vm_version_x86.cpp 33.4 KB
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/*
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 * Copyright (c) 1997, 2014, Oracle and/or its affiliates. All rights reserved.
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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.
 *
 * This code is distributed in the hope that 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
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
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 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
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 *
 */

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#include "precompiled.hpp"
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#include "asm/macroAssembler.hpp"
#include "asm/macroAssembler.inline.hpp"
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#include "memory/resourceArea.hpp"
#include "runtime/java.hpp"
#include "runtime/stubCodeGenerator.hpp"
#include "vm_version_x86.hpp"
#ifdef TARGET_OS_FAMILY_linux
# include "os_linux.inline.hpp"
#endif
#ifdef TARGET_OS_FAMILY_solaris
# include "os_solaris.inline.hpp"
#endif
#ifdef TARGET_OS_FAMILY_windows
# include "os_windows.inline.hpp"
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#endif
#ifdef TARGET_OS_FAMILY_bsd
# include "os_bsd.inline.hpp"
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#endif
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int VM_Version::_cpu;
int VM_Version::_model;
int VM_Version::_stepping;
int VM_Version::_cpuFeatures;
const char*           VM_Version::_features_str = "";
VM_Version::CpuidInfo VM_Version::_cpuid_info   = { 0, };

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// Address of instruction which causes SEGV
address VM_Version::_cpuinfo_segv_addr = 0;
// Address of instruction after the one which causes SEGV
address VM_Version::_cpuinfo_cont_addr = 0;

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static BufferBlob* stub_blob;
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static const int stub_size = 600;
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extern "C" {
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  typedef void (*get_cpu_info_stub_t)(void*);
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}
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static get_cpu_info_stub_t get_cpu_info_stub = NULL;
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class VM_Version_StubGenerator: public StubCodeGenerator {
 public:

  VM_Version_StubGenerator(CodeBuffer *c) : StubCodeGenerator(c) {}

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  address generate_get_cpu_info() {
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    // Flags to test CPU type.
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    const uint32_t HS_EFL_AC           = 0x40000;
    const uint32_t HS_EFL_ID           = 0x200000;
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    // Values for when we don't have a CPUID instruction.
    const int      CPU_FAMILY_SHIFT = 8;
    const uint32_t CPU_FAMILY_386   = (3 << CPU_FAMILY_SHIFT);
    const uint32_t CPU_FAMILY_486   = (4 << CPU_FAMILY_SHIFT);

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    Label detect_486, cpu486, detect_586, std_cpuid1, std_cpuid4;
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    Label sef_cpuid, ext_cpuid, ext_cpuid1, ext_cpuid5, ext_cpuid7, done;
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    StubCodeMark mark(this, "VM_Version", "get_cpu_info_stub");
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#   define __ _masm->

    address start = __ pc();

    //
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    // void get_cpu_info(VM_Version::CpuidInfo* cpuid_info);
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    //
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    // LP64: rcx and rdx are first and second argument registers on windows

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    __ push(rbp);
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#ifdef _LP64
    __ mov(rbp, c_rarg0); // cpuid_info address
#else
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    __ movptr(rbp, Address(rsp, 8)); // cpuid_info address
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#endif
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    __ push(rbx);
    __ push(rsi);
    __ pushf();          // preserve rbx, and flags
    __ pop(rax);
    __ push(rax);
    __ mov(rcx, rax);
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    //
    // if we are unable to change the AC flag, we have a 386
    //
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    __ xorl(rax, HS_EFL_AC);
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    __ push(rax);
    __ popf();
    __ pushf();
    __ pop(rax);
    __ cmpptr(rax, rcx);
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    __ jccb(Assembler::notEqual, detect_486);

    __ movl(rax, CPU_FAMILY_386);
    __ movl(Address(rbp, in_bytes(VM_Version::std_cpuid1_offset())), rax);
    __ jmp(done);

    //
    // If we are unable to change the ID flag, we have a 486 which does
    // not support the "cpuid" instruction.
    //
    __ bind(detect_486);
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    __ mov(rax, rcx);
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    __ xorl(rax, HS_EFL_ID);
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    __ push(rax);
    __ popf();
    __ pushf();
    __ pop(rax);
    __ cmpptr(rcx, rax);
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    __ jccb(Assembler::notEqual, detect_586);

    __ bind(cpu486);
    __ movl(rax, CPU_FAMILY_486);
    __ movl(Address(rbp, in_bytes(VM_Version::std_cpuid1_offset())), rax);
    __ jmp(done);

    //
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    // At this point, we have a chip which supports the "cpuid" instruction
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    //
    __ bind(detect_586);
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    __ xorl(rax, rax);
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    __ cpuid();
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    __ orl(rax, rax);
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    __ jcc(Assembler::equal, cpu486);   // if cpuid doesn't support an input
                                        // value of at least 1, we give up and
                                        // assume a 486
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    __ lea(rsi, Address(rbp, in_bytes(VM_Version::std_cpuid0_offset())));
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    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);

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    __ cmpl(rax, 0xa);                  // Is cpuid(0xB) supported?
    __ jccb(Assembler::belowEqual, std_cpuid4);

    //
    // cpuid(0xB) Processor Topology
    //
    __ movl(rax, 0xb);
    __ xorl(rcx, rcx);   // Threads level
    __ cpuid();

    __ lea(rsi, Address(rbp, in_bytes(VM_Version::tpl_cpuidB0_offset())));
    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);

    __ movl(rax, 0xb);
    __ movl(rcx, 1);     // Cores level
    __ cpuid();
    __ push(rax);
    __ andl(rax, 0x1f);  // Determine if valid topology level
    __ orl(rax, rbx);    // eax[4:0] | ebx[0:15] == 0 indicates invalid level
    __ andl(rax, 0xffff);
    __ pop(rax);
    __ jccb(Assembler::equal, std_cpuid4);

    __ lea(rsi, Address(rbp, in_bytes(VM_Version::tpl_cpuidB1_offset())));
    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);

    __ movl(rax, 0xb);
    __ movl(rcx, 2);     // Packages level
    __ cpuid();
    __ push(rax);
    __ andl(rax, 0x1f);  // Determine if valid topology level
    __ orl(rax, rbx);    // eax[4:0] | ebx[0:15] == 0 indicates invalid level
    __ andl(rax, 0xffff);
    __ pop(rax);
    __ jccb(Assembler::equal, std_cpuid4);

    __ lea(rsi, Address(rbp, in_bytes(VM_Version::tpl_cpuidB2_offset())));
    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);
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    //
    // cpuid(0x4) Deterministic cache params
    //
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    __ bind(std_cpuid4);
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    __ movl(rax, 4);
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    __ cmpl(rax, Address(rbp, in_bytes(VM_Version::std_cpuid0_offset()))); // Is cpuid(0x4) supported?
    __ jccb(Assembler::greater, std_cpuid1);

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    __ xorl(rcx, rcx);   // L1 cache
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    __ cpuid();
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    __ push(rax);
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    __ andl(rax, 0x1f);  // Determine if valid cache parameters used
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    __ orl(rax, rax);    // eax[4:0] == 0 indicates invalid cache
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    __ pop(rax);
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    __ jccb(Assembler::equal, std_cpuid1);

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    __ lea(rsi, Address(rbp, in_bytes(VM_Version::dcp_cpuid4_offset())));
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    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);

    //
    // Standard cpuid(0x1)
    //
    __ bind(std_cpuid1);
    __ movl(rax, 1);
    __ cpuid();
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    __ lea(rsi, Address(rbp, in_bytes(VM_Version::std_cpuid1_offset())));
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    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);

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    //
    // Check if OS has enabled XGETBV instruction to access XCR0
    // (OSXSAVE feature flag) and CPU supports AVX
    //
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    __ andl(rcx, 0x18000000); // cpuid1 bits osxsave | avx
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    __ cmpl(rcx, 0x18000000);
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    __ jccb(Assembler::notEqual, sef_cpuid); // jump if AVX is not supported
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    //
    // XCR0, XFEATURE_ENABLED_MASK register
    //
    __ xorl(rcx, rcx);   // zero for XCR0 register
    __ xgetbv();
    __ lea(rsi, Address(rbp, in_bytes(VM_Version::xem_xcr0_offset())));
    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rdx);

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    __ andl(rax, 0x6); // xcr0 bits sse | ymm
    __ cmpl(rax, 0x6);
    __ jccb(Assembler::notEqual, sef_cpuid); // jump if AVX is not supported

    //
    // Some OSs have a bug when upper 128bits of YMM
    // registers are not restored after a signal processing.
    // Generate SEGV here (reference through NULL)
    // and check upper YMM bits after it.
    //
    VM_Version::set_avx_cpuFeatures(); // Enable temporary to pass asserts
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    intx saved_useavx = UseAVX;
    intx saved_usesse = UseSSE;
    UseAVX = 1;
    UseSSE = 2;
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    // load value into all 32 bytes of ymm7 register
    __ movl(rcx, VM_Version::ymm_test_value());

    __ movdl(xmm0, rcx);
    __ pshufd(xmm0, xmm0, 0x00);
    __ vinsertf128h(xmm0, xmm0, xmm0);
    __ vmovdqu(xmm7, xmm0);
#ifdef _LP64
    __ vmovdqu(xmm8,  xmm0);
    __ vmovdqu(xmm15, xmm0);
#endif

    __ xorl(rsi, rsi);
    VM_Version::set_cpuinfo_segv_addr( __ pc() );
    // Generate SEGV
    __ movl(rax, Address(rsi, 0));

    VM_Version::set_cpuinfo_cont_addr( __ pc() );
    // Returns here after signal. Save xmm0 to check it later.
    __ lea(rsi, Address(rbp, in_bytes(VM_Version::ymm_save_offset())));
    __ vmovdqu(Address(rsi,  0), xmm0);
    __ vmovdqu(Address(rsi, 32), xmm7);
#ifdef _LP64
    __ vmovdqu(Address(rsi, 64), xmm8);
    __ vmovdqu(Address(rsi, 96), xmm15);
#endif

    VM_Version::clean_cpuFeatures();
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    UseAVX = saved_useavx;
    UseSSE = saved_usesse;
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    //
    // cpuid(0x7) Structured Extended Features
    //
    __ bind(sef_cpuid);
    __ movl(rax, 7);
    __ cmpl(rax, Address(rbp, in_bytes(VM_Version::std_cpuid0_offset()))); // Is cpuid(0x7) supported?
    __ jccb(Assembler::greater, ext_cpuid);

    __ xorl(rcx, rcx);
    __ cpuid();
    __ lea(rsi, Address(rbp, in_bytes(VM_Version::sef_cpuid7_offset())));
    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);

    //
    // Extended cpuid(0x80000000)
    //
    __ bind(ext_cpuid);
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    __ movl(rax, 0x80000000);
    __ cpuid();
    __ cmpl(rax, 0x80000000);     // Is cpuid(0x80000001) supported?
    __ jcc(Assembler::belowEqual, done);
    __ cmpl(rax, 0x80000004);     // Is cpuid(0x80000005) supported?
    __ jccb(Assembler::belowEqual, ext_cpuid1);
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    __ cmpl(rax, 0x80000006);     // Is cpuid(0x80000007) supported?
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    __ jccb(Assembler::belowEqual, ext_cpuid5);
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    __ cmpl(rax, 0x80000007);     // Is cpuid(0x80000008) supported?
    __ jccb(Assembler::belowEqual, ext_cpuid7);
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    //
    // Extended cpuid(0x80000008)
    //
    __ movl(rax, 0x80000008);
    __ cpuid();
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    __ lea(rsi, Address(rbp, in_bytes(VM_Version::ext_cpuid8_offset())));
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    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);

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    //
    // Extended cpuid(0x80000007)
    //
    __ bind(ext_cpuid7);
    __ movl(rax, 0x80000007);
    __ cpuid();
    __ lea(rsi, Address(rbp, in_bytes(VM_Version::ext_cpuid7_offset())));
    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);

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    //
    // Extended cpuid(0x80000005)
    //
    __ bind(ext_cpuid5);
    __ movl(rax, 0x80000005);
    __ cpuid();
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    __ lea(rsi, Address(rbp, in_bytes(VM_Version::ext_cpuid5_offset())));
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    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);

    //
    // Extended cpuid(0x80000001)
    //
    __ bind(ext_cpuid1);
    __ movl(rax, 0x80000001);
    __ cpuid();
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    __ lea(rsi, Address(rbp, in_bytes(VM_Version::ext_cpuid1_offset())));
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    __ movl(Address(rsi, 0), rax);
    __ movl(Address(rsi, 4), rbx);
    __ movl(Address(rsi, 8), rcx);
    __ movl(Address(rsi,12), rdx);

    //
    // return
    //
    __ bind(done);
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    __ popf();
    __ pop(rsi);
    __ pop(rbx);
    __ pop(rbp);
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    __ ret(0);

#   undef __

    return start;
  };
};


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void VM_Version::get_cpu_info_wrapper() {
  get_cpu_info_stub(&_cpuid_info);
}

#ifndef CALL_TEST_FUNC_WITH_WRAPPER_IF_NEEDED
  #define CALL_TEST_FUNC_WITH_WRAPPER_IF_NEEDED(f) f()
#endif

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void VM_Version::get_processor_features() {

  _cpu = 4; // 486 by default
  _model = 0;
  _stepping = 0;
  _cpuFeatures = 0;
  _logical_processors_per_package = 1;
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  if (!Use486InstrsOnly) {
    // Get raw processor info
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    // Some platforms (like Win*) need a wrapper around here
    // in order to properly handle SEGV for YMM registers test.
    CALL_TEST_FUNC_WITH_WRAPPER_IF_NEEDED(get_cpu_info_wrapper);

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    assert_is_initialized();
    _cpu = extended_cpu_family();
    _model = extended_cpu_model();
    _stepping = cpu_stepping();
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    if (cpu_family() > 4) { // it supports CPUID
      _cpuFeatures = feature_flags();
      // Logical processors are only available on P4s and above,
      // and only if hyperthreading is available.
      _logical_processors_per_package = logical_processor_count();
    }
  }
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  _supports_cx8 = supports_cmpxchg8();
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  // xchg and xadd instructions
  _supports_atomic_getset4 = true;
  _supports_atomic_getadd4 = true;
  LP64_ONLY(_supports_atomic_getset8 = true);
  LP64_ONLY(_supports_atomic_getadd8 = true);
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#ifdef _LP64
  // OS should support SSE for x64 and hardware should support at least SSE2.
  if (!VM_Version::supports_sse2()) {
    vm_exit_during_initialization("Unknown x64 processor: SSE2 not supported");
  }
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  // in 64 bit the use of SSE2 is the minimum
  if (UseSSE < 2) UseSSE = 2;
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#endif

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#ifdef AMD64
  // flush_icache_stub have to be generated first.
  // That is why Icache line size is hard coded in ICache class,
  // see icache_x86.hpp. It is also the reason why we can't use
  // clflush instruction in 32-bit VM since it could be running
  // on CPU which does not support it.
  //
  // The only thing we can do is to verify that flushed
  // ICache::line_size has correct value.
  guarantee(_cpuid_info.std_cpuid1_edx.bits.clflush != 0, "clflush is not supported");
  // clflush_size is size in quadwords (8 bytes).
  guarantee(_cpuid_info.std_cpuid1_ebx.bits.clflush_size == 8, "such clflush size is not supported");
#endif

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  // If the OS doesn't support SSE, we can't use this feature even if the HW does
  if (!os::supports_sse())
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    _cpuFeatures &= ~(CPU_SSE|CPU_SSE2|CPU_SSE3|CPU_SSSE3|CPU_SSE4A|CPU_SSE4_1|CPU_SSE4_2);
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  if (UseSSE < 4) {
    _cpuFeatures &= ~CPU_SSE4_1;
    _cpuFeatures &= ~CPU_SSE4_2;
  }
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  if (UseSSE < 3) {
    _cpuFeatures &= ~CPU_SSE3;
    _cpuFeatures &= ~CPU_SSSE3;
    _cpuFeatures &= ~CPU_SSE4A;
  }
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  if (UseSSE < 2)
    _cpuFeatures &= ~CPU_SSE2;
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  if (UseSSE < 1)
    _cpuFeatures &= ~CPU_SSE;

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  if (UseAVX < 2)
    _cpuFeatures &= ~CPU_AVX2;

  if (UseAVX < 1)
    _cpuFeatures &= ~CPU_AVX;

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  if (!UseAES && !FLAG_IS_DEFAULT(UseAES))
    _cpuFeatures &= ~CPU_AES;

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  if (logical_processors_per_package() == 1) {
    // HT processor could be installed on a system which doesn't support HT.
    _cpuFeatures &= ~CPU_HT;
  }

  char buf[256];
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  jio_snprintf(buf, sizeof(buf), "(%u cores per cpu, %u threads per core) family %d model %d stepping %d%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s",
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               cores_per_cpu(), threads_per_core(),
               cpu_family(), _model, _stepping,
               (supports_cmov() ? ", cmov" : ""),
               (supports_cmpxchg8() ? ", cx8" : ""),
               (supports_fxsr() ? ", fxsr" : ""),
               (supports_mmx()  ? ", mmx"  : ""),
               (supports_sse()  ? ", sse"  : ""),
               (supports_sse2() ? ", sse2" : ""),
               (supports_sse3() ? ", sse3" : ""),
               (supports_ssse3()? ", ssse3": ""),
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               (supports_sse4_1() ? ", sse4.1" : ""),
               (supports_sse4_2() ? ", sse4.2" : ""),
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               (supports_popcnt() ? ", popcnt" : ""),
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               (supports_avx()    ? ", avx" : ""),
               (supports_avx2()   ? ", avx2" : ""),
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               (supports_aes()    ? ", aes" : ""),
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               (supports_clmul()  ? ", clmul" : ""),
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               (supports_erms()   ? ", erms" : ""),
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               (supports_rtm()    ? ", rtm" : ""),
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               (supports_mmx_ext() ? ", mmxext" : ""),
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               (supports_3dnow_prefetch() ? ", 3dnowpref" : ""),
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               (supports_lzcnt()   ? ", lzcnt": ""),
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               (supports_sse4a()   ? ", sse4a": ""),
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               (supports_ht() ? ", ht": ""),
               (supports_tsc() ? ", tsc": ""),
               (supports_tscinv_bit() ? ", tscinvbit": ""),
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               (supports_tscinv() ? ", tscinv": ""),
               (supports_bmi1() ? ", bmi1" : ""),
               (supports_bmi2() ? ", bmi2" : ""));
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  _features_str = strdup(buf);

  // UseSSE is set to the smaller of what hardware supports and what
  // the command line requires.  I.e., you cannot set UseSSE to 2 on
  // older Pentiums which do not support it.
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  if (UseSSE > 4) UseSSE=4;
  if (UseSSE < 0) UseSSE=0;
  if (!supports_sse4_1()) // Drop to 3 if no SSE4 support
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    UseSSE = MIN2((intx)3,UseSSE);
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  if (!supports_sse3()) // Drop to 2 if no SSE3 support
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    UseSSE = MIN2((intx)2,UseSSE);
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  if (!supports_sse2()) // Drop to 1 if no SSE2 support
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    UseSSE = MIN2((intx)1,UseSSE);
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  if (!supports_sse ()) // Drop to 0 if no SSE  support
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    UseSSE = 0;

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  if (UseAVX > 2) UseAVX=2;
  if (UseAVX < 0) UseAVX=0;
  if (!supports_avx2()) // Drop to 1 if no AVX2 support
    UseAVX = MIN2((intx)1,UseAVX);
  if (!supports_avx ()) // Drop to 0 if no AVX  support
    UseAVX = 0;

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  // Use AES instructions if available.
  if (supports_aes()) {
    if (FLAG_IS_DEFAULT(UseAES)) {
      UseAES = true;
    }
  } else if (UseAES) {
    if (!FLAG_IS_DEFAULT(UseAES))
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      warning("AES instructions are not available on this CPU");
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    FLAG_SET_DEFAULT(UseAES, false);
  }

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  // Use CLMUL instructions if available.
  if (supports_clmul()) {
    if (FLAG_IS_DEFAULT(UseCLMUL)) {
      UseCLMUL = true;
    }
  } else if (UseCLMUL) {
    if (!FLAG_IS_DEFAULT(UseCLMUL))
      warning("CLMUL instructions not available on this CPU (AVX may also be required)");
    FLAG_SET_DEFAULT(UseCLMUL, false);
  }

  if (UseCLMUL && (UseAVX > 0) && (UseSSE > 2)) {
    if (FLAG_IS_DEFAULT(UseCRC32Intrinsics)) {
      UseCRC32Intrinsics = true;
    }
  } else if (UseCRC32Intrinsics) {
    if (!FLAG_IS_DEFAULT(UseCRC32Intrinsics))
      warning("CRC32 Intrinsics requires AVX and CLMUL instructions (not available on this CPU)");
    FLAG_SET_DEFAULT(UseCRC32Intrinsics, false);
  }

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  // The AES intrinsic stubs require AES instruction support (of course)
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  // but also require sse3 mode for instructions it use.
  if (UseAES && (UseSSE > 2)) {
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    if (FLAG_IS_DEFAULT(UseAESIntrinsics)) {
      UseAESIntrinsics = true;
    }
  } else if (UseAESIntrinsics) {
    if (!FLAG_IS_DEFAULT(UseAESIntrinsics))
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      warning("AES intrinsics are not available on this CPU");
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    FLAG_SET_DEFAULT(UseAESIntrinsics, false);
  }

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  // Adjust RTM (Restricted Transactional Memory) flags
  if (!supports_rtm() && UseRTMLocking) {
    // Can't continue because UseRTMLocking affects UseBiasedLocking flag
    // setting during arguments processing. See use_biased_locking().
    // VM_Version_init() is executed after UseBiasedLocking is used
    // in Thread::allocate().
    vm_exit_during_initialization("RTM instructions are not available on this CPU");
  }

#if INCLUDE_RTM_OPT
  if (UseRTMLocking) {
    if (!FLAG_IS_CMDLINE(UseRTMLocking)) {
      // RTM locking should be used only for applications with
      // high lock contention. For now we do not use it by default.
      vm_exit_during_initialization("UseRTMLocking flag should be only set on command line");
    }
    if (!is_power_of_2(RTMTotalCountIncrRate)) {
      warning("RTMTotalCountIncrRate must be a power of 2, resetting it to 64");
      FLAG_SET_DEFAULT(RTMTotalCountIncrRate, 64);
    }
    if (RTMAbortRatio < 0 || RTMAbortRatio > 100) {
      warning("RTMAbortRatio must be in the range 0 to 100, resetting it to 50");
      FLAG_SET_DEFAULT(RTMAbortRatio, 50);
    }
  } else { // !UseRTMLocking
    if (UseRTMForStackLocks) {
      if (!FLAG_IS_DEFAULT(UseRTMForStackLocks)) {
        warning("UseRTMForStackLocks flag should be off when UseRTMLocking flag is off");
      }
      FLAG_SET_DEFAULT(UseRTMForStackLocks, false);
    }
    if (UseRTMDeopt) {
      FLAG_SET_DEFAULT(UseRTMDeopt, false);
    }
    if (PrintPreciseRTMLockingStatistics) {
      FLAG_SET_DEFAULT(PrintPreciseRTMLockingStatistics, false);
    }
  }
#else
  if (UseRTMLocking) {
    // Only C2 does RTM locking optimization.
    // Can't continue because UseRTMLocking affects UseBiasedLocking flag
    // setting during arguments processing. See use_biased_locking().
    vm_exit_during_initialization("RTM locking optimization is not supported in this VM");
  }
#endif

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#ifdef COMPILER2
  if (UseFPUForSpilling) {
    if (UseSSE < 2) {
      // Only supported with SSE2+
      FLAG_SET_DEFAULT(UseFPUForSpilling, false);
    }
  }
  if (MaxVectorSize > 0) {
    if (!is_power_of_2(MaxVectorSize)) {
      warning("MaxVectorSize must be a power of 2");
      FLAG_SET_DEFAULT(MaxVectorSize, 32);
    }
    if (MaxVectorSize > 32) {
      FLAG_SET_DEFAULT(MaxVectorSize, 32);
    }
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    if (MaxVectorSize > 16 && (UseAVX == 0 || !os_supports_avx_vectors())) {
      // 32 bytes vectors (in YMM) are only supported with AVX+
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      FLAG_SET_DEFAULT(MaxVectorSize, 16);
    }
    if (UseSSE < 2) {
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      // Vectors (in XMM) are only supported with SSE2+
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      FLAG_SET_DEFAULT(MaxVectorSize, 0);
    }
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#ifdef ASSERT
    if (supports_avx() && PrintMiscellaneous && Verbose && TraceNewVectors) {
      tty->print_cr("State of YMM registers after signal handle:");
      int nreg = 2 LP64_ONLY(+2);
      const char* ymm_name[4] = {"0", "7", "8", "15"};
      for (int i = 0; i < nreg; i++) {
        tty->print("YMM%s:", ymm_name[i]);
        for (int j = 7; j >=0; j--) {
          tty->print(" %x", _cpuid_info.ymm_save[i*8 + j]);
        }
        tty->cr();
      }
    }
#endif
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  }
#endif

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  // On new cpus instructions which update whole XMM register should be used
  // to prevent partial register stall due to dependencies on high half.
  //
  // UseXmmLoadAndClearUpper == true  --> movsd(xmm, mem)
  // UseXmmLoadAndClearUpper == false --> movlpd(xmm, mem)
  // UseXmmRegToRegMoveAll == true  --> movaps(xmm, xmm), movapd(xmm, xmm).
  // UseXmmRegToRegMoveAll == false --> movss(xmm, xmm),  movsd(xmm, xmm).

  if( is_amd() ) { // AMD cpus specific settings
    if( supports_sse2() && FLAG_IS_DEFAULT(UseAddressNop) ) {
      // Use it on new AMD cpus starting from Opteron.
      UseAddressNop = true;
    }
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    if( supports_sse2() && FLAG_IS_DEFAULT(UseNewLongLShift) ) {
      // Use it on new AMD cpus starting from Opteron.
      UseNewLongLShift = true;
    }
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    if( FLAG_IS_DEFAULT(UseXmmLoadAndClearUpper) ) {
      if( supports_sse4a() ) {
        UseXmmLoadAndClearUpper = true; // use movsd only on '10h' Opteron
      } else {
        UseXmmLoadAndClearUpper = false;
      }
    }
    if( FLAG_IS_DEFAULT(UseXmmRegToRegMoveAll) ) {
      if( supports_sse4a() ) {
        UseXmmRegToRegMoveAll = true; // use movaps, movapd only on '10h'
      } else {
        UseXmmRegToRegMoveAll = false;
      }
    }
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    if( FLAG_IS_DEFAULT(UseXmmI2F) ) {
      if( supports_sse4a() ) {
        UseXmmI2F = true;
      } else {
        UseXmmI2F = false;
      }
    }
    if( FLAG_IS_DEFAULT(UseXmmI2D) ) {
      if( supports_sse4a() ) {
        UseXmmI2D = true;
      } else {
        UseXmmI2D = false;
      }
    }
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    if( FLAG_IS_DEFAULT(UseSSE42Intrinsics) ) {
      if( supports_sse4_2() && UseSSE >= 4 ) {
        UseSSE42Intrinsics = true;
      }
    }
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    // some defaults for AMD family 15h
    if ( cpu_family() == 0x15 ) {
      // On family 15h processors default is no sw prefetch
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      if (FLAG_IS_DEFAULT(AllocatePrefetchStyle)) {
        AllocatePrefetchStyle = 0;
      }
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      // Also, if some other prefetch style is specified, default instruction type is PREFETCHW
      if (FLAG_IS_DEFAULT(AllocatePrefetchInstr)) {
        AllocatePrefetchInstr = 3;
      }
      // On family 15h processors use XMM and UnalignedLoadStores for Array Copy
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      if (supports_sse2() && FLAG_IS_DEFAULT(UseXMMForArrayCopy)) {
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        UseXMMForArrayCopy = true;
      }
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      if (supports_sse2() && FLAG_IS_DEFAULT(UseUnalignedLoadStores)) {
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        UseUnalignedLoadStores = true;
      }
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    }
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#ifdef COMPILER2
    if (MaxVectorSize > 16) {
      // Limit vectors size to 16 bytes on current AMD cpus.
      FLAG_SET_DEFAULT(MaxVectorSize, 16);
    }
#endif // COMPILER2
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  }

  if( is_intel() ) { // Intel cpus specific settings
    if( FLAG_IS_DEFAULT(UseStoreImmI16) ) {
      UseStoreImmI16 = false; // don't use it on Intel cpus
    }
    if( cpu_family() == 6 || cpu_family() == 15 ) {
      if( FLAG_IS_DEFAULT(UseAddressNop) ) {
        // Use it on all Intel cpus starting from PentiumPro
        UseAddressNop = true;
      }
    }
    if( FLAG_IS_DEFAULT(UseXmmLoadAndClearUpper) ) {
      UseXmmLoadAndClearUpper = true; // use movsd on all Intel cpus
    }
    if( FLAG_IS_DEFAULT(UseXmmRegToRegMoveAll) ) {
      if( supports_sse3() ) {
        UseXmmRegToRegMoveAll = true; // use movaps, movapd on new Intel cpus
      } else {
        UseXmmRegToRegMoveAll = false;
      }
    }
    if( cpu_family() == 6 && supports_sse3() ) { // New Intel cpus
#ifdef COMPILER2
      if( FLAG_IS_DEFAULT(MaxLoopPad) ) {
        // For new Intel cpus do the next optimization:
        // don't align the beginning of a loop if there are enough instructions
        // left (NumberOfLoopInstrToAlign defined in c2_globals.hpp)
        // in current fetch line (OptoLoopAlignment) or the padding
        // is big (> MaxLoopPad).
        // Set MaxLoopPad to 11 for new Intel cpus to reduce number of
        // generated NOP instructions. 11 is the largest size of one
        // address NOP instruction '0F 1F' (see Assembler::nop(i)).
        MaxLoopPad = 11;
      }
#endif // COMPILER2
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      if (FLAG_IS_DEFAULT(UseXMMForArrayCopy)) {
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        UseXMMForArrayCopy = true; // use SSE2 movq on new Intel cpus
      }
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      if (supports_sse4_2() && supports_ht()) { // Newest Intel cpus
        if (FLAG_IS_DEFAULT(UseUnalignedLoadStores)) {
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          UseUnalignedLoadStores = true; // use movdqu on newest Intel cpus
        }
      }
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      if (supports_sse4_2() && UseSSE >= 4) {
        if (FLAG_IS_DEFAULT(UseSSE42Intrinsics)) {
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          UseSSE42Intrinsics = true;
        }
      }
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    }
  }

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  // Use count leading zeros count instruction if available.
  if (supports_lzcnt()) {
    if (FLAG_IS_DEFAULT(UseCountLeadingZerosInstruction)) {
      UseCountLeadingZerosInstruction = true;
    }
   } else if (UseCountLeadingZerosInstruction) {
    warning("lzcnt instruction is not available on this CPU");
    FLAG_SET_DEFAULT(UseCountLeadingZerosInstruction, false);
  }

  if (supports_bmi1()) {
    if (FLAG_IS_DEFAULT(UseBMI1Instructions)) {
      UseBMI1Instructions = true;
    }
  } else if (UseBMI1Instructions) {
    warning("BMI1 instructions are not available on this CPU");
    FLAG_SET_DEFAULT(UseBMI1Instructions, false);
  }

  // Use count trailing zeros instruction if available
  if (supports_bmi1()) {
    if (FLAG_IS_DEFAULT(UseCountTrailingZerosInstruction)) {
      UseCountTrailingZerosInstruction = UseBMI1Instructions;
    }
  } else if (UseCountTrailingZerosInstruction) {
    warning("tzcnt instruction is not available on this CPU");
    FLAG_SET_DEFAULT(UseCountTrailingZerosInstruction, false);
  }

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  // Use population count instruction if available.
  if (supports_popcnt()) {
    if (FLAG_IS_DEFAULT(UsePopCountInstruction)) {
      UsePopCountInstruction = true;
    }
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  } else if (UsePopCountInstruction) {
    warning("POPCNT instruction is not available on this CPU");
    FLAG_SET_DEFAULT(UsePopCountInstruction, false);
845 846
  }

847 848 849 850 851 852 853 854 855 856
  // Use fast-string operations if available.
  if (supports_erms()) {
    if (FLAG_IS_DEFAULT(UseFastStosb)) {
      UseFastStosb = true;
    }
  } else if (UseFastStosb) {
    warning("fast-string operations are not available on this CPU");
    FLAG_SET_DEFAULT(UseFastStosb, false);
  }

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#ifdef COMPILER2
  if (FLAG_IS_DEFAULT(AlignVector)) {
    // Modern processors allow misaligned memory operations for vectors.
    AlignVector = !UseUnalignedLoadStores;
  }
#endif // COMPILER2

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  assert(0 <= ReadPrefetchInstr && ReadPrefetchInstr <= 3, "invalid value");
  assert(0 <= AllocatePrefetchInstr && AllocatePrefetchInstr <= 3, "invalid value");

  // set valid Prefetch instruction
  if( ReadPrefetchInstr < 0 ) ReadPrefetchInstr = 0;
  if( ReadPrefetchInstr > 3 ) ReadPrefetchInstr = 3;
870 871
  if( ReadPrefetchInstr == 3 && !supports_3dnow_prefetch() ) ReadPrefetchInstr = 0;
  if( !supports_sse() && supports_3dnow_prefetch() ) ReadPrefetchInstr = 3;
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  if( AllocatePrefetchInstr < 0 ) AllocatePrefetchInstr = 0;
  if( AllocatePrefetchInstr > 3 ) AllocatePrefetchInstr = 3;
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  if( AllocatePrefetchInstr == 3 && !supports_3dnow_prefetch() ) AllocatePrefetchInstr=0;
  if( !supports_sse() && supports_3dnow_prefetch() ) AllocatePrefetchInstr = 3;
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  // Allocation prefetch settings
879
  intx cache_line_size = prefetch_data_size();
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  if( cache_line_size > AllocatePrefetchStepSize )
    AllocatePrefetchStepSize = cache_line_size;
882

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  assert(AllocatePrefetchLines > 0, "invalid value");
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  if( AllocatePrefetchLines < 1 )     // set valid value in product VM
    AllocatePrefetchLines = 3;
  assert(AllocateInstancePrefetchLines > 0, "invalid value");
  if( AllocateInstancePrefetchLines < 1 ) // set valid value in product VM
    AllocateInstancePrefetchLines = 1;
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  AllocatePrefetchDistance = allocate_prefetch_distance();
  AllocatePrefetchStyle    = allocate_prefetch_style();

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  if( is_intel() && cpu_family() == 6 && supports_sse3() ) {
    if( AllocatePrefetchStyle == 2 ) { // watermark prefetching on Core
895
#ifdef _LP64
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      AllocatePrefetchDistance = 384;
897
#else
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      AllocatePrefetchDistance = 320;
899
#endif
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    }
    if( supports_sse4_2() && supports_ht() ) { // Nehalem based cpus
      AllocatePrefetchDistance = 192;
      AllocatePrefetchLines = 4;
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#ifdef COMPILER2
      if (AggressiveOpts && FLAG_IS_DEFAULT(UseFPUForSpilling)) {
        FLAG_SET_DEFAULT(UseFPUForSpilling, true);
      }
#endif
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    }
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  }
  assert(AllocatePrefetchDistance % AllocatePrefetchStepSize == 0, "invalid value");

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#ifdef _LP64
  // Prefetch settings
  PrefetchCopyIntervalInBytes = prefetch_copy_interval_in_bytes();
  PrefetchScanIntervalInBytes = prefetch_scan_interval_in_bytes();
  PrefetchFieldsAhead         = prefetch_fields_ahead();
#endif

920 921 922 923
  if (FLAG_IS_DEFAULT(ContendedPaddingWidth) &&
     (cache_line_size > ContendedPaddingWidth))
     ContendedPaddingWidth = cache_line_size;

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#ifndef PRODUCT
  if (PrintMiscellaneous && Verbose) {
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    tty->print_cr("Logical CPUs per core: %u",
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                  logical_processors_per_package());
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    tty->print("UseSSE=%d", (int) UseSSE);
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    if (UseAVX > 0) {
930
      tty->print("  UseAVX=%d", (int) UseAVX);
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    }
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    if (UseAES) {
      tty->print("  UseAES=1");
    }
935 936
#ifdef COMPILER2
    if (MaxVectorSize > 0) {
937
      tty->print("  MaxVectorSize=%d", (int) MaxVectorSize);
938 939
    }
#endif
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    tty->cr();
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    tty->print("Allocation");
942
    if (AllocatePrefetchStyle <= 0 || UseSSE == 0 && !supports_3dnow_prefetch()) {
943
      tty->print_cr(": no prefetching");
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    } else {
945
      tty->print(" prefetching: ");
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      if (UseSSE == 0 && supports_3dnow_prefetch()) {
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        tty->print("PREFETCHW");
      } else if (UseSSE >= 1) {
        if (AllocatePrefetchInstr == 0) {
          tty->print("PREFETCHNTA");
        } else if (AllocatePrefetchInstr == 1) {
          tty->print("PREFETCHT0");
        } else if (AllocatePrefetchInstr == 2) {
          tty->print("PREFETCHT2");
        } else if (AllocatePrefetchInstr == 3) {
          tty->print("PREFETCHW");
        }
      }
      if (AllocatePrefetchLines > 1) {
960
        tty->print_cr(" at distance %d, %d lines of %d bytes", (int) AllocatePrefetchDistance, (int) AllocatePrefetchLines, (int) AllocatePrefetchStepSize);
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      } else {
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        tty->print_cr(" at distance %d, one line of %d bytes", (int) AllocatePrefetchDistance, (int) AllocatePrefetchStepSize);
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      }
    }
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    if (PrefetchCopyIntervalInBytes > 0) {
967
      tty->print_cr("PrefetchCopyIntervalInBytes %d", (int) PrefetchCopyIntervalInBytes);
968 969
    }
    if (PrefetchScanIntervalInBytes > 0) {
970
      tty->print_cr("PrefetchScanIntervalInBytes %d", (int) PrefetchScanIntervalInBytes);
971 972
    }
    if (PrefetchFieldsAhead > 0) {
973
      tty->print_cr("PrefetchFieldsAhead %d", (int) PrefetchFieldsAhead);
974
    }
975
    if (ContendedPaddingWidth > 0) {
976
      tty->print_cr("ContendedPaddingWidth %d", (int) ContendedPaddingWidth);
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    }
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  }
#endif // !PRODUCT
}

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bool VM_Version::use_biased_locking() {
#if INCLUDE_RTM_OPT
  // RTM locking is most useful when there is high lock contention and
  // low data contention.  With high lock contention the lock is usually
  // inflated and biased locking is not suitable for that case.
  // RTM locking code requires that biased locking is off.
  // Note: we can't switch off UseBiasedLocking in get_processor_features()
  // because it is used by Thread::allocate() which is called before
  // VM_Version::initialize().
  if (UseRTMLocking && UseBiasedLocking) {
    if (FLAG_IS_DEFAULT(UseBiasedLocking)) {
      FLAG_SET_DEFAULT(UseBiasedLocking, false);
    } else {
      warning("Biased locking is not supported with RTM locking; ignoring UseBiasedLocking flag." );
      UseBiasedLocking = false;
    }
  }
#endif
  return UseBiasedLocking;
}

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void VM_Version::initialize() {
  ResourceMark rm;
  // Making this stub must be FIRST use of assembler

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  stub_blob = BufferBlob::create("get_cpu_info_stub", stub_size);
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  if (stub_blob == NULL) {
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    vm_exit_during_initialization("Unable to allocate get_cpu_info_stub");
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  }
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  CodeBuffer c(stub_blob);
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  VM_Version_StubGenerator g(&c);
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  get_cpu_info_stub = CAST_TO_FN_PTR(get_cpu_info_stub_t,
                                     g.generate_get_cpu_info());
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  get_processor_features();
}