/* Copyright (c) 2013-2014 Jeffrey Pfau
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "decoder.h"
#include "decoder-inlines.h"
#include "emitter-arm.h"
#include "isa-inlines.h"
#define ADDR_MODE_1_SHIFT(OP) \
info->op3.reg = opcode & 0x0000000F; \
info->operandFormat |= ARM_OPERAND_REGISTER_3; \
if (opcode & 0x00000010) { \
info->op3.shifterOp = ARM_SHIFT_ ## OP; \
info->op3.shifterReg = (opcode >> 8) & 0xF; \
++info->iCycles; \
info->operandFormat |= ARM_OPERAND_SHIFT_REGISTER_3; \
} else { \
info->op3.shifterImm = (opcode >> 7) & 0x1F; \
info->operandFormat |= ARM_OPERAND_SHIFT_IMMEDIATE_3; \
}
#define ADDR_MODE_1_LSL \
ADDR_MODE_1_SHIFT(LSL) \
if (!info->op3.shifterImm) { \
info->operandFormat &= ~ARM_OPERAND_SHIFT_IMMEDIATE_3; \
info->op3.shifterOp = ARM_SHIFT_NONE; \
}
#define ADDR_MODE_1_LSR ADDR_MODE_1_SHIFT(LSR)
#define ADDR_MODE_1_ASR ADDR_MODE_1_SHIFT(ASR)
#define ADDR_MODE_1_ROR \
ADDR_MODE_1_SHIFT(ROR) \
if (!info->op3.shifterImm) { \
info->op3.shifterOp = ARM_SHIFT_RRX; \
}
#define ADDR_MODE_1_IMM \
int rotate = (opcode & 0x00000F00) >> 7; \
int immediate = opcode & 0x000000FF; \
info->op3.immediate = ROR(immediate, rotate); \
info->operandFormat |= ARM_OPERAND_IMMEDIATE_3;
#define ADDR_MODE_2_SHIFT(OP) \
info->memory.format |= ARM_MEMORY_REGISTER_OFFSET | ARM_MEMORY_SHIFTED_OFFSET; \
info->memory.offset.shifterOp = ARM_SHIFT_ ## OP; \
info->memory.offset.shifterImm = (opcode >> 7) & 0x1F; \
info->memory.offset.reg = opcode & 0x0000000F;
#define ADDR_MODE_2_LSL \
ADDR_MODE_2_SHIFT(LSL) \
if (!info->memory.offset.shifterImm) { \
info->memory.format &= ~ARM_MEMORY_SHIFTED_OFFSET; \
info->memory.offset.shifterOp = ARM_SHIFT_NONE; \
}
#define ADDR_MODE_2_LSR ADDR_MODE_2_SHIFT(LSR) \
if (!info->memory.offset.shifterImm) { \
info->memory.offset.shifterImm = 32; \
}
#define ADDR_MODE_2_ASR ADDR_MODE_2_SHIFT(ASR) \
if (!info->memory.offset.shifterImm) { \
info->memory.offset.shifterImm = 32; \
}
#define ADDR_MODE_2_ROR \
ADDR_MODE_2_SHIFT(ROR) \
if (!info->memory.offset.shifterImm) { \
info->memory.offset.shifterOp = ARM_SHIFT_RRX; \
}
#define ADDR_MODE_2_IMM \
info->memory.format |= ARM_MEMORY_IMMEDIATE_OFFSET; \
info->memory.offset.immediate = opcode & 0x00000FFF;
#define ADDR_MODE_3_REG \
info->memory.format |= ARM_MEMORY_REGISTER_OFFSET; \
info->memory.offset.reg = opcode & 0x0000000F;
#define ADDR_MODE_3_IMM \
info->memory.format |= ARM_MEMORY_IMMEDIATE_OFFSET; \
info->memory.offset.immediate = (opcode & 0x0000000F) | ((opcode & 0x00000F00) >> 4);
#define DEFINE_DECODER_ARM(NAME, MNEMONIC, BODY) \
static void _ARMDecode ## NAME (uint32_t opcode, struct ARMInstructionInfo* info) { \
UNUSED(opcode); \
info->mnemonic = ARM_MN_ ## MNEMONIC; \
BODY; \
}
#define DEFINE_ALU_DECODER_EX_ARM(NAME, MNEMONIC, S, SHIFTER, OTHER_AFFECTED, SKIPPED) \
DEFINE_DECODER_ARM(NAME, MNEMONIC, \
info->op1.reg = (opcode >> 12) & 0xF; \
info->op2.reg = (opcode >> 16) & 0xF; \
info->operandFormat = ARM_OPERAND_REGISTER_1 | \
OTHER_AFFECTED | \
ARM_OPERAND_REGISTER_2; \
info->affectsCPSR = S; \
SHIFTER; \
if (SKIPPED == 1) { \
info->operandFormat >>= 8; \
info->op1 = info->op2; \
info->op2 = info->op3; \
} else if (SKIPPED == 2) { \
info->operandFormat &= ~ARM_OPERAND_2; \
} \
if (info->op1.reg == ARM_PC) { \
info->branchType = ARM_BRANCH_INDIRECT; \
})
#define DEFINE_ALU_DECODER_ARM(NAME, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## _LSL, NAME, 0, ADDR_MODE_1_LSL, ARM_OPERAND_AFFECTED_1, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## S_LSL, NAME, 1, ADDR_MODE_1_LSL, ARM_OPERAND_AFFECTED_1, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## _LSR, NAME, 0, ADDR_MODE_1_LSR, ARM_OPERAND_AFFECTED_1, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## S_LSR, NAME, 1, ADDR_MODE_1_LSR, ARM_OPERAND_AFFECTED_1, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## _ASR, NAME, 0, ADDR_MODE_1_ASR, ARM_OPERAND_AFFECTED_1, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## S_ASR, NAME, 1, ADDR_MODE_1_ASR, ARM_OPERAND_AFFECTED_1, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## _ROR, NAME, 0, ADDR_MODE_1_ROR, ARM_OPERAND_AFFECTED_1, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## S_ROR, NAME, 1, ADDR_MODE_1_ROR, ARM_OPERAND_AFFECTED_1, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## I, NAME, 0, ADDR_MODE_1_IMM, ARM_OPERAND_AFFECTED_1, SKIPPED) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## SI, NAME, 1, ADDR_MODE_1_IMM, ARM_OPERAND_AFFECTED_1, SKIPPED)
#define DEFINE_ALU_DECODER_S_ONLY_ARM(NAME) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## _LSL, NAME, 1, ADDR_MODE_1_LSL, ARM_OPERAND_NONE, 1) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## _LSR, NAME, 1, ADDR_MODE_1_LSR, ARM_OPERAND_NONE, 1) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## _ASR, NAME, 1, ADDR_MODE_1_ASR, ARM_OPERAND_NONE, 1) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## _ROR, NAME, 1, ADDR_MODE_1_ROR, ARM_OPERAND_NONE, 1) \
DEFINE_ALU_DECODER_EX_ARM(NAME ## I, NAME, 1, ADDR_MODE_1_IMM, ARM_OPERAND_NONE, 1)
#define DEFINE_MULTIPLY_DECODER_EX_ARM(NAME, MNEMONIC, S, OTHER_AFFECTED) \
DEFINE_DECODER_ARM(NAME, MNEMONIC, \
info->op1.reg = (opcode >> 16) & 0xF; \
info->op2.reg = opcode & 0xF; \
info->op3.reg = (opcode >> 8) & 0xF; \
info->op4.reg = (opcode >> 12) & 0xF; \
info->operandFormat = ARM_OPERAND_REGISTER_1 | \
ARM_OPERAND_AFFECTED_1 | \
ARM_OPERAND_REGISTER_2 | \
ARM_OPERAND_REGISTER_3 | \
OTHER_AFFECTED; \
info->affectsCPSR = S; \
if (info->op1.reg == ARM_PC) { \
info->branchType = ARM_BRANCH_INDIRECT; \
})
#define DEFINE_LONG_MULTIPLY_DECODER_EX_ARM(NAME, MNEMONIC, S) \
DEFINE_DECODER_ARM(NAME, MNEMONIC, \
info->op1.reg = (opcode >> 12) & 0xF; \
info->op2.reg = (opcode >> 16) & 0xF; \
info->op3.reg = opcode & 0xF; \
info->op4.reg = (opcode >> 8) & 0xF; \
info->operandFormat = ARM_OPERAND_REGISTER_1 | \
ARM_OPERAND_AFFECTED_1 | \
ARM_OPERAND_REGISTER_2 | \
ARM_OPERAND_AFFECTED_2 | \
ARM_OPERAND_REGISTER_3 | \
ARM_OPERAND_REGISTER_4; \
info->affectsCPSR = S; \
if (info->op1.reg == ARM_PC) { \
info->branchType = ARM_BRANCH_INDIRECT; \
})
#define DEFINE_MULTIPLY_DECODER_ARM(NAME, OTHER_AFFECTED) \
DEFINE_MULTIPLY_DECODER_EX_ARM(NAME, NAME, 0, OTHER_AFFECTED) \
DEFINE_MULTIPLY_DECODER_EX_ARM(NAME ## S, NAME, 1, OTHER_AFFECTED)
#define DEFINE_LONG_MULTIPLY_DECODER_ARM(NAME) \
DEFINE_LONG_MULTIPLY_DECODER_EX_ARM(NAME, NAME, 0) \
DEFINE_LONG_MULTIPLY_DECODER_EX_ARM(NAME ## S, NAME, 1)
#define DEFINE_LOAD_STORE_DECODER_EX_ARM(NAME, MNEMONIC, ADDRESSING_MODE, ADDRESSING_DECODING, CYCLES, TYPE) \
DEFINE_DECODER_ARM(NAME, MNEMONIC, \
info->op1.reg = (opcode >> 12) & 0xF; \
info->memory.baseReg = (opcode >> 16) & 0xF; \
info->memory.width = TYPE; \
info->operandFormat = ARM_OPERAND_REGISTER_1 | \
ARM_OPERAND_AFFECTED_1 | /* TODO: Remove this for STR */ \
ARM_OPERAND_MEMORY_2; \
info->memory.format = ARM_MEMORY_REGISTER_BASE | ADDRESSING_MODE; \
ADDRESSING_DECODING; \
CYCLES;)
#define DEFINE_LOAD_STORE_DECODER_SET_ARM(NAME, MNEMONIC, ADDRESSING_MODE, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_EX_ARM(NAME, MNEMONIC, \
ARM_MEMORY_POST_INCREMENT | \
ARM_MEMORY_WRITEBACK | \
ARM_MEMORY_OFFSET_SUBTRACT, \
ADDRESSING_MODE, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_EX_ARM(NAME ## U, MNEMONIC, \
ARM_MEMORY_POST_INCREMENT | \
ARM_MEMORY_WRITEBACK, \
ADDRESSING_MODE, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_EX_ARM(NAME ## P, MNEMONIC, \
ARM_MEMORY_OFFSET_SUBTRACT, \
ADDRESSING_MODE, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_EX_ARM(NAME ## PW, MNEMONIC, \
ARM_MEMORY_PRE_INCREMENT | \
ARM_MEMORY_WRITEBACK | \
ARM_MEMORY_OFFSET_SUBTRACT, \
ADDRESSING_MODE, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_EX_ARM(NAME ## PU, MNEMONIC, \
0, \
ADDRESSING_MODE, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_EX_ARM(NAME ## PUW, MNEMONIC, \
ARM_MEMORY_WRITEBACK, \
ADDRESSING_MODE, CYCLES, TYPE)
#define DEFINE_LOAD_STORE_MODE_2_DECODER_ARM(NAME, MNEMONIC, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_SET_ARM(NAME ## _LSL_, MNEMONIC, ADDR_MODE_2_LSL, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_SET_ARM(NAME ## _LSR_, MNEMONIC, ADDR_MODE_2_LSR, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_SET_ARM(NAME ## _ASR_, MNEMONIC, ADDR_MODE_2_ASR, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_SET_ARM(NAME ## _ROR_, MNEMONIC, ADDR_MODE_2_ROR, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_SET_ARM(NAME ## I, MNEMONIC, ADDR_MODE_2_IMM, CYCLES, TYPE)
#define DEFINE_LOAD_STORE_MODE_3_DECODER_ARM(NAME, MNEMONIC, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_SET_ARM(NAME, MNEMONIC, ADDR_MODE_3_REG, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_SET_ARM(NAME ## I, MNEMONIC, ADDR_MODE_3_IMM, CYCLES, TYPE)
#define DEFINE_LOAD_STORE_T_DECODER_SET_ARM(NAME, MNEMONIC, ADDRESSING_MODE, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_EX_ARM(NAME, MNEMONIC, \
ARM_MEMORY_POST_INCREMENT | \
ARM_MEMORY_WRITEBACK | \
ARM_MEMORY_OFFSET_SUBTRACT, \
ADDRESSING_MODE, CYCLES, TYPE) \
DEFINE_LOAD_STORE_DECODER_EX_ARM(NAME ## U, MNEMONIC, \
ARM_MEMORY_POST_INCREMENT | \
ARM_MEMORY_WRITEBACK, \
ADDRESSING_MODE, CYCLES, TYPE)
#define DEFINE_LOAD_STORE_T_DECODER_ARM(NAME, MNEMONIC, CYCLES, TYPE) \
DEFINE_LOAD_STORE_T_DECODER_SET_ARM(NAME ## _LSL_, MNEMONIC, ADDR_MODE_2_LSL, CYCLES, TYPE) \
DEFINE_LOAD_STORE_T_DECODER_SET_ARM(NAME ## _LSR_, MNEMONIC, ADDR_MODE_2_LSR, CYCLES, TYPE) \
DEFINE_LOAD_STORE_T_DECODER_SET_ARM(NAME ## _ASR_, MNEMONIC, ADDR_MODE_2_ASR, CYCLES, TYPE) \
DEFINE_LOAD_STORE_T_DECODER_SET_ARM(NAME ## _ROR_, MNEMONIC, ADDR_MODE_2_ROR, CYCLES, TYPE) \
DEFINE_LOAD_STORE_T_DECODER_SET_ARM(NAME ## I, MNEMONIC, ADDR_MODE_2_IMM, CYCLES, TYPE)
#define DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME, MNEMONIC, DIRECTION, WRITEBACK) \
DEFINE_DECODER_ARM(NAME, MNEMONIC, \
info->memory.baseReg = (opcode >> 16) & 0xF; \
info->op1.immediate = opcode & 0x0000FFFF; \
if (info->op1.immediate & (1 << ARM_PC)) { \
info->branchType = ARM_BRANCH_INDIRECT; \
} \
info->operandFormat = ARM_OPERAND_MEMORY_1; \
info->memory.format = ARM_MEMORY_REGISTER_BASE | \
WRITEBACK | \
ARM_MEMORY_ ## DIRECTION;)
#define DEFINE_LOAD_STORE_MULTIPLE_DECODER_ARM(NAME) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## DA, NAME, DECREMENT_AFTER, 0) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## DAW, NAME, DECREMENT_AFTER, ARM_MEMORY_WRITEBACK) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## DB, NAME, DECREMENT_BEFORE, 0) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## DBW, NAME, DECREMENT_BEFORE, ARM_MEMORY_WRITEBACK) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## IA, NAME, INCREMENT_AFTER, 0) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## IAW, NAME, INCREMENT_AFTER, ARM_MEMORY_WRITEBACK) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## IB, NAME, INCREMENT_BEFORE, 0) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## IBW, NAME, INCREMENT_BEFORE, ARM_MEMORY_WRITEBACK) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## SDA, NAME, DECREMENT_AFTER, ARM_MEMORY_SPSR_SWAP) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## SDAW, NAME, DECREMENT_AFTER, ARM_MEMORY_WRITEBACK | ARM_MEMORY_SPSR_SWAP) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## SDB, NAME, DECREMENT_BEFORE, ARM_MEMORY_SPSR_SWAP) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## SDBW, NAME, DECREMENT_BEFORE, ARM_MEMORY_WRITEBACK | ARM_MEMORY_SPSR_SWAP) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## SIA, NAME, INCREMENT_AFTER, ARM_MEMORY_SPSR_SWAP) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## SIAW, NAME, INCREMENT_AFTER, ARM_MEMORY_WRITEBACK | ARM_MEMORY_SPSR_SWAP) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## SIB, NAME, INCREMENT_BEFORE, ARM_MEMORY_SPSR_SWAP) \
DEFINE_LOAD_STORE_MULTIPLE_DECODER_EX_ARM(NAME ## SIBW, NAME, INCREMENT_BEFORE, ARM_MEMORY_WRITEBACK | ARM_MEMORY_SPSR_SWAP)
#define DEFINE_SWP_DECODER_ARM(NAME, TYPE) \
DEFINE_DECODER_ARM(NAME, SWP, \
info->memory.baseReg = (opcode >> 16) & 0xF; \
info->op1.reg = (opcode >> 12) & 0xF; \
info->op2.reg = opcode & 0xF; \
info->operandFormat = ARM_OPERAND_REGISTER_1 | \
ARM_OPERAND_AFFECTED_1 | \
ARM_OPERAND_REGISTER_2 | \
ARM_OPERAND_MEMORY_3; \
info->memory.format = ARM_MEMORY_REGISTER_BASE; \
info->memory.width = TYPE;)
DEFINE_ALU_DECODER_ARM(ADD, 0)
DEFINE_ALU_DECODER_ARM(ADC, 0)
DEFINE_ALU_DECODER_ARM(AND, 0)
DEFINE_ALU_DECODER_ARM(BIC, 0)
DEFINE_ALU_DECODER_S_ONLY_ARM(CMN)
DEFINE_ALU_DECODER_S_ONLY_ARM(CMP)
DEFINE_ALU_DECODER_ARM(EOR, 0)
DEFINE_ALU_DECODER_ARM(MOV, 2)
DEFINE_ALU_DECODER_ARM(MVN, 2)
DEFINE_ALU_DECODER_ARM(ORR, 0)
DEFINE_ALU_DECODER_ARM(RSB, 0)
DEFINE_ALU_DECODER_ARM(RSC, 0)
DEFINE_ALU_DECODER_ARM(SBC, 0)
DEFINE_ALU_DECODER_ARM(SUB, 0)
DEFINE_ALU_DECODER_S_ONLY_ARM(TEQ)
DEFINE_ALU_DECODER_S_ONLY_ARM(TST)
// TOOD: Estimate cycles
DEFINE_MULTIPLY_DECODER_ARM(MLA, ARM_OPERAND_REGISTER_4)
DEFINE_MULTIPLY_DECODER_ARM(MUL, ARM_OPERAND_NONE)
DEFINE_LONG_MULTIPLY_DECODER_ARM(SMLAL)
DEFINE_LONG_MULTIPLY_DECODER_ARM(SMULL)
DEFINE_LONG_MULTIPLY_DECODER_ARM(UMLAL)
DEFINE_LONG_MULTIPLY_DECODER_ARM(UMULL)
// Begin load/store definitions
DEFINE_LOAD_STORE_MODE_2_DECODER_ARM(LDR, LDR, LOAD_CYCLES, ARM_ACCESS_WORD)
DEFINE_LOAD_STORE_MODE_2_DECODER_ARM(LDRB, LDR, LOAD_CYCLES, ARM_ACCESS_BYTE)
DEFINE_LOAD_STORE_MODE_3_DECODER_ARM(LDRH, LDR, LOAD_CYCLES, ARM_ACCESS_HALFWORD)
DEFINE_LOAD_STORE_MODE_3_DECODER_ARM(LDRSB, LDR, LOAD_CYCLES, ARM_ACCESS_SIGNED_BYTE)
DEFINE_LOAD_STORE_MODE_3_DECODER_ARM(LDRSH, LDR, LOAD_CYCLES, ARM_ACCESS_SIGNED_HALFWORD)
DEFINE_LOAD_STORE_MODE_2_DECODER_ARM(STR, STR, STORE_CYCLES, ARM_ACCESS_WORD)
DEFINE_LOAD_STORE_MODE_2_DECODER_ARM(STRB, STR, STORE_CYCLES, ARM_ACCESS_BYTE)
DEFINE_LOAD_STORE_MODE_3_DECODER_ARM(STRH, STR, STORE_CYCLES, ARM_ACCESS_HALFWORD)
DEFINE_LOAD_STORE_T_DECODER_ARM(LDRBT, LDR, LOAD_CYCLES, ARM_ACCESS_TRANSLATED_BYTE)
DEFINE_LOAD_STORE_T_DECODER_ARM(LDRT, LDR, LOAD_CYCLES, ARM_ACCESS_TRANSLATED_WORD)
DEFINE_LOAD_STORE_T_DECODER_ARM(STRBT, STR, STORE_CYCLES, ARM_ACCESS_TRANSLATED_BYTE)
DEFINE_LOAD_STORE_T_DECODER_ARM(STRT, STR, STORE_CYCLES, ARM_ACCESS_TRANSLATED_WORD)
DEFINE_LOAD_STORE_MULTIPLE_DECODER_ARM(LDM)
DEFINE_LOAD_STORE_MULTIPLE_DECODER_ARM(STM)
DEFINE_SWP_DECODER_ARM(SWP, ARM_ACCESS_WORD)
DEFINE_SWP_DECODER_ARM(SWPB, ARM_ACCESS_BYTE)
// End load/store definitions
// Begin branch definitions
DEFINE_DECODER_ARM(B, B,
int32_t offset = opcode << 8;
info->op1.immediate = offset >> 6;
info->operandFormat = ARM_OPERAND_IMMEDIATE_1;
info->branchType = ARM_BRANCH;)
DEFINE_DECODER_ARM(BL, BL,
int32_t offset = opcode << 8;
info->op1.immediate = offset >> 6;
info->operandFormat = ARM_OPERAND_IMMEDIATE_1;
info->branchType = ARM_BRANCH_LINKED;)
DEFINE_DECODER_ARM(BX, BX,
info->op1.reg = opcode & 0x0000000F;
info->operandFormat = ARM_OPERAND_REGISTER_1;
info->branchType = ARM_BRANCH_INDIRECT;)
// End branch definitions
// Begin coprocessor definitions
DEFINE_DECODER_ARM(CDP, ILL, info->operandFormat = ARM_OPERAND_NONE;)
DEFINE_DECODER_ARM(LDC, ILL, info->operandFormat = ARM_OPERAND_NONE;)
DEFINE_DECODER_ARM(STC, ILL, info->operandFormat = ARM_OPERAND_NONE;)
DEFINE_DECODER_ARM(MCR, ILL, info->operandFormat = ARM_OPERAND_NONE;)
DEFINE_DECODER_ARM(MRC, ILL, info->operandFormat = ARM_OPERAND_NONE;)
// Begin miscellaneous definitions
DEFINE_DECODER_ARM(BKPT, BKPT,
info->operandFormat = ARM_OPERAND_NONE;
info->traps = 1;) // Not strictly in ARMv4T, but here for convenience
DEFINE_DECODER_ARM(ILL, ILL,
info->operandFormat = ARM_OPERAND_NONE;
info->traps = 1;) // Illegal opcode
DEFINE_DECODER_ARM(MSR, MSR,
info->affectsCPSR = 1;
info->op1.reg = ARM_CPSR;
info->op1.psrBits = (opcode >> 16) & ARM_PSR_MASK;
info->op2.reg = opcode & 0x0000000F;
info->operandFormat = ARM_OPERAND_REGISTER_1 |
ARM_OPERAND_AFFECTED_1 |
ARM_OPERAND_REGISTER_2;)
DEFINE_DECODER_ARM(MSRR, MSR,
info->op1.reg = ARM_SPSR;
info->op1.psrBits = (opcode >> 16) & ARM_PSR_MASK;
info->op2.reg = opcode & 0x0000000F;
info->operandFormat = ARM_OPERAND_REGISTER_1 |
ARM_OPERAND_AFFECTED_1 |
ARM_OPERAND_REGISTER_2;)
DEFINE_DECODER_ARM(MRS, MRS,
info->affectsCPSR = 1;
info->op1.reg = (opcode >> 12) & 0xF;
info->op2.reg = ARM_CPSR;
info->op2.psrBits = 0;
info->operandFormat = ARM_OPERAND_REGISTER_1 |
ARM_OPERAND_AFFECTED_1 |
ARM_OPERAND_REGISTER_2;)
DEFINE_DECODER_ARM(MRSR, MRS,
info->op1.reg = (opcode >> 12) & 0xF;
info->op2.reg = ARM_SPSR;
info->op2.psrBits = 0;
info->operandFormat = ARM_OPERAND_REGISTER_1 |
ARM_OPERAND_AFFECTED_1 |
ARM_OPERAND_REGISTER_2;)
DEFINE_DECODER_ARM(MSRI, MSR,
int rotate = (opcode & 0x00000F00) >> 7;
int32_t operand = ROR(opcode & 0x000000FF, rotate);
info->affectsCPSR = 1;
info->op1.reg = ARM_CPSR;
info->op1.psrBits = (opcode >> 16) & ARM_PSR_MASK;
info->op2.immediate = operand;
info->operandFormat = ARM_OPERAND_REGISTER_1 |
ARM_OPERAND_AFFECTED_1 |
ARM_OPERAND_IMMEDIATE_2;)
DEFINE_DECODER_ARM(MSRRI, MSR,
int rotate = (opcode & 0x00000F00) >> 7;
int32_t operand = ROR(opcode & 0x000000FF, rotate);
info->op1.reg = ARM_SPSR;
info->op1.psrBits = (opcode >> 16) & ARM_PSR_MASK;
info->op2.immediate = operand;
info->operandFormat = ARM_OPERAND_REGISTER_1 |
ARM_OPERAND_AFFECTED_1 |
ARM_OPERAND_IMMEDIATE_2;)
DEFINE_DECODER_ARM(SWI, SWI,
info->op1.immediate = opcode & 0xFFFFFF;
info->operandFormat = ARM_OPERAND_IMMEDIATE_1;
info->traps = 1;)
typedef void (*ARMDecoder)(uint32_t opcode, struct ARMInstructionInfo* info);
static const ARMDecoder _armDecoderTable[0x1000] = {
DECLARE_ARM_EMITTER_BLOCK(_ARMDecode)
};
void ARMDecodeARM(uint32_t opcode, struct ARMInstructionInfo* info) {
info->execMode = MODE_ARM;
info->opcode = opcode;
info->branchType = ARM_BRANCH_NONE;
info->traps = 0;
info->affectsCPSR = 0;
info->condition = opcode >> 28;
info->sDataCycles = 0;
info->nDataCycles = 0;
info->sInstructionCycles = 1;
info->nInstructionCycles = 0;
info->iCycles = 0;
info->cCycles = 0;
ARMDecoder decoder = _armDecoderTable[((opcode >> 16) & 0xFF0) | ((opcode >> 4) & 0x00F)];
decoder(opcode, info);
}