[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [Xen-devel] [PATCH v8 34/50] x86emul: support AVX512F scatter insns
This completes support of AVX512F in the insn emulator. Note that in the test harness there's a little bit of trickery needed to get around the not fully consistent naming of AVX512VL gather and scatter built-ins. To suppress expansion of the "di" and "si" tokens they get constructed by token concatenation in BS(), which is different from BG(). Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx> --- TBD: I couldn't really decide whether to duplicate code or merge scatter into gather emulation. --- v7: Re-base. v6: New. --- a/tools/tests/x86_emulator/evex-disp8.c +++ b/tools/tests/x86_emulator/evex-disp8.c @@ -270,6 +270,8 @@ static const struct test avx512f_all[] = INSN(prolv, 66, 0f38, 15, vl, dq, vl), INSNX(pror, 66, 0f, 72, 0, vl, dq, vl), INSN(prorv, 66, 0f38, 14, vl, dq, vl), + INSN(pscatterd, 66, 0f38, a0, vl, dq, el), + INSN(pscatterq, 66, 0f38, a1, vl, dq, el), INSN(pshufd, 66, 0f, 70, vl, d, vl), INSN(pslld, 66, 0f, f2, el_4, d, vl), INSNX(pslld, 66, 0f, 72, 6, vl, d, vl), @@ -305,6 +307,8 @@ static const struct test avx512f_all[] = INSN(rsqrt14, 66, 0f38, 4f, el, sd, el), INSN(scalef, 66, 0f38, 2c, vl, sd, vl), INSN(scalef, 66, 0f38, 2d, el, sd, el), + INSN(scatterd, 66, 0f38, a2, vl, sd, el), + INSN(scatterq, 66, 0f38, a3, vl, sd, el), INSN_PFP(shuf, 0f, c6), INSN_FP(sqrt, 0f, 51), INSN_FP(sub, 0f, 5c), --- a/tools/tests/x86_emulator/simd-sg.c +++ b/tools/tests/x86_emulator/simd-sg.c @@ -48,10 +48,14 @@ typedef long long __attribute__((vector_ # endif # define BG_(dt, it, reg, mem, idx, msk, scl) \ __builtin_ia32_gather##it##dt(reg, mem, idx, to_mask(msk), scl) +# define BS_(dt, it, mem, idx, reg, msk, scl) \ + __builtin_ia32_scatter##it##dt(mem, to_mask(msk), idx, reg, scl) # else # define eq(x, y) (B(pcmpeqq, _mask, (vdi_t)(x), (vdi_t)(y), -1) == ALL_TRUE) # define BG_(dt, it, reg, mem, idx, msk, scl) \ __builtin_ia32_gather##it##dt(reg, mem, idx, B(ptestmq, , (vdi_t)(msk), (vdi_t)(msk), ~0), scl) +# define BS_(dt, it, mem, idx, reg, msk, scl) \ + __builtin_ia32_scatter##it##dt(mem, B(ptestmq, , (vdi_t)(msk), (vdi_t)(msk), ~0), idx, reg, scl) # endif /* * Instead of replicating the main IDX_SIZE conditional below three times, use @@ -59,6 +63,7 @@ typedef long long __attribute__((vector_ * respective relevant macro argument tokens. */ # define BG(dt, it, reg, mem, idx, msk, scl) BG_(dt, it, reg, mem, idx, msk, scl) +# define BS(dt, it, mem, idx, reg, msk, scl) BS_(dt, it##i, mem, idx, reg, msk, scl) # if VEC_MAX < 64 /* * The sub-512-bit built-ins have an extra "3" infix, presumably because the @@ -82,22 +87,30 @@ typedef long long __attribute__((vector_ # if IDX_SIZE == 4 # if INT_SIZE == 4 # define gather(reg, mem, idx, msk, scl) BG(v16si, si, reg, mem, idx, msk, scl) +# define scatter(mem, idx, reg, msk, scl) BS(v16si, s, mem, idx, reg, msk, scl) # elif INT_SIZE == 8 # define gather(reg, mem, idx, msk, scl) (vec_t)(BG(v8di, si, (vdi_t)(reg), mem, idx, msk, scl)) +# define scatter(mem, idx, reg, msk, scl) BS(v8di, s, mem, idx, (vdi_t)(reg), msk, scl) # elif FLOAT_SIZE == 4 # define gather(reg, mem, idx, msk, scl) BG(v16sf, si, reg, mem, idx, msk, scl) +# define scatter(mem, idx, reg, msk, scl) BS(v16sf, s, mem, idx, reg, msk, scl) # elif FLOAT_SIZE == 8 # define gather(reg, mem, idx, msk, scl) BG(v8df, si, reg, mem, idx, msk, scl) +# define scatter(mem, idx, reg, msk, scl) BS(v8df, s, mem, idx, reg, msk, scl) # endif # elif IDX_SIZE == 8 # if INT_SIZE == 4 # define gather(reg, mem, idx, msk, scl) BG(v16si, di, reg, mem, (idi_t)(idx), msk, scl) +# define scatter(mem, idx, reg, msk, scl) BS(v16si, d, mem, (idi_t)(idx), reg, msk, scl) # elif INT_SIZE == 8 # define gather(reg, mem, idx, msk, scl) (vec_t)(BG(v8di, di, (vdi_t)(reg), mem, (idi_t)(idx), msk, scl)) +# define scatter(mem, idx, reg, msk, scl) BS(v8di, d, mem, (idi_t)(idx), (vdi_t)(reg), msk, scl) # elif FLOAT_SIZE == 4 # define gather(reg, mem, idx, msk, scl) BG(v16sf, di, reg, mem, (idi_t)(idx), msk, scl) +# define scatter(mem, idx, reg, msk, scl) BS(v16sf, d, mem, (idi_t)(idx), reg, msk, scl) # elif FLOAT_SIZE == 8 # define gather(reg, mem, idx, msk, scl) BG(v8df, di, reg, mem, (idi_t)(idx), msk, scl) +# define scatter(mem, idx, reg, msk, scl) BS(v8df, d, mem, (idi_t)(idx), reg, msk, scl) # endif # endif #elif defined(__AVX2__) @@ -195,6 +208,8 @@ const typeof((vec_t){}[0]) array[] = { GLUE(PUT, VEC_MAX)(VEC_MAX + 1) }; +typeof((vec_t){}[0]) out[VEC_MAX * 2]; + int sg_test(void) { unsigned int i; @@ -275,5 +290,41 @@ int sg_test(void) # endif #endif +#ifdef scatter + + for ( i = 0; i < sizeof(out) / sizeof(*out); ++i ) + out[i] = 0; + + for ( i = 0; i < ITEM_COUNT; ++i ) + x[i] = i + 1; + + touch(x); + + scatter(out, (idx_t){}, x, (vec_t){ 1 } != 0, 1); + if ( out[0] != 1 ) + return __LINE__; + for ( i = 1; i < ITEM_COUNT; ++i ) + if ( out[i] ) + return __LINE__; + + scatter(out, (idx_t){}, x, full, 1); + if ( out[0] != ITEM_COUNT ) + return __LINE__; + for ( i = 1; i < ITEM_COUNT; ++i ) + if ( out[i] ) + return __LINE__; + + scatter(out, idx, x, full, ELEM_SIZE); + for ( i = 1; i <= ITEM_COUNT; ++i ) + if ( out[i] != i ) + return __LINE__; + + scatter(out, inv, x, full, ELEM_SIZE); + for ( i = 1; i <= ITEM_COUNT; ++i ) + if ( out[i] != ITEM_COUNT + 1 - i ) + return __LINE__; + +#endif + return 0; } --- a/xen/arch/x86/x86_emulate/x86_emulate.c +++ b/xen/arch/x86/x86_emulate/x86_emulate.c @@ -508,6 +508,7 @@ static const struct ext0f38_table { [0x9d] = { .simd_size = simd_scalar_vexw, .d8s = d8s_dq }, [0x9e] = { .simd_size = simd_packed_fp, .d8s = d8s_vl }, [0x9f] = { .simd_size = simd_scalar_vexw, .d8s = d8s_dq }, + [0xa0 ... 0xa3] = { .simd_size = simd_other, .vsib = 1, .d8s = d8s_dq }, [0xa6 ... 0xa8] = { .simd_size = simd_packed_fp, .d8s = d8s_vl }, [0xa9] = { .simd_size = simd_scalar_vexw, .d8s = d8s_dq }, [0xaa] = { .simd_size = simd_packed_fp, .d8s = d8s_vl }, @@ -9330,6 +9331,102 @@ x86_emulate( avx512_vlen_check(true); goto simd_zmm; + case X86EMUL_OPC_EVEX_66(0x0f38, 0xa0): /* vpscatterd{d,q} [xyz]mm,mem{k} */ + case X86EMUL_OPC_EVEX_66(0x0f38, 0xa1): /* vpscatterq{d,q} [xyz]mm,mem{k} */ + case X86EMUL_OPC_EVEX_66(0x0f38, 0xa2): /* vscatterdp{s,d} [xyz]mm,mem{k} */ + case X86EMUL_OPC_EVEX_66(0x0f38, 0xa3): /* vscatterqp{s,d} [xyz]mm,mem{k} */ + { + typeof(evex) *pevex; + union { + int32_t dw[16]; + int64_t qw[8]; + } index; + bool done = false; + + ASSERT(ea.type == OP_MEM); + fail_if(!ops->write); + generate_exception_if((!evex.opmsk || evex.brs || evex.z || + evex.reg != 0xf || + modrm_reg == state->sib_index), + EXC_UD); + avx512_vlen_check(false); + host_and_vcpu_must_have(avx512f); + get_fpu(X86EMUL_FPU_zmm); + + /* Read source and index registers. */ + opc = init_evex(stub); + pevex = copy_EVEX(opc, evex); + pevex->opcx = vex_0f; + opc[0] = 0x7f; /* vmovdqa{32,64} */ + /* Use (%rax) as destination and modrm_reg as source. */ + pevex->b = 1; + opc[1] = (modrm_reg & 7) << 3; + pevex->RX = 1; + opc[2] = 0xc3; + + invoke_stub("", "", "=m" (*mmvalp) : "a" (mmvalp)); + + pevex->pfx = vex_f3; /* vmovdqu{32,64} */ + pevex->w = b & 1; + /* Switch to sib_index as source. */ + pevex->r = !mode_64bit() || !(state->sib_index & 0x08); + pevex->R = !mode_64bit() || !(state->sib_index & 0x10); + opc[1] = (state->sib_index & 7) << 3; + + invoke_stub("", "", "=m" (index) : "a" (&index)); + put_stub(stub); + + /* Clear untouched parts of the mask value. */ + n = 1 << (2 + evex.lr - ((b & 1) | evex.w)); + op_bytes = 4 << evex.w; + op_mask &= (1 << n) - 1; + + for ( i = 0; op_mask; ++i ) + { + signed long idx = b & 1 ? index.qw[i] : index.dw[i]; + + if ( !(op_mask & (1 << i)) ) + continue; + + rc = ops->write(ea.mem.seg, + truncate_ea(ea.mem.off + (idx << state->sib_scale)), + (void *)mmvalp + i * op_bytes, op_bytes, ctxt); + if ( rc != X86EMUL_OKAY ) + { + /* See comment in gather emulation. */ + if ( rc != X86EMUL_EXCEPTION && done ) + rc = X86EMUL_RETRY; + break; + } + + op_mask &= ~(1 << i); + done = true; + +#ifdef __XEN__ + if ( op_mask && local_events_need_delivery() ) + { + rc = X86EMUL_RETRY; + break; + } +#endif + } + + /* Write mask register. See comment in gather emulation. */ + opc = get_stub(stub); + opc[0] = 0xc5; + opc[1] = 0xf8; + opc[2] = 0x90; + /* Use (%rax) as source. */ + opc[3] = evex.opmsk << 3; + opc[4] = 0xc3; + + invoke_stub("", "", "+m" (op_mask) : "a" (&op_mask)); + put_stub(stub); + + state->simd_size = simd_none; + break; + } + case X86EMUL_OPC(0x0f38, 0xc8): /* sha1nexte xmm/m128,xmm */ case X86EMUL_OPC(0x0f38, 0xc9): /* sha1msg1 xmm/m128,xmm */ case X86EMUL_OPC(0x0f38, 0xca): /* sha1msg2 xmm/m128,xmm */ _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxxxxxxxxx https://lists.xenproject.org/mailman/listinfo/xen-devel
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