target/i386: reimplement 0x0f 0x78-0x7f, add AVX

These are a mixed batch, including the first two horizontal
(66 and F2 only) operations, more moves, and SSE4a extract/insert.

Because SSE4a is pretty rare, I chose to leave the helper as they are,
but it is possible to unify them by loading index and length from the
source XMM register and generating deposit or extract TCG ops.

Reviewed-by: Richard Henderson <richard.henderson@linaro.org>
Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
This commit is contained in:
Paolo Bonzini 2022-09-01 14:27:55 +02:00
parent 03b4588070
commit d1c1a4222c
3 changed files with 138 additions and 0 deletions

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@ -168,6 +168,50 @@ static void decode_0F6F(DisasContext *s, CPUX86State *env, X86OpEntry *entry, ui
*entry = *decode_by_prefix(s, opcodes_0F6F);
}
static void decode_0F78(DisasContext *s, CPUX86State *env, X86OpEntry *entry, uint8_t *b)
{
static const X86OpEntry opcodes_0F78[4] = {
{},
X86_OP_ENTRY3(EXTRQ_i, V,x, None,None, I,w, cpuid(SSE4A)),
{},
X86_OP_ENTRY3(INSERTQ_i, V,x, U,x, I,w, cpuid(SSE4A)),
};
*entry = *decode_by_prefix(s, opcodes_0F78);
}
static void decode_0F79(DisasContext *s, CPUX86State *env, X86OpEntry *entry, uint8_t *b)
{
if (s->prefix & PREFIX_REPNZ) {
entry->gen = gen_INSERTQ_r;
} else if (s->prefix & PREFIX_DATA) {
entry->gen = gen_EXTRQ_r;
} else {
entry->gen = NULL;
};
}
static void decode_0F7E(DisasContext *s, CPUX86State *env, X86OpEntry *entry, uint8_t *b)
{
static const X86OpEntry opcodes_0F7E[4] = {
X86_OP_ENTRY3(MOVD_from, E,y, None,None, P,y, vex5 mmx),
X86_OP_ENTRY3(MOVD_from, E,y, None,None, V,y, vex5),
X86_OP_ENTRY3(MOVQ, V,x, None,None, W,q, vex5), /* wrong dest Vy on SDM! */
{},
};
*entry = *decode_by_prefix(s, opcodes_0F7E);
}
static void decode_0F7F(DisasContext *s, CPUX86State *env, X86OpEntry *entry, uint8_t *b)
{
static const X86OpEntry opcodes_0F7F[4] = {
X86_OP_ENTRY3(MOVDQ, W,x, None,None, V,x, vex1 mmx), /* movq */
X86_OP_ENTRY3(MOVDQ, W,x, None,None, V,x, vex1), /* movdqa */
X86_OP_ENTRY3(MOVDQ, W,x, None,None, V,x, vex4_unal), /* movdqu */
{},
};
*entry = *decode_by_prefix(s, opcodes_0F7F);
}
static const X86OpEntry opcodes_0F38_00toEF[240] = {
};
@ -317,6 +361,13 @@ static const X86OpEntry opcodes_0F[256] = {
[0x6e] = X86_OP_ENTRY3(MOVD_to, V,x, None,None, E,y, vex5 mmx p_00_66), /* wrong dest Vy on SDM! */
[0x6f] = X86_OP_GROUP0(0F6F),
[0x78] = X86_OP_GROUP0(0F78),
[0x79] = X86_OP_GROUP2(0F79, V,x, U,x, cpuid(SSE4A)),
[0x7c] = X86_OP_ENTRY3(VHADD, V,x, H,x, W,x, vex2 cpuid(SSE3) p_66_f2),
[0x7d] = X86_OP_ENTRY3(VHSUB, V,x, H,x, W,x, vex2 cpuid(SSE3) p_66_f2),
[0x7e] = X86_OP_GROUP0(0F7E),
[0x7f] = X86_OP_GROUP0(0F7F),
/* Incorrectly missing from 2-17 */
[0xd8] = X86_OP_ENTRY3(PSUBUSB, V,x, H,x, W,x, vex4 mmx avx2_256 p_00_66),
[0xd9] = X86_OP_ENTRY3(PSUBUSW, V,x, H,x, W,x, vex4 mmx avx2_256 p_00_66),

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@ -443,6 +443,30 @@ static void gen_##uname(DisasContext *s, CPUX86State *env, X86DecodedInsn *decod
UNARY_FP32_SSE(VRSQRT, rsqrt)
UNARY_FP32_SSE(VRCP, rcp)
/*
* 66 = v*pd Vpd, Hpd, Wpd
* f2 = v*ps Vps, Hps, Wps
*/
static inline void gen_horizontal_fp_sse(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode,
SSEFunc_0_eppp pd_xmm, SSEFunc_0_eppp ps_xmm,
SSEFunc_0_eppp pd_ymm, SSEFunc_0_eppp ps_ymm)
{
SSEFunc_0_eppp ps, pd, fn;
ps = s->vex_l ? ps_ymm : ps_xmm;
pd = s->vex_l ? pd_ymm : pd_xmm;
fn = s->prefix & PREFIX_DATA ? pd : ps;
fn(cpu_env, OP_PTR0, OP_PTR1, OP_PTR2);
}
#define HORIZONTAL_FP_SSE(uname, lname) \
static void gen_##uname(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode) \
{ \
gen_horizontal_fp_sse(s, env, decode, \
gen_helper_##lname##pd_xmm, gen_helper_##lname##ps_xmm, \
gen_helper_##lname##pd_ymm, gen_helper_##lname##ps_ymm); \
}
HORIZONTAL_FP_SSE(VHADD, hadd)
HORIZONTAL_FP_SSE(VHSUB, hsub)
#define BINARY_INT_GVEC(uname, func, ...) \
static void gen_##uname(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode) \
{ \
@ -716,6 +740,32 @@ static void gen_CRC32(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
gen_helper_crc32(s->T0, s->tmp2_i32, s->T1, tcg_constant_i32(8 << ot));
}
static void gen_EXTRQ_i(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
{
TCGv_i32 length = tcg_constant_i32(decode->immediate & 63);
TCGv_i32 index = tcg_constant_i32((decode->immediate >> 8) & 63);
gen_helper_extrq_i(cpu_env, OP_PTR0, index, length);
}
static void gen_EXTRQ_r(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
{
gen_helper_extrq_r(cpu_env, OP_PTR0, OP_PTR2);
}
static void gen_INSERTQ_i(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
{
TCGv_i32 length = tcg_constant_i32(decode->immediate & 63);
TCGv_i32 index = tcg_constant_i32((decode->immediate >> 8) & 63);
gen_helper_insertq_i(cpu_env, OP_PTR0, OP_PTR1, index, length);
}
static void gen_INSERTQ_r(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
{
gen_helper_insertq_r(cpu_env, OP_PTR0, OP_PTR2);
}
static void gen_MOVBE(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
{
MemOp ot = decode->op[0].ot;
@ -728,6 +778,24 @@ static void gen_MOVBE(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
}
}
static void gen_MOVD_from(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
{
MemOp ot = decode->op[2].ot;
switch (ot) {
case MO_32:
#ifdef TARGET_X86_64
tcg_gen_ld32u_tl(s->T0, cpu_env, decode->op[2].offset);
break;
case MO_64:
#endif
tcg_gen_ld_tl(s->T0, cpu_env, decode->op[2].offset);
break;
default:
abort();
}
}
static void gen_MOVD_to(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
{
MemOp ot = decode->op[2].ot;
@ -765,6 +833,24 @@ static void gen_MOVMSK(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode
tcg_gen_extu_i32_tl(s->T0, s->tmp2_i32);
}
static void gen_MOVQ(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
{
int vec_len = vector_len(s, decode);
int lo_ofs = vector_elem_offset(&decode->op[0], MO_64, 0);
tcg_gen_ld_i64(s->tmp1_i64, cpu_env, decode->op[2].offset);
/*
* tcg_gen_gvec_dup_i64(MO_64, op0.offset, 8, vec_len, s->tmp1_64) would
* seem to work, but it does not on big-endian platforms; the cleared parts
* are always at higher addresses, but cross-endian emulation inverts the
* byte order so that the cleared parts need to be at *lower* addresses.
* Because oprsz is 8, we see this here even for SSE; but more in general,
* it disqualifies using oprsz < maxsz to emulate VEX128.
*/
tcg_gen_gvec_dup_imm(MO_64, decode->op[0].offset, vec_len, vec_len, 0);
tcg_gen_st_i64(s->tmp1_i64, cpu_env, lo_ofs);
}
static void gen_MULX(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode)
{
MemOp ot = decode->op[0].ot;

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@ -4783,6 +4783,7 @@ static bool disas_insn(DisasContext *s, CPUState *cpu)
#endif
if (use_new &&
((b >= 0x150 && b <= 0x16f) ||
(b >= 0x178 && b <= 0x17f) ||
(b >= 0x1d8 && b <= 0x1ff && (b & 8)))) {
disas_insn_new(s, cpu, b + 0x100);
return s->pc;