/* SPDX-License-Identifier: GPL-2.0-or-later */ /* * QEMU LoongArch Disassembler * * Copyright (c) 2021 Loongson Technology Corporation Limited. */ #include "qemu/osdep.h" #include "disas/dis-asm.h" #include "qemu/bitops.h" #include "cpu-csr.h" typedef struct { disassemble_info *info; uint64_t pc; uint32_t insn; } DisasContext; static inline int plus_1(DisasContext *ctx, int x) { return x + 1; } static inline int shl_2(DisasContext *ctx, int x) { return x << 2; } #define CSR_NAME(REG) \ [LOONGARCH_CSR_##REG] = (#REG) static const char * const csr_names[] = { CSR_NAME(CRMD), CSR_NAME(PRMD), CSR_NAME(EUEN), CSR_NAME(MISC), CSR_NAME(ECFG), CSR_NAME(ESTAT), CSR_NAME(ERA), CSR_NAME(BADV), CSR_NAME(BADI), CSR_NAME(EENTRY), CSR_NAME(TLBIDX), CSR_NAME(TLBEHI), CSR_NAME(TLBELO0), CSR_NAME(TLBELO1), CSR_NAME(ASID), CSR_NAME(PGDL), CSR_NAME(PGDH), CSR_NAME(PGD), CSR_NAME(PWCL), CSR_NAME(PWCH), CSR_NAME(STLBPS), CSR_NAME(RVACFG), CSR_NAME(CPUID), CSR_NAME(PRCFG1), CSR_NAME(PRCFG2), CSR_NAME(PRCFG3), CSR_NAME(SAVE(0)), CSR_NAME(SAVE(1)), CSR_NAME(SAVE(2)), CSR_NAME(SAVE(3)), CSR_NAME(SAVE(4)), CSR_NAME(SAVE(5)), CSR_NAME(SAVE(6)), CSR_NAME(SAVE(7)), CSR_NAME(SAVE(8)), CSR_NAME(SAVE(9)), CSR_NAME(SAVE(10)), CSR_NAME(SAVE(11)), CSR_NAME(SAVE(12)), CSR_NAME(SAVE(13)), CSR_NAME(SAVE(14)), CSR_NAME(SAVE(15)), CSR_NAME(TID), CSR_NAME(TCFG), CSR_NAME(TVAL), CSR_NAME(CNTC), CSR_NAME(TICLR), CSR_NAME(LLBCTL), CSR_NAME(IMPCTL1), CSR_NAME(IMPCTL2), CSR_NAME(TLBRENTRY), CSR_NAME(TLBRBADV), CSR_NAME(TLBRERA), CSR_NAME(TLBRSAVE), CSR_NAME(TLBRELO0), CSR_NAME(TLBRELO1), CSR_NAME(TLBREHI), CSR_NAME(TLBRPRMD), CSR_NAME(MERRCTL), CSR_NAME(MERRINFO1), CSR_NAME(MERRINFO2), CSR_NAME(MERRENTRY), CSR_NAME(MERRERA), CSR_NAME(MERRSAVE), CSR_NAME(CTAG), CSR_NAME(DMW(0)), CSR_NAME(DMW(1)), CSR_NAME(DMW(2)), CSR_NAME(DMW(3)), CSR_NAME(DBG), CSR_NAME(DERA), CSR_NAME(DSAVE), }; static const char *get_csr_name(unsigned num) { return ((num < ARRAY_SIZE(csr_names)) && (csr_names[num] != NULL)) ? csr_names[num] : "Undefined CSR"; } #define output(C, INSN, FMT, ...) \ { \ (C)->info->fprintf_func((C)->info->stream, "%08x %-9s\t" FMT, \ (C)->insn, INSN, ##__VA_ARGS__); \ } #include "decode-insns.c.inc" int print_insn_loongarch(bfd_vma memaddr, struct disassemble_info *info) { bfd_byte buffer[4]; uint32_t insn; int status; status = (*info->read_memory_func)(memaddr, buffer, 4, info); if (status != 0) { (*info->memory_error_func)(status, memaddr, info); return -1; } insn = bfd_getl32(buffer); DisasContext ctx = { .info = info, .pc = memaddr, .insn = insn }; if (!decode(&ctx, insn)) { output(&ctx, "illegal", ""); } return 4; } static void output_r_i(DisasContext *ctx, arg_r_i *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, %d", a->rd, a->imm); } static void output_rrr(DisasContext *ctx, arg_rrr *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, r%d, r%d", a->rd, a->rj, a->rk); } static void output_rr_i(DisasContext *ctx, arg_rr_i *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, r%d, %d", a->rd, a->rj, a->imm); } static void output_rrr_sa(DisasContext *ctx, arg_rrr_sa *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, r%d, r%d, %d", a->rd, a->rj, a->rk, a->sa); } static void output_rr(DisasContext *ctx, arg_rr *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, r%d", a->rd, a->rj); } static void output_rr_ms_ls(DisasContext *ctx, arg_rr_ms_ls *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, r%d, %d, %d", a->rd, a->rj, a->ms, a->ls); } static void output_hint_r_i(DisasContext *ctx, arg_hint_r_i *a, const char *mnemonic) { output(ctx, mnemonic, "%d, r%d, %d", a->hint, a->rj, a->imm); } static void output_i(DisasContext *ctx, arg_i *a, const char *mnemonic) { output(ctx, mnemonic, "%d", a->imm); } static void output_rr_jk(DisasContext *ctx, arg_rr_jk *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, r%d", a->rj, a->rk); } static void output_ff(DisasContext *ctx, arg_ff *a, const char *mnemonic) { output(ctx, mnemonic, "f%d, f%d", a->fd, a->fj); } static void output_fff(DisasContext *ctx, arg_fff *a, const char *mnemonic) { output(ctx, mnemonic, "f%d, f%d, f%d", a->fd, a->fj, a->fk); } static void output_ffff(DisasContext *ctx, arg_ffff *a, const char *mnemonic) { output(ctx, mnemonic, "f%d, f%d, f%d, f%d", a->fd, a->fj, a->fk, a->fa); } static void output_fffc(DisasContext *ctx, arg_fffc *a, const char *mnemonic) { output(ctx, mnemonic, "f%d, f%d, f%d, %d", a->fd, a->fj, a->fk, a->ca); } static void output_fr(DisasContext *ctx, arg_fr *a, const char *mnemonic) { output(ctx, mnemonic, "f%d, r%d", a->fd, a->rj); } static void output_rf(DisasContext *ctx, arg_rf *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, f%d", a->rd, a->fj); } static void output_fcsrd_r(DisasContext *ctx, arg_fcsrd_r *a, const char *mnemonic) { output(ctx, mnemonic, "fcsr%d, r%d", a->fcsrd, a->rj); } static void output_r_fcsrs(DisasContext *ctx, arg_r_fcsrs *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, fcsr%d", a->rd, a->fcsrs); } static void output_cf(DisasContext *ctx, arg_cf *a, const char *mnemonic) { output(ctx, mnemonic, "fcc%d, f%d", a->cd, a->fj); } static void output_fc(DisasContext *ctx, arg_fc *a, const char *mnemonic) { output(ctx, mnemonic, "f%d, fcc%d", a->fd, a->cj); } static void output_cr(DisasContext *ctx, arg_cr *a, const char *mnemonic) { output(ctx, mnemonic, "fcc%d, r%d", a->cd, a->rj); } static void output_rc(DisasContext *ctx, arg_rc *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, fcc%d", a->rd, a->cj); } static void output_frr(DisasContext *ctx, arg_frr *a, const char *mnemonic) { output(ctx, mnemonic, "f%d, r%d, r%d", a->fd, a->rj, a->rk); } static void output_fr_i(DisasContext *ctx, arg_fr_i *a, const char *mnemonic) { output(ctx, mnemonic, "f%d, r%d, %d", a->fd, a->rj, a->imm); } static void output_r_offs(DisasContext *ctx, arg_r_offs *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, %d # 0x%" PRIx64, a->rj, a->offs, ctx->pc + a->offs); } static void output_c_offs(DisasContext *ctx, arg_c_offs *a, const char *mnemonic) { output(ctx, mnemonic, "fcc%d, %d # 0x%" PRIx64, a->cj, a->offs, ctx->pc + a->offs); } static void output_offs(DisasContext *ctx, arg_offs *a, const char *mnemonic) { output(ctx, mnemonic, "%d # 0x%" PRIx64, a->offs, ctx->pc + a->offs); } static void output_rr_offs(DisasContext *ctx, arg_rr_offs *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, r%d, %d # 0x%" PRIx64, a->rj, a->rd, a->offs, ctx->pc + a->offs); } static void output_r_csr(DisasContext *ctx, arg_r_csr *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, %d # %s", a->rd, a->csr, get_csr_name(a->csr)); } static void output_rr_csr(DisasContext *ctx, arg_rr_csr *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, r%d, %d # %s", a->rd, a->rj, a->csr, get_csr_name(a->csr)); } static void output_empty(DisasContext *ctx, arg_empty *a, const char *mnemonic) { output(ctx, mnemonic, ""); } static void output_i_rr(DisasContext *ctx, arg_i_rr *a, const char *mnemonic) { output(ctx, mnemonic, "%d, r%d, r%d", a->imm, a->rj, a->rk); } static void output_cop_r_i(DisasContext *ctx, arg_cop_r_i *a, const char *mnemonic) { output(ctx, mnemonic, "%d, r%d, %d", a->cop, a->rj, a->imm); } static void output_j_i(DisasContext *ctx, arg_j_i *a, const char *mnemonic) { output(ctx, mnemonic, "r%d, %d", a->rj, a->imm); } #define INSN(insn, type) \ static bool trans_##insn(DisasContext *ctx, arg_##type * a) \ { \ output_##type(ctx, a, #insn); \ return true; \ } INSN(clo_w, rr) INSN(clz_w, rr) INSN(cto_w, rr) INSN(ctz_w, rr) INSN(clo_d, rr) INSN(clz_d, rr) INSN(cto_d, rr) INSN(ctz_d, rr) INSN(revb_2h, rr) INSN(revb_4h, rr) INSN(revb_2w, rr) INSN(revb_d, rr) INSN(revh_2w, rr) INSN(revh_d, rr) INSN(bitrev_4b, rr) INSN(bitrev_8b, rr) INSN(bitrev_w, rr) INSN(bitrev_d, rr) INSN(ext_w_h, rr) INSN(ext_w_b, rr) INSN(rdtimel_w, rr) INSN(rdtimeh_w, rr) INSN(rdtime_d, rr) INSN(cpucfg, rr) INSN(asrtle_d, rr_jk) INSN(asrtgt_d, rr_jk) INSN(alsl_w, rrr_sa) INSN(alsl_wu, rrr_sa) INSN(bytepick_w, rrr_sa) INSN(bytepick_d, rrr_sa) INSN(add_w, rrr) INSN(add_d, rrr) INSN(sub_w, rrr) INSN(sub_d, rrr) INSN(slt, rrr) INSN(sltu, rrr) INSN(maskeqz, rrr) INSN(masknez, rrr) INSN(nor, rrr) INSN(and, rrr) INSN(or, rrr) INSN(xor, rrr) INSN(orn, rrr) INSN(andn, rrr) INSN(sll_w, rrr) INSN(srl_w, rrr) INSN(sra_w, rrr) INSN(sll_d, rrr) INSN(srl_d, rrr) INSN(sra_d, rrr) INSN(rotr_w, rrr) INSN(rotr_d, rrr) INSN(mul_w, rrr) INSN(mulh_w, rrr) INSN(mulh_wu, rrr) INSN(mul_d, rrr) INSN(mulh_d, rrr) INSN(mulh_du, rrr) INSN(mulw_d_w, rrr) INSN(mulw_d_wu, rrr) INSN(div_w, rrr) INSN(mod_w, rrr) INSN(div_wu, rrr) INSN(mod_wu, rrr) INSN(div_d, rrr) INSN(mod_d, rrr) INSN(div_du, rrr) INSN(mod_du, rrr) INSN(crc_w_b_w, rrr) INSN(crc_w_h_w, rrr) INSN(crc_w_w_w, rrr) INSN(crc_w_d_w, rrr) INSN(crcc_w_b_w, rrr) INSN(crcc_w_h_w, rrr) INSN(crcc_w_w_w, rrr) INSN(crcc_w_d_w, rrr) INSN(break, i) INSN(syscall, i) INSN(alsl_d, rrr_sa) INSN(slli_w, rr_i) INSN(slli_d, rr_i) INSN(srli_w, rr_i) INSN(srli_d, rr_i) INSN(srai_w, rr_i) INSN(srai_d, rr_i) INSN(rotri_w, rr_i) INSN(rotri_d, rr_i) INSN(bstrins_w, rr_ms_ls) INSN(bstrpick_w, rr_ms_ls) INSN(bstrins_d, rr_ms_ls) INSN(bstrpick_d, rr_ms_ls) INSN(fadd_s, fff) INSN(fadd_d, fff) INSN(fsub_s, fff) INSN(fsub_d, fff) INSN(fmul_s, fff) INSN(fmul_d, fff) INSN(fdiv_s, fff) INSN(fdiv_d, fff) INSN(fmax_s, fff) INSN(fmax_d, fff) INSN(fmin_s, fff) INSN(fmin_d, fff) INSN(fmaxa_s, fff) INSN(fmaxa_d, fff) INSN(fmina_s, fff) INSN(fmina_d, fff) INSN(fscaleb_s, fff) INSN(fscaleb_d, fff) INSN(fcopysign_s, fff) INSN(fcopysign_d, fff) INSN(fabs_s, ff) INSN(fabs_d, ff) INSN(fneg_s, ff) INSN(fneg_d, ff) INSN(flogb_s, ff) INSN(flogb_d, ff) INSN(fclass_s, ff) INSN(fclass_d, ff) INSN(fsqrt_s, ff) INSN(fsqrt_d, ff) INSN(frecip_s, ff) INSN(frecip_d, ff) INSN(frsqrt_s, ff) INSN(frsqrt_d, ff) INSN(fmov_s, ff) INSN(fmov_d, ff) INSN(movgr2fr_w, fr) INSN(movgr2fr_d, fr) INSN(movgr2frh_w, fr) INSN(movfr2gr_s, rf) INSN(movfr2gr_d, rf) INSN(movfrh2gr_s, rf) INSN(movgr2fcsr, fcsrd_r) INSN(movfcsr2gr, r_fcsrs) INSN(movfr2cf, cf) INSN(movcf2fr, fc) INSN(movgr2cf, cr) INSN(movcf2gr, rc) INSN(fcvt_s_d, ff) INSN(fcvt_d_s, ff) INSN(ftintrm_w_s, ff) INSN(ftintrm_w_d, ff) INSN(ftintrm_l_s, ff) INSN(ftintrm_l_d, ff) INSN(ftintrp_w_s, ff) INSN(ftintrp_w_d, ff) INSN(ftintrp_l_s, ff) INSN(ftintrp_l_d, ff) INSN(ftintrz_w_s, ff) INSN(ftintrz_w_d, ff) INSN(ftintrz_l_s, ff) INSN(ftintrz_l_d, ff) INSN(ftintrne_w_s, ff) INSN(ftintrne_w_d, ff) INSN(ftintrne_l_s, ff) INSN(ftintrne_l_d, ff) INSN(ftint_w_s, ff) INSN(ftint_w_d, ff) INSN(ftint_l_s, ff) INSN(ftint_l_d, ff) INSN(ffint_s_w, ff) INSN(ffint_s_l, ff) INSN(ffint_d_w, ff) INSN(ffint_d_l, ff) INSN(frint_s, ff) INSN(frint_d, ff) INSN(slti, rr_i) INSN(sltui, rr_i) INSN(addi_w, rr_i) INSN(addi_d, rr_i) INSN(lu52i_d, rr_i) INSN(andi, rr_i) INSN(ori, rr_i) INSN(xori, rr_i) INSN(fmadd_s, ffff) INSN(fmadd_d, ffff) INSN(fmsub_s, ffff) INSN(fmsub_d, ffff) INSN(fnmadd_s, ffff) INSN(fnmadd_d, ffff) INSN(fnmsub_s, ffff) INSN(fnmsub_d, ffff) INSN(fsel, fffc) INSN(addu16i_d, rr_i) INSN(lu12i_w, r_i) INSN(lu32i_d, r_i) INSN(ll_w, rr_i) INSN(sc_w, rr_i) INSN(ll_d, rr_i) INSN(sc_d, rr_i) INSN(ldptr_w, rr_i) INSN(stptr_w, rr_i) INSN(ldptr_d, rr_i) INSN(stptr_d, rr_i) INSN(ld_b, rr_i) INSN(ld_h, rr_i) INSN(ld_w, rr_i) INSN(ld_d, rr_i) INSN(st_b, rr_i) INSN(st_h, rr_i) INSN(st_w, rr_i) INSN(st_d, rr_i) INSN(ld_bu, rr_i) INSN(ld_hu, rr_i) INSN(ld_wu, rr_i) INSN(preld, hint_r_i) INSN(fld_s, fr_i) INSN(fst_s, fr_i) INSN(fld_d, fr_i) INSN(fst_d, fr_i) INSN(ldx_b, rrr) INSN(ldx_h, rrr) INSN(ldx_w, rrr) INSN(ldx_d, rrr) INSN(stx_b, rrr) INSN(stx_h, rrr) INSN(stx_w, rrr) INSN(stx_d, rrr) INSN(ldx_bu, rrr) INSN(ldx_hu, rrr) INSN(ldx_wu, rrr) INSN(fldx_s, frr) INSN(fldx_d, frr) INSN(fstx_s, frr) INSN(fstx_d, frr) INSN(amswap_w, rrr) INSN(amswap_d, rrr) INSN(amadd_w, rrr) INSN(amadd_d, rrr) INSN(amand_w, rrr) INSN(amand_d, rrr) INSN(amor_w, rrr) INSN(amor_d, rrr) INSN(amxor_w, rrr) INSN(amxor_d, rrr) INSN(ammax_w, rrr) INSN(ammax_d, rrr) INSN(ammin_w, rrr) INSN(ammin_d, rrr) INSN(ammax_wu, rrr) INSN(ammax_du, rrr) INSN(ammin_wu, rrr) INSN(ammin_du, rrr) INSN(amswap_db_w, rrr) INSN(amswap_db_d, rrr) INSN(amadd_db_w, rrr) INSN(amadd_db_d, rrr) INSN(amand_db_w, rrr) INSN(amand_db_d, rrr) INSN(amor_db_w, rrr) INSN(amor_db_d, rrr) INSN(amxor_db_w, rrr) INSN(amxor_db_d, rrr) INSN(ammax_db_w, rrr) INSN(ammax_db_d, rrr) INSN(ammin_db_w, rrr) INSN(ammin_db_d, rrr) INSN(ammax_db_wu, rrr) INSN(ammax_db_du, rrr) INSN(ammin_db_wu, rrr) INSN(ammin_db_du, rrr) INSN(dbar, i) INSN(ibar, i) INSN(fldgt_s, frr) INSN(fldgt_d, frr) INSN(fldle_s, frr) INSN(fldle_d, frr) INSN(fstgt_s, frr) INSN(fstgt_d, frr) INSN(fstle_s, frr) INSN(fstle_d, frr) INSN(ldgt_b, rrr) INSN(ldgt_h, rrr) INSN(ldgt_w, rrr) INSN(ldgt_d, rrr) INSN(ldle_b, rrr) INSN(ldle_h, rrr) INSN(ldle_w, rrr) INSN(ldle_d, rrr) INSN(stgt_b, rrr) INSN(stgt_h, rrr) INSN(stgt_w, rrr) INSN(stgt_d, rrr) INSN(stle_b, rrr) INSN(stle_h, rrr) INSN(stle_w, rrr) INSN(stle_d, rrr) INSN(beqz, r_offs) INSN(bnez, r_offs) INSN(bceqz, c_offs) INSN(bcnez, c_offs) INSN(jirl, rr_i) INSN(b, offs) INSN(bl, offs) INSN(beq, rr_offs) INSN(bne, rr_offs) INSN(blt, rr_offs) INSN(bge, rr_offs) INSN(bltu, rr_offs) INSN(bgeu, rr_offs) INSN(csrrd, r_csr) INSN(csrwr, r_csr) INSN(csrxchg, rr_csr) INSN(iocsrrd_b, rr) INSN(iocsrrd_h, rr) INSN(iocsrrd_w, rr) INSN(iocsrrd_d, rr) INSN(iocsrwr_b, rr) INSN(iocsrwr_h, rr) INSN(iocsrwr_w, rr) INSN(iocsrwr_d, rr) INSN(tlbsrch, empty) INSN(tlbrd, empty) INSN(tlbwr, empty) INSN(tlbfill, empty) INSN(tlbclr, empty) INSN(tlbflush, empty) INSN(invtlb, i_rr) INSN(cacop, cop_r_i) INSN(lddir, rr_i) INSN(ldpte, j_i) INSN(ertn, empty) INSN(idle, i) INSN(dbcl, i) #define output_fcmp(C, PREFIX, SUFFIX) \ { \ (C)->info->fprintf_func((C)->info->stream, "%08x %s%s\tfcc%d, f%d, f%d", \ (C)->insn, PREFIX, SUFFIX, a->cd, \ a->fj, a->fk); \ } static bool output_cff_fcond(DisasContext *ctx, arg_cff_fcond * a, const char *suffix) { bool ret = true; switch (a->fcond) { case 0x0: output_fcmp(ctx, "fcmp_caf_", suffix); break; case 0x1: output_fcmp(ctx, "fcmp_saf_", suffix); break; case 0x2: output_fcmp(ctx, "fcmp_clt_", suffix); break; case 0x3: output_fcmp(ctx, "fcmp_slt_", suffix); break; case 0x4: output_fcmp(ctx, "fcmp_ceq_", suffix); break; case 0x5: output_fcmp(ctx, "fcmp_seq_", suffix); break; case 0x6: output_fcmp(ctx, "fcmp_cle_", suffix); break; case 0x7: output_fcmp(ctx, "fcmp_sle_", suffix); break; case 0x8: output_fcmp(ctx, "fcmp_cun_", suffix); break; case 0x9: output_fcmp(ctx, "fcmp_sun_", suffix); break; case 0xA: output_fcmp(ctx, "fcmp_cult_", suffix); break; case 0xB: output_fcmp(ctx, "fcmp_sult_", suffix); break; case 0xC: output_fcmp(ctx, "fcmp_cueq_", suffix); break; case 0xD: output_fcmp(ctx, "fcmp_sueq_", suffix); break; case 0xE: output_fcmp(ctx, "fcmp_cule_", suffix); break; case 0xF: output_fcmp(ctx, "fcmp_sule_", suffix); break; case 0x10: output_fcmp(ctx, "fcmp_cne_", suffix); break; case 0x11: output_fcmp(ctx, "fcmp_sne_", suffix); break; case 0x14: output_fcmp(ctx, "fcmp_cor_", suffix); break; case 0x15: output_fcmp(ctx, "fcmp_sor_", suffix); break; case 0x18: output_fcmp(ctx, "fcmp_cune_", suffix); break; case 0x19: output_fcmp(ctx, "fcmp_sune_", suffix); break; default: ret = false; } return ret; } #define FCMP_INSN(suffix) \ static bool trans_fcmp_cond_##suffix(DisasContext *ctx, \ arg_cff_fcond * a) \ { \ return output_cff_fcond(ctx, a, #suffix); \ } FCMP_INSN(s) FCMP_INSN(d) #define PCADD_INSN(name) \ static bool trans_##name(DisasContext *ctx, arg_##name *a) \ { \ output(ctx, #name, "r%d, %d # 0x%" PRIx64, \ a->rd, a->imm, gen_##name(ctx->pc, a->imm)); \ return true; \ } static uint64_t gen_pcaddi(uint64_t pc, int imm) { return pc + (imm << 2); } static uint64_t gen_pcalau12i(uint64_t pc, int imm) { return (pc + (imm << 12)) & ~0xfff; } static uint64_t gen_pcaddu12i(uint64_t pc, int imm) { return pc + (imm << 12); } static uint64_t gen_pcaddu18i(uint64_t pc, int imm) { return pc + ((uint64_t)(imm) << 18); } PCADD_INSN(pcaddi) PCADD_INSN(pcalau12i) PCADD_INSN(pcaddu12i) PCADD_INSN(pcaddu18i) #define INSN_LSX(insn, type) \ static bool trans_##insn(DisasContext *ctx, arg_##type * a) \ { \ output_##type(ctx, a, #insn); \ return true; \ } static void output_vvv(DisasContext *ctx, arg_vvv *a, const char *mnemonic) { output(ctx, mnemonic, "v%d, v%d, v%d", a->vd, a->vj, a->vk); } static void output_vv_i(DisasContext *ctx, arg_vv_i *a, const char *mnemonic) { output(ctx, mnemonic, "v%d, v%d, 0x%x", a->vd, a->vj, a->imm); } static void output_vv(DisasContext *ctx, arg_vv *a, const char *mnemonic) { output(ctx, mnemonic, "v%d, v%d", a->vd, a->vj); } INSN_LSX(vadd_b, vvv) INSN_LSX(vadd_h, vvv) INSN_LSX(vadd_w, vvv) INSN_LSX(vadd_d, vvv) INSN_LSX(vadd_q, vvv) INSN_LSX(vsub_b, vvv) INSN_LSX(vsub_h, vvv) INSN_LSX(vsub_w, vvv) INSN_LSX(vsub_d, vvv) INSN_LSX(vsub_q, vvv) INSN_LSX(vaddi_bu, vv_i) INSN_LSX(vaddi_hu, vv_i) INSN_LSX(vaddi_wu, vv_i) INSN_LSX(vaddi_du, vv_i) INSN_LSX(vsubi_bu, vv_i) INSN_LSX(vsubi_hu, vv_i) INSN_LSX(vsubi_wu, vv_i) INSN_LSX(vsubi_du, vv_i) INSN_LSX(vneg_b, vv) INSN_LSX(vneg_h, vv) INSN_LSX(vneg_w, vv) INSN_LSX(vneg_d, vv) INSN_LSX(vsadd_b, vvv) INSN_LSX(vsadd_h, vvv) INSN_LSX(vsadd_w, vvv) INSN_LSX(vsadd_d, vvv) INSN_LSX(vsadd_bu, vvv) INSN_LSX(vsadd_hu, vvv) INSN_LSX(vsadd_wu, vvv) INSN_LSX(vsadd_du, vvv) INSN_LSX(vssub_b, vvv) INSN_LSX(vssub_h, vvv) INSN_LSX(vssub_w, vvv) INSN_LSX(vssub_d, vvv) INSN_LSX(vssub_bu, vvv) INSN_LSX(vssub_hu, vvv) INSN_LSX(vssub_wu, vvv) INSN_LSX(vssub_du, vvv) INSN_LSX(vhaddw_h_b, vvv) INSN_LSX(vhaddw_w_h, vvv) INSN_LSX(vhaddw_d_w, vvv) INSN_LSX(vhaddw_q_d, vvv) INSN_LSX(vhaddw_hu_bu, vvv) INSN_LSX(vhaddw_wu_hu, vvv) INSN_LSX(vhaddw_du_wu, vvv) INSN_LSX(vhaddw_qu_du, vvv) INSN_LSX(vhsubw_h_b, vvv) INSN_LSX(vhsubw_w_h, vvv) INSN_LSX(vhsubw_d_w, vvv) INSN_LSX(vhsubw_q_d, vvv) INSN_LSX(vhsubw_hu_bu, vvv) INSN_LSX(vhsubw_wu_hu, vvv) INSN_LSX(vhsubw_du_wu, vvv) INSN_LSX(vhsubw_qu_du, vvv) INSN_LSX(vaddwev_h_b, vvv) INSN_LSX(vaddwev_w_h, vvv) INSN_LSX(vaddwev_d_w, vvv) INSN_LSX(vaddwev_q_d, vvv) INSN_LSX(vaddwod_h_b, vvv) INSN_LSX(vaddwod_w_h, vvv) INSN_LSX(vaddwod_d_w, vvv) INSN_LSX(vaddwod_q_d, vvv) INSN_LSX(vsubwev_h_b, vvv) INSN_LSX(vsubwev_w_h, vvv) INSN_LSX(vsubwev_d_w, vvv) INSN_LSX(vsubwev_q_d, vvv) INSN_LSX(vsubwod_h_b, vvv) INSN_LSX(vsubwod_w_h, vvv) INSN_LSX(vsubwod_d_w, vvv) INSN_LSX(vsubwod_q_d, vvv) INSN_LSX(vaddwev_h_bu, vvv) INSN_LSX(vaddwev_w_hu, vvv) INSN_LSX(vaddwev_d_wu, vvv) INSN_LSX(vaddwev_q_du, vvv) INSN_LSX(vaddwod_h_bu, vvv) INSN_LSX(vaddwod_w_hu, vvv) INSN_LSX(vaddwod_d_wu, vvv) INSN_LSX(vaddwod_q_du, vvv) INSN_LSX(vsubwev_h_bu, vvv) INSN_LSX(vsubwev_w_hu, vvv) INSN_LSX(vsubwev_d_wu, vvv) INSN_LSX(vsubwev_q_du, vvv) INSN_LSX(vsubwod_h_bu, vvv) INSN_LSX(vsubwod_w_hu, vvv) INSN_LSX(vsubwod_d_wu, vvv) INSN_LSX(vsubwod_q_du, vvv) INSN_LSX(vaddwev_h_bu_b, vvv) INSN_LSX(vaddwev_w_hu_h, vvv) INSN_LSX(vaddwev_d_wu_w, vvv) INSN_LSX(vaddwev_q_du_d, vvv) INSN_LSX(vaddwod_h_bu_b, vvv) INSN_LSX(vaddwod_w_hu_h, vvv) INSN_LSX(vaddwod_d_wu_w, vvv) INSN_LSX(vaddwod_q_du_d, vvv) INSN_LSX(vavg_b, vvv) INSN_LSX(vavg_h, vvv) INSN_LSX(vavg_w, vvv) INSN_LSX(vavg_d, vvv) INSN_LSX(vavg_bu, vvv) INSN_LSX(vavg_hu, vvv) INSN_LSX(vavg_wu, vvv) INSN_LSX(vavg_du, vvv) INSN_LSX(vavgr_b, vvv) INSN_LSX(vavgr_h, vvv) INSN_LSX(vavgr_w, vvv) INSN_LSX(vavgr_d, vvv) INSN_LSX(vavgr_bu, vvv) INSN_LSX(vavgr_hu, vvv) INSN_LSX(vavgr_wu, vvv) INSN_LSX(vavgr_du, vvv) INSN_LSX(vabsd_b, vvv) INSN_LSX(vabsd_h, vvv) INSN_LSX(vabsd_w, vvv) INSN_LSX(vabsd_d, vvv) INSN_LSX(vabsd_bu, vvv) INSN_LSX(vabsd_hu, vvv) INSN_LSX(vabsd_wu, vvv) INSN_LSX(vabsd_du, vvv) INSN_LSX(vadda_b, vvv) INSN_LSX(vadda_h, vvv) INSN_LSX(vadda_w, vvv) INSN_LSX(vadda_d, vvv) INSN_LSX(vmax_b, vvv) INSN_LSX(vmax_h, vvv) INSN_LSX(vmax_w, vvv) INSN_LSX(vmax_d, vvv) INSN_LSX(vmin_b, vvv) INSN_LSX(vmin_h, vvv) INSN_LSX(vmin_w, vvv) INSN_LSX(vmin_d, vvv) INSN_LSX(vmax_bu, vvv) INSN_LSX(vmax_hu, vvv) INSN_LSX(vmax_wu, vvv) INSN_LSX(vmax_du, vvv) INSN_LSX(vmin_bu, vvv) INSN_LSX(vmin_hu, vvv) INSN_LSX(vmin_wu, vvv) INSN_LSX(vmin_du, vvv) INSN_LSX(vmaxi_b, vv_i) INSN_LSX(vmaxi_h, vv_i) INSN_LSX(vmaxi_w, vv_i) INSN_LSX(vmaxi_d, vv_i) INSN_LSX(vmini_b, vv_i) INSN_LSX(vmini_h, vv_i) INSN_LSX(vmini_w, vv_i) INSN_LSX(vmini_d, vv_i) INSN_LSX(vmaxi_bu, vv_i) INSN_LSX(vmaxi_hu, vv_i) INSN_LSX(vmaxi_wu, vv_i) INSN_LSX(vmaxi_du, vv_i) INSN_LSX(vmini_bu, vv_i) INSN_LSX(vmini_hu, vv_i) INSN_LSX(vmini_wu, vv_i) INSN_LSX(vmini_du, vv_i) INSN_LSX(vmul_b, vvv) INSN_LSX(vmul_h, vvv) INSN_LSX(vmul_w, vvv) INSN_LSX(vmul_d, vvv) INSN_LSX(vmuh_b, vvv) INSN_LSX(vmuh_h, vvv) INSN_LSX(vmuh_w, vvv) INSN_LSX(vmuh_d, vvv) INSN_LSX(vmuh_bu, vvv) INSN_LSX(vmuh_hu, vvv) INSN_LSX(vmuh_wu, vvv) INSN_LSX(vmuh_du, vvv) INSN_LSX(vmulwev_h_b, vvv) INSN_LSX(vmulwev_w_h, vvv) INSN_LSX(vmulwev_d_w, vvv) INSN_LSX(vmulwev_q_d, vvv) INSN_LSX(vmulwod_h_b, vvv) INSN_LSX(vmulwod_w_h, vvv) INSN_LSX(vmulwod_d_w, vvv) INSN_LSX(vmulwod_q_d, vvv) INSN_LSX(vmulwev_h_bu, vvv) INSN_LSX(vmulwev_w_hu, vvv) INSN_LSX(vmulwev_d_wu, vvv) INSN_LSX(vmulwev_q_du, vvv) INSN_LSX(vmulwod_h_bu, vvv) INSN_LSX(vmulwod_w_hu, vvv) INSN_LSX(vmulwod_d_wu, vvv) INSN_LSX(vmulwod_q_du, vvv) INSN_LSX(vmulwev_h_bu_b, vvv) INSN_LSX(vmulwev_w_hu_h, vvv) INSN_LSX(vmulwev_d_wu_w, vvv) INSN_LSX(vmulwev_q_du_d, vvv) INSN_LSX(vmulwod_h_bu_b, vvv) INSN_LSX(vmulwod_w_hu_h, vvv) INSN_LSX(vmulwod_d_wu_w, vvv) INSN_LSX(vmulwod_q_du_d, vvv) INSN_LSX(vmadd_b, vvv) INSN_LSX(vmadd_h, vvv) INSN_LSX(vmadd_w, vvv) INSN_LSX(vmadd_d, vvv) INSN_LSX(vmsub_b, vvv) INSN_LSX(vmsub_h, vvv) INSN_LSX(vmsub_w, vvv) INSN_LSX(vmsub_d, vvv) INSN_LSX(vmaddwev_h_b, vvv) INSN_LSX(vmaddwev_w_h, vvv) INSN_LSX(vmaddwev_d_w, vvv) INSN_LSX(vmaddwev_q_d, vvv) INSN_LSX(vmaddwod_h_b, vvv) INSN_LSX(vmaddwod_w_h, vvv) INSN_LSX(vmaddwod_d_w, vvv) INSN_LSX(vmaddwod_q_d, vvv) INSN_LSX(vmaddwev_h_bu, vvv) INSN_LSX(vmaddwev_w_hu, vvv) INSN_LSX(vmaddwev_d_wu, vvv) INSN_LSX(vmaddwev_q_du, vvv) INSN_LSX(vmaddwod_h_bu, vvv) INSN_LSX(vmaddwod_w_hu, vvv) INSN_LSX(vmaddwod_d_wu, vvv) INSN_LSX(vmaddwod_q_du, vvv) INSN_LSX(vmaddwev_h_bu_b, vvv) INSN_LSX(vmaddwev_w_hu_h, vvv) INSN_LSX(vmaddwev_d_wu_w, vvv) INSN_LSX(vmaddwev_q_du_d, vvv) INSN_LSX(vmaddwod_h_bu_b, vvv) INSN_LSX(vmaddwod_w_hu_h, vvv) INSN_LSX(vmaddwod_d_wu_w, vvv) INSN_LSX(vmaddwod_q_du_d, vvv) INSN_LSX(vdiv_b, vvv) INSN_LSX(vdiv_h, vvv) INSN_LSX(vdiv_w, vvv) INSN_LSX(vdiv_d, vvv) INSN_LSX(vdiv_bu, vvv) INSN_LSX(vdiv_hu, vvv) INSN_LSX(vdiv_wu, vvv) INSN_LSX(vdiv_du, vvv) INSN_LSX(vmod_b, vvv) INSN_LSX(vmod_h, vvv) INSN_LSX(vmod_w, vvv) INSN_LSX(vmod_d, vvv) INSN_LSX(vmod_bu, vvv) INSN_LSX(vmod_hu, vvv) INSN_LSX(vmod_wu, vvv) INSN_LSX(vmod_du, vvv) INSN_LSX(vsat_b, vv_i) INSN_LSX(vsat_h, vv_i) INSN_LSX(vsat_w, vv_i) INSN_LSX(vsat_d, vv_i) INSN_LSX(vsat_bu, vv_i) INSN_LSX(vsat_hu, vv_i) INSN_LSX(vsat_wu, vv_i) INSN_LSX(vsat_du, vv_i) INSN_LSX(vexth_h_b, vv) INSN_LSX(vexth_w_h, vv) INSN_LSX(vexth_d_w, vv) INSN_LSX(vexth_q_d, vv) INSN_LSX(vexth_hu_bu, vv) INSN_LSX(vexth_wu_hu, vv) INSN_LSX(vexth_du_wu, vv) INSN_LSX(vexth_qu_du, vv) INSN_LSX(vsigncov_b, vvv) INSN_LSX(vsigncov_h, vvv) INSN_LSX(vsigncov_w, vvv) INSN_LSX(vsigncov_d, vvv) INSN_LSX(vmskltz_b, vv) INSN_LSX(vmskltz_h, vv) INSN_LSX(vmskltz_w, vv) INSN_LSX(vmskltz_d, vv) INSN_LSX(vmskgez_b, vv) INSN_LSX(vmsknz_b, vv) INSN_LSX(vand_v, vvv) INSN_LSX(vor_v, vvv) INSN_LSX(vxor_v, vvv) INSN_LSX(vnor_v, vvv) INSN_LSX(vandn_v, vvv) INSN_LSX(vorn_v, vvv) INSN_LSX(vandi_b, vv_i) INSN_LSX(vori_b, vv_i) INSN_LSX(vxori_b, vv_i) INSN_LSX(vnori_b, vv_i) INSN_LSX(vsll_b, vvv) INSN_LSX(vsll_h, vvv) INSN_LSX(vsll_w, vvv) INSN_LSX(vsll_d, vvv) INSN_LSX(vslli_b, vv_i) INSN_LSX(vslli_h, vv_i) INSN_LSX(vslli_w, vv_i) INSN_LSX(vslli_d, vv_i) INSN_LSX(vsrl_b, vvv) INSN_LSX(vsrl_h, vvv) INSN_LSX(vsrl_w, vvv) INSN_LSX(vsrl_d, vvv) INSN_LSX(vsrli_b, vv_i) INSN_LSX(vsrli_h, vv_i) INSN_LSX(vsrli_w, vv_i) INSN_LSX(vsrli_d, vv_i) INSN_LSX(vsra_b, vvv) INSN_LSX(vsra_h, vvv) INSN_LSX(vsra_w, vvv) INSN_LSX(vsra_d, vvv) INSN_LSX(vsrai_b, vv_i) INSN_LSX(vsrai_h, vv_i) INSN_LSX(vsrai_w, vv_i) INSN_LSX(vsrai_d, vv_i) INSN_LSX(vrotr_b, vvv) INSN_LSX(vrotr_h, vvv) INSN_LSX(vrotr_w, vvv) INSN_LSX(vrotr_d, vvv) INSN_LSX(vrotri_b, vv_i) INSN_LSX(vrotri_h, vv_i) INSN_LSX(vrotri_w, vv_i) INSN_LSX(vrotri_d, vv_i) INSN_LSX(vsllwil_h_b, vv_i) INSN_LSX(vsllwil_w_h, vv_i) INSN_LSX(vsllwil_d_w, vv_i) INSN_LSX(vextl_q_d, vv) INSN_LSX(vsllwil_hu_bu, vv_i) INSN_LSX(vsllwil_wu_hu, vv_i) INSN_LSX(vsllwil_du_wu, vv_i) INSN_LSX(vextl_qu_du, vv) INSN_LSX(vsrlr_b, vvv) INSN_LSX(vsrlr_h, vvv) INSN_LSX(vsrlr_w, vvv) INSN_LSX(vsrlr_d, vvv) INSN_LSX(vsrlri_b, vv_i) INSN_LSX(vsrlri_h, vv_i) INSN_LSX(vsrlri_w, vv_i) INSN_LSX(vsrlri_d, vv_i) INSN_LSX(vsrar_b, vvv) INSN_LSX(vsrar_h, vvv) INSN_LSX(vsrar_w, vvv) INSN_LSX(vsrar_d, vvv) INSN_LSX(vsrari_b, vv_i) INSN_LSX(vsrari_h, vv_i) INSN_LSX(vsrari_w, vv_i) INSN_LSX(vsrari_d, vv_i) INSN_LSX(vsrln_b_h, vvv) INSN_LSX(vsrln_h_w, vvv) INSN_LSX(vsrln_w_d, vvv) INSN_LSX(vsran_b_h, vvv) INSN_LSX(vsran_h_w, vvv) INSN_LSX(vsran_w_d, vvv) INSN_LSX(vsrlni_b_h, vv_i) INSN_LSX(vsrlni_h_w, vv_i) INSN_LSX(vsrlni_w_d, vv_i) INSN_LSX(vsrlni_d_q, vv_i) INSN_LSX(vsrani_b_h, vv_i) INSN_LSX(vsrani_h_w, vv_i) INSN_LSX(vsrani_w_d, vv_i) INSN_LSX(vsrani_d_q, vv_i) INSN_LSX(vsrlrn_b_h, vvv) INSN_LSX(vsrlrn_h_w, vvv) INSN_LSX(vsrlrn_w_d, vvv) INSN_LSX(vsrarn_b_h, vvv) INSN_LSX(vsrarn_h_w, vvv) INSN_LSX(vsrarn_w_d, vvv) INSN_LSX(vsrlrni_b_h, vv_i) INSN_LSX(vsrlrni_h_w, vv_i) INSN_LSX(vsrlrni_w_d, vv_i) INSN_LSX(vsrlrni_d_q, vv_i) INSN_LSX(vsrarni_b_h, vv_i) INSN_LSX(vsrarni_h_w, vv_i) INSN_LSX(vsrarni_w_d, vv_i) INSN_LSX(vsrarni_d_q, vv_i) INSN_LSX(vssrln_b_h, vvv) INSN_LSX(vssrln_h_w, vvv) INSN_LSX(vssrln_w_d, vvv) INSN_LSX(vssran_b_h, vvv) INSN_LSX(vssran_h_w, vvv) INSN_LSX(vssran_w_d, vvv) INSN_LSX(vssrln_bu_h, vvv) INSN_LSX(vssrln_hu_w, vvv) INSN_LSX(vssrln_wu_d, vvv) INSN_LSX(vssran_bu_h, vvv) INSN_LSX(vssran_hu_w, vvv) INSN_LSX(vssran_wu_d, vvv) INSN_LSX(vssrlni_b_h, vv_i) INSN_LSX(vssrlni_h_w, vv_i) INSN_LSX(vssrlni_w_d, vv_i) INSN_LSX(vssrlni_d_q, vv_i) INSN_LSX(vssrani_b_h, vv_i) INSN_LSX(vssrani_h_w, vv_i) INSN_LSX(vssrani_w_d, vv_i) INSN_LSX(vssrani_d_q, vv_i) INSN_LSX(vssrlni_bu_h, vv_i) INSN_LSX(vssrlni_hu_w, vv_i) INSN_LSX(vssrlni_wu_d, vv_i) INSN_LSX(vssrlni_du_q, vv_i) INSN_LSX(vssrani_bu_h, vv_i) INSN_LSX(vssrani_hu_w, vv_i) INSN_LSX(vssrani_wu_d, vv_i) INSN_LSX(vssrani_du_q, vv_i)