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qemu / qemu / 5f82fb2a3a71bb510b3e1b7229929d468c01740a / . / target / riscv / insn_trans / trans_rvvk.c.inc
blob: ae1f40174a16cf83981cee582fdca809d147302b [file] [log] [blame]
/*
* RISC-V translation routines for the vector crypto extension.
*
* Copyright (C) 2023 SiFive, Inc.
* Written by Codethink Ltd and SiFive.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2 or later, as published by the Free Software Foundation.
*
* This program is distributed in the hope 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
* this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*
* Zvbc
*/
#define GEN_VV_MASKED_TRANS(NAME, CHECK) \
static bool trans_##NAME(DisasContext *s, arg_rmrr *a) \
{ \
if (CHECK(s, a)) { \
return opivv_trans(a->rd, a->rs1, a->rs2, a->vm, \
gen_helper_##NAME, s); \
} \
return false; \
}
static bool vclmul_vv_check(DisasContext *s, arg_rmrr *a)
{
return opivv_check(s, a) &&
s->cfg_ptr->ext_zvbc == true &&
s->sew == MO_64;
}
GEN_VV_MASKED_TRANS(vclmul_vv, vclmul_vv_check)
GEN_VV_MASKED_TRANS(vclmulh_vv, vclmul_vv_check)
#define GEN_VX_MASKED_TRANS(NAME, CHECK) \
static bool trans_##NAME(DisasContext *s, arg_rmrr *a) \
{ \
if (CHECK(s, a)) { \
return opivx_trans(a->rd, a->rs1, a->rs2, a->vm, \
gen_helper_##NAME, s); \
} \
return false; \
}
static bool vclmul_vx_check(DisasContext *s, arg_rmrr *a)
{
return opivx_check(s, a) &&
s->cfg_ptr->ext_zvbc == true &&
s->sew == MO_64;
}
GEN_VX_MASKED_TRANS(vclmul_vx, vclmul_vx_check)
GEN_VX_MASKED_TRANS(vclmulh_vx, vclmul_vx_check)
/*
* Zvbb
*/
#define GEN_OPIVI_GVEC_TRANS_CHECK(NAME, IMM_MODE, OPIVX, SUF, CHECK) \
static bool trans_##NAME(DisasContext *s, arg_rmrr *a) \
{ \
if (CHECK(s, a)) { \
static gen_helper_opivx *const fns[4] = { \
gen_helper_##OPIVX##_b, \
gen_helper_##OPIVX##_h, \
gen_helper_##OPIVX##_w, \
gen_helper_##OPIVX##_d, \
}; \
return do_opivi_gvec(s, a, tcg_gen_gvec_##SUF, fns[s->sew], \
IMM_MODE); \
} \
return false; \
}
#define GEN_OPIVV_GVEC_TRANS_CHECK(NAME, SUF, CHECK) \
static bool trans_##NAME(DisasContext *s, arg_rmrr *a) \
{ \
if (CHECK(s, a)) { \
static gen_helper_gvec_4_ptr *const fns[4] = { \
gen_helper_##NAME##_b, \
gen_helper_##NAME##_h, \
gen_helper_##NAME##_w, \
gen_helper_##NAME##_d, \
}; \
return do_opivv_gvec(s, a, tcg_gen_gvec_##SUF, fns[s->sew]); \
} \
return false; \
}
#define GEN_OPIVX_GVEC_SHIFT_TRANS_CHECK(NAME, SUF, CHECK) \
static bool trans_##NAME(DisasContext *s, arg_rmrr *a) \
{ \
if (CHECK(s, a)) { \
static gen_helper_opivx *const fns[4] = { \
gen_helper_##NAME##_b, \
gen_helper_##NAME##_h, \
gen_helper_##NAME##_w, \
gen_helper_##NAME##_d, \
}; \
return do_opivx_gvec_shift(s, a, tcg_gen_gvec_##SUF, \
fns[s->sew]); \
} \
return false; \
}
static bool zvkb_vv_check(DisasContext *s, arg_rmrr *a)
{
return opivv_check(s, a) &&
(s->cfg_ptr->ext_zvbb == true || s->cfg_ptr->ext_zvkb == true);
}
static bool zvkb_vx_check(DisasContext *s, arg_rmrr *a)
{
return opivx_check(s, a) &&
(s->cfg_ptr->ext_zvbb == true || s->cfg_ptr->ext_zvkb == true);
}
/* vrol.v[vx] */
GEN_OPIVV_GVEC_TRANS_CHECK(vrol_vv, rotlv, zvkb_vv_check)
GEN_OPIVX_GVEC_SHIFT_TRANS_CHECK(vrol_vx, rotls, zvkb_vx_check)
/* vror.v[vxi] */
GEN_OPIVV_GVEC_TRANS_CHECK(vror_vv, rotrv, zvkb_vv_check)
GEN_OPIVX_GVEC_SHIFT_TRANS_CHECK(vror_vx, rotrs, zvkb_vx_check)
GEN_OPIVI_GVEC_TRANS_CHECK(vror_vi, IMM_TRUNC_SEW, vror_vx, rotri,
zvkb_vx_check)
#define GEN_OPIVX_GVEC_TRANS_CHECK(NAME, SUF, CHECK) \
static bool trans_##NAME(DisasContext *s, arg_rmrr *a) \
{ \
if (CHECK(s, a)) { \
static gen_helper_opivx *const fns[4] = { \
gen_helper_##NAME##_b, \
gen_helper_##NAME##_h, \
gen_helper_##NAME##_w, \
gen_helper_##NAME##_d, \
}; \
return do_opivx_gvec(s, a, tcg_gen_gvec_##SUF, fns[s->sew]); \
} \
return false; \
}
/* vandn.v[vx] */
GEN_OPIVV_GVEC_TRANS_CHECK(vandn_vv, andc, zvkb_vv_check)
GEN_OPIVX_GVEC_TRANS_CHECK(vandn_vx, andcs, zvkb_vx_check)
#define GEN_OPIV_TRANS(NAME, CHECK) \
static bool trans_##NAME(DisasContext *s, arg_rmr *a) \
{ \
if (CHECK(s, a)) { \
uint32_t data = 0; \
static gen_helper_gvec_3_ptr *const fns[4] = { \
gen_helper_##NAME##_b, \
gen_helper_##NAME##_h, \
gen_helper_##NAME##_w, \
gen_helper_##NAME##_d, \
}; \
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
data = FIELD_DP32(data, VDATA, VTA, s->vta); \
data = FIELD_DP32(data, VDATA, VTA_ALL_1S, s->cfg_vta_all_1s); \
data = FIELD_DP32(data, VDATA, VMA, s->vma); \
tcg_gen_gvec_3_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, 0), \
vreg_ofs(s, a->rs2), tcg_env, \
s->cfg_ptr->vlenb, s->cfg_ptr->vlenb, \
data, fns[s->sew]); \
finalize_rvv_inst(s); \
return true; \
} \
return false; \
}
static bool zvbb_opiv_check(DisasContext *s, arg_rmr *a)
{
return s->cfg_ptr->ext_zvbb == true &&
require_rvv(s) &&
vext_check_isa_ill(s) &&
vext_check_ss(s, a->rd, a->rs2, a->vm);
}
static bool zvkb_opiv_check(DisasContext *s, arg_rmr *a)
{
return (s->cfg_ptr->ext_zvbb == true || s->cfg_ptr->ext_zvkb == true) &&
require_rvv(s) &&
vext_check_isa_ill(s) &&
vext_check_ss(s, a->rd, a->rs2, a->vm);
}
GEN_OPIV_TRANS(vbrev8_v, zvkb_opiv_check)
GEN_OPIV_TRANS(vrev8_v, zvkb_opiv_check)
GEN_OPIV_TRANS(vbrev_v, zvbb_opiv_check)
GEN_OPIV_TRANS(vclz_v, zvbb_opiv_check)
GEN_OPIV_TRANS(vctz_v, zvbb_opiv_check)
GEN_OPIV_TRANS(vcpop_v, zvbb_opiv_check)
static bool vwsll_vv_check(DisasContext *s, arg_rmrr *a)
{
return s->cfg_ptr->ext_zvbb && opivv_widen_check(s, a);
}
static bool vwsll_vx_check(DisasContext *s, arg_rmrr *a)
{
return s->cfg_ptr->ext_zvbb && opivx_widen_check(s, a);
}
/* OPIVI without GVEC IR */
#define GEN_OPIVI_WIDEN_TRANS(NAME, IMM_MODE, OPIVX, CHECK) \
static bool trans_##NAME(DisasContext *s, arg_rmrr *a) \
{ \
if (CHECK(s, a)) { \
static gen_helper_opivx *const fns[3] = { \
gen_helper_##OPIVX##_b, \
gen_helper_##OPIVX##_h, \
gen_helper_##OPIVX##_w, \
}; \
return opivi_trans(a->rd, a->rs1, a->rs2, a->vm, fns[s->sew], s, \
IMM_MODE); \
} \
return false; \
}
GEN_OPIVV_WIDEN_TRANS(vwsll_vv, vwsll_vv_check)
GEN_OPIVX_WIDEN_TRANS(vwsll_vx, vwsll_vx_check)
GEN_OPIVI_WIDEN_TRANS(vwsll_vi, IMM_ZX, vwsll_vx, vwsll_vx_check)
/*
* Zvkned
*/
#define ZVKNED_EGS 4
#define GEN_V_UNMASKED_TRANS(NAME, CHECK, EGS) \
static bool trans_##NAME(DisasContext *s, arg_##NAME *a) \
{ \
if (CHECK(s, a)) { \
TCGv_ptr rd_v, rs2_v; \
TCGv_i32 desc, egs; \
uint32_t data = 0; \
\
if (!s->vstart_eq_zero || !s->vl_eq_vlmax) { \
/* save opcode for unwinding in case we throw an exception */ \
decode_save_opc(s); \
egs = tcg_constant_i32(EGS); \
gen_helper_egs_check(egs, tcg_env); \
} \
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
data = FIELD_DP32(data, VDATA, VTA, s->vta); \
data = FIELD_DP32(data, VDATA, VTA_ALL_1S, s->cfg_vta_all_1s); \
data = FIELD_DP32(data, VDATA, VMA, s->vma); \
rd_v = tcg_temp_new_ptr(); \
rs2_v = tcg_temp_new_ptr(); \
desc = tcg_constant_i32( \
simd_desc(s->cfg_ptr->vlenb, s->cfg_ptr->vlenb, data)); \
tcg_gen_addi_ptr(rd_v, tcg_env, vreg_ofs(s, a->rd)); \
tcg_gen_addi_ptr(rs2_v, tcg_env, vreg_ofs(s, a->rs2)); \
gen_helper_##NAME(rd_v, rs2_v, tcg_env, desc); \
finalize_rvv_inst(s); \
return true; \
} \
return false; \
}
static bool vaes_check_vv(DisasContext *s, arg_rmr *a)
{
int egw_bytes = ZVKNED_EGS << s->sew;
return s->cfg_ptr->ext_zvkned == true &&
require_rvv(s) &&
vext_check_isa_ill(s) &&
MAXSZ(s) >= egw_bytes &&
require_align(a->rd, s->lmul) &&
require_align(a->rs2, s->lmul) &&
s->sew == MO_32;
}
static bool vaes_check_overlap(DisasContext *s, int vd, int vs2)
{
int8_t op_size = s->lmul <= 0 ? 1 : 1 << s->lmul;
return !is_overlapped(vd, op_size, vs2, 1);
}
static bool vaes_check_vs(DisasContext *s, arg_rmr *a)
{
int egw_bytes = ZVKNED_EGS << s->sew;
return vaes_check_overlap(s, a->rd, a->rs2) &&
MAXSZ(s) >= egw_bytes &&
s->cfg_ptr->ext_zvkned == true &&
require_rvv(s) &&
vext_check_isa_ill(s) &&
require_align(a->rd, s->lmul) &&
s->sew == MO_32;
}
GEN_V_UNMASKED_TRANS(vaesef_vv, vaes_check_vv, ZVKNED_EGS)
GEN_V_UNMASKED_TRANS(vaesef_vs, vaes_check_vs, ZVKNED_EGS)
GEN_V_UNMASKED_TRANS(vaesdf_vv, vaes_check_vv, ZVKNED_EGS)
GEN_V_UNMASKED_TRANS(vaesdf_vs, vaes_check_vs, ZVKNED_EGS)
GEN_V_UNMASKED_TRANS(vaesdm_vv, vaes_check_vv, ZVKNED_EGS)
GEN_V_UNMASKED_TRANS(vaesdm_vs, vaes_check_vs, ZVKNED_EGS)
GEN_V_UNMASKED_TRANS(vaesz_vs, vaes_check_vs, ZVKNED_EGS)
GEN_V_UNMASKED_TRANS(vaesem_vv, vaes_check_vv, ZVKNED_EGS)
GEN_V_UNMASKED_TRANS(vaesem_vs, vaes_check_vs, ZVKNED_EGS)
#define GEN_VI_UNMASKED_TRANS(NAME, CHECK, EGS) \
static bool trans_##NAME(DisasContext *s, arg_##NAME *a) \
{ \
if (CHECK(s, a)) { \
TCGv_ptr rd_v, rs2_v; \
TCGv_i32 uimm_v, desc, egs; \
uint32_t data = 0; \
\
if (!s->vstart_eq_zero || !s->vl_eq_vlmax) { \
/* save opcode for unwinding in case we throw an exception */ \
decode_save_opc(s); \
egs = tcg_constant_i32(EGS); \
gen_helper_egs_check(egs, tcg_env); \
} \
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
data = FIELD_DP32(data, VDATA, VTA, s->vta); \
data = FIELD_DP32(data, VDATA, VTA_ALL_1S, s->cfg_vta_all_1s); \
data = FIELD_DP32(data, VDATA, VMA, s->vma); \
\
rd_v = tcg_temp_new_ptr(); \
rs2_v = tcg_temp_new_ptr(); \
uimm_v = tcg_constant_i32(a->rs1); \
desc = tcg_constant_i32( \
simd_desc(s->cfg_ptr->vlenb, s->cfg_ptr->vlenb, data)); \
tcg_gen_addi_ptr(rd_v, tcg_env, vreg_ofs(s, a->rd)); \
tcg_gen_addi_ptr(rs2_v, tcg_env, vreg_ofs(s, a->rs2)); \
gen_helper_##NAME(rd_v, rs2_v, uimm_v, tcg_env, desc); \
finalize_rvv_inst(s); \
return true; \
} \
return false; \
}
static bool vaeskf1_check(DisasContext *s, arg_vaeskf1_vi *a)
{
int egw_bytes = ZVKNED_EGS << s->sew;
return s->cfg_ptr->ext_zvkned == true &&
require_rvv(s) &&
vext_check_isa_ill(s) &&
MAXSZ(s) >= egw_bytes &&
s->sew == MO_32 &&
require_align(a->rd, s->lmul) &&
require_align(a->rs2, s->lmul);
}
static bool vaeskf2_check(DisasContext *s, arg_vaeskf2_vi *a)
{
int egw_bytes = ZVKNED_EGS << s->sew;
return s->cfg_ptr->ext_zvkned == true &&
require_rvv(s) &&
vext_check_isa_ill(s) &&
MAXSZ(s) >= egw_bytes &&
s->sew == MO_32 &&
require_align(a->rd, s->lmul) &&
require_align(a->rs2, s->lmul);
}
GEN_VI_UNMASKED_TRANS(vaeskf1_vi, vaeskf1_check, ZVKNED_EGS)
GEN_VI_UNMASKED_TRANS(vaeskf2_vi, vaeskf2_check, ZVKNED_EGS)
/*
* Zvknh
*/
#define ZVKNH_EGS 4
#define GEN_VV_UNMASKED_TRANS(NAME, CHECK, EGS) \
static bool trans_##NAME(DisasContext *s, arg_rmrr *a) \
{ \
if (CHECK(s, a)) { \
uint32_t data = 0; \
TCGv_i32 egs; \
\
if (!s->vstart_eq_zero || !s->vl_eq_vlmax) { \
/* save opcode for unwinding in case we throw an exception */ \
decode_save_opc(s); \
egs = tcg_constant_i32(EGS); \
gen_helper_egs_check(egs, tcg_env); \
} \
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
data = FIELD_DP32(data, VDATA, VTA, s->vta); \
data = FIELD_DP32(data, VDATA, VTA_ALL_1S, s->cfg_vta_all_1s); \
data = FIELD_DP32(data, VDATA, VMA, s->vma); \
\
tcg_gen_gvec_3_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, a->rs1), \
vreg_ofs(s, a->rs2), tcg_env, \
s->cfg_ptr->vlenb, s->cfg_ptr->vlenb, \
data, gen_helper_##NAME); \
\
finalize_rvv_inst(s); \
return true; \
} \
return false; \
}
static bool vsha_check_sew(DisasContext *s)
{
return (s->cfg_ptr->ext_zvknha == true && s->sew == MO_32) ||
(s->cfg_ptr->ext_zvknhb == true &&
(s->sew == MO_32 || s->sew == MO_64));
}
static bool vsha_check(DisasContext *s, arg_rmrr *a)
{
int egw_bytes = ZVKNH_EGS << s->sew;
int mult = 1 << MAX(s->lmul, 0);
return opivv_check(s, a) &&
vsha_check_sew(s) &&
MAXSZ(s) >= egw_bytes &&
!is_overlapped(a->rd, mult, a->rs1, mult) &&
!is_overlapped(a->rd, mult, a->rs2, mult) &&
s->lmul >= 0;
}
GEN_VV_UNMASKED_TRANS(vsha2ms_vv, vsha_check, ZVKNH_EGS)
static bool trans_vsha2cl_vv(DisasContext *s, arg_rmrr *a)
{
if (vsha_check(s, a)) {
uint32_t data = 0;
TCGv_i32 egs;
if (!s->vstart_eq_zero || !s->vl_eq_vlmax) {
/* save opcode for unwinding in case we throw an exception */
decode_save_opc(s);
egs = tcg_constant_i32(ZVKNH_EGS);
gen_helper_egs_check(egs, tcg_env);
}
data = FIELD_DP32(data, VDATA, VM, a->vm);
data = FIELD_DP32(data, VDATA, LMUL, s->lmul);
data = FIELD_DP32(data, VDATA, VTA, s->vta);
data = FIELD_DP32(data, VDATA, VTA_ALL_1S, s->cfg_vta_all_1s);
data = FIELD_DP32(data, VDATA, VMA, s->vma);
tcg_gen_gvec_3_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, a->rs1),
vreg_ofs(s, a->rs2), tcg_env, s->cfg_ptr->vlenb,
s->cfg_ptr->vlenb, data,
s->sew == MO_32 ?
gen_helper_vsha2cl32_vv : gen_helper_vsha2cl64_vv);
finalize_rvv_inst(s);
return true;
}
return false;
}
static bool trans_vsha2ch_vv(DisasContext *s, arg_rmrr *a)
{
if (vsha_check(s, a)) {
uint32_t data = 0;
TCGv_i32 egs;
if (!s->vstart_eq_zero || !s->vl_eq_vlmax) {
/* save opcode for unwinding in case we throw an exception */
decode_save_opc(s);
egs = tcg_constant_i32(ZVKNH_EGS);
gen_helper_egs_check(egs, tcg_env);
}
data = FIELD_DP32(data, VDATA, VM, a->vm);
data = FIELD_DP32(data, VDATA, LMUL, s->lmul);
data = FIELD_DP32(data, VDATA, VTA, s->vta);
data = FIELD_DP32(data, VDATA, VTA_ALL_1S, s->cfg_vta_all_1s);
data = FIELD_DP32(data, VDATA, VMA, s->vma);
tcg_gen_gvec_3_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, a->rs1),
vreg_ofs(s, a->rs2), tcg_env, s->cfg_ptr->vlenb,
s->cfg_ptr->vlenb, data,
s->sew == MO_32 ?
gen_helper_vsha2ch32_vv : gen_helper_vsha2ch64_vv);
finalize_rvv_inst(s);
return true;
}
return false;
}
/*
* Zvksh
*/
#define ZVKSH_EGS 8
static inline bool vsm3_check(DisasContext *s, arg_rmrr *a)
{
int egw_bytes = ZVKSH_EGS << s->sew;
int mult = 1 << MAX(s->lmul, 0);
return s->cfg_ptr->ext_zvksh == true &&
require_rvv(s) &&
vext_check_isa_ill(s) &&
!is_overlapped(a->rd, mult, a->rs2, mult) &&
MAXSZ(s) >= egw_bytes &&
s->sew == MO_32;
}
static inline bool vsm3me_check(DisasContext *s, arg_rmrr *a)
{
return vsm3_check(s, a) && vext_check_sss(s, a->rd, a->rs1, a->rs2, a->vm);
}
static inline bool vsm3c_check(DisasContext *s, arg_rmrr *a)
{
return vsm3_check(s, a) && vext_check_ss(s, a->rd, a->rs2, a->vm);
}
GEN_VV_UNMASKED_TRANS(vsm3me_vv, vsm3me_check, ZVKSH_EGS)
GEN_VI_UNMASKED_TRANS(vsm3c_vi, vsm3c_check, ZVKSH_EGS)
/*
* Zvkg
*/
#define ZVKG_EGS 4
static bool vgmul_check(DisasContext *s, arg_rmr *a)
{
int egw_bytes = ZVKG_EGS << s->sew;
return s->cfg_ptr->ext_zvkg == true &&
vext_check_isa_ill(s) &&
require_rvv(s) &&
MAXSZ(s) >= egw_bytes &&
vext_check_ss(s, a->rd, a->rs2, a->vm) &&
s->sew == MO_32;
}
GEN_V_UNMASKED_TRANS(vgmul_vv, vgmul_check, ZVKG_EGS)
static bool vghsh_check(DisasContext *s, arg_rmrr *a)
{
int egw_bytes = ZVKG_EGS << s->sew;
return s->cfg_ptr->ext_zvkg == true &&
opivv_check(s, a) &&
MAXSZ(s) >= egw_bytes &&
s->sew == MO_32;
}
GEN_VV_UNMASKED_TRANS(vghsh_vv, vghsh_check, ZVKG_EGS)
/*
* Zvksed
*/
#define ZVKSED_EGS 4
static bool zvksed_check(DisasContext *s)
{
int egw_bytes = ZVKSED_EGS << s->sew;
return s->cfg_ptr->ext_zvksed == true &&
require_rvv(s) &&
vext_check_isa_ill(s) &&
MAXSZ(s) >= egw_bytes &&
s->sew == MO_32;
}
static bool vsm4k_vi_check(DisasContext *s, arg_rmrr *a)
{
return zvksed_check(s) &&
require_align(a->rd, s->lmul) &&
require_align(a->rs2, s->lmul);
}
GEN_VI_UNMASKED_TRANS(vsm4k_vi, vsm4k_vi_check, ZVKSED_EGS)
static bool vsm4r_vv_check(DisasContext *s, arg_rmr *a)
{
return zvksed_check(s) &&
require_align(a->rd, s->lmul) &&
require_align(a->rs2, s->lmul);
}
GEN_V_UNMASKED_TRANS(vsm4r_vv, vsm4r_vv_check, ZVKSED_EGS)
static bool vsm4r_vs_check(DisasContext *s, arg_rmr *a)
{
return zvksed_check(s) &&
!is_overlapped(a->rd, 1 << MAX(s->lmul, 0), a->rs2, 1) &&
require_align(a->rd, s->lmul);
}
GEN_V_UNMASKED_TRANS(vsm4r_vs, vsm4r_vs_check, ZVKSED_EGS)