extension-riscv-c.cc

mozilla-central/js/src/jit/riscv64/extension/extension-riscv-c.cc

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// Copyright 2022 the V8 project authors. All rights reserved.

// Use of this source code is governed by a BSD-style license that can be

// found in the LICENSE file.

#include "jit/riscv64/extension/extension-riscv-c.h"

#include "jit/riscv64/Assembler-riscv64.h"

#include "jit/riscv64/constant/Constant-riscv64.h"

#include "jit/riscv64/Architecture-riscv64.h"

namespace js {

namespace jit {

// RV64C Standard Extension

void AssemblerRISCVC::c_nop() { GenInstrCI(0b000, C1, zero_reg, 0); }

void AssemblerRISCVC::c_addi(Register rd, int8_t imm6) {

  MOZ_ASSERT(rd != zero_reg && imm6 != 0);

  GenInstrCI(0b000, C1, rd, imm6);

#ifdef JS_CODEGEN_RISCV64

void AssemblerRISCVC::c_addiw(Register rd, int8_t imm6) {

  MOZ_ASSERT(rd != zero_reg);

  GenInstrCI(0b001, C1, rd, imm6);

#endif

void AssemblerRISCVC::c_addi16sp(int16_t imm10) {

  MOZ_ASSERT(is_int10(imm10) && (imm10 & 0xf) == 0);

  uint8_t uimm6 = ((imm10 & 0x200) >> 4) | (imm10 & 0x10) |

                  ((imm10 & 0x40) >> 3) | ((imm10 & 0x180) >> 6) |

                  ((imm10 & 0x20) >> 5);

  GenInstrCIU(0b011, C1, sp, uimm6);

void AssemblerRISCVC::c_addi4spn(Register rd, int16_t uimm10) {

  MOZ_ASSERT(is_uint10(uimm10) && (uimm10 != 0));

  uint8_t uimm8 = ((uimm10 & 0x4) >> 1) | ((uimm10 & 0x8) >> 3) |

                  ((uimm10 & 0x30) << 2) | ((uimm10 & 0x3c0) >> 4);

  GenInstrCIW(0b000, C0, rd, uimm8);

void AssemblerRISCVC::c_li(Register rd, int8_t imm6) {

  MOZ_ASSERT(rd != zero_reg);

  GenInstrCI(0b010, C1, rd, imm6);

void AssemblerRISCVC::c_lui(Register rd, int8_t imm6) {

  MOZ_ASSERT(rd != zero_reg && rd != sp && imm6 != 0);

  GenInstrCI(0b011, C1, rd, imm6);

void AssemblerRISCVC::c_slli(Register rd, uint8_t shamt6) {

  MOZ_ASSERT(rd != zero_reg && shamt6 != 0);

  GenInstrCIU(0b000, C2, rd, shamt6);

void AssemblerRISCVC::c_fldsp(FPURegister rd, uint16_t uimm9) {

  MOZ_ASSERT(is_uint9(uimm9) && (uimm9 & 0x7) == 0);

  uint8_t uimm6 = (uimm9 & 0x38) | ((uimm9 & 0x1c0) >> 6);

  GenInstrCIU(0b001, C2, rd, uimm6);

#ifdef JS_CODEGEN_RISCV64

void AssemblerRISCVC::c_ldsp(Register rd, uint16_t uimm9) {

  MOZ_ASSERT(rd != zero_reg && is_uint9(uimm9) && (uimm9 & 0x7) == 0);

  uint8_t uimm6 = (uimm9 & 0x38) | ((uimm9 & 0x1c0) >> 6);

  GenInstrCIU(0b011, C2, rd, uimm6);

#endif

void AssemblerRISCVC::c_lwsp(Register rd, uint16_t uimm8) {

  MOZ_ASSERT(rd != zero_reg && is_uint8(uimm8) && (uimm8 & 0x3) == 0);

  uint8_t uimm6 = (uimm8 & 0x3c) | ((uimm8 & 0xc0) >> 6);

  GenInstrCIU(0b010, C2, rd, uimm6);

void AssemblerRISCVC::c_jr(Register rs1) {

  MOZ_ASSERT(rs1 != zero_reg);

  GenInstrCR(0b1000, C2, rs1, zero_reg);

void AssemblerRISCVC::c_mv(Register rd, Register rs2) {

  MOZ_ASSERT(rd != zero_reg && rs2 != zero_reg);

  GenInstrCR(0b1000, C2, rd, rs2);

void AssemblerRISCVC::c_ebreak() { GenInstrCR(0b1001, C2, zero_reg, zero_reg); }

void AssemblerRISCVC::c_jalr(Register rs1) {

  MOZ_ASSERT(rs1 != zero_reg);

  GenInstrCR(0b1001, C2, rs1, zero_reg);

void AssemblerRISCVC::c_add(Register rd, Register rs2) {

  MOZ_ASSERT(rd != zero_reg && rs2 != zero_reg);

  GenInstrCR(0b1001, C2, rd, rs2);

// CA Instructions

void AssemblerRISCVC::c_sub(Register rd, Register rs2) {

  MOZ_ASSERT(((rd.code() & 0b11000) == 0b01000) &&

             ((rs2.code() & 0b11000) == 0b01000));

  GenInstrCA(0b100011, C1, rd, 0b00, rs2);

void AssemblerRISCVC::c_xor(Register rd, Register rs2) {

  MOZ_ASSERT(((rd.code() & 0b11000) == 0b01000) &&

             ((rs2.code() & 0b11000) == 0b01000));

  GenInstrCA(0b100011, C1, rd, 0b01, rs2);

void AssemblerRISCVC::c_or(Register rd, Register rs2) {

  MOZ_ASSERT(((rd.code() & 0b11000) == 0b01000) &&

             ((rs2.code() & 0b11000) == 0b01000));

  GenInstrCA(0b100011, C1, rd, 0b10, rs2);

void AssemblerRISCVC::c_and(Register rd, Register rs2) {

  MOZ_ASSERT(((rd.code() & 0b11000) == 0b01000) &&

             ((rs2.code() & 0b11000) == 0b01000));

  GenInstrCA(0b100011, C1, rd, 0b11, rs2);

#ifdef JS_CODEGEN_RISCV64

void AssemblerRISCVC::c_subw(Register rd, Register rs2) {

  MOZ_ASSERT(((rd.code() & 0b11000) == 0b01000) &&

             ((rs2.code() & 0b11000) == 0b01000));

  GenInstrCA(0b100111, C1, rd, 0b00, rs2);

void AssemblerRISCVC::c_addw(Register rd, Register rs2) {

  MOZ_ASSERT(((rd.code() & 0b11000) == 0b01000) &&

             ((rs2.code() & 0b11000) == 0b01000));

  GenInstrCA(0b100111, C1, rd, 0b01, rs2);

#endif

void AssemblerRISCVC::c_swsp(Register rs2, uint16_t uimm8) {

  MOZ_ASSERT(is_uint8(uimm8) && (uimm8 & 0x3) == 0);

  uint8_t uimm6 = (uimm8 & 0x3c) | ((uimm8 & 0xc0) >> 6);

  GenInstrCSS(0b110, C2, rs2, uimm6);

#ifdef JS_CODEGEN_RISCV64

void AssemblerRISCVC::c_sdsp(Register rs2, uint16_t uimm9) {

  MOZ_ASSERT(is_uint9(uimm9) && (uimm9 & 0x7) == 0);

  uint8_t uimm6 = (uimm9 & 0x38) | ((uimm9 & 0x1c0) >> 6);

  GenInstrCSS(0b111, C2, rs2, uimm6);

#endif

void AssemblerRISCVC::c_fsdsp(FPURegister rs2, uint16_t uimm9) {

  MOZ_ASSERT(is_uint9(uimm9) && (uimm9 & 0x7) == 0);

  uint8_t uimm6 = (uimm9 & 0x38) | ((uimm9 & 0x1c0) >> 6);

  GenInstrCSS(0b101, C2, rs2, uimm6);

// CL Instructions

void AssemblerRISCVC::c_lw(Register rd, Register rs1, uint16_t uimm7) {

  MOZ_ASSERT(((rd.code() & 0b11000) == 0b01000) &&

             ((rs1.code() & 0b11000) == 0b01000) && is_uint7(uimm7) &&

             ((uimm7 & 0x3) == 0));

  uint8_t uimm5 =

      ((uimm7 & 0x4) >> 1) | ((uimm7 & 0x40) >> 6) | ((uimm7 & 0x38) >> 1);

  GenInstrCL(0b010, C0, rd, rs1, uimm5);

#ifdef JS_CODEGEN_RISCV64

void AssemblerRISCVC::c_ld(Register rd, Register rs1, uint16_t uimm8) {

  MOZ_ASSERT(((rd.code() & 0b11000) == 0b01000) &&

             ((rs1.code() & 0b11000) == 0b01000) && is_uint8(uimm8) &&

             ((uimm8 & 0x7) == 0));

  uint8_t uimm5 = ((uimm8 & 0x38) >> 1) | ((uimm8 & 0xc0) >> 6);

  GenInstrCL(0b011, C0, rd, rs1, uimm5);

#endif

void AssemblerRISCVC::c_fld(FPURegister rd, Register rs1, uint16_t uimm8) {

  MOZ_ASSERT(((rd.code() & 0b11000) == 0b01000) &&

             ((rs1.code() & 0b11000) == 0b01000) && is_uint8(uimm8) &&

             ((uimm8 & 0x7) == 0));

  uint8_t uimm5 = ((uimm8 & 0x38) >> 1) | ((uimm8 & 0xc0) >> 6);

  GenInstrCL(0b001, C0, rd, rs1, uimm5);

// CS Instructions

void AssemblerRISCVC::c_sw(Register rs2, Register rs1, uint16_t uimm7) {

  MOZ_ASSERT(((rs2.code() & 0b11000) == 0b01000) &&

             ((rs1.code() & 0b11000) == 0b01000) && is_uint7(uimm7) &&

             ((uimm7 & 0x3) == 0));

  uint8_t uimm5 =

      ((uimm7 & 0x4) >> 1) | ((uimm7 & 0x40) >> 6) | ((uimm7 & 0x38) >> 1);

  GenInstrCS(0b110, C0, rs2, rs1, uimm5);

#ifdef JS_CODEGEN_RISCV64

void AssemblerRISCVC::c_sd(Register rs2, Register rs1, uint16_t uimm8) {

  MOZ_ASSERT(((rs2.code() & 0b11000) == 0b01000) &&

             ((rs1.code() & 0b11000) == 0b01000) && is_uint8(uimm8) &&

             ((uimm8 & 0x7) == 0));

  uint8_t uimm5 = ((uimm8 & 0x38) >> 1) | ((uimm8 & 0xc0) >> 6);

  GenInstrCS(0b111, C0, rs2, rs1, uimm5);

#endif

void AssemblerRISCVC::c_fsd(FPURegister rs2, Register rs1, uint16_t uimm8) {

  MOZ_ASSERT(((rs2.code() & 0b11000) == 0b01000) &&

             ((rs1.code() & 0b11000) == 0b01000) && is_uint8(uimm8) &&

             ((uimm8 & 0x7) == 0));

  uint8_t uimm5 = ((uimm8 & 0x38) >> 1) | ((uimm8 & 0xc0) >> 6);

  GenInstrCS(0b101, C0, rs2, rs1, uimm5);

// CJ Instructions

void AssemblerRISCVC::c_j(int16_t imm12) {

  MOZ_ASSERT(is_int12(imm12));

  int16_t uimm11 = ((imm12 & 0x800) >> 1) | ((imm12 & 0x400) >> 4) |

                   ((imm12 & 0x300) >> 1) | ((imm12 & 0x80) >> 3) |

                   ((imm12 & 0x40) >> 1) | ((imm12 & 0x20) >> 5) |

                   ((imm12 & 0x10) << 5) | (imm12 & 0xe);

  GenInstrCJ(0b101, C1, uimm11);

// CB Instructions

void AssemblerRISCVC::c_bnez(Register rs1, int16_t imm9) {

  MOZ_ASSERT(((rs1.code() & 0b11000) == 0b01000) && is_int9(imm9));

  uint8_t uimm8 = ((imm9 & 0x20) >> 5) | ((imm9 & 0x6)) | ((imm9 & 0xc0) >> 3) |

                  ((imm9 & 0x18) << 2) | ((imm9 & 0x100) >> 1);

  GenInstrCB(0b111, C1, rs1, uimm8);

void AssemblerRISCVC::c_beqz(Register rs1, int16_t imm9) {

  MOZ_ASSERT(((rs1.code() & 0b11000) == 0b01000) && is_int9(imm9));

  uint8_t uimm8 = ((imm9 & 0x20) >> 5) | ((imm9 & 0x6)) | ((imm9 & 0xc0) >> 3) |

                  ((imm9 & 0x18) << 2) | ((imm9 & 0x100) >> 1);

  GenInstrCB(0b110, C1, rs1, uimm8);

void AssemblerRISCVC::c_srli(Register rs1, int8_t shamt6) {

  MOZ_ASSERT(((rs1.code() & 0b11000) == 0b01000) && is_int6(shamt6));

  GenInstrCBA(0b100, 0b00, C1, rs1, shamt6);

void AssemblerRISCVC::c_srai(Register rs1, int8_t shamt6) {

  MOZ_ASSERT(((rs1.code() & 0b11000) == 0b01000) && is_int6(shamt6));

  GenInstrCBA(0b100, 0b01, C1, rs1, shamt6);

void AssemblerRISCVC::c_andi(Register rs1, int8_t imm6) {

  MOZ_ASSERT(((rs1.code() & 0b11000) == 0b01000) && is_int6(imm6));

  GenInstrCBA(0b100, 0b10, C1, rs1, imm6);

bool AssemblerRISCVC::IsCJal(Instr instr) {

  return (instr & kRvcOpcodeMask) == RO_C_J;

bool AssemblerRISCVC::IsCBranch(Instr instr) {

  int Op = instr & kRvcOpcodeMask;

  return Op == RO_C_BNEZ || Op == RO_C_BEQZ;

int AssemblerRISCVC::CJumpOffset(Instr instr) {

  int32_t imm12 = ((instr & 0x4) << 3) | ((instr & 0x38) >> 2) |

                  ((instr & 0x40) << 1) | ((instr & 0x80) >> 1) |

                  ((instr & 0x100) << 2) | ((instr & 0x600) >> 1) |

                  ((instr & 0x800) >> 7) | ((instr & 0x1000) >> 1);

  imm12 = imm12 << 20 >> 20;

  return imm12;

}  // namespace jit

}  // namespace js