegIdxLists, 12,
0);
}
/// Read two bytes from the ArrayRef and return 16 bit halfword sorted
/// according to the given endianess.
static void readInstruction16(unsigned char *code, uint32_t *insn,
bool isBigEndian)
{
// We want to read exactly 2 Bytes of data.
if (isBigEndian)
*insn = (code[0] << 8) | code[1];
else
*insn = (code[1] << 8) | code[0];
}
/// readInstruction - read four bytes from the MemoryObject
/// and return 32 bit word sorted according to the given endianess
static void readInstruction32(unsigned char *code, uint32_t *insn, bool isBigEndian, bool isMicroMips)
{
// 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
// We want to read exactly 4 Bytes of data.
if (isBigEndian) {
// Encoded as a big-endian 32-bit word in the stream.
*insn =
(code[3] << 0) | (code[2] << 8) | (code[1] << 16) | (code[0] << 24);
} else {
if (isMicroMips) {
*insn = (code[2] << 0) | (code[3] << 8) | (code[0] << 16) |
(code[1] << 24);
} else {
*insn = (code[0] << 0) | (code[1] << 8) | (code[2] << 16) |
(code[3] << 24);
}
}
}
static DecodeStatus MipsDisassembler_getInstruction(int mode, MCInst *instr,
const uint8_t *code, size_t code_len,
uint16_t *Size,
uint64_t Address, bool isBigEndian, MCRegisterInfo *MRI)
{
uint32_t Insn;
DecodeStatus Result;
if (instr->flat_insn->detail) {
memset(instr->flat_insn->detail, 0, sizeof(cs_detail));
}
if (mode & CS_MODE_MICRO) {
if (code_len < 2)
// not enough data
return MCDisassembler_Fail;
readInstruction16((unsigned char*)code, &Insn, isBigEndian);
// Calling the auto-generated decoder function.
Result = decodeInstruction(DecoderTableMicroMips16, instr, Insn, Address, MRI, mode);
if (Result != MCDisassembler_Fail) {
*Size = 2;
return Result;
}
if (code_len < 4)
// not enough data
return MCDisassembler_Fail;
readInstruction32((unsigned char*)code, &Insn, isBigEndian, true);
//DEBUG(dbgs() << "Trying MicroMips32 table (32-bit instructions):\n");
// Calling the auto-generated decoder function.
Result = decodeInstruction(DecoderTableMicroMips32, instr, Insn, Address, MRI, mode);
if (Result != MCDisassembler_Fail) {
*Size = 4;
return Result;
}
return MCDisassembler_Fail;
}
if (code_len < 4)
// not enough data
return MCDisassembler_Fail;
readInstruction32((unsigned char*)code, &Insn, isBigEndian, false);
if (((mode & CS_MODE_MIPS32) == 0) && ((mode & CS_MODE_MIPS3) == 0)) {
// DEBUG(dbgs() << "Trying COP3_ table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableCOP3_32, instr, Insn, Address, MRI, mode);
if (Result != MCDisassembler_Fail) {
*Size = 4;
return Result;
}
}
if ((mode & CS_MODE_MIPS32R6) && (mode & CS_MODE_MIPS64)) {
// DEBUG(dbgs() << "Trying Mips32r6_64r6 (GPR64) table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMips32r6_64r6_GP6432, instr, Insn,
Address, MRI, mode);
if (Result != MCDisassembler_Fail) {
*Size = 4;
return Result;
}
}
if (mode & CS_MODE_MIPS32R6) {
// DEBUG(dbgs() << "Trying Mips32r6_64r6 table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMips32r6_64r632, instr, Insn,
Address, MRI, mode);
if (Result != MCDisassembler_Fail) {
*Size = 4;
return Result;
}
}
if (mode & CS_MODE_MIPS64) {
// DEBUG(dbgs() << "Trying Mips64 (GPR64) table (32-bit opcodes):\n");
Result = decodeInstruction(DecoderTableMips6432, instr, Insn,
Address, MRI, mode);
if (Result != MCDisassembler_Fail) {
*Size = 4;
return Result;
}
}
// DEBUG(dbgs() << "Trying Mips table (32-bit opcodes):\n");
// Calling the auto-generated decoder function.
Result = decodeInstruction(DecoderTableMips32, instr, Insn, Address, MRI, mode);
if (Result != MCDisassembler_Fail) {
*Size = 4;
return Result;
}
return MCDisassembler_Fail;
}
bool Mips_getInstruction(csh ud, const uint8_t *code, size_t code_len, MCInst *instr,
uint16_t *size, uint64_t address, void *info)
{
cs_struct *handle = (cs_struct *)(uintptr_t)ud;
DecodeStatus status = MipsDisassembler_getInstruction(handle->mode, instr,
code, code_len,
size,
address, handle->big_endian, (MCRegisterInfo *)info);
return status == MCDisassembler_Success;
}
static unsigned getReg(MCRegisterInfo *MRI, unsigned RC, unsigned RegNo)
{
MCRegisterClass *rc = MCRegisterInfo_getRegClass(MRI, RC);
return rc->RegsBegin[RegNo];
}
static DecodeStatus DecodeINSVE_DF_4(MCInst *MI, uint32_t insn,
uint64_t Address, MCRegisterInfo *Decoder)
{
typedef DecodeStatus (*DecodeFN)(MCInst *, unsigned, uint64_t, MCRegisterInfo *);
// The size of the n field depends on the element size
// The register class also depends on this.
uint32_t tmp = fieldFromInstruction(insn, 17, 5);
unsigned NSize = 0;
DecodeFN RegDecoder = NULL;
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);
if (NSize == 0 || RegDecoder == NULL)
return MCDisassembler_Fail;
// $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);
MCOperand_CreateImm0(MI, tmp);
// $ws
tmp = fieldFromInstruction(insn, 11, 5);
if (RegDecoder(MI, tmp, Address, Decoder) == MCDisassembler_Fail)
return MCDisassembler_Fail;
// $n2
MCOperand_CreateImm0(MI, 0);
return MCDisassembler_Success;
}
static DecodeStatus DecodeAddiGroupBranch_4(MCInst *MI, uint32_t insn,
uint64_t Address, MCRegisterInfo *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
uint32_t Rs = fieldFromInstruction(insn, 21, 5);
uint32_t Rt = fieldFromInstruction(insn, 16, 5);
uint32_t Imm = (uint32_t)SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4;
bool HasRs = false;
if (Rs >= Rt) {
MCInst_setOpcode(MI, Mips_BOVC);
HasRs = true;
} else if (Rs != 0 && Rs < Rt) {
MCInst_setOpcode(MI, Mips_BEQC);
HasRs = true;
} else
MCInst_setOpcode(MI, Mips_BEQZALC);
if (HasRs)
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rs));
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rt));
MCOperand_CreateImm0(MI, Imm);
return MCDisassembler_Success;
}
static DecodeStatus DecodeDaddiGroupBranch_4(MCInst *MI, uint32_t insn,
uint64_t Address, MCRegisterInfo *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
uint32_t Rs = fieldFromInstruction(insn, 21, 5);
uint32_t Rt = fieldFromInstruction(insn, 16, 5);
uint32_t Imm = (uint32_t)SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4;
bool HasRs = false;
if (Rs >= Rt) {
MCInst_setOpcode(MI, Mips_BNVC);
HasRs = true;
} else if (Rs != 0 && Rs < Rt) {
MCInst_setOpcode(MI, Mips_BNEC);
HasRs = true;
} else
MCInst_setOpcode(MI, Mips_BNEZALC);
if (HasRs)
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rs));
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rt));
MCOperand_CreateImm0(MI, Imm);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBlezlGroupBranch_4(MCInst *MI, uint32_t insn,
uint64_t Address, MCRegisterInfo *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
uint32_t Rs = fieldFromInstruction(insn, 21, 5);
uint32_t Rt = fieldFromInstruction(insn, 16, 5);
uint32_t Imm = (uint32_t)SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4;
bool HasRs = false;
if (Rt == 0)
return MCDisassembler_Fail;
else if (Rs == 0)
MCInst_setOpcode(MI, Mips_BLEZC);
else if (Rs == Rt)
MCInst_setOpcode(MI, Mips_BGEZC);
else {
HasRs = true;
MCInst_setOpcode(MI, Mips_BGEC);
}
if (HasRs)
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rs));
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rt));
MCOperand_CreateImm0(MI, Imm);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBgtzlGroupBranch_4(MCInst *MI, uint32_t insn,
uint64_t Address, MCRegisterInfo *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;
uint32_t Rs = fieldFromInstruction(insn, 21, 5);
uint32_t Rt = fieldFromInstruction(insn, 16, 5);
uint32_t Imm = (uint32_t)SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4;
if (Rt == 0)
return MCDisassembler_Fail;
else if (Rs == 0)
MCInst_setOpcode(MI, Mips_BGTZC);
else if (Rs == Rt)
MCInst_setOpcode(MI, Mips_BLTZC);
else {
MCInst_setOpcode(MI, Mips_BLTC);
HasRs = true;
}
if (HasRs)
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rs));
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rt));
MCOperand_CreateImm0(MI, Imm);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBgtzGroupBranch_4(MCInst *MI, uint32_t insn,
uint64_t Address, MCRegisterInfo *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
uint32_t Rs = fieldFromInstruction(insn, 21, 5);
uint32_t Rt = fieldFromInstruction(insn, 16, 5);
uint32_t Imm = (uint32_t)SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4;
bool HasRs = false;
bool HasRt = false;
if (Rt == 0) {
MCInst_setOpcode(MI, Mips_BGTZ);
HasRs = true;
} else if (Rs == 0) {
MCInst_setOpcode(MI, Mips_BGTZALC);
HasRt = true;
} else if (Rs == Rt) {
MCInst_setOpcode(MI, Mips_BLTZALC);
HasRs = true;
} else {
MCInst_setOpcode(MI, Mips_BLTUC);
HasRs = true;
HasRt = true;
}
if (HasRs)
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rs));
if (HasRt)
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rt));
MCOperand_CreateImm0(MI, Imm);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBlezGroupBranch_4(MCInst *MI, uint32_t insn,
uint64_t Address, MCRegisterInfo *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
uint32_t Rs = fieldFromInstruction(insn, 21, 5);
uint32_t Rt = fieldFromInstruction(insn, 16, 5);
uint32_t Imm = (uint32_t)SignExtend64(fieldFromInstruction(insn, 0, 16), 16) * 4;
bool HasRs = false;
if (Rt == 0)
return MCDisassembler_Fail;
else if (Rs == 0)
MCInst_setOpcode(MI, Mips_BLEZALC);
else if (Rs == Rt)
MCInst_setOpcode(MI, Mips_BGEZALC);
else {
HasRs = true;
MCInst_setOpcode(MI, Mips_BGEUC);
}
if (HasRs)
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rs));
MCOperand_CreateReg0(MI, getReg(Decoder, Mips_GPR32RegClassID, Rt));
MCOperand_CreateImm0(MI, Imm);
return MCDisassembler_Success;
}
static DecodeStatus DecodeCPU16RegsRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
return MCDisassembler_Fail;
}
static DecodeStatus DecodeGPR64RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_GPR64RegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeGPRMM16RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 7)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_GPRMM16RegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeGPRMM16ZeroRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 7)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_GPRMM16ZeroRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeGPRMM16MovePRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 7)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_GPRMM16MovePRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeGPR32RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_GPR32RegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodePtrRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
// if (static_cast<const MipsDisassembler *>(Decoder)->isGP64())
if (Inst->csh->mode & CS_MODE_MIPS64)
return DecodeGPR64RegisterClass(Inst, RegNo, Address, Decoder);
return DecodeGPR32RegisterClass(Inst, RegNo, Address, Decoder);
}
static DecodeStatus DecodeDSPRRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
return DecodeGPR32RegisterClass(Inst, RegNo, Address, Decoder);
}
static DecodeStatus DecodeFGR64RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_FGR64RegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeFGR32RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_FGR32RegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeCCRRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_CCRRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeFCCRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 7)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_FCCRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeCCRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 7)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_CCRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeFGRCCRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_FGRCCRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMem(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0xffff, 16);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
int opcode = MCInst_getOpcode(Inst);
Reg = getReg(Decoder, Mips_GPR32RegClassID, Reg);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
if (opcode == Mips_SC || opcode == Mips_SCD) {
MCOperand_CreateReg0(Inst, Reg);
}
MCOperand_CreateReg0(Inst, Reg);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeCacheOp(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0xffff, 16);
unsigned Hint = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
MCOperand_CreateImm0(Inst, Hint);
return MCDisassembler_Success;
}
static DecodeStatus DecodeCacheOpMM(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0xfff, 12);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
unsigned Hint = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
MCOperand_CreateImm0(Inst, Hint);
return MCDisassembler_Success;
}
static DecodeStatus DecodeCacheOpR6(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = fieldFromInstruction(Insn, 7, 9);
unsigned Hint = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
MCOperand_CreateImm0(Inst, Hint);
return MCDisassembler_Success;
}
static DecodeStatus DecodeSyncI(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0xffff, 16);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMSA128Mem(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(fieldFromInstruction(Insn, 16, 10), 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);
MCOperand_CreateReg0(Inst, Reg);
MCOperand_CreateReg0(Inst, Base);
// MCOperand_CreateImm0(Inst, Offset);
// 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(MCInst_getOpcode(Inst)) {
default:
//assert (0 && "Unexpected instruction");
return MCDisassembler_Fail;
break;
case Mips_LD_B:
case Mips_ST_B:
MCOperand_CreateImm0(Inst, Offset);
break;
case Mips_LD_H:
case Mips_ST_H:
MCOperand_CreateImm0(Inst, Offset * 2);
break;
case Mips_LD_W:
case Mips_ST_W:
MCOperand_CreateImm0(Inst, Offset * 4);
break;
case Mips_LD_D:
case Mips_ST_D:
MCOperand_CreateImm0(Inst, Offset * 8);
break;
}
return MCDisassembler_Success;
}
static DecodeStatus DecodeMemMMImm4(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Offset = Insn & 0xf;
unsigned Reg = fieldFromInstruction(Insn, 7, 3);
unsigned Base = fieldFromInstruction(Insn, 4, 3);
switch (MCInst_getOpcode(Inst)) {
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_SH16_MM:
case Mips_SW16_MM:
if (DecodeGPRMM16ZeroRegisterClass(Inst, Reg, Address, Decoder)
== MCDisassembler_Fail)
return MCDisassembler_Fail;
break;
}
if (DecodeGPRMM16RegisterClass(Inst, Base, Address, Decoder)
== MCDisassembler_Fail)
return MCDisassembler_Fail;
switch (MCInst_getOpcode(Inst)) {
case Mips_LBU16_MM:
if (Offset == 0xf)
MCOperand_CreateImm0(Inst, -1);
else
MCOperand_CreateImm0(Inst, Offset);
break;
case Mips_SB16_MM:
MCOperand_CreateImm0(Inst, Offset);
break;
case Mips_LHU16_MM:
case Mips_SH16_MM:
MCOperand_CreateImm0(Inst, Offset << 1);
break;
case Mips_LW16_MM:
case Mips_SW16_MM:
MCOperand_CreateImm0(Inst, Offset << 2);
break;
}
return MCDisassembler_Success;
}
static DecodeStatus DecodeMemMMSPImm5Lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Offset = Insn & 0x1F;
unsigned Reg = fieldFromInstruction(Insn, 5, 5);
Reg = getReg(Decoder, Mips_GPR32RegClassID, Reg);
MCOperand_CreateReg0(Inst, Reg);
MCOperand_CreateReg0(Inst, Mips_SP);
MCOperand_CreateImm0(Inst, Offset << 2);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMemMMGPImm7Lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Offset = Insn & 0x7F;
unsigned Reg = fieldFromInstruction(Insn, 7, 3);
Reg = getReg(Decoder, Mips_GPR32RegClassID, Reg);
MCOperand_CreateReg0(Inst, Reg);
MCOperand_CreateReg0(Inst, Mips_GP);
MCOperand_CreateImm0(Inst, Offset << 2);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMemMMReglistImm4Lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0xf, 4);
if (DecodeRegListOperand16(Inst, Insn, Address, Decoder) == MCDisassembler_Fail)
return MCDisassembler_Fail;
MCOperand_CreateReg0(Inst, Mips_SP);
MCOperand_CreateImm0(Inst, Offset << 2);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMemMMImm12(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0x0fff, 12);
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 (MCInst_getOpcode(Inst)) {
case Mips_SWM32_MM:
case Mips_LWM32_MM:
if (DecodeRegListOperand(Inst, Insn, Address, Decoder)
== MCDisassembler_Fail)
return MCDisassembler_Fail;
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
break;
case Mips_SC_MM:
MCOperand_CreateReg0(Inst, Reg);
// fallthrough
default:
MCOperand_CreateReg0(Inst, Reg);
if (MCInst_getOpcode(Inst) == Mips_LWP_MM || MCInst_getOpcode(Inst) == Mips_SWP_MM)
MCOperand_CreateReg0(Inst, Reg + 1);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
}
return MCDisassembler_Success;
}
static DecodeStatus DecodeMemMMImm16(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0xffff, 16);
unsigned Reg = fieldFromInstruction(Insn, 21, 5);
unsigned Base = fieldFromInstruction(Insn, 16, 5);
Reg = getReg(Decoder, Mips_GPR32RegClassID, Reg);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
MCOperand_CreateReg0(Inst, Reg);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeFMem(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0xffff, 16);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Reg = getReg(Decoder, Mips_FGR64RegClassID, Reg);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
MCOperand_CreateReg0(Inst, Reg);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeFMem2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0xffff, 16);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Reg = getReg(Decoder, Mips_COP2RegClassID, Reg);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
MCOperand_CreateReg0(Inst, Reg);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeFMem3(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0xffff, 16);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 21, 5);
Reg = getReg(Decoder, Mips_COP3RegClassID, Reg);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
MCOperand_CreateReg0(Inst, Reg);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeFMemCop2R6(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Offset = SignExtend32(Insn & 0x07ff, 11);
unsigned Reg = fieldFromInstruction(Insn, 16, 5);
unsigned Base = fieldFromInstruction(Insn, 11, 5);
Reg = getReg(Decoder, Mips_COP2RegClassID, Reg);
Base = getReg(Decoder, Mips_GPR32RegClassID, Base);
MCOperand_CreateReg0(Inst, Reg);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeSpecial3LlSc(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int64_t Offset = SignExtend64((Insn >> 7) & 0x1ff, 9);
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 (MCInst_getOpcode(Inst) == Mips_SC_R6 ||
MCInst_getOpcode(Inst) == Mips_SCD_R6) {
MCOperand_CreateReg0(Inst, Rt);
}
MCOperand_CreateReg0(Inst, Rt);
MCOperand_CreateReg0(Inst, Base);
MCOperand_CreateImm0(Inst, Offset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeHWRegsRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
// Currently only hardware register 29 is supported.
if (RegNo != 29)
return MCDisassembler_Fail;
MCOperand_CreateReg0(Inst, Mips_HWR29);
return MCDisassembler_Success;
}
static DecodeStatus DecodeAFGR64RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 30 || RegNo % 2)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_AFGR64RegClassID, RegNo /2);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeACC64DSPRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo >= 4)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_ACC64DSPRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeHI32DSPRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo >= 4)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_HI32DSPRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeLO32DSPRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo >= 4)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_LO32DSPRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMSA128BRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_MSA128BRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMSA128HRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_MSA128HRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMSA128WRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_MSA128WRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMSA128DRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_MSA128DRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMSACtrlRegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 7)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_MSACtrlRegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeCOP2RegisterClass(MCInst *Inst,
unsigned RegNo, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Reg;
if (RegNo > 31)
return MCDisassembler_Fail;
Reg = getReg(Decoder, Mips_COP2RegClassID, RegNo);
MCOperand_CreateReg0(Inst, Reg);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBranchTarget(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder)
{
uint64_t TargetAddress = (SignExtend32(Offset, 16) * 4) + Address + 4;
MCOperand_CreateImm0(Inst, TargetAddress);
return MCDisassembler_Success;
}
static DecodeStatus DecodeJumpTarget(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
uint64_t TargetAddress = (fieldFromInstruction(Insn, 0, 26) << 2) | ((Address + 4) & ~0x0FFFFFFF);
MCOperand_CreateImm0(Inst, TargetAddress);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBranchTarget21(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder)
{
int32_t BranchOffset = SignExtend32(Offset, 21) * 4;
MCOperand_CreateImm0(Inst, BranchOffset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBranchTarget26(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder)
{
int32_t BranchOffset = SignExtend32(Offset, 26) * 4;
MCOperand_CreateImm0(Inst, BranchOffset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBranchTarget7MM(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder)
{
int32_t BranchOffset = SignExtend32(Offset, 7) << 1;
MCOperand_CreateImm0(Inst, BranchOffset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBranchTarget10MM(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder)
{
int32_t BranchOffset = SignExtend32(Offset, 10) << 1;
MCOperand_CreateImm0(Inst, BranchOffset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeBranchTargetMM(MCInst *Inst,
unsigned Offset, uint64_t Address, MCRegisterInfo *Decoder)
{
int32_t BranchOffset = SignExtend32(Offset, 16) * 2;
MCOperand_CreateImm0(Inst, BranchOffset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeJumpTargetMM(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned JumpOffset = fieldFromInstruction(Insn, 0, 26) << 1;
MCOperand_CreateImm0(Inst, JumpOffset);
return MCDisassembler_Success;
}
static DecodeStatus DecodeAddiur2Simm7(MCInst *Inst,
unsigned Value, uint64_t Address, MCRegisterInfo *Decoder)
{
if (Value == 0)
MCOperand_CreateImm0(Inst, 1);
else if (Value == 0x7)
MCOperand_CreateImm0(Inst, -1);
else
MCOperand_CreateImm0(Inst, Value << 2);
return MCDisassembler_Success;
}
static DecodeStatus DecodeUImm6Lsl2(MCInst *Inst,
unsigned Value, uint64_t Address, MCRegisterInfo *Decoder)
{
MCOperand_CreateImm0(Inst, Value << 2);
return MCDisassembler_Success;
}
static DecodeStatus DecodeLiSimm7(MCInst *Inst,
unsigned Value, uint64_t Address, MCRegisterInfo *Decoder)
{
if (Value == 0x7F)
MCOperand_CreateImm0(Inst, -1);
else
MCOperand_CreateImm0(Inst, Value);
return MCDisassembler_Success;
}
static DecodeStatus DecodeSimm4(MCInst *Inst,
unsigned Value, uint64_t Address, MCRegisterInfo *Decoder)
{
MCOperand_CreateImm0(Inst, SignExtend32(Value, 4));
return MCDisassembler_Success;
}
static DecodeStatus DecodeSimm16(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
MCOperand_CreateImm0(Inst, SignExtend32(Insn, 16));
return MCDisassembler_Success;
}
static DecodeStatus DecodeLSAImm(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
// We add one to the immediate field as it was encoded as 'imm - 1'.
MCOperand_CreateImm0(Inst, Insn + 1);
return MCDisassembler_Success;
}
static DecodeStatus DecodeInsSize(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
// First we need to grab the pos(lsb) from MCInst.
int Pos = (int)MCOperand_getImm(MCInst_getOperand(Inst, 2));
int Size = (int) Insn - Pos + 1;
MCOperand_CreateImm0(Inst, SignExtend32(Size, 16));
return MCDisassembler_Success;
}
static DecodeStatus DecodeExtSize(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
int Size = (int)Insn + 1;
MCOperand_CreateImm0(Inst, SignExtend32(Size, 16));
return MCDisassembler_Success;
}
static DecodeStatus DecodeSimm19Lsl2(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
MCOperand_CreateImm0(Inst, SignExtend32(Insn, 19) * 4);
return MCDisassembler_Success;
}
static DecodeStatus DecodeSimm18Lsl3(MCInst *Inst,
unsigned Insn, uint64_t Address, MCRegisterInfo *Decoder)
{
MCOperand_CreateImm0(Inst, SignExtend32(Insn, 18) * 8);
return MCDisassembler_Success;
}
static DecodeStatus DecodeSimm9SP(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *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(Insn, 9); break;
}
MCOperand_CreateImm0(Inst, DecodedValue * 4);
return MCDisassembler_Success;
}
static DecodeStatus DecodeANDI16Imm(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *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};
if (Insn >= 16)
return MCDisassembler_Fail;
MCOperand_CreateImm0(Inst, DecodedValues[Insn]);
return MCDisassembler_Success;
}
static DecodeStatus DecodeUImm5lsl2(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder)
{
MCOperand_CreateImm0(Inst, Insn << 2);
return MCDisassembler_Success;
}
static DecodeStatus DecodeRegListOperand(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Regs[] = {Mips_S0, Mips_S1, Mips_S2, Mips_S3, Mips_S4, Mips_S5,
Mips_S6, Mips_FP};
unsigned RegNum;
unsigned int i;
unsigned RegLst = fieldFromInstruction(Insn, 21, 5);
// Empty register lists are not allowed.
if (RegLst == 0)
return MCDisassembler_Fail;
RegNum = RegLst & 0xf;
for (i = 0; i < MIN(RegNum, ARR_SIZE(Regs)); i++)
MCOperand_CreateReg0(Inst, Regs[i]);
if (RegLst & 0x10)
MCOperand_CreateReg0(Inst, Mips_RA);
return MCDisassembler_Success;
}
static DecodeStatus DecodeRegListOperand16(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned Regs[] = {Mips_S0, Mips_S1, Mips_S2, Mips_S3};
unsigned RegLst = fieldFromInstruction(Insn, 4, 2);
unsigned RegNum = RegLst & 0x3;
unsigned int i;
for (i = 0; i <= RegNum; i++)
MCOperand_CreateReg0(Inst, Regs[i]);
MCOperand_CreateReg0(Inst, Mips_RA);
return MCDisassembler_Success;
}
static DecodeStatus DecodeMovePRegPair(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder)
{
unsigned RegPair = fieldFromInstruction(Insn, 7, 3);
switch (RegPair) {
default:
return MCDisassembler_Fail;
case 0:
MCOperand_CreateReg0(Inst, Mips_A1);
MCOperand_CreateReg0(Inst, Mips_A2);
break;
case 1:
MCOperand_CreateReg0(Inst, Mips_A1);
MCOperand_CreateReg0(Inst, Mips_A3);
break;
case 2:
MCOperand_CreateReg0(Inst, Mips_A2);
MCOperand_CreateReg0(Inst, Mips_A3);
break;
case 3:
MCOperand_CreateReg0(Inst, Mips_A0);
MCOperand_CreateReg0(Inst, Mips_S5);
break;
case 4:
MCOperand_CreateReg0(Inst, Mips_A0);
MCOperand_CreateReg0(Inst, Mips_S6);
break;
case 5:
MCOperand_CreateReg0(Inst, Mips_A0);
MCOperand_CreateReg0(Inst, Mips_A1);
break;
case 6:
MCOperand_CreateReg0(Inst, Mips_A0);
MCOperand_CreateReg0(Inst, Mips_A2);
break;
case 7:
MCOperand_CreateReg0(Inst, Mips_A0);
MCOperand_CreateReg0(Inst, Mips_A3);
break;
}
return MCDisassembler_Success;
}
static DecodeStatus DecodeSimm23Lsl2(MCInst *Inst, unsigned Insn,
uint64_t Address, MCRegisterInfo *Decoder)
{
MCOperand_CreateImm0(Inst, SignExtend32(Insn, 23) << 2);
return MCDisassembler_Success;
}
#endif