/* Copyright (c) 2018 tevador This file is part of RandomX. RandomX is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. RandomX is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with RandomX. If not, see. */ #pragma once #include "common.hpp" #include "Instruction.hpp" #include #include namespace RandomX { class Program; class JitCompilerX86; typedef void(JitCompilerX86::*InstructionGeneratorX86)(Instruction&); constexpr uint32_t CodeSize = 64 * 1024; class JitCompilerX86 { public: JitCompilerX86(); void generateProgram(Program&); ProgramFunc getProgramFunc() { return (ProgramFunc)code; } uint8_t* getCode() { return code; } size_t getCodeSize(); private: static InstructionGeneratorX86 engine[256]; uint8_t* code; int32_t codePos; void genAddressReg(Instruction&, bool); void genAddressRegDst(Instruction&, bool); void genAddressImm(Instruction&); void genSIB(int scale, int index, int base); void generateCode(Instruction&); void emitByte(uint8_t val) { code[codePos] = val; codePos++; } void emit32(uint32_t val) { code[codePos + 0] = val; code[codePos + 1] = val >> 8; code[codePos + 2] = val >> 16; code[codePos + 3] = val >> 24; codePos += 4; } void emit64(uint64_t val) { code[codePos + 0] = val; code[codePos + 1] = val >> 8; code[codePos + 2] = val >> 16; code[codePos + 3] = val >> 24; code[codePos + 4] = val >> 32; code[codePos + 5] = val >> 40; code[codePos + 6] = val >> 48; code[codePos + 7] = val >> 56; codePos += 8; } template void emit(const uint8_t (&src)[N]) { for (unsigned i = 0; i < N; ++i) { code[codePos + i] = src[i]; } codePos += N; } void h_IADD_R(Instruction&); void h_IADD_M(Instruction&); void h_IADD_RC(Instruction&); void h_ISUB_R(Instruction&); void h_ISUB_M(Instruction&); void h_IMUL_9C(Instruction&); void h_IMUL_R(Instruction&); void h_IMUL_M(Instruction&); void h_IMULH_R(Instruction&); void h_IMULH_M(Instruction&); void h_ISMULH_R(Instruction&); void h_ISMULH_M(Instruction&); void h_IDIV_C(Instruction&); void h_ISDIV_C(Instruction&); void h_INEG_R(Instruction&); void h_IXOR_R(Instruction&); void h_IXOR_M(Instruction&); void h_IROR_R(Instruction&); void h_IROL_R(Instruction&); void h_ISWAP_R(Instruction&); void h_FSWAP_R(Instruction&); void h_FADD_R(Instruction&); void h_FADD_M(Instruction&); void h_FSUB_R(Instruction&); void h_FSUB_M(Instruction&); void h_FNEG_R(Instruction&); void h_FMUL_R(Instruction&); void h_FMUL_M(Instruction&); void h_FDIV_R(Instruction&); void h_FDIV_M(Instruction&); void h_FSQRT_R(Instruction&); void h_COND_R(Instruction&); void h_COND_M(Instruction&); void h_CFROUND(Instruction&); void h_ISTORE(Instruction&); void h_FSTORE(Instruction&); void h_NOP(Instruction&); }; }