// See LICENSE for license details. #include "disasm.h" #include "assert.h" #include #include #include #include #include struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.i_imm()) + '(' + xpr_name[insn.rs1()] + ')'; } } load_address; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.s_imm()) + '(' + xpr_name[insn.rs1()] + ')'; } } store_address; struct : public arg_t { std::string to_string(insn_t insn) const { return std::string("(") + xpr_name[insn.rs1()] + ')'; } } amo_address; struct : public arg_t { std::string to_string(insn_t insn) const { return xpr_name[insn.rd()]; } } xrd; struct : public arg_t { std::string to_string(insn_t insn) const { return xpr_name[insn.rs1()]; } } xrs1; struct : public arg_t { std::string to_string(insn_t insn) const { return xpr_name[insn.rs2()]; } } xrs2; struct : public arg_t { std::string to_string(insn_t insn) const { return fpr_name[insn.rd()]; } } frd; struct : public arg_t { std::string to_string(insn_t insn) const { return fpr_name[insn.rs1()]; } } frs1; struct : public arg_t { std::string to_string(insn_t insn) const { return fpr_name[insn.rs2()]; } } frs2; struct : public arg_t { std::string to_string(insn_t insn) const { return fpr_name[insn.rs3()]; } } frs3; struct : public arg_t { std::string to_string(insn_t insn) const { switch (insn.csr()) { #define DECLARE_CSR(name, num) case num: return #name; #include "encoding.h" #undef DECLARE_CSR default: { char buf[16]; snprintf(buf, sizeof buf, "unknown_%03" PRIx64, insn.csr()); return std::string(buf); } } } } csr; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.i_imm()); } } imm; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.shamt()); } } shamt; struct : public arg_t { std::string to_string(insn_t insn) const { std::stringstream s; s << std::hex << "0x" << ((uint32_t)insn.u_imm() >> 12); return s.str(); } } bigimm; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string(insn.rs1()); } } zimm5; struct : public arg_t { std::string to_string(insn_t insn) const { std::stringstream s; int32_t target = insn.sb_imm(); char sign = target >= 0 ? '+' : '-'; s << "pc " << sign << ' ' << abs(target); return s.str(); } } branch_target; struct : public arg_t { std::string to_string(insn_t insn) const { std::stringstream s; int32_t target = insn.uj_imm(); char sign = target >= 0 ? '+' : '-'; s << "pc " << sign << std::hex << " 0x" << abs(target); return s.str(); } } jump_target; struct : public arg_t { std::string to_string(insn_t insn) const { return xpr_name[insn.rvc_rs1()]; } } rvc_rs1; struct : public arg_t { std::string to_string(insn_t insn) const { return xpr_name[insn.rvc_rs2()]; } } rvc_rs2; struct : public arg_t { std::string to_string(insn_t insn) const { return fpr_name[insn.rvc_rs2()]; } } rvc_fp_rs2; struct : public arg_t { std::string to_string(insn_t insn) const { return xpr_name[insn.rvc_rs1s()]; } } rvc_rs1s; struct : public arg_t { std::string to_string(insn_t insn) const { return xpr_name[insn.rvc_rs2s()]; } } rvc_rs2s; struct : public arg_t { std::string to_string(insn_t insn) const { return fpr_name[insn.rvc_rs2s()]; } } rvc_fp_rs2s; struct : public arg_t { std::string to_string(insn_t insn) const { return xpr_name[X_SP]; } } rvc_sp; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_imm()); } } rvc_imm; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_addi4spn_imm()); } } rvc_addi4spn_imm; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_addi16sp_imm()); } } rvc_addi16sp_imm; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_lwsp_imm()); } } rvc_lwsp_imm; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)(insn.rvc_imm() & 0x3f)); } } rvc_shamt; struct : public arg_t { std::string to_string(insn_t insn) const { std::stringstream s; s << std::hex << "0x" << ((uint32_t)insn.rvc_imm() << 12 >> 12); return s.str(); } } rvc_uimm; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_lwsp_imm()) + '(' + xpr_name[X_SP] + ')'; } } rvc_lwsp_address; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_ldsp_imm()) + '(' + xpr_name[X_SP] + ')'; } } rvc_ldsp_address; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_swsp_imm()) + '(' + xpr_name[X_SP] + ')'; } } rvc_swsp_address; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_sdsp_imm()) + '(' + xpr_name[X_SP] + ')'; } } rvc_sdsp_address; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_lw_imm()) + '(' + xpr_name[insn.rvc_rs1s()] + ')'; } } rvc_lw_address; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.rvc_ld_imm()) + '(' + xpr_name[insn.rvc_rs1s()] + ')'; } } rvc_ld_address; struct : public arg_t { std::string to_string(insn_t insn) const { std::stringstream s; int32_t target = insn.rvc_b_imm(); char sign = target >= 0 ? '+' : '-'; s << "pc " << sign << ' ' << abs(target); return s.str(); } } rvc_branch_target; struct : public arg_t { std::string to_string(insn_t insn) const { std::stringstream s; int32_t target = insn.rvc_j_imm(); char sign = target >= 0 ? '+' : '-'; s << "pc " << sign << ' ' << abs(target); return s.str(); } } rvc_jump_target; struct : public arg_t { std::string to_string(insn_t insn) const { return std::string("(") + xpr_name[insn.rs1()] + ')'; } } v_address; struct : public arg_t { std::string to_string(insn_t insn) const { return vr_name[insn.rd()]; } } vd; struct : public arg_t { std::string to_string(insn_t insn) const { return vr_name[insn.rs1()]; } } vs1; struct : public arg_t { std::string to_string(insn_t insn) const { return vr_name[insn.rs2()]; } } vs2; struct : public arg_t { std::string to_string(insn_t insn) const { return vr_name[insn.rd()]; } } vs3; struct : public arg_t { std::string to_string(insn_t insn) const { return insn.v_vm() ? "" : "v0.t"; } } vm; struct : public arg_t { std::string to_string(insn_t insn) const { return "v0"; } } v0; struct : public arg_t { std::string to_string(insn_t insn) const { return std::to_string((int)insn.v_simm5()); } } v_simm5; struct : public arg_t { std::string to_string(insn_t insn) const { std::stringstream s; int sew = insn.v_sew(); int lmul = insn.v_lmul(); auto vta = insn.v_vta() == 1 ? "ta" : "tu"; auto vma = insn.v_vma() == 1 ? "ma" : "mu"; s << "e" << sew; if(insn.v_frac_lmul()) { std::string lmul_str = ""; switch(lmul){ case 3: lmul_str = "f2"; break; case 2: lmul_str = "f4"; break; case 1: lmul_str = "f8"; break; default: assert(true && "unsupport fractional LMUL"); } s << ", m" << lmul_str; } else { s << ", m" << (1 << lmul); } s << ", " << vta << ", " << vma; return s.str(); } } v_vtype; struct : public arg_t { std::string to_string(insn_t insn) const { return "x0"; } } x0; typedef struct { reg_t match; reg_t mask; const char *fmt; std::vector& arg; } custom_fmt_t; std::string disassembler_t::disassemble(insn_t insn) const { const disasm_insn_t* disasm_insn = lookup(insn); return disasm_insn ? disasm_insn->to_string(insn) : "unknown"; } disassembler_t::disassembler_t(int xlen) { const uint32_t mask_rd = 0x1fUL << 7; const uint32_t match_rd_ra = 1UL << 7; const uint32_t mask_rs1 = 0x1fUL << 15; const uint32_t match_rs1_ra = 1UL << 15; const uint32_t mask_rs2 = 0x1fUL << 20; const uint32_t mask_imm = 0xfffUL << 20; const uint32_t match_imm_1 = 1UL << 20; const uint32_t mask_rvc_rs2 = 0x1fUL << 2; const uint32_t mask_rvc_imm = mask_rvc_rs2 | 0x1000UL; const uint32_t mask_nf = 0x7Ul << 29; const uint32_t mask_wd = 0x1Ul << 26; const uint32_t mask_vldst = 0x7Ul << 12 | 0x1UL << 28; const uint32_t mask_amoop = 0x1fUl << 27; const uint32_t mask_width = 0x7Ul << 12; #define DECLARE_INSN(code, match, mask) \ const uint32_t match_##code = match; \ const uint32_t mask_##code = mask; #include "encoding.h" #undef DECLARE_INSN // explicit per-instruction disassembly #define DISASM_INSN(name, code, extra, ...) \ add_insn(new disasm_insn_t(name, match_##code, mask_##code | (extra), __VA_ARGS__)); #define DEFINE_NOARG(code) \ add_insn(new disasm_insn_t(#code, match_##code, mask_##code, {})); #define DEFINE_RTYPE(code) DISASM_INSN(#code, code, 0, {&xrd, &xrs1, &xrs2}) #define DEFINE_ITYPE(code) DISASM_INSN(#code, code, 0, {&xrd, &xrs1, &imm}) #define DEFINE_ITYPE_SHIFT(code) DISASM_INSN(#code, code, 0, {&xrd, &xrs1, &shamt}) #define DEFINE_I0TYPE(name, code) DISASM_INSN(name, code, mask_rs1, {&xrd, &imm}) #define DEFINE_I1TYPE(name, code) DISASM_INSN(name, code, mask_imm, {&xrd, &xrs1}) #define DEFINE_I2TYPE(name, code) DISASM_INSN(name, code, mask_rd | mask_imm, {&xrs1}) #define DEFINE_LTYPE(code) DISASM_INSN(#code, code, 0, {&xrd, &bigimm}) #define DEFINE_BTYPE(code) DISASM_INSN(#code, code, 0, {&xrs1, &xrs2, &branch_target}) #define DEFINE_B0TYPE(name, code) DISASM_INSN(name, code, mask_rs1 | mask_rs2, {&branch_target}) #define DEFINE_B1TYPE(name, code) DISASM_INSN(name, code, mask_rs2, {&xrs1, &branch_target}) #define DEFINE_XLOAD(code) DISASM_INSN(#code, code, 0, {&xrd, &load_address}) #define DEFINE_XSTORE(code) DISASM_INSN(#code, code, 0, {&xrs2, &store_address}) #define DEFINE_XAMO(code) DISASM_INSN(#code, code, 0, {&xrd, &xrs2, &amo_address}) #define DEFINE_XAMO_LR(code) DISASM_INSN(#code, code, 0, {&xrd, &amo_address}) #define DEFINE_FLOAD(code) DISASM_INSN(#code, code, 0, {&frd, &load_address}) #define DEFINE_FSTORE(code) DISASM_INSN(#code, code, 0, {&frs2, &store_address}) #define DEFINE_FRTYPE(code) DISASM_INSN(#code, code, 0, {&frd, &frs1, &frs2}) #define DEFINE_FR1TYPE(code) DISASM_INSN(#code, code, 0, {&frd, &frs1}) #define DEFINE_FR3TYPE(code) DISASM_INSN(#code, code, 0, {&frd, &frs1, &frs2, &frs3}) #define DEFINE_FXTYPE(code) DISASM_INSN(#code, code, 0, {&xrd, &frs1}) #define DEFINE_FX2TYPE(code) DISASM_INSN(#code, code, 0, {&xrd, &frs1, &frs2}) #define DEFINE_XFTYPE(code) DISASM_INSN(#code, code, 0, {&frd, &xrs1}) #define DEFINE_SFENCE_TYPE(code) DISASM_INSN(#code, code, 0, {&xrs1, &xrs2}) DEFINE_XLOAD(lb) DEFINE_XLOAD(lbu) DEFINE_XLOAD(lh) DEFINE_XLOAD(lhu) DEFINE_XLOAD(lw) DEFINE_XLOAD(lwu) DEFINE_XLOAD(ld) DEFINE_XSTORE(sb) DEFINE_XSTORE(sh) DEFINE_XSTORE(sw) DEFINE_XSTORE(sd) DEFINE_XAMO(amoadd_w) DEFINE_XAMO(amoswap_w) DEFINE_XAMO(amoand_w) DEFINE_XAMO(amoor_w) DEFINE_XAMO(amoxor_w) DEFINE_XAMO(amomin_w) DEFINE_XAMO(amomax_w) DEFINE_XAMO(amominu_w) DEFINE_XAMO(amomaxu_w) DEFINE_XAMO(amoadd_d) DEFINE_XAMO(amoswap_d) DEFINE_XAMO(amoand_d) DEFINE_XAMO(amoor_d) DEFINE_XAMO(amoxor_d) DEFINE_XAMO(amomin_d) DEFINE_XAMO(amomax_d) DEFINE_XAMO(amominu_d) DEFINE_XAMO(amomaxu_d) DEFINE_XAMO_LR(lr_w) DEFINE_XAMO(sc_w) DEFINE_XAMO_LR(lr_d) DEFINE_XAMO(sc_d) DEFINE_FLOAD(flw) DEFINE_FLOAD(fld) DEFINE_FLOAD(flh) DEFINE_FLOAD(flq) DEFINE_FSTORE(fsw) DEFINE_FSTORE(fsd) DEFINE_FSTORE(fsh) DEFINE_FSTORE(fsq) add_insn(new disasm_insn_t("j", match_jal, mask_jal | mask_rd, {&jump_target})); add_insn(new disasm_insn_t("jal", match_jal | match_rd_ra, mask_jal | mask_rd, {&jump_target})); add_insn(new disasm_insn_t("jal", match_jal, mask_jal, {&xrd, &jump_target})); DEFINE_B1TYPE("beqz", beq); DEFINE_B1TYPE("bnez", bne); DEFINE_B1TYPE("bltz", blt); DEFINE_B1TYPE("bgez", bge); DEFINE_BTYPE(beq) DEFINE_BTYPE(bne) DEFINE_BTYPE(blt) DEFINE_BTYPE(bge) DEFINE_BTYPE(bltu) DEFINE_BTYPE(bgeu) DEFINE_LTYPE(lui); DEFINE_LTYPE(auipc); add_insn(new disasm_insn_t("ret", match_jalr | match_rs1_ra, mask_jalr | mask_rd | mask_rs1 | mask_imm, {})); DEFINE_I2TYPE("jr", jalr); add_insn(new disasm_insn_t("jalr", match_jalr | match_rd_ra, mask_jalr | mask_rd | mask_imm, {&xrs1})); DEFINE_ITYPE(jalr); add_insn(new disasm_insn_t("nop", match_addi, mask_addi | mask_rd | mask_rs1 | mask_imm, {})); add_insn(new disasm_insn_t(" - ", match_xor, mask_xor | mask_rd | mask_rs1 | mask_rs2, {})); // for machine-generated bubbles DEFINE_I0TYPE("li", addi); DEFINE_I1TYPE("mv", addi); DEFINE_ITYPE(addi); DEFINE_ITYPE(slti); add_insn(new disasm_insn_t("seqz", match_sltiu | match_imm_1, mask_sltiu | mask_imm, {&xrd, &xrs1})); DEFINE_ITYPE(sltiu); add_insn(new disasm_insn_t("not", match_xori | mask_imm, mask_xori | mask_imm, {&xrd, &xrs1})); DEFINE_ITYPE(xori); DEFINE_ITYPE_SHIFT(slli); DEFINE_ITYPE_SHIFT(srli); DEFINE_ITYPE_SHIFT(srai); DEFINE_ITYPE(ori); DEFINE_ITYPE(andi); DEFINE_I1TYPE("sext.w", addiw); DEFINE_ITYPE(addiw); DEFINE_ITYPE_SHIFT(slliw); DEFINE_ITYPE_SHIFT(srliw); DEFINE_ITYPE_SHIFT(sraiw); DEFINE_RTYPE(add); DEFINE_RTYPE(sub); DEFINE_RTYPE(sll); DEFINE_RTYPE(slt); add_insn(new disasm_insn_t("snez", match_sltu, mask_sltu | mask_rs1, {&xrd, &xrs2})); DEFINE_RTYPE(sltu); DEFINE_RTYPE(xor); DEFINE_RTYPE(srl); DEFINE_RTYPE(sra); DEFINE_RTYPE(or); DEFINE_RTYPE(and); DEFINE_RTYPE(mul); DEFINE_RTYPE(mulh); DEFINE_RTYPE(mulhu); DEFINE_RTYPE(mulhsu); DEFINE_RTYPE(div); DEFINE_RTYPE(divu); DEFINE_RTYPE(rem); DEFINE_RTYPE(remu); DEFINE_RTYPE(addw); DEFINE_RTYPE(subw); DEFINE_RTYPE(sllw); DEFINE_RTYPE(srlw); DEFINE_RTYPE(sraw); DEFINE_RTYPE(mulw); DEFINE_RTYPE(divw); DEFINE_RTYPE(divuw); DEFINE_RTYPE(remw); DEFINE_RTYPE(remuw); DEFINE_NOARG(ecall); DEFINE_NOARG(ebreak); DEFINE_NOARG(uret); DEFINE_NOARG(sret); DEFINE_NOARG(mret); DEFINE_NOARG(dret); DEFINE_NOARG(wfi); DEFINE_NOARG(fence); DEFINE_NOARG(fence_i); DEFINE_SFENCE_TYPE(sfence_vma); add_insn(new disasm_insn_t("csrr", match_csrrs, mask_csrrs | mask_rs1, {&xrd, &csr})); add_insn(new disasm_insn_t("csrw", match_csrrw, mask_csrrw | mask_rd, {&csr, &xrs1})); add_insn(new disasm_insn_t("csrs", match_csrrs, mask_csrrs | mask_rd, {&csr, &xrs1})); add_insn(new disasm_insn_t("csrc", match_csrrc, mask_csrrc | mask_rd, {&csr, &xrs1})); add_insn(new disasm_insn_t("csrwi", match_csrrwi, mask_csrrwi | mask_rd, {&csr, &zimm5})); add_insn(new disasm_insn_t("csrsi", match_csrrsi, mask_csrrsi | mask_rd, {&csr, &zimm5})); add_insn(new disasm_insn_t("csrci", match_csrrci, mask_csrrci | mask_rd, {&csr, &zimm5})); add_insn(new disasm_insn_t("csrrw", match_csrrw, mask_csrrw, {&xrd, &csr, &xrs1})); add_insn(new disasm_insn_t("csrrs", match_csrrs, mask_csrrs, {&xrd, &csr, &xrs1})); add_insn(new disasm_insn_t("csrrc", match_csrrc, mask_csrrc, {&xrd, &csr, &xrs1})); add_insn(new disasm_insn_t("csrrwi", match_csrrwi, mask_csrrwi, {&xrd, &csr, &zimm5})); add_insn(new disasm_insn_t("csrrsi", match_csrrsi, mask_csrrsi, {&xrd, &csr, &zimm5})); add_insn(new disasm_insn_t("csrrci", match_csrrci, mask_csrrci, {&xrd, &csr, &zimm5})); DEFINE_FRTYPE(fadd_s); DEFINE_FRTYPE(fsub_s); DEFINE_FRTYPE(fmul_s); DEFINE_FRTYPE(fdiv_s); DEFINE_FR1TYPE(fsqrt_s); DEFINE_FRTYPE(fmin_s); DEFINE_FRTYPE(fmax_s); DEFINE_FR3TYPE(fmadd_s); DEFINE_FR3TYPE(fmsub_s); DEFINE_FR3TYPE(fnmadd_s); DEFINE_FR3TYPE(fnmsub_s); DEFINE_FRTYPE(fsgnj_s); DEFINE_FRTYPE(fsgnjn_s); DEFINE_FRTYPE(fsgnjx_s); DEFINE_FR1TYPE(fcvt_s_d); DEFINE_FR1TYPE(fcvt_s_q); DEFINE_XFTYPE(fcvt_s_l); DEFINE_XFTYPE(fcvt_s_lu); DEFINE_XFTYPE(fcvt_s_w); DEFINE_XFTYPE(fcvt_s_wu); DEFINE_XFTYPE(fcvt_s_wu); DEFINE_XFTYPE(fmv_w_x); DEFINE_FXTYPE(fcvt_l_s); DEFINE_FXTYPE(fcvt_lu_s); DEFINE_FXTYPE(fcvt_w_s); DEFINE_FXTYPE(fcvt_wu_s); DEFINE_FXTYPE(fclass_s); DEFINE_FXTYPE(fmv_x_w); DEFINE_FX2TYPE(feq_s); DEFINE_FX2TYPE(flt_s); DEFINE_FX2TYPE(fle_s); DEFINE_FRTYPE(fadd_d); DEFINE_FRTYPE(fsub_d); DEFINE_FRTYPE(fmul_d); DEFINE_FRTYPE(fdiv_d); DEFINE_FR1TYPE(fsqrt_d); DEFINE_FRTYPE(fmin_d); DEFINE_FRTYPE(fmax_d); DEFINE_FR3TYPE(fmadd_d); DEFINE_FR3TYPE(fmsub_d); DEFINE_FR3TYPE(fnmadd_d); DEFINE_FR3TYPE(fnmsub_d); DEFINE_FRTYPE(fsgnj_d); DEFINE_FRTYPE(fsgnjn_d); DEFINE_FRTYPE(fsgnjx_d); DEFINE_FR1TYPE(fcvt_d_s); DEFINE_FR1TYPE(fcvt_d_q); DEFINE_XFTYPE(fcvt_d_l); DEFINE_XFTYPE(fcvt_d_lu); DEFINE_XFTYPE(fcvt_d_w); DEFINE_XFTYPE(fcvt_d_wu); DEFINE_XFTYPE(fcvt_d_wu); DEFINE_XFTYPE(fmv_d_x); DEFINE_FXTYPE(fcvt_l_d); DEFINE_FXTYPE(fcvt_lu_d); DEFINE_FXTYPE(fcvt_w_d); DEFINE_FXTYPE(fcvt_wu_d); DEFINE_FXTYPE(fclass_d); DEFINE_FXTYPE(fmv_x_d); DEFINE_FX2TYPE(feq_d); DEFINE_FX2TYPE(flt_d); DEFINE_FX2TYPE(fle_d); DEFINE_FRTYPE(fadd_h); DEFINE_FRTYPE(fsub_h); DEFINE_FRTYPE(fmul_h); DEFINE_FRTYPE(fdiv_h); DEFINE_FR1TYPE(fsqrt_h); DEFINE_FRTYPE(fmin_h); DEFINE_FRTYPE(fmax_h); DEFINE_FR3TYPE(fmadd_h); DEFINE_FR3TYPE(fmsub_h); DEFINE_FR3TYPE(fnmadd_h); DEFINE_FR3TYPE(fnmsub_h); DEFINE_FRTYPE(fsgnj_h); DEFINE_FRTYPE(fsgnjn_h); DEFINE_FRTYPE(fsgnjx_h); DEFINE_FR1TYPE(fcvt_h_s); DEFINE_FR1TYPE(fcvt_h_d); DEFINE_FR1TYPE(fcvt_h_q); DEFINE_FR1TYPE(fcvt_s_h); DEFINE_FR1TYPE(fcvt_d_h); DEFINE_FR1TYPE(fcvt_q_h); DEFINE_XFTYPE(fcvt_h_l); DEFINE_XFTYPE(fcvt_h_lu); DEFINE_XFTYPE(fcvt_h_w); DEFINE_XFTYPE(fcvt_h_wu); DEFINE_XFTYPE(fcvt_h_wu); DEFINE_XFTYPE(fmv_h_x); DEFINE_FXTYPE(fcvt_l_h); DEFINE_FXTYPE(fcvt_lu_h); DEFINE_FXTYPE(fcvt_w_h); DEFINE_FXTYPE(fcvt_wu_h); DEFINE_FXTYPE(fclass_h); DEFINE_FXTYPE(fmv_x_h); DEFINE_FX2TYPE(feq_h); DEFINE_FX2TYPE(flt_h); DEFINE_FX2TYPE(fle_h); DEFINE_FRTYPE(fadd_q); DEFINE_FRTYPE(fsub_q); DEFINE_FRTYPE(fmul_q); DEFINE_FRTYPE(fdiv_q); DEFINE_FR1TYPE(fsqrt_q); DEFINE_FRTYPE(fmin_q); DEFINE_FRTYPE(fmax_q); DEFINE_FR3TYPE(fmadd_q); DEFINE_FR3TYPE(fmsub_q); DEFINE_FR3TYPE(fnmadd_q); DEFINE_FR3TYPE(fnmsub_q); DEFINE_FRTYPE(fsgnj_q); DEFINE_FRTYPE(fsgnjn_q); DEFINE_FRTYPE(fsgnjx_q); DEFINE_FR1TYPE(fcvt_q_s); DEFINE_FR1TYPE(fcvt_q_d); DEFINE_XFTYPE(fcvt_q_l); DEFINE_XFTYPE(fcvt_q_lu); DEFINE_XFTYPE(fcvt_q_w); DEFINE_XFTYPE(fcvt_q_wu); DEFINE_XFTYPE(fcvt_q_wu); DEFINE_XFTYPE(fmv_q_x); DEFINE_FXTYPE(fcvt_l_q); DEFINE_FXTYPE(fcvt_lu_q); DEFINE_FXTYPE(fcvt_w_q); DEFINE_FXTYPE(fcvt_wu_q); DEFINE_FXTYPE(fclass_q); DEFINE_FXTYPE(fmv_x_q); DEFINE_FX2TYPE(feq_q); DEFINE_FX2TYPE(flt_q); DEFINE_FX2TYPE(fle_q); DISASM_INSN("c.ebreak", c_add, mask_rd | mask_rvc_rs2, {}); add_insn(new disasm_insn_t("ret", match_c_jr | match_rd_ra, mask_c_jr | mask_rd | mask_rvc_imm, {})); DISASM_INSN("c.jr", c_jr, mask_rvc_imm, {&rvc_rs1}); DISASM_INSN("c.jalr", c_jalr, mask_rvc_imm, {&rvc_rs1}); DISASM_INSN("c.nop", c_addi, mask_rd | mask_rvc_imm, {}); DISASM_INSN("c.addi16sp", c_addi16sp, mask_rd, {&rvc_sp, &rvc_addi16sp_imm}); DISASM_INSN("c.addi4spn", c_addi4spn, 0, {&rvc_rs2s, &rvc_sp, &rvc_addi4spn_imm}); DISASM_INSN("c.li", c_li, 0, {&xrd, &rvc_imm}); DISASM_INSN("c.lui", c_lui, 0, {&xrd, &rvc_uimm}); DISASM_INSN("c.addi", c_addi, 0, {&xrd, &rvc_imm}); DISASM_INSN("c.slli", c_slli, 0, {&rvc_rs1, &rvc_shamt}); DISASM_INSN("c.srli", c_srli, 0, {&rvc_rs1s, &rvc_shamt}); DISASM_INSN("c.srai", c_srai, 0, {&rvc_rs1s, &rvc_shamt}); DISASM_INSN("c.andi", c_andi, 0, {&rvc_rs1s, &rvc_imm}); DISASM_INSN("c.mv", c_mv, 0, {&xrd, &rvc_rs2}); DISASM_INSN("c.add", c_add, 0, {&xrd, &rvc_rs2}); DISASM_INSN("c.addw", c_addw, 0, {&rvc_rs1s, &rvc_rs2s}); DISASM_INSN("c.sub", c_sub, 0, {&rvc_rs1s, &rvc_rs2s}); DISASM_INSN("c.subw", c_subw, 0, {&rvc_rs1s, &rvc_rs2s}); DISASM_INSN("c.and", c_and, 0, {&rvc_rs1s, &rvc_rs2s}); DISASM_INSN("c.or", c_or, 0, {&rvc_rs1s, &rvc_rs2s}); DISASM_INSN("c.xor", c_xor, 0, {&rvc_rs1s, &rvc_rs2s}); DISASM_INSN("c.lwsp", c_lwsp, 0, {&xrd, &rvc_lwsp_address}); DISASM_INSN("c.fld", c_fld, 0, {&rvc_fp_rs2s, &rvc_ld_address}); DISASM_INSN("c.swsp", c_swsp, 0, {&rvc_rs2, &rvc_swsp_address}); DISASM_INSN("c.lw", c_lw, 0, {&rvc_rs2s, &rvc_lw_address}); DISASM_INSN("c.sw", c_sw, 0, {&rvc_rs2s, &rvc_lw_address}); DISASM_INSN("c.beqz", c_beqz, 0, {&rvc_rs1s, &rvc_branch_target}); DISASM_INSN("c.bnez", c_bnez, 0, {&rvc_rs1s, &rvc_branch_target}); DISASM_INSN("c.j", c_j, 0, {&rvc_jump_target}); DISASM_INSN("c.fldsp", c_fldsp, 0, {&frd, &rvc_ldsp_address}); DISASM_INSN("c.fsd", c_fsd, 0, {&rvc_fp_rs2s, &rvc_ld_address}); DISASM_INSN("c.fsdsp", c_fsdsp, 0, {&rvc_fp_rs2, &rvc_sdsp_address}); DISASM_INSN("vsetvli", vsetvli, 0, {&xrd, &xrs1, &v_vtype}); DISASM_INSN("vsetvl", vsetvl, 0, {&xrd, &xrs1, &xrs2}); #define DISASM_VMEM_INSN(name, fmt, ff) \ add_insn(new disasm_insn_t(#name "8" #ff ".v", match_##name##8##ff##_v, mask_##name##8##ff##_v | mask_nf, fmt)); \ add_insn(new disasm_insn_t(#name "16" #ff ".v", match_##name##16##ff##_v, mask_##name##16##ff##_v | mask_nf, fmt)); \ add_insn(new disasm_insn_t(#name "32" #ff ".v", match_##name##32##ff##_v, mask_##name##32##ff##_v | mask_nf, fmt)); \ add_insn(new disasm_insn_t(#name "64" #ff ".v", match_##name##64##ff##_v, mask_##name##64##ff##_v | mask_nf, fmt)); \ add_insn(new disasm_insn_t(#name "128" #ff ".v", match_##name##128##ff##_v, mask_##name##128##ff##_v | mask_nf, fmt)); \ add_insn(new disasm_insn_t(#name "256" #ff ".v", match_##name##256##ff##_v, mask_##name##256##ff##_v | mask_nf, fmt)); \ add_insn(new disasm_insn_t(#name "512" #ff ".v", match_##name##512##ff##_v, mask_##name##512##ff##_v | mask_nf, fmt)); \ add_insn(new disasm_insn_t(#name "1024" #ff ".v", match_##name##1024##ff##_v, mask_##name##1024##ff##_v | mask_nf, fmt)); \ std::vector v_ld_unit = {&vd, &v_address, &opt, &vm}; std::vector v_st_unit = {&vs3, &v_address, &opt, &vm}; std::vector v_ld_stride = {&vd, &v_address, &xrs2, &opt, &vm}; std::vector v_st_stride = {&vs3, &v_address, &xrs2, &opt, &vm}; std::vector v_ld_index = {&vd, &v_address, &vs2, &opt, &vm}; std::vector v_st_index = {&vs3, &v_address, &vs2, &opt, &vm}; DISASM_VMEM_INSN(vle, v_ld_unit, ); DISASM_VMEM_INSN(vlse, v_ld_stride, ); DISASM_VMEM_INSN(vlxei, v_ld_index, ); DISASM_VMEM_INSN(vle, v_ld_unit, ff); DISASM_VMEM_INSN(vse, v_st_unit, ); DISASM_VMEM_INSN(vsse, v_st_stride, ); DISASM_VMEM_INSN(vsxei, v_st_index, ); DISASM_VMEM_INSN(vsuxei, v_st_index, ); #undef DISASM_VMEM_INSN // handle vector segment load/store for (size_t elt = 0; elt <= 7; ++elt) { const custom_fmt_t template_insn[] = { {match_vle8_v, mask_vle8_v, "vlseg%de%d.v", v_ld_unit}, {match_vse8_v, mask_vse8_v, "vsseg%de%d.v", v_st_unit}, {match_vlse8_v, mask_vlse8_v, "vlsseg%de%d.v", v_ld_stride}, {match_vsse8_v, mask_vsse8_v, "vssseg%de%d.v", v_st_stride}, {match_vlxei8_v, mask_vlxei8_v, "vlxseg%dei%d.v", v_ld_index}, {match_vsxei8_v, mask_vsxei8_v, "vsxseg%dei%d.v", v_st_index}, {match_vle8ff_v, mask_vle8ff_v, "vlseg%de%dff.v", v_ld_unit} }; reg_t elt_map[] = {0x00000000, 0x00005000, 0x00006000, 0x00007000, 0x10000000, 0x10005000, 0x10006000, 0x10007000}; for (size_t nf = 1; nf <= 7; ++nf) { for (auto item : template_insn) { const reg_t match_nf = nf << 29; char buf[128]; sprintf(buf, item.fmt, nf + 1, 8 << elt); add_insn(new disasm_insn_t( buf, ((item.match | match_nf) & ~mask_vldst) | elt_map[elt], item.mask | mask_nf, item.arg )); } } } DISASM_INSN("vl1r.v", vl1r_v, 0, {&vd, &v_address}); DISASM_INSN("vs1r.v", vs1r_v, 0, {&vs3, &v_address}); #define DISASM_OPIV_VXI_INSN(name, sign, suf) \ add_insn(new disasm_insn_t(#name "." #suf "v", \ match_##name##_##suf##v, mask_##name##_##suf##v, \ {&vd, &vs2, &vs1, &opt, &vm})); \ add_insn(new disasm_insn_t(#name "." #suf "x", \ match_##name##_##suf##x, mask_##name##_##suf##x, \ {&vd, &vs2, &xrs1, &opt, &vm})); \ if (sign) \ add_insn(new disasm_insn_t(#name "." #suf "i", \ match_##name##_##suf##i, mask_##name##_##suf##i, \ {&vd, &vs2, &v_simm5, &opt, &vm})); \ else \ add_insn(new disasm_insn_t(#name "." #suf "i", \ match_##name##_##suf##i, mask_##name##_##suf##i, \ {&vd, &vs2, &zimm5, &opt, &vm})); #define DISASM_OPIV_VX__INSN(name, sign) \ add_insn(new disasm_insn_t(#name ".vv", match_##name##_vv, mask_##name##_vv, \ {&vd, &vs2, &vs1, &opt, &vm})); \ add_insn(new disasm_insn_t(#name ".vx", match_##name##_vx, mask_##name##_vx, \ {&vd, &vs2, &xrs1, &opt, &vm})); \ #define DISASM_OPIV__XI_INSN(name, sign) \ add_insn(new disasm_insn_t(#name ".vx", match_##name##_vx, mask_##name##_vx, \ {&vd, &vs2, &xrs1, &opt, &vm})); \ if (sign) \ add_insn(new disasm_insn_t(#name ".vi", match_##name##_vi, mask_##name##_vi, \ {&vd, &vs2, &v_simm5, &opt, &vm})); \ else \ add_insn(new disasm_insn_t(#name ".vi", match_##name##_vi, mask_##name##_vi, \ {&vd, &vs2, &zimm5, &opt, &vm})); #define DISASM_OPIV_V___INSN(name, sign) \ add_insn(new disasm_insn_t(#name ".vv", match_##name##_vv, mask_##name##_vv, \ {&vd, &vs2, &vs1, &opt, &vm})); #define DISASM_OPIV_S___INSN(name, sign) \ add_insn(new disasm_insn_t(#name ".vs", match_##name##_vs, mask_##name##_vs, \ {&vd, &vs2, &vs1, &opt, &vm})); #define DISASM_OPIV_W___INSN(name, sign) \ add_insn(new disasm_insn_t(#name ".wv", match_##name##_wv, mask_##name##_wv, \ {&vd, &vs2, &vs1, &opt, &vm})); \ add_insn(new disasm_insn_t(#name ".wx", match_##name##_wv, mask_##name##_wv, \ {&vd, &vs2, &xrs1, &opt, &vm})); #define DISASM_OPIV_M___INSN(name, sign) \ add_insn(new disasm_insn_t(#name ".mm", match_##name##_mm, mask_##name##_mm, \ {&vd, &vs2, &vs1})); #define DISASM_OPIV__X__INSN(name, sign) \ add_insn(new disasm_insn_t(#name ".vx", match_##name##_vx, mask_##name##_vx, \ {&vd, &vs2, &xrs1, &opt, &vm})); #define DISASM_OPIV_VXIM_INSN(name, sign) \ add_insn(new disasm_insn_t(#name ".vvm", match_##name##_vvm, mask_##name##_vvm, \ {&vd, &vs2, &vs1, &v0})); \ add_insn(new disasm_insn_t(#name ".vxm", match_##name##_vxm, mask_##name##_vxm, \ {&vd, &vs2, &xrs1, &v0})); \ add_insn(new disasm_insn_t(#name ".vim", match_##name##_vim, mask_##name##_vim, \ {&vd, &vs2, &v_simm5, &v0})); #define DISASM_OPIV_VX_M_INSN(name, sign) \ add_insn(new disasm_insn_t(#name ".vvm", match_##name##_vvm, mask_##name##_vvm, \ {&vd, &vs2, &vs1, &v0})); \ add_insn(new disasm_insn_t(#name ".vxm", match_##name##_vxm, mask_##name##_vxm, \ {&vd, &vs2, &xrs1, &v0})); //OPFVV/OPFVF //0b00_0000 DISASM_OPIV_VXI_INSN(vadd, 1, v); DISASM_OPIV_VX__INSN(vsub, 1); DISASM_OPIV__XI_INSN(vrsub, 1); DISASM_OPIV_VX__INSN(vminu, 0); DISASM_OPIV_VX__INSN(vmin, 1); DISASM_OPIV_VX__INSN(vmaxu, 1); DISASM_OPIV_VX__INSN(vmax, 0); DISASM_OPIV_VXI_INSN(vand, 1, v); DISASM_OPIV_VXI_INSN(vor, 1, v); DISASM_OPIV_VXI_INSN(vxor, 1, v); DISASM_OPIV_VXI_INSN(vrgather, 0, v); DISASM_OPIV__XI_INSN(vslideup, 0); DISASM_OPIV__XI_INSN(vslidedown,0); //0b01_0000 DISASM_OPIV_VXIM_INSN(vadc, 1); DISASM_OPIV_VXIM_INSN(vmadc, 1); DISASM_OPIV_VX_M_INSN(vsbc, 1); DISASM_OPIV_VX_M_INSN(vmsbc, 1); DISASM_OPIV_VXIM_INSN(vmerge, 1); DISASM_INSN("vmv.v.i", vmv_v_i, 0, {&vd, &v_simm5}); DISASM_INSN("vmv.v.v", vmv_v_v, 0, {&vd, &vs1}); DISASM_INSN("vmv.v.x", vmv_v_x, 0, {&vd, &xrs1}); DISASM_OPIV_VXI_INSN(vmseq, 1, v); DISASM_OPIV_VXI_INSN(vmsne, 1, v); DISASM_OPIV_VX__INSN(vmsltu, 0); DISASM_OPIV_VX__INSN(vmslt, 1); DISASM_OPIV_VXI_INSN(vmsleu, 0, v); DISASM_OPIV_VXI_INSN(vmsle, 1, v); DISASM_OPIV__XI_INSN(vmsgtu, 0); DISASM_OPIV__XI_INSN(vmsgt, 1); //0b10_0000 DISASM_OPIV_VXI_INSN(vsaddu, 0, v); DISASM_OPIV_VXI_INSN(vsadd, 1, v); DISASM_OPIV_VX__INSN(vssubu, 0); DISASM_OPIV_VX__INSN(vssub, 1); DISASM_OPIV_VXI_INSN(vsll, 1, v); DISASM_INSN("vmv1r.v", vmv1r_v, 0, {&vd, &vs2}); DISASM_INSN("vmv2r.v", vmv2r_v, 0, {&vd, &vs2}); DISASM_INSN("vmv4r.v", vmv4r_v, 0, {&vd, &vs2}); DISASM_INSN("vmv8r.v", vmv8r_v, 0, {&vd, &vs2}); DISASM_OPIV_VX__INSN(vsmul, 1); DISASM_OPIV_VXI_INSN(vsrl, 0, v); DISASM_OPIV_VXI_INSN(vsra, 0, v); DISASM_OPIV_VXI_INSN(vssrl, 0, v); DISASM_OPIV_VXI_INSN(vssra, 0, v); DISASM_OPIV_VXI_INSN(vnsrl, 0, w); DISASM_OPIV_VXI_INSN(vnsra, 0, w); DISASM_OPIV_VXI_INSN(vnclipu, 0, w); DISASM_OPIV_VXI_INSN(vnclip, 0, w); //0b11_0000 DISASM_OPIV_S___INSN(vwredsumu, 0); DISASM_OPIV_S___INSN(vwredsum, 1); DISASM_OPIV_V___INSN(vdotu, 0); DISASM_OPIV_V___INSN(vdot, 1); DISASM_OPIV_VX__INSN(vqmaccu, 0); DISASM_OPIV_VX__INSN(vqmacc, 1); DISASM_OPIV__X__INSN(vqmaccus, 1); DISASM_OPIV_VX__INSN(vqmaccsu, 0); //OPMVV/OPMVX //0b00_0000 DISASM_OPIV_VX__INSN(vaaddu, 0); DISASM_OPIV_VX__INSN(vaadd, 0); DISASM_OPIV_VX__INSN(vasubu, 0); DISASM_OPIV_VX__INSN(vasub, 0); DISASM_OPIV_S___INSN(vredsum, 1); DISASM_OPIV_S___INSN(vredand, 1); DISASM_OPIV_S___INSN(vredor, 1); DISASM_OPIV_S___INSN(vredxor, 1); DISASM_OPIV_S___INSN(vredminu, 0); DISASM_OPIV_S___INSN(vredmin, 1); DISASM_OPIV_S___INSN(vredmaxu, 0); DISASM_OPIV_S___INSN(vredmax, 1); DISASM_OPIV__X__INSN(vslide1up, 1); DISASM_OPIV__X__INSN(vslide1down,1); //0b01_0000 //VWXUNARY0 DISASM_INSN("vmv.x.s", vmv_x_s, 0, {&xrd, &vs2}); DISASM_INSN("vpopc.m", vpopc_m, 0, {&xrd, &vs2, &opt, &vm}); DISASM_INSN("vfirst.m", vfirst_m, 0, {&xrd, &vs2, &opt, &vm}); //VRXUNARY0 DISASM_INSN("vmv.s.x", vmv_s_x, 0, {&vd, &xrs1}); //VXUNARY0 DISASM_INSN("vzext.vf2", vzext_vf2, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vsext.vf2", vsext_vf2, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vzext.vf4", vzext_vf4, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vsext.vf4", vsext_vf4, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vzext.vf8", vzext_vf8, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vsext.vf8", vsext_vf8, 0, {&vd, &vs2, &opt, &vm}); //VMUNARY0 DISASM_INSN("vmsbf.m", vmsbf_m, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vmsof.m", vmsof_m, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vmsif.m", vmsif_m, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("viota.m", viota_m, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vid.v", vid_v, 0, {&vd, &opt, &vm}); DISASM_INSN("vid.v", vid_v, 0, {&vd, &opt, &vm}); DISASM_INSN("vcompress.vm", vcompress_vm, 0, {&vd, &vs2, &vs1}); DISASM_OPIV_M___INSN(vmandnot, 1); DISASM_OPIV_M___INSN(vmand, 1); DISASM_OPIV_M___INSN(vmor, 1); DISASM_OPIV_M___INSN(vmxor, 1); DISASM_OPIV_M___INSN(vmornot, 1); DISASM_OPIV_M___INSN(vmnand, 1); DISASM_OPIV_M___INSN(vmnor, 1); DISASM_OPIV_M___INSN(vmxnor, 1); //0b10_0000 DISASM_OPIV_VX__INSN(vdivu, 0); DISASM_OPIV_VX__INSN(vdiv, 1); DISASM_OPIV_VX__INSN(vremu, 0); DISASM_OPIV_VX__INSN(vrem, 1); DISASM_OPIV_VX__INSN(vmulhu, 0); DISASM_OPIV_VX__INSN(vmul, 1); DISASM_OPIV_VX__INSN(vmulhsu, 0); DISASM_OPIV_VX__INSN(vmulh, 1); DISASM_OPIV_VX__INSN(vmadd, 1); DISASM_OPIV_VX__INSN(vnmsub, 1); DISASM_OPIV_VX__INSN(vmacc, 1); DISASM_OPIV_VX__INSN(vnmsac, 1); //0b11_0000 DISASM_OPIV_VX__INSN(vwaddu, 0); DISASM_OPIV_VX__INSN(vwadd, 1); DISASM_OPIV_VX__INSN(vwsubu, 0); DISASM_OPIV_VX__INSN(vwsub, 1); DISASM_OPIV_W___INSN(vwaddu, 0); DISASM_OPIV_W___INSN(vwadd, 1); DISASM_OPIV_W___INSN(vwsubu, 0); DISASM_OPIV_W___INSN(vwsub, 1); DISASM_OPIV_VX__INSN(vwmulu, 0); DISASM_OPIV_VX__INSN(vwmulsu, 0); DISASM_OPIV_VX__INSN(vwmul, 1); DISASM_OPIV_VX__INSN(vwmaccu, 0); DISASM_OPIV_VX__INSN(vwmacc, 1); DISASM_OPIV__X__INSN(vwmaccus, 1); DISASM_OPIV_VX__INSN(vwmaccsu, 0); #undef DISASM_OPIV_VXI_INSN #undef DISASM_OPIV_VX__INSN #undef DISASM_OPIV__XI_INSN #undef DISASM_OPIV_V___INSN #undef DISASM_OPIV_S___INSN #undef DISASM_OPIV_W___INSN #undef DISASM_OPIV_M___INSN #undef DISASM_OPIV__X__INSN #undef DISASM_OPIV_VXIM_INSN #undef DISASM_OPIV_VX_M_INSN #define DISASM_OPIV_VF_INSN(name) \ add_insn(new disasm_insn_t(#name ".vv", match_##name##_vv, mask_##name##_vv, \ {&vd, &vs2, &vs1, &opt, &vm})); \ add_insn(new disasm_insn_t(#name ".vf", match_##name##_vf, mask_##name##_vf, \ {&vd, &vs2, &frs1, &opt, &vm})); \ #define DISASM_OPIV_WF_INSN(name) \ add_insn(new disasm_insn_t(#name ".wv", match_##name##_wv, mask_##name##_wv, \ {&vd, &vs2, &vs1, &opt, &vm})); \ add_insn(new disasm_insn_t(#name ".wf", match_##name##_wf, mask_##name##_wf, \ {&vd, &vs2, &frs1, &opt, &vm})); \ #define DISASM_OPIV_V__INSN(name) \ add_insn(new disasm_insn_t(#name ".vv", match_##name##_vv, mask_##name##_vv, \ {&vd, &vs2, &vs1, &opt, &vm})); #define DISASM_OPIV_S__INSN(name) \ add_insn(new disasm_insn_t(#name ".vs", match_##name##_vs, mask_##name##_vs, \ {&vd, &vs2, &vs1, &opt, &vm})); #define DISASM_OPIV__F_INSN(name) \ add_insn(new disasm_insn_t(#name ".vf", match_##name##_vf, mask_##name##_vf, \ {&vd, &vs2, &frs1, &opt, &vm})); \ #define DISASM_VFUNARY0_INSN(name, suf) \ add_insn(new disasm_insn_t(#name "cvt.xu.f." #suf, \ match_##name##cvt_xu_f_##suf, mask_##name##cvt_xu_f_##suf, \ {&vd, &vs2, &opt, &vm})); \ add_insn(new disasm_insn_t(#name "cvt.x.f." #suf, \ match_##name##cvt_x_f_##suf, mask_##name##cvt_x_f_##suf, \ {&vd, &vs2, &opt, &vm})); \ add_insn(new disasm_insn_t(#name "cvt.f.xu." #suf, \ match_##name##cvt_f_xu_##suf, mask_##name##cvt_f_xu_##suf, \ {&vd, &vs2, &opt, &vm})); \ add_insn(new disasm_insn_t(#name "cvt.f.x." #suf, \ match_##name##cvt_f_x_##suf, mask_##name##cvt_f_x_##suf, \ {&vd, &vs2, &opt, &vm})); \ add_insn(new disasm_insn_t(#name "cvt.rtz.xu.f." #suf, \ match_##name##cvt_rtz_xu_f_##suf, mask_##name##cvt_rtz_xu_f_##suf, \ {&vd, &vs2, &opt, &vm})); \ add_insn(new disasm_insn_t(#name "cvt.rtz.x.f." #suf, \ match_##name##cvt_rtz_x_f_##suf, mask_##name##cvt_rtz_x_f_##suf, \ {&vd, &vs2, &opt, &vm})); \ //OPFVV/OPFVF //0b00_0000 DISASM_OPIV_VF_INSN(vfadd); DISASM_OPIV_S__INSN(vfredsum); DISASM_OPIV_VF_INSN(vfsub); DISASM_OPIV_S__INSN(vfredosum); DISASM_OPIV_VF_INSN(vfmin); DISASM_OPIV_S__INSN(vfredmin); DISASM_OPIV_VF_INSN(vfmax); DISASM_OPIV_S__INSN(vfredmax); DISASM_OPIV_VF_INSN(vfsgnj); DISASM_OPIV_VF_INSN(vfsgnjn); DISASM_OPIV_VF_INSN(vfsgnjx); DISASM_INSN("vfmv.f.s", vfmv_f_s, 0, {&frd, &vs2}); DISASM_INSN("vfmv.s.f", vfmv_s_f, mask_vfmv_s_f, {&vd, &frs1}); DISASM_OPIV__F_INSN(vfslide1up); DISASM_OPIV__F_INSN(vfslide1down); //0b01_0000 DISASM_INSN("vfmerge.vfm", vfmerge_vfm, 0, {&vd, &vs2, &frs1, &v0}); DISASM_INSN("vfmv.v.f", vfmv_v_f, 0, {&vd, &frs1}); DISASM_OPIV_VF_INSN(vmfeq); DISASM_OPIV_VF_INSN(vmfle); DISASM_OPIV_VF_INSN(vmflt); DISASM_OPIV_VF_INSN(vmfne); DISASM_OPIV__F_INSN(vmfgt); DISASM_OPIV__F_INSN(vmfge); //0b10_0000 DISASM_OPIV_VF_INSN(vfdiv); DISASM_OPIV__F_INSN(vfrdiv); //vfunary0 DISASM_VFUNARY0_INSN(vf, v); DISASM_VFUNARY0_INSN(vfw, v); DISASM_INSN("vfwcvt.f.f.v", vfwcvt_f_f_v, 0, {&vd, &vs2, &opt, &vm}); DISASM_VFUNARY0_INSN(vfn, w); DISASM_INSN("vfncvt.f.f.w", vfncvt_rod_f_f_w, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vfncvt.rod.f.f.w", vfncvt_rod_f_f_w, 0, {&vd, &vs2, &opt, &vm}); //vfunary1 DISASM_INSN("vfsqrt.v", vfsqrt_v, 0, {&vd, &vs2, &opt, &vm}); DISASM_INSN("vfclass.v", vfclass_v, 0, {&vd, &vs2, &opt, &vm}); DISASM_OPIV_VF_INSN(vfmul); DISASM_OPIV__F_INSN(vfrsub); DISASM_OPIV_VF_INSN(vfmadd); DISASM_OPIV_VF_INSN(vfnmadd); DISASM_OPIV_VF_INSN(vfmsub); DISASM_OPIV_VF_INSN(vfnmsub); DISASM_OPIV_VF_INSN(vfmacc); DISASM_OPIV_VF_INSN(vfnmacc); DISASM_OPIV_VF_INSN(vfmsac); DISASM_OPIV_VF_INSN(vfnmsac); //0b11_0000 DISASM_OPIV_VF_INSN(vfwadd); DISASM_OPIV_S__INSN(vfwredsum); DISASM_OPIV_VF_INSN(vfwsub); DISASM_OPIV_S__INSN(vfwredosum); DISASM_OPIV_WF_INSN(vfwadd); DISASM_OPIV_WF_INSN(vfwsub); DISASM_OPIV_VF_INSN(vfwmul); DISASM_OPIV_V__INSN(vfdot); DISASM_OPIV_VF_INSN(vfwmacc); DISASM_OPIV_VF_INSN(vfwnmacc); DISASM_OPIV_VF_INSN(vfwmsac); DISASM_OPIV_VF_INSN(vfwnmsac); #undef DISASM_OPIV_VF_INSN #undef DISASM_OPIV_V__INSN #undef DISASM_OPIV__F_INSN #undef DISASM_OPIV_S__INSN #undef DISASM_OPIV_W__INSN #undef DISASM_VFUNARY0_INSN // vector amo std::vector v_fmt_amo_wd = {&vd, &v_address, &vs2, &vd, &opt, &vm}; std::vector v_fmt_amo = {&x0, &v_address, &vs2, &vd, &opt, &vm}; for (size_t elt = 0; elt <= 3; ++elt) { const custom_fmt_t template_insn[] = { {match_vamoswape8_v | mask_wd, mask_vamoswape8_v | mask_wd, "%se%d.v", v_fmt_amo_wd}, {match_vamoswape8_v, mask_vamoswape8_v | mask_wd, "%se%d.v", v_fmt_amo}, }; std::pair amo_map[] = { {"vamoswap", 0x01ul << 27}, {"vamoadd", 0x00ul << 27}, {"vamoxor", 0x04ul << 27}, {"vamoor", 0x0cul << 27}, {"vamomin", 0x10ul << 27}, {"vamomax", 0x14ul << 27}, {"vamominu", 0x18ul << 27}, {"vamomaxu", 0x1cul << 27}}; const reg_t elt_map[] = {0x0ul << 12, 0x4ul << 12, 0x6ul <<12, 0x7ul << 12}; for (size_t idx = 0; idx < sizeof(amo_map) / sizeof(amo_map[0]); ++idx) { for (auto item : template_insn) { char buf[128]; sprintf(buf, item.fmt, amo_map[idx].first, 8 << elt); add_insn(new disasm_insn_t(buf, (item.match & ~mask_width & ~mask_amoop) | (amo_map[idx].second | elt_map[elt]), item.mask, item.arg)); } } } if (xlen == 32) { DISASM_INSN("c.flw", c_flw, 0, {&rvc_fp_rs2s, &rvc_lw_address}); DISASM_INSN("c.flwsp", c_flwsp, 0, {&frd, &rvc_lwsp_address}); DISASM_INSN("c.fsw", c_fsw, 0, {&rvc_fp_rs2s, &rvc_lw_address}); DISASM_INSN("c.fswsp", c_fswsp, 0, {&rvc_fp_rs2, &rvc_swsp_address}); DISASM_INSN("c.jal", c_jal, 0, {&rvc_jump_target}); } else { DISASM_INSN("c.ld", c_ld, 0, {&rvc_rs2s, &rvc_ld_address}); DISASM_INSN("c.ldsp", c_ldsp, 0, {&xrd, &rvc_ldsp_address}); DISASM_INSN("c.sd", c_sd, 0, {&rvc_rs2s, &rvc_ld_address}); DISASM_INSN("c.sdsp", c_sdsp, 0, {&rvc_rs2, &rvc_sdsp_address}); DISASM_INSN("c.addiw", c_addiw, 0, {&xrd, &rvc_imm}); } // provide a default disassembly for all instructions as a fallback #define DECLARE_INSN(code, match, mask) \ add_insn(new disasm_insn_t(#code " (args unknown)", match, mask, {})); #include "encoding.h" #undef DECLARE_INSN } const disasm_insn_t* disassembler_t::lookup(insn_t insn) const { size_t idx = insn.bits() % HASH_SIZE; for (size_t j = 0; j < chain[idx].size(); j++) if(*chain[idx][j] == insn) return chain[idx][j]; idx = HASH_SIZE; for (size_t j = 0; j < chain[idx].size(); j++) if(*chain[idx][j] == insn) return chain[idx][j]; return NULL; } void NOINLINE disassembler_t::add_insn(disasm_insn_t* insn) { size_t idx = HASH_SIZE; if (insn->get_mask() % HASH_SIZE == HASH_SIZE - 1) idx = insn->get_match() % HASH_SIZE; chain[idx].push_back(insn); } disassembler_t::~disassembler_t() { for (size_t i = 0; i < HASH_SIZE+1; i++) for (size_t j = 0; j < chain[i].size(); j++) delete chain[i][j]; }